Microwave oven with built-in percolator

FIELD: microwave ovens.

SUBSTANCE: novelty is that percolator is installed in electronic device chamber. Resonator is closed at front with door. Electronic device chamber accommodating electrical pieces of equipment is disposed near resonator. Percolator housing is disposed in front of electronic device. Water tank is made inside housing. Funnel is free to be brought in and taken out of housing interior. Container is made in the form of jug or cup. Heater is installed in bottom part of housing. Water supply pipe is connected on one end with water tank, pipe body is partially passed through bottom part of housing to bring it in contact with heater, and other end of pipe is disposed on upper part of funnel.

EFFECT: ability of building percolator in microwave oven without increasing size of the latter.

74 cl, 15 dwg

 

The scope of the invention

The present invention relates to a microwave oven, and more particularly to a microwave oven having a coffee maker are provided in a predetermined space of the camera of the electronic device.

Prior art

Microwave is a device for defrosting and heating of food products under the action of microwave radiation. 1 shows a known microwave exploded perspective view. As shown in figure 1, the microwave oven includes a cavity (MW) 2, the camera 10, the casing 4, the door 3, the magnetron 11, a transformer 12 and the fan 13.

The resonator 2 is the space that holds food and which has an open front part in order to place or remove food. The camera 10 is located near the resonator 2 and it has many elements, including the magnetron 11, a transformer 12 and the fan 13. On the magnetron 11 is supplied with a high voltage for generating microwave radiation. The transformer 12 is used for conversion of electric power, which is supplied from the network, into electricity with high voltage and supply the converted electric power to high voltage magnetron 11. The fan 13 cools the many elements that are installed inside to the steps 10, and generates the air flow passing through the interior of the resonator 2. Cover 4 closes the resonator 2 and the outer part of the chamber 10, and the door 3 is connected on the front side of the camera 10 with a cavity 2 for opening and closing the open front of the cavity 2. The door 2 has a transparent glass, so you can see the inner part of the cavity 2 through the open front.

In addition, in recent times on the bottom surface of the cavity 2 establish a rotating pan. To this end, the set of elements that includes a motor for rotation of the pallet, place together. Thus, in addition to the above items in a microwave oven there are many other elements, which detailed description will be omitted.

Microwave oven with the above-described construction operates as follows.

To start, open the door 3, then in the resonator 2 is placed foods, after which the door 3 is closed. The operation of the microwave oven is carried out from a control panel (not shown). During operation of the microwave oven transformer 12 provides conversion of electric power into high voltage and power of the magnetron 11 high voltage. On the magnetron 11 is supplied with a high voltage for generating microwave energy and the received microwave radiation takes the I in the resonator 2. Microwave radiation in the cavity 2 causes oscillation of the water molecules in food products, while they heat up. When exposed to microwave radiation for food within a certain period of time they start to heat up, so food can be defrosted or cooked.

As the above-mentioned known microwave allows you to defrost or heat food using the principle of vibrations of the water molecules in food products, it is impossible to perform a variety of preparations. For example, known microwave does not allow you to make coffee that likes to drink modern man. In other words, in order to be able to drink coffee, you must use the coffee machine.

Meanwhile, in recent years, with the increasing urbanization of the population tends to reduce the living space and the objective is to improve the practical feasibility. The need to many necessities, including appliances, had a compact design. In addition, the required electrical appliances, allowing you to perform various additional functions, as well as traditional primary functions. However, the known microwave does not satisfy the needs of these is potrebitelei.

The invention

Accordingly, using the present invention created a microwave oven having a coffee maker, which essentially eliminates one or more problems due to limitations and disadvantages of the prior art.

The present invention is to perform a microwave oven having a coffee maker, designed with function coffee makers, this microwave oven must have dimensions, such as the well-known microwave oven.

Additional advantages, objectives and features of the invention will be set forth in part in the description that is presented below, and will partly be understood by experts, after reviewing the description, or can be obtained in the practical use of the invention. The objectives and other advantages of the present invention may be realized and attained by the construction shown, in particular, in the description, the claims and the attached drawings.

In order to solve these problems and to obtain other advantages and in accordance with the invention, the generated microwave oven having a coffee maker containing a cavity, the front of which is open, the door cavity for opening/closing the open front of the cavity, the chamber made next to rez the General, in which there is at least a magnetron for microwave radiation in the resonator, the transformer and the fan, the casing is provided at the front end of the internal part of the camera, with the front part of the body is open, the water tank provided inside the above case, the funnel is made with the possibility of input and output from the inside of the housing, a heater provided in the lower part of the casing, a pipe for supplying water, are made so that one end connected to the water tank, the other end is located on the upper side of the funnel, and part of it is in contact with the heater, and the container is provided below the funnel with input and output from the internal part of the body.

Preferably the container is a jar.

Microwave according to the invention further comprises a door body for opening/closing the open front of the housing. The Cabinet door has a hinge connection with one side of the front of the housing, and a surface that smoothly into the surface of the door cavity.

In a microwave oven preferably provided with front cover having a hole connecting the inside with the outside of the hull.

The microwave oven further comprises a door which covers fully or partially opening/closing the hole of the front cover.

The front cover has a surface which smoothly into the surface of the door cavity, and the door cover has a surface which smoothly into the surface of the front cover.

The water tank has an inlet that is open from the open front of the housing when the water tank is inserted into the housing. The water tank is rotated around a hinge and has a hinged connection with the housing, so that the water tank can be input and output from the inside by pushing and pulling out.

The housing further comprises a bracket protruding from the inner wall into the interior, and which serves as a shelf.

The water tank and hopper is preferably formed in one body.

The funnel has an outer peripheral surface is made concave cone-shaped.

The water tank further comprises a lid of the water tank, made on top of the water tank, for opening/closing the entrance of the water tank and funnel further comprises kievitsei a valve that opens by pushing the jug when placing the jug inside.

This kievitsei valve contains an element opening/closing inserted with the ability to move up and NR is C drip hole, which is formed in the lower part of the funnel, and moved with pitcher for opening/closing the drip holes, and a spring disposed between the element opening/closing and funnel and providing elastic force to the element opening/closing, so that the drip hole was in contact with the element opening/closing.

Element opening/closing contains a rod, made to penetrate through the drip hole formed in the lower part of the funnel, the second end part formed wide at one end of the rod and move up through the pitcher, and the first end part formed wide at the other end of the rod for opening the drip holes in the case, when the second end portion is moved upward from the state in which the first end part closes drip hole.

Between the second end part and the funnel is preferably provided by a spring.

Kievitsei valve may further comprise the O-ring is installed between the bottom of the funnel and the first end part to the first end part could fully close the drip hole.

The second end part has a bottom surface with a shape of a bowl in order to reduce friction when the second to Nava part is in contact with the pitcher. Preferably the second end portion further comprises a number of holes formed to pass coffee, which is injected through the drip hole and then remains on its upper surface.

The water tank and hopper can be formed as a single body.

This funnel further comprises kievitsei a valve that opens by pressing the pitcher when placing the jug inside the housing and includes an element opening/closing inserted with the ability to move up and down in the drip hole formed in the lower part of the funnel, and moved with pitcher for opening/closing the drip holes, and a spring disposed between the element opening/closing and funnel and providing elastic force to the element opening/closing in order to be in close contact with the element opening/closing.

Element opening/closing contains a rod, made to penetrate through the drip hole formed in the lower part of the funnel, the second end part formed wide at one end of the rod and pushed up with the pitcher, and the first end part formed wide at the other end of the rod for opening/closing the drip holes in which the first end is the first part opens drip hole only when the second end portion is moved upward with the help of the jug.

In this embodiment, between the second end part and the funnel is provided by a spring.

Kievitsei valve further comprises an O-ring installed between the bottom of the funnel and the first end part so that the first end part could fully close the drip hole.

The second end part has a bottom surface with a shape of a bowl in order to reduce friction when the second end part is in contact with the pitcher. In addition, the second end portion further comprises a number of holes formed to pass coffee, which is injected through the drip hole and then remains on its upper surface.

The water tank further comprises a valve for water flow made with the possibility of opening with one end of a pipe to supply water when the water tank is pushed and installed in the housing by the user, to supply water to the pipe for supplying water.

Valve for supplying water includes a valve body that is arranged to penetrate through one side of the tank and includes an inner space, an inlet hole through which the water passes, and an exhaust hole through which water flows, the plate to control the flow, which is inserted in nutrena space of the valve body can be moved for opening and closing the outlet opening, and by pressing with one end of a pipe to supply water moves and opens the discharge opening, while ensuring the communication of the inlet with the outlet, and a valve spring that is inserted in the inner space of the valve body and provides elastic force to the plate to control the flow was in close contact with the side outlet.

Valve for water supply further comprises O-ring installed on the inner peripheral surface of the valve body located between the outlet and the plate to control the flow to prevent leakage.

In addition, pipe for water supply further comprises a clamping pin extending from one end, to open the outlet valve body by the push plate to control the flow valve to supply water when installing the water tank in the housing. One end of the water hose has an internal diameter larger than the outer diameter of the valve body so that the valve body can be inserted in its inner part.

Pipe for water supply further comprises O-ring installed on the inner peripheral surface of one end of a pipe to supply water for significant others who leaks in the case, when the valve body is inserted into one end of the water hose.

The water tank further comprises a valve for water flow made with the possibility of opening with one end of a pipe to supply water when the water tank is pushed and installed in the housing by the user, to supply water to the pipe for supplying water.

Valve for supplying water includes a valve body that is arranged to penetrate through a portion of the water tank and including an inner space, an inlet hole through which the water passes, and an exhaust hole through which water flows, the plate to control the flow, which is inserted in the inner space of the valve body can be moved for opening and closing the outlet, and by pressing with one end of a pipe to supply water moves and opens the discharge opening, while ensuring the communication of the inlet with the outlet, and a valve spring that is inserted in the inner space the valve body and provides elastic force to the plate to control the flow was in close contact with the side outlet.

Preferably the valve for the water supply further comprises O-ring, us is set out on the inner peripheral surface of the valve body, placed between the outlet and the plate to control the flow to prevent leakage.

Pipe for water supply further comprises a clamping pin extending from one end, to open the outlet valve body by the push plate to control the flow valve to supply water when installing the water tank in the housing. Moreover, one end of the water hose has an internal diameter larger than the outer diameter of the valve body so that the valve body can be inserted in its inner part. Additionally, the pipe for supplying water further comprises O-ring installed on the inner peripheral surface of one end of the water hose to prevent leakage when the valve body is inserted into one end of the water hose.

Pipe for water supply further comprises a check valve made in it to prevent water flow back towards the water tank.

The housing further comprises a heating plate which is in contact with the heater, forming the inner surface of the bottom, and heated with a heater.

The jug contains the body of the jug, the upper side of which is open to receive and save the coffee flowing from the funnel, and ruccola one side of the jug. Preferably the jug contains an element, reinforcing rim of the pitcher made along the inner and outer circumference of the open top side of the body of the jug and the lid of the jug provided to open and close the open upper side of the body of the pitcher, and having an aperture shaped so that the coffee flowing from the drip funnel holes passed through it.

In addition, pitcher further comprises at least one hanger extending from the element, reinforcing rim of the pitcher, in order to capture and hang the object.

The pitcher may further comprise a frame for boiling eggs, containing at least one egg, part of which is fastened to the suspension and fixed inside the body of the jug, and contains a grid. And frame for boiling eggs contains the first element having a concave curve surface to accommodate approximately half of the outer peripheral surface of the egg shell, and a second element having a shape corresponding to the shape of the first element, and having a swivel connection with the first element. Frame for boiling eggs further comprises at least one mounting portion that extends from the first element or the second element and is inserted into the suspension for mounting the frame for boiling eggs.

Frame for boiling eggs may optionally contain cryco is, extending from the first element, and the holder of the hook extending from the second element so that the hook is suspended from and fixed when the second element and the first element stacked together.

While the first and second elements have a single concave curve surface formed elongated in order to place her eggs in one column. The first and second elements have two concave curves of the surface, formed elongated and parallel to each other in order to place the eggs in two columns. The first and second elements are additionally contain horizontal element, protruding inward from the concave curved surface, to maintain both sides of the eggs, set in a frame for boiling eggs, and thus to prevent the movement of eggs in the box for cooking eggs. Horizontal elements are preferably placed in a narrow interval in order to support both sides of the egg in the direction of the width, and can be placed in a wide range to support both sides of the egg in the direction of the length.

The jug contains many shelves, protruding in a horizontal direction from an element reinforcing the edge of the jug, in the inner part of the jug. The shelf contains a section cut inward from its outer peripheral surface to fiksirovat the thread, connected to the teabag or device for brewing tea. Preferably, the shelf includes a mounting recess cut in the shape of the wedge inward from its outer peripheral surface in order to lock the thread attached to the teabag or device for brewing the tea.

The jar also contains tea strainer, which is sourced tea and the upper part of which is mounted on the shelf and supported so that the lower part of it fell into the water contained in the jar. This tea strainer contains a sieve, which has the shape of the container and the upper side

which is open, and the flanged edge formed along the open upper periphery of the sieve. The container may be a Cup.

The funnel further comprises a passage for the flow of coffee with lots of holes to leak coffee, formed on the lower part of the funnel, through which it flows, coffee, filtered in the funnel, and the coffee flows downward.

Preferably the container is a set of cups provided at the bottom of the holes to be drained coffee Cup.

Microwave according to the invention further comprises a holder cups, which establish multiple cups, and are made so as to reserve the R for water to enter and withdraw from inside by pushing and pulling out.

The housing further comprises a guide groove formed concave on both internal surfaces of the body so that you can insert both ends of the holder of cups, for input and output holder cups.

Holder cups contains many holes to install cups, made on the upper surface of the holder cups so that you can insert and support the bottom of the cups.

On the other hand, the holder of the cups contains many holes to install cups, made to penetrate through the holder cups so that you can insert and support the Cup.

The funnel further comprises a passage for the flow of coffee with lots of holes to leak coffee, formed in the lower part of the funnel, through which it flows, coffee, filtered in the funnel, and to be drained of coffee down.

The container is a set of cups provided at the bottom of the holes to be drained coffee Cup.

The microwave oven further comprises a holder cups, which establish multiple cups, and executed so that the water tank could enter and withdraw from inside by pushing and pulling out.

The housing further comprises a guide groove formed concave on abeygunawardena surfaces of the enclosure with the so that you can insert both ends of the holder of cups, while directing input and output holder cups.

Holder cups contains many holes to install cups, made on the upper surface of the holder cups so that you can insert and support the bottom of the cups.

The holder of cups is a lot of holes to install cups made with the possibility of penetration through the holder cups so that you can insert and support the Cup.

The following detailed description of the present invention is illustrated and serves to illustrate the claimed invention.

Brief description of drawings

The accompanying drawings, which are included in this application for a more complete understanding of the invention and constitute part of this application, represent variant(s) of the invention and together with the description serve to explain the basic idea of the invention.

In the drawings:

figure 1 depicts a disassembled perspective view of a known microwave;

figure 2 depicts a disassembled perspective view in partial section showing the structure of a microwave oven, according to the first variant implementation of the present invention;

figure 3 depicts a view in partial side section view showing the structure of a microwave oven according to the ACLs first alternative implementation of the present invention;

figure 4 depicts a perspective view of a microwave oven according to the present invention, when considering the bottom of the parties;

figure 5 depicts a partial disassembled perspective view showing the structure of a microwave oven according to the second variant of implementation of the present invention;

6 depicts a view in partial side section view showing the structure of a microwave oven according to the second variant of implementation of the present invention;

7 depicts a partially enlarged view of part "A" (6);

Fig depicts a partially enlarged view of part "B" (6);

Fig.9 depicts a perspective view with partial cutaway showing an implementation option jug;

figure 10 depicts a perspective view showing a variant of the implementation of the framework for boiling eggs;

11 depicts a perspective view showing another variant of implementation of the framework for boiling eggs;

Fig depicts a disassembled perspective view showing another variant of implementation of the jug;

Fig depicts a partial disassembled perspective view showing the structure according to the third variant of implementation of the present invention;

Fig depicts a view in partial side section view showing the structure of a third alternative implementation of the present invention; and

F. g depicts a partial perspective view, showing that the case has a partial cut in the third embodiment of the present invention.

Descriptions of the items in the main parts of the drawings (figure 5).

20 - Resonator

40 - Door resonator

50 - Camera electronic devices

100 - Housing

200 - water Tank

250 - Valve to supply water

300 - Funnel

340 - Exhaust valve for coffee

400 - Jug

450 - Frame for boiling eggs

490 - Tea strainer

500 - Pipe to supply water

600 - Heater

700 - Bowl

750 - Holder cups

Detailed description of the invention

Below is a more detailed description with reference to the preferred embodiments of the present invention, examples of which are depicted in the accompanying drawings. Wherever possible, use the same position in all the drawings to refer to same or similar parts.

The first option exercise

The first variant of implementation of the present invention provides a microwave oven having a coffee maker installed in the camera of this electronic device. Since the structural features of the first variant embodiment of the invention is illustrated in Fig.2-4, the structure of the first variant of implementation will be described with reference to these drawings.

As shown in Fig.2-4, a microwave with the according to the first variant implementation of the present invention includes a resonator (not shown), the door 40 of the resonator, the camera 50, the housing 100, the reservoir 200 for water, funnel 300, heater 600, pipe 500 for supplying water and a jug of 400.

The resonator is formed to have a given space inside the frame 30. The front part of the cavity is open. The door 40 of the resonator has a hinged connection with one edge of the front resonator for opening/closing the open front of the cavity. A tray (not shown) is made to rotate on the lower surface of the resonator. The tray, as provided, rotates food to microwave radiation more uniformly irradiated food products to achieve high performance heating.

The camera 50 is made near the resonator, for example, on the side of the resonator. Inside the chamber 50 of the electronic device installed many electric elements for outputting microwave radiation in the resonator and thus cooking the food placed in the cavity. For example, inside the chamber 50 has many elements, including, in particular, the magnetron 51, a transformer 52, the fan 53 and the motor (not shown).

In this case, the transformer 52 is fed to an outside electricity for converting external energy into electricity, high voltage, and the magnetron 51 delivers the I power high voltage from the transformer 52 for generating microwave energy output microwave radiation, the resulting generation, in the resonator through an antenna (not shown). The motor is supplied by external power for rotation of the tray. The fan 53 directs external air toward the elements installed inside the chamber 50, in particular on the magnetron 51 and transformer 52, which emit a lot of heat for cooling these elements. In addition, the fan 53 is designed to create a passage for air flow, which passes through the cavity and out.

The housing 100 is provided for placement of the tank 200 for water, funnel 300, jugs and the like. The housing 100 has an open part that is installed, as shown in figure 2, with the front side of the inner part of the chamber 50. In order to accommodate the housing 100 inside the chamber 50, the electrical elements, the magnetron 51, a transformer 52, the fan 53, the electric motor and the like are placed closer to the back of the camera 50 in comparison with the known microwave. As in a microwave oven according to the present invention many elements are placed close to each other inside the chamber 50, it is preferable to improve the conditions of the cooling chamber 50 in comparison with the known microwave by improving the design of the passage for the cooling.

As shown in figure 2 and 3, the reservoir 200 for water made inside the housing 100. The reservoir 200 to the water has a place to store water and placed on the upper side of the internal space of the casing 100. The reservoir 200 for water is of such construction that when it is inserted into the housing 100, it has an input 210, open towards the open front of the housing 100, or has a hinged connection with one edge of the front part of the housing 100 so that it can be input and output from the inside of the housing 100 by pushing and pulling out by turning around a hinge (not shown).

As shown in figure 2 and 3, if the tank 200 water has an input 210, which is open towards the outer part, and the water can be served in the position when the tank 200 to the water is not extracted. Meanwhile, the input 210 can be constructed so that it was open directly to the exterior or opened whenever the door 110 of the body, opening and closing the front of the chassis 100. When the input 210 is opened directly from the external portion, it is preferable that the reservoir 200 for water was supplied with a plug for opening/closing the entrance 210 (not shown). In addition, as shown in figure 2, if the door 110 of the case is made from the front side of the housing 100, it is preferable that the input 210 was opened to the exterior when the door 110 of the casing and is closed when secritaire 110 of the housing. Of course, it is necessary that the input 210 and the door 110 of the housing were constructed so that they do not interfere with each other upon closing of the door 110 of the housing.

Meanwhile, although not shown in the drawings, if a microwave is designed so that the tank 200 water has a hinge connection with the body 100, if it is intended to supply water to the tank 200 to the water tank 200 water turns around the loop in order to remove the tank 200 for water and to supply water to the tank 200 for water through the inlet (not shown)formed on one side of the tank 200 for water. If you turn the tank 200 for water around the loop, after the supply of water in the reservoir 200 for water tank 200 for water will occupy a position inside the housing 100, thus providing a very convenient to use.

In addition, although not shown in the drawings, the tank 200 for water can be constructed to supply water after its complete removal. In this construction it is not necessary that the inlet tank 200 for water opened in the outer part when the tank 200 for water is placed inside the housing 100.

The reservoir 200 for water can be performed so that part of it was attached to the chassis 100, but it is also possible to design when the reservoir 200 for water is completely separated from the housing 100. In the instrukcii, when the reservoir 200 for water is completely separated from the housing 100, a bracket support tank 200 for water. Although the drawings illustrate a first variant implementation, this bracket is not shown, the bracket illustrated in figure 5 and Fig, representing the second and third options implementation. As shown in figure 5 and 13, the brackets that are facing each other on both sides of the inner wall of the housing 100 in the direction of the interior space, serve as shelves for maintaining and fixing tank 200 water from the bottom of the tank 200 for water. Due to the installation bracket with the above-described construction, the invention allows a microwave oven, having a simple and economical construction, since the user can retrieve the reservoir 200 for water in the outer part, to supply water and again to place the water tank so that the tank is 200 water was maintained with bracket.

Funnel 300 is configured to input and output from the inside of the housing 100 by pushing and pulling out. In the first embodiment, as shown in figure 2 and 3, the hopper is constructed so that the body is separated from the reservoir 200 for water, made and placed below the tank 200 for water.

Although the internal construction of the pipe 300 detail is not shown in figure 2 and 3, funnel 300 of the first variant implementation of such funnel-known coffee makers. In other words, the funnel 300 has a conical shape in which the inner peripheral diameter of the upper portion larger than the inner peripheral diameter of the lower part. Inside the funnel 300 with the above-described construction is mounted filter (not shown), made of paper, nonwoven fabric or similar material, and coffee powder collected on the filter. As the hot water is fed into the funnel 300, the coffee powder is dissolved, and a solution of coffee through the filter and drips down. For this purpose drip hole through which flows the liquid coffee in the dissolved state, is provided below the hopper 300. If necessary, may be added kievitsei valve for opening/closing the drip holes under the action of external force. Designed to allow the passage of drops of a solution of coffee, will be described in detail in the following second and third embodiments of the implementation.

The first variant embodiment of the invention provides for the jug 400 as a container to store coffee that drips from the funnel 300. Under the funnel 300 is the jug 400, which is injected and withdrawn from the interior of the chassis 100 by pushing and pulling out. The jug 400 issue is linen in the form of the vessel and on one side has a handle 410. Therefore, the user can easily insert or remove the jug 400 from the housing 100, holding the handle 410. The jug 400 preferably made of transparent glass or plastic so that it is easy to see a quantity of a solution of coffee in it. The specific design of the jug 400 will be described in more detail in the second and third options implementation.

The heater 600, as shown in figure 4, is made in the lower part of the housing 100 to heat the jug 400 installed on the bottom surface of the housing 100. Therefore, coffee in the jug 400, is always maintained in a hot condition due to heat transferred from the heater 600.

In the first embodiment, the invention additionally provides a heating plate 160. As shown in figure 4, the heating plate 160 forms the inner surface of the bottom of the housing 100 and it is heated by contact with the heater 600 and transmits heat to the jug 400. For this purpose, the heating plate 160 preferably made from a material having a high coefficient of heat transfer. The connection part between the heating plate 160 and the other part of the body 100 is made preferably of insulating material to prevent heat transfer from the heater 600 in a portion other than the heating plate 16.

Pipe 500 for water supply are made so that one end 510 is connected to the reservoir 200 for water, its other end 560 is located on the upper side of the funnel 300, and part of it is in contact with the heater 600. In more detail, one end of the tube 500 for supplying water is connected to the bottom surface or the bottom side of the chassis 100. Part of the pipe body 500 for water flow out into the outer part of the housing 100 has a contact with a predefined area with the heater 600, made in the lower part of the housing 100, and again enters into the inner part of the housing 100. The other end 560 of the pipe 500 for the supply of water is placed on the funnel 300. Meanwhile, the other end 560 through which the water flows, is mounted above one end through which water is introduced. This is necessary in order to prevent leakage of water kept in the tank 200 water through the other end 560 in unheated condition due to a simple difference of pressure. If the tube 500 for water supply set as described above, the water in the tank 200 for water, is introduced through one end 510 of the pipe 500 for water, is heated when passing through the part in contact with the heater 600, rises due to the pressure of steam and falls in the tube 300 through the other end 560. Part of the pipe 500 for water in contact with the heater 600 preference is sustained fashion made of a material which has a good rate of heat transfer to heat transfer from the heater 600 to water flowing in it.

In the middle part of the tube 500 for water supply is provided a check valve 550 to prevent the passage of water back into the tank 200 for water. Check valve 550 can have various designs. One example of a check valve having a simple structure, described below.

One end portion 510 of the pipe 500 for water, that is, the part placed closer to the tank 200 for water, has a relatively small inner diameter. The part situated near the heater 600 has an inner diameter slightly larger than the inner diameter of a part located closer to the reservoir 200 for water. Among the parts having different internal diameters, a ball (not shown) in the inner part of the tube 500 for water, having a slightly larger inner diameter. In this case, the ball cannot move freely inside of the pipe 500 for water, having a slightly larger inner diameter, and cannot move inside part of the tube 500 for water, having a slightly smaller inner diameter being sized to block the passage for the water.

When the check valve 550 has the aforementioned structure, it prevents the flow of water back into the tank 200 for water as clicks the zoom.

The water flowing into the pipe 500 to supply water from the reservoir 200 for water, passes through the check valve 550 and comes in a portion in contact with the heater 600. At the same time as the ball is located in the lower part under the action of gravity and water pressure, it does not block the passage for the water, having a small diameter. As the heater 600 is heated, the tube 500 for water in contact with the heater 600, also heated together with water received in the tube 500 for water supply. As the water in the pipe 500 to supply water is heated, the internal pressure in the pipe 500 for water increases, so the ball rises, blocking the passage for the water in the pipe for supplying water having a small inner diameter. Thus, if the input part having a small inner diameter, be blocked up, the water is heated by the heater 600, not up towards the tank 200 for water, therefore the return period ends. If additional water is heated in a state where reverse flow is stopped, the water rises toward the other end 560 of the pipe 500 for water, which is fully open, and then fed into the funnel 300. Since a certain amount of water rises due to water pressure and flows through the other end 560, the internal pressure in the pipe 500 for water flow decreases, and the Arik falls, therefore, water in the reservoir 200 for water, it goes down. When repeating the previous steps and heated water heated water is fed into the funnel 300 in a state where reverse flow is terminated.

As described above, the present invention provides a check valve 550, having a simple design and working under the influence of water pressure, gravity and vapor pressure. However, it is obvious that the present invention is limited only check valve 550, which has the above construction. In other words, you can install a separate valve for temporary shutoff of flow of the water in the pipe 500 for water, when the water heats and boils.

Microwave according to the first variant embodiment of the invention can optionally have the door 110 of the housing for opening/closing the open front of the housing 100. The door 110 of the housing is attached to one edge of the front of the housing 100 by means of a loop 111. Preferably, the front part of the door 110 of the body had a surface that is continuous with the door 40 of the resonator mounted beside it.

The door 110 of the body are provided for opening/closing all of the open front of the door 110 of the housing so that the reservoir 200 for water, funnel 300 and the jug 400 housed in the housing 100 when fully closed the offering of the door 110 of the housing. However, because users often insert the jug 400 or remove it from the microwave oven, it is preferable that the door 110 of the housing was designed with the possibility of opening/closing parts, where the reservoir 200 for water and funnel 300 are also part of the hosting jug 400, as shown in figure 2. Accordingly, the users take the jug 400 from the housing 100 in order to drink coffee in the state, when the door 110 of the housing is closed.

In the first embodiment, in the open front of the housing 100, you can attach the front cover. The front cover has a hole connecting the inner part of the housing 100 with an external part, and if necessary, you can optionally include a controller to control the operation of microwave ovens and coffeemakers. In addition, if necessary, may be added door cover for opening/closing hole. Front cover with the above-described construction will be described in detail in the second and third embodiments, with reference to the accompanying drawings.

The frame 30 and the camera 50 is placed in the casing (not shown), which serves to protect the internal parts of the microwave oven.

The first variant implementation of the above construction will be described below. Since the detailed description of the main functions of heat is Denmark food using microwave radiation and the corresponding content of the microwave oven is already known in the prior art technique, their description will be omitted. Hereinafter is a description of the work with emphasis on the function of the coffee, added in a microwave oven of the present invention.

First, remove the funnel 300 from the housing 100 and set the filter in the inner region of the funnel 300. The proper amount of coffee powder is put on the filter and the funnel 300 is inserted into the housing 100. The jug 400 wash completely inserted into the housing 100 so that the bottom of the jug had contact with a heating plate 160. After the water in the tank 200 for water user actuates the coffee maker, which is connected with a microwave.

Immediately after the start of the coffee pipe 500 for water supply and heating plate 160 is heated by the heat generated by the heater 600. At the same time, water is supplied from the reservoir 200 for water in the inner part of the pipe 500 for water supply. Water, which is fed into the tube 500 for water, goes down and is heated by the heater 600.

If the pressure in the pipe 500 for water increases with boiling water after a specified time, the ball closes the passage for the flow of water in pipe 500 for water supply. In the boiling water rises up due to the high vapor pressure and is fed into the funnel 300 through the other end 560 of the pipe 500 for water supply. If hot water is fed into the funnel 300,coffee powder dissolves and liquid coffee drips through the drip hole in the inner part of the jug 400, thus filling the jug 400. Meanwhile, as the pitcher 100 directly comes in contact with the heating plate 160 is heated by the heater 600, coffee can always be maintained in a hot condition.

Meanwhile, the proper amount of hot water, heated by the heater 600, served in the funnel 300, and the pressure in the pipe 500 for water decreases. Therefore, the ball begins to open a channel in the tube 500 for water supply. If the channel in the tube 500 for water supply is opened, the water contained in the tank 200 for water, fed back to the part located near the heater 600. After that, the incoming water is heated using the heater 600 and is fed into the funnel 300 through the other end 560 of the pipe 500 to supply water through pressure. Repeating the above procedure, all of the amount of water contained in the reservoir 200 for water, is heated and fed into the funnel 300. Then coffee is liquid and accumulates in the jug 400.

As the heating plate 160 supports the coffee stored in the jug 400, in a hot condition, the user can always enjoy a hot coffee by pulling the jug 400.

The first variant of implementation of the present invention has the following advantages.

First, in addition to the basic function of microwave radiation when heated food product is using microwave radiation can be cooked coffee, enjoyed the modern people.

Secondly, because coffee is provided in the chamber of the microwave oven having a relative free region of space, only if the electric element is tightly fitted in the chamber of an electronic device, it is not necessary to reduce the space of the resonator or increase the overall size of the microwave oven. As a result you can save useful space of the kitchen.

The second option exercise

The second variant implementation of the present invention provides a microwave oven having a construction in which the water tank and funnel are made as a single body in order to increase the practical use of space and improved construction of the various parts associated with water supply and preparation of coffee in the coffee maker installed in the camera of the electronic device. In addition, the pitcher provides different designs, allowing you to cook eggs or brew tea. Since the structural features of the second variant embodiment of the invention illustrated in figure 5-12, construction of the second variant of implementation will be described with reference to these drawings.

As shown in figure 5, the microwave oven according to the second variant of implementation of the present invention includes a resonator 20, two is zu 40 resonator, the camera 50, the housing 100, the tube 500 for a water supply tank 200 for water and funnel 300, manufactured in a single body, the jug 400, the heater 600 and the casing 60.

The resonator 20 is formed inside the frame 30 and has an open front. The door 40 resonator made with the possibility of opening/closing the open front of the cavity 20. The camera 50 is made on the side of the resonator 20 and it has a lot of electrical items, including the magnetron 51, a transformer 52, the fan 53 and the motor (not shown).

From the front side of the internal part of the camera 50 includes a housing 100. The reservoir 200 for water, funnel 300 and the jug 400 is configured to input and output from the inside of the housing by pushing and pulling out. The heater 600 is provided in the lower part of the housing 100. Pipe 500 for water supply is made so that one end was connected to the reservoir 200 for water, and its other end 560 was placed on the funnel 300, and part of it would be in contact with the heater 600. The cover 60 closes the frame 30 and the camera 50 to protect the internal parts of the microwave oven.

In this case, the main part of the microwave oven, which includes the resonator 20 and the camera 50, and the elements of a coffee maker comprising a housing 100, the tube 500 for water, heater 600 and the heating plate detail about the Isan in the first embodiment, with reference to figure 2-4.

Therefore, their detailed descriptions are omitted here. Only the elements of the second variant of implementation, which differ from the elements of the first variant of implementation, or the newly added elements will be described in more detail.

The front cover 130 is attached to the open front of the housing 100. As shown in figure 5, the front cover 130 has a hole in the inside of the housing 100 that is associated with the external part. Therefore, users take out the jug 400 and reservoir 200 for water through the hole and put them in the inner part of the housing 100. On the front cover 130 may be performed by the button of the controller to control the operation of microwave ovens and coffeemakers. The front part of the front cover 130 made as described above has a surface which is continuous with the front part of the door 40 of the resonator in order to give a sense of beauty.

One of the technical features of the second version of the implementation is that the tank 200 for water and funnel 300 is manufactured as a single body, as shown in figure 5 and 6, and will be described in detail below.

The reservoir 200 water has a space for storing water and approximately in the upper part, for example in part of the upper surface has an entrance connecting the outer portion to the inner part so that it was possible to submit vobis outer part. Cover 220 water tank is made for opening/closing the inlet tank 200 for water. Funnel 300, as shown in figure 5 and 6, has the form of a concave cone, outer diameter which is larger than the bottom diameter, as she

runs from the top center of the tank 200 for water to the bottom surface and forms the outer peripheral surface of the tank 200 for water. If the funnel 300 has the above construction, it becomes possible to perform a coffee maker with a more compact design than in the first embodiment, in which the reservoir 200 for water and funnel 300 is placed in the upper and lower parts. In the inner peripheral surface of the funnel 300 corresponding to the outer peripheral surface of the tank and having the form of a concave cone filter installed, powder coffee is served in the filter. The front part 230 of the reservoir 200 water has a continuous surface with the front cover 130.

As shown in Fig.6, the other end 560 of the pipe 500 for water supply, supplying hot water heated by using a heater 600, funnel 300 is placed so that when the reservoir 200 for water is contained in a housing 100, it is located on the funnel 300.

In the second embodiment, the container consists of a jug 400. As shown in Fig.6 and 7, the funnel 300 additionally includes in the BOJ kievitsei valve 340, managing channel drip hole 310 so that the liquid coffee that is contained in the funnel 300, dripping down only when the jug 400 will take its position in the housing 100.

Kievitsei valve 340, which closes the channel drip holes 310 formed below the funnel 300, opens drip hole 310 when the jug 400 takes its place inside the housing 100 and is pushed through the top of the jug 400. Kievitsei valve 340, as shown in Fig.7, includes item open/close to close the opening/closing drip holes 310, and a spring 330 that provides an elastic force on the element 320 opening/closing.

Element 320 of the opening/closing includes a rod 321, the second end portion 323 and the first end portion 322. In this case, the rod 321 is arranged to pass through the drip hole 310 formed below the funnel 300, and move up and down. The second end portion 323 is made wide at one end, for example at the lower end of the rod 321, and is moved upward by contact with the upper surface of the jug 400 when the jug 400 takes its place in the housing 100. The first end portion 322 is made wide at the other end of the rod 321, for example on the upper side of the rod 321, and opens drip hole 310, when the second is onawa part 323 is pushed up with the jug 400 from the state, in which the first end portion 322 closes drip hole 310.

The second end portion 323 of the element 320 opening/closing, as shown in Fig.6, is lifted by contact with the upper surface of the jug 400. When the jug 400 is inserted into the housing 100, the second end portion 323 is in sliding contact with the upper surface of the jug 400. To reduce friction in sliding contact, the second end portion 323 has the shape of a bowl, the bottom surface of which is convex downward. When the second end portion 323 is made in the shape of a bowl, coffee that drips down through the drop hole 310 may remain on the upper surface of the second end portion 323. In order to prevent the retention of coffee on the upper surface of the second end part 323, formed many through holes so through them into the inner jug coffee 400, remaining on the top surface of the second end portion 323.

Between element 320 of the opening/closing and funnel 300 is provided by a spring 330. More specifically, the spring 330 is composed of well-known compression spring, which accumulates elastic energy when it is subjected to compressive force in the direction along its length and then returns to its previous state when removed compressive force. As shown in Fig.7, the spring 330 will the girl so, that its other end is in contact with the bottom surface of the funnel 300 and attached to it. Spring 330 always provides the force pushing the second end portion 323 in a downward direction. Therefore, the portion of the element 320 opening/closing, in more detail, the first end portion 322 closes drip hole 310, although she always maintains contact with the drop hole 310 due to the force of the spring 330.

Let us consider briefly the work of the spring 330. When the jug 400 are accommodated in the housing 100, if the second end portion 323 is in contact with the upper surface of the jug 400 and pushed, the first end portion 322 is lifted together with the second end part 323 in order to open the drop hole 310. At the same time, the spring 330 is compressed to accumulate elastic energy. On the other hand, when the jug 400 is removed from the housing 100 in a state where it is accommodated in the housing 100, ceases to operate the force pushing the second end portion 323, therefore, the spring 330 is returned in original condition. In the second end portion 323 is lowered together with the first end part 322 to close the drip hole 310.

In ofevidence valve 340, which operates in this manner, the spring 330 is not limited to a compression spring, spiral type. In other words, the spring 30 will be enough if it is placed between the element 320 of the opening/closing and funnel 300, while the force compressing the spring 330 in a downward direction. As another variant implementation of the spring 330 there is a plate spring whose both ends are attached respectively to the second end portion 323 and the bottom surface of the hopper 300 and which accumulates elastic energy due to the deformation, when the second end portion 323 rises, and returns to its original state when the external force is removed, affixed to the second end portion 323 in order to lower the second end portion 323.

Kievitsei valve 340 of the second variant of implementation of the present invention additionally includes O-ring 325 (Fig 1). In this case, the O-ring 325 is provided between the first end part 322 and the bottom surface of the funnel 300, which is formed drip hole 310, and operates so as to prevent water leakage by increasing the air-tightness when the first end portion 322 tightly in contact with and closes drip hole 310.

In the second embodiment, there is a valve 250 for water supply. On the valve to supply water presses one end 510 of the pipe 500 to supply water when the pitcher 400 is fully inserted into the housing 100 and is open to supply water in Trou is the water, in this case, when the jug 400 is removed from the housing 100, it is closed in order to prevent leakage of water kept in the tank 200 to the water in the outer part. Hereinafter, the construction of the valve 250 for water supply will be described in detail with reference to Fig.7 and 8.

The valve 250 for supplying water includes a body 251 of the valve plate 252 to control the channel and the valve spring.

The body 251 of the valve has the space and also has an inlet opening 251b, through which flows the water tank 200 for water, and the outlet a through which water flows. This body 251 of the valve is made to penetrate through one side of the tank 200 for water, in more detail, the bottom surface of the tank 200 for water or lower side of the reservoir 200 to the water so that the inlet opening 151b was located inside the tank 200 for water, and the outlet a was located outside the tank 200 for water. On Fig shows an example execution of the body 251 of the valve in pipe construction. On Fig outlet a formed at the open end of the body 251 of the valve and has a diameter smaller than the inner diameter of the body 251 of the valve. The inlet opening 251b formed to penetrate through the support plate 255 is inserted in the other open end 560 of the body 251 of the valve. However, the body 251 of the valve is not limited to only design the second pipe, both ends of which are open (Fig). For example, in the body 251 of the valve (Fig), although one end located within the tank 200 for water, completely closed, the inlet opening may be formed on the peripheral surface of the body 251 of the valve in the direction of the diameter.

The plate 252 to control channel is inserted in the inner space of the body 251 of the valve so that it is moved along the inner space of the body 251 of the valve. Preferably, the plate 252 to control the channel would have an external diameter equal to the inner diameter of the body 251 of the valve. The plate 252 to control the channel, which is in the state in which the plate to control the flow 252 is in contact with the outlet a to lock outlet a, compressed by one end 510 of the pipe 500 to supply water to open the outlet a. This plate 252 to control the channel has multiple through holes (not shown)through which water flows in the case where the inlet opening 251b formed to penetrate through the support plate 255 (Fig). More numerous through holes formed along the side edges of the plate 252 to control the channel. Then, through holes are closed when the plate 252 to control channel is located directly in the m contact with the outlet a, although they are open to pass through the water when the plate 252 to control channel is separate from the exhaust holes a. This construction is not shown in the drawings, because anyone who reads the above description, it can easily compare this construction with the same. Meanwhile, when the inlet opening 251b formed on the peripheral surface of the body 251 of the valve in the direction of the diameter, the plate 252 to control the channel may not have through holes. In other words, when the plate 252 to control channel is in direct contact with the outlet a, outlet a closed so no water flows. However, if the plate 252 to control the channel moves toward the inlet hole formed on the peripheral surface of the body 251 of the valve in the direction of the diameter, the inlet communicates with the outlet a, so the water in the tank 200 for water flows in the outer part. This design is also not shown in the drawings, because anyone who reads the above description, it can easily compare this construction with the same.

The spring 253 valve is inserted in the inner space of the body 251 of the valve to provide elastic efforts, allowing the plate 25 to the control channel to be in direct contact with side outlet a. In more detail, one end of the spring 253 of the valve rests on the support plate 255 or attached to one side of the body 251 of the valve, while the other end of the spring 253 valve is fastened to the plate 252 to control the channel. Spring 253 valve installed as described above, creates a force that is always pushing the plate 252 to control the channel towards the outlet end a. Since the spring 253 of the valve is compressed from one end 510 of the pipe 500 for water supply and moves backward, subjected to compressive force, it accumulates elastic energy and then returns the plate 252 to control the channel to its original position under the action of the accumulated elastic recovery efforts. Spring 253 valve may take various forms, including compressing the spiral spring of the type shown in Fig.

The valve 250 for water supply, constructed as described above, further includes an O-ring 524 in order to prevent leakage of water due to the increase in tightness, when the plate 252 to control channel is in direct contact with the outlet a body 251 of the valve. O-ring 524 is provided on the inner peripheral surface located between the outlet a and plate 252 to control the channel.

Meanwhile, the second the second version of implementation provides a push pin 511, formed on one end of the tube 500 for water, for the efficient operation of the valve 250 to the water supply tank 200 for water. Push the pin 511 extends from one end 510 of the pipe 500 for water supply (Fig) and, when the reservoir 200 for water is installed in the housing 100, it performs the function of the pressing plate 252 to control the channel of the valve 250 for water supply and opening the outlet a body 251 of the valve. When the outlet a valve 250 for water supply openly, body 251 of the valve 250 for water supply is fully inserted into one end 510 of the pipe 500 to supply water to ensure that water was leaking between body 251 of the valve 250 for water supply and one end 510 of the pipe 500 for water supply. To this end one end 510 of the pipe 500 for water supply has an external diameter equal to or slightly greater than the external diameter of the body 251 of the valve. In order to increase the tightness when the body 251 of the valve is inserted in one end 510 of the pipe 500 for water, O-ring 512 is also provided on the inner peripheral surface of one end of the valve 500 for water supply. If O-ring 512 is executed as described above, when the body 251 of the valve is inserted in one end 510 of the pipe 500 for water, the outer peripheral surface of the body 251 of the valve is inserted in the inner peripheral surface of the with the to further increase the tightness to prevent leakage of water.

In the second embodiment additionally provided with a check valve 550 to prevent back flow of water inside the valve 250 for water supply and heating plate for efficient heating of the jug 400. Their detailed description is omitted, as it was described in the first embodiment.

Meanwhile, the second variant embodiment of the invention provides for the jug 400 having different functions for boiling eggs and making tea. Hereinafter, various embodiments of the jug 400 will be described with reference to figures 9-12.

The jug 400 includes a body 410 of the jug and the handle 420. The body 410 of the jug has a place to store coffee and design with an open upper side. The body 410 of the jug preferably made of transparent glass or plastic, so you can easily recognize the amount of coffee in it. Of course, it is accepted that the body 410 of the jug can be made of opaque material.

Handle 420 extends from one side of the body 410 of the jug so that it is easy to hold by hand from the outside.

In the second embodiment of the invention jug additionally includes an element 430, reinforcing the edge of the jar and the cap 440 pitcher (Fig.9-12). Element 430, reinforcing the edge of the jug, made to protect the inner and outer peripheral surfaces of the open upper side of the body 410 of the jug. Cover 440 jug provided for opening and closing the open upper side of the body 410 of the jug. In this case, the cap 440 of the jug can be manufactured as a completely separate body, as shown in figures 9-12. In addition, although not shown in the drawings, the cap 440 pitcher may have a construction in which one side is attached to the element 430, reinforcing the edge of the jug, or to the body of the jug can be rotated on the hinge (not shown), or rotation and separation around the loop. Cover the jug has a hole 441 of the input, is formed with a penetration so that the coffee dripping from the drip holes 310 funnel 300, passed through him.

In the second embodiment of the invention the jug 400 has a basic composition described above, and may have various constructions, in order to perform additional functions for cooking eggs or making tea. Below are described various embodiments of relating to these additional functions for the jug 400.

In one example, shown in Fig.9, the jug 400 additionally includes a suspension frame 431 and 450 for boiling eggs.

Suspension 431 passes in the form of a hook element 430, UPRONA the corresponding edge of the pitcher, in the internal part of the body 410 pitcher for fixing and hanging object.

Frame 450 for cooking is interwoven in the form of a grid to place it at least one egg and is installed inside the body 410 of the jug by setting the frame part 450 for cooking eggs in suspension 431. Below is a detailed description of the design of the frame 450 for boiling eggs.

Frame 450 for boiling eggs includes the first element 460 and the second element 470. The first element 460 includes vertical elements 453 and horizontal elements 454 with weave, such a network. The first element 460 and the second element 470 have a connection that can be rotated by means of a loop 451. On one edge of the first element 460 and on one edge of the second element 470, for example on the opposite side of the loop 451, made respectively hook 461 and the holder 471 hook. Hook 461 of the acts of the first element 460, and the holder 471 of the hook protrudes from the second element 470. When folding the first element 460 and the second element 470 and the connection with each other hook 461 is connected and attached to the holder 471 hook so that the first element 460 and the second element 470 is attached in the United state to each other.

The first element 460 and the second element 470, as shown in figure 10 and 11, has a concave curve surface to accommodate approximately half of EXT is her peripheral surface of the eggs. Therefore, as shown in figure 9, if the first element 460 and the second element 470 to connect with each other, you can place the eggs in the inner space formed with concave curved surfaces. The respective concave curved surface formed in the first element 460 and the second element 470, are placed in a configuration long semicircular canal. These concave curved surface can be performed with two columns, as shown in figure 10, or with one column, as shown in figure 11.

In the first element 460 and the second element 470, which have the above-mentioned construction, the horizontal element 453 is inward from the concave curved surface to maintain both sides of the eggs that are installed in the frame 450 for boiling eggs. If the horizontal element 453 is inward from the concave curved surface to maintain both sides of the eggs, preventing movement of the eggs, which are placed in the frame 450 for boiling eggs. Horizontal elements 453 can be accommodated in a wide interval, as shown in figure 10, to support both sides of the egg in the direction of the length, or can be accommodated in a narrow interval, as shown at 11, to support both sides of the egg in the direction of the width. The height of the horizontal ledge elements 453, posted the above method, ranovitsa different depending on the situation, in which are supported the eggs. In addition, the direction of placement of the eggs should be determined based on the size of the housing 100 and the jug 400. After determining the direction of placement of the eggs also determine the curvature of the concave curved surface, the number of columns and the spacing of the horizontal placement of elements 453.

As shown in figures 9-11, on the end portion of the first element 460 or the end portion of the second element 470 is at least one mounting portion 452. Serving the mounting portion 452 is inserted into the suspension 431 shown in figure 9, and is fixed in a state in which the frame 450 for boiling eggs is placed inside the body 410 of the jug.

On Fig shows another variant implementation of the jug 400. As shown in Fig, pitcher 400 additionally includes a shelf 480 & tea strainer 490.

As shown in Fig, shelf 480 includes many shelves, preferably a couple of shelves. A pair of horizontally spaced shelves is from an element 430, reinforcing the edge of the jug, in the internal part of the body 410 of the jug. Additionally, there are tea strainer 490 for receiving leaf tea, tea powder or the like, with one end fixed in a state in which one end is suspended and supported, and part of it is lowered into the water, which is contained in the body 410 of the jug. Tea strainer 490 includes a strainer 41 and the flanged edge. In this case, the sieve 491, as shown in Fig formed in the container, the upper side of which is open, in order to have the place to host tea. Beaded edge 492 runs in width along the open upper periphery of the sieve 491.

In another example, the jug 400 has a construction in which tea is brewed using disposable teabag. To this end, as shown in Fig, provided by the slot (not shown) or cut 481 to freeze. The slit formed by the slit shelves 480 inward from the outer peripheral surface of the shelves 480, and neck 481 to secure cut in the shape of a wedge inside from the outer peripheral surface of the shelves 480. In the slot or cutout 481 for fixing, formed in the way described above, insert or attach a thread connected to the teabag or device for making tea, resulting in users can brew tea with ease.

In the second embodiment of the invention having the above construction, the coffee works as follows.

First take out the tank 200 for water, manufactured in a single body together with the funnel 300, from the housing 100 in order to pour water into it. Then the tank 200 for water is inserted into the housing 100. The bottom surface of the tank 200 for water, arise is certain in the housing 10, based on the bracket 120. After the final placement of the water tank containing water in the housing 100 coffee is running on the controller.

If the tank 200 for water is fully installed in the housing 100, the push pin 511, located at one end of the pipe 500 for water, presses the plate 252 to control the channel of the valve 250 to supply water to move back plate to control the channel so that the opened outlet a. If the outlet a opened, the water contained in the tank 200 for water, is introduced into the body 251 of the valve through the inlet opening 251b and is fed into the pipe 500 to supply water through the outlet a. Water is introduced into the tube 500 for water, is heated when passing through the contact part located in the lower part of the housing 100, with the heater 600. If the water is heated, as described in the first embodiment, the reverse flow of water prevented through the check valve 550. Hot water having a high pressure due to heating, is fed into the funnel through the other end of the pipe 500 for water supply.

Meanwhile, the jug 400 to clean completely and installed on the heating plate of the enclosure 100. As the jug 400 is located in the housing 100, the second end portion 323 kofevarkah valve 340 is in conta the ones with the upper surface of the cap 440 of the jug and rises so to open the drip hole 310. If the drip hole 310 is opened, liquid coffee, which is formed inside the funnel 300, dripping down through the drop hole 310. Sacapano coffee permeates through hole 441 to enter in the cap 440 of the jug and then enters the body 410 of the jug. As hot liquid coffee, which enters the body 410 of the pitcher continues to be made with high temperature through heating plate, he always kept warm.

Meanwhile, if the tank 200 for water to be removed from the housing 100, the plate 252 to control the channel of the valve 250 to supply water blocks the outlet a, so no water enters the pipe 500 for water supply. In addition, if the jug 400 to be removed from the housing 100, the element 320 of the opening/closing kofevarkah valve 340 will fall and block the drip hole 310, therefore, the liquid coffee in the funnel 300, will not drip into the jar 400.

In the second embodiment of the invention the coffee is prepared using the above procedure. Below is a description of the operation of additional functions for the various embodiments of the jug 400.

First, when the egg is cooked using the second variant of implementation of the present invention, using the example of the jug 400, shown in IG-11. Frame 450 for boiling eggs is deployed (figure 10 and 11). Given the number of eggs placed on the concave curved surface of the first element 460 or the second element 470, and any first or second elements 460 and 470 turn around loop 451. Then the hook is suspended from the holder 471 hook and latch. Frame 450 for cooking eggs with the eggs is fixed inside the body 410 of the jug, as shown in Fig.9. In this case, the mounting portion 452 is inserted into the suspension 431 in order to fix the frame for boiling eggs.

If the frame 450 for cooking eggs with the eggs are placed inside the body 410 of the jug, tank 200 for water filled with water and installed inside the housing 100, the coffee is ready. Water is heated using the heater 600 when the flow through the pipe 500 for water, and the heated hot water is flowing through the hopper 300 and stored in the body 410 of the jug. Hot water is supplied into the inner part of the body 410 of the jug to the specified level, and eggs are cooked within a specified time.

If the eggs are welded, frame 450 for boiling eggs pulled out of the body 410 of the jug, and hook 461 is separated from the holder 471 hook. After you expand the scope of 450 for cooking eggs eggs are removed and prepared for food.

When preparing tea using the second variant of implementation of the present invention, uses a different variant of cows the 400, shown in Fig. In the preparation of powder or leaf tea first, use a tea strainer 490. Given a small amount of powder or leaf tea is poured into the sieve 491 tea strainer 490. Tea strainer 490 set in the body 410 of the jug so that the beaded edge 192 was recorded and rested on top of the shelves 480.

After the jug 400, which has a tea strainer 490, is placed inside the housing 100, the water tank 200, containing water, is placed inside the housing 100. If coffee works, the heated water is served in a tea strainer 490 through the tube 500 for water supply and funnel 300. Meanwhile, the hot water makes the liquid tea during the flow through a tea strainer 490. Meanwhile, if the water level of the liquid tea stored in the body 410 of the jug, increases, powder or leaf tea stored in the tea strainer 490, is immersed in the liquid tea, thus becoming stronger.

As described above, since the liquid tea, which is stored in the body 410 of the jug, is heated using a heater, tea is always maintained in a hot condition. Therefore, the user can remove the jug 400 and pour hot tea.

When tea is prepared by using a teabag or devices for brewing the tea, the thread of teabag or fixtures datavalue tea stably inserted into the incision or cut 481 for docking which is formed on the shelf, 480, and then use the coffee maker. Because the components of tea, which are contained in the teabag or accessories for tea, dissolve in water when hot water is in the body 410 of the pitcher, you can make hot tea. Once the tea is brewed within a given time, a thread attached to the incision or cut 481 for fixing, unhooking and a teabag or a device for making tea are removed from the body 410 of the jug.

The above-mentioned second variant implementation of the present invention has the following advantages:

First, because the funnel and the water tank is made in a single body, coffee can be compact in comparison with the maker of the prior art. If coffee becomes compact, the design is more comfortable, as there may be provided a vast chamber of the microwave oven.

Secondly, in addition to coffee, you can cook eggs or tea, using various modified embodiments of the jug. As a second variant implementation of the present invention provides various additional functions, as well as the basic function of a microwave oven, a microwave, you can use a very convenient and useful.

The third in the version of the implementation

In the third embodiment of the present invention is executed design that allows filtered coffee dripping from the spout, to save lots of cups.

Constructive characteristics of the third variant of implementation clearly depicted on Fig-15. The design of the third variant of the implementation will be described in detail with reference to the drawings.

As shown in Fig, a third option implementation includes the resonator 20, the door 40 of the resonator, the camera 50 is an electronic device housing 100, the tube 500 for a water supply tank 200 for water and funnel 300, made in one body, many cups 700, heater 600 and the casing 60.

The resonator 20, installed in the inner part of the frame 30 has an open front and a door 40 of the cavity opens/closes the open front of the cavity 20. The camera 50 is placed near the resonator 2 and contains electrical elements, including the magnetron 51, the transformer 52 and the fan 53. The housing is provided on the front side of the inner part of the chamber 50 and the reservoir 200 for water and funnel 300, and the jug 400 is provided inside the housing so that they can be input and output from the inside of the housing 100. The heater 600 is provided in the lower part of the housing 100. Pipe 500 for water supply has one end 510 connected to the reservoir 200 for water, etc is another end 560, placed at the top of the funnel 300. Part of the pipe 500 for water is in contact with the heater 600. The cover 60 closes the frame 30 and the chamber 50 in order to protect the elements of the microwave oven.

In the first and second embodiments, the implementation of the detailed description of the main elements included in a microwave oven, comprising a cavity 20 and the camera 50, and the elements included in the composition of the coffee that includes a housing 100, the tube 500 for water, heater 600 and heating plate. So here will be omitted in detailed description. Below is a detailed description of the design of the third variant of implementation, with an emphasis on elements other than the elements of the first variant implementation, or on newly added elements.

The front cover 130 is attached to the open front of the housing 100. As shown in Fig, the front cover 130 has a hole, which connects the inner part of the housing 100 with the outer side of the housing 100. The door 140 of the cover is for full or partial opening/closing the openings of the front cover 130. In this case, it is desirable that the portion of the hole to be opened/closed in order from the outer side was left open many cups of 700 located on the bottom of the tank 200 for water when closed, the door 140 to the ISCI. The front cover 130 made as described above has a surface which is continuous with the door 40 of the resonator, and it is desirable that the door cover had a surface that is continuous with the front cover 130.

Meanwhile, in the third embodiment, the funnel 300 and reservoir 200 water formed as a single body. The valve 250 to supply water is provided at one end of the tank 200 for water. As detailed description of the design is already done, its description will be omitted. At the same time, unlike the second variant implementation kievitsei valve is not provided in the third embodiment. Instead, as shown in Fig, there are many passages 350 for the flow of coffee through which it flows, coffee seeping into the funnel, and a lot of holes 351 for the production of coffee, through which the coffee is produced in a downward direction. These passages 350 for the flow of coffee is provided in the lower part of the funnel 300 for coffee could proceed inside. Numerous outlet 351 passing through the lower part of the funnel 300, made to passages 350 for the flow of coffee 350 was reported with an external party. Similarly, if the passages 350 for the flow of coffee and hole 351 for the production of coffee is provided in the lower part of the funnel 300, coffee, prosocial is different in the funnel 300, flows along passages 350 for the flow of coffee and drips from the respective holes 351 for the production of coffee in a downward direction, which results in the draining of coffee in many provisions.

In the third embodiment, a plurality of cups 700 as a container for receiving and storing coffee flowing in many provisions, located in the lower part of the funnel 300.

Cup 700 used in the third embodiment, can be a disposable Cup or any of the usual cups, which are clean and ready to use. In the case of disposable cups people can drink coffee away from home or office.

In addition, as shown in Fig-15, the third is an implementation option provides the holder 750 cups, in which the bottom of the cups 700 are placed in the exact positions in which the coffee flows. Holder 750 cups made in the form of boards and has many grooves 751 to install cups, made in the upper part of the holder 750 cups so that you can insert and support the bottom of the cups. These grooves 751 to install cups formed in positions in which coffee is flowing from the funnel 300 can accumulate in the cups when the holder 750 cups fully inserted into the housing 100. In addition, although not shown, instead of the recesses 751 to install cups m which should be perforated to install cups. Holes for installation of cups formed to penetrate through the holder 750 cups in the direction of up and down in the same positions as the holes 751 to install cups. In the case of holes to install cups cups 700 can be inserted and supported in the inner part of the hole to install the cups so that the cups 700 is more stable. As the above description is sufficient for understanding the purpose of the holes for installing the cups, the description of the holes for installing the cups will be omitted.

As described above, the holder 750 cups made with the possibility of input and output from the inside of the housing 100. The housing 100 additionally includes a guide groove 150 to direct input and output holder 750 cups. As shown in Fig-15, the guide groove 150 formed concave on both inner surfaces of the enclosure 100. Both ends of the holder 750 cups are inserted into the guide groove 150 and is directed through the guide groove 150 at the input and output holder 750 cups.

Below will be described the operation of the third alternative implementation using the above-described structure.

Holder 750 cups removed from the housing 100, and a Cup of 750 is inserted into the recess 751 to install cups or hole for the mounting cups. Then both ends of the holder 750 cups are inserted into the guide groove 150 and FIC is irout in the inner part of the housing 100, thus by placing the holder 750 cups.

If the holder 750 cups placed in the enclosure 100, then set the filter and fill coffee powder into the funnel 300. The reservoir 200 for water fill with water and then installed in the housing 100. After placing the water tank water passing through the pipe 500 to supply water is heated using the heater 600 and is fed into the funnel 300. Coffee, filtered in the funnel 300, flows through the passageways 350 for the flow of coffee, made in the lower part of the funnel 300, and flows in several positions. Flowing coffee is stored in multiple cups 700 placed in the holder 750 cups.

If coffee is stored in multiple cups 700, the user takes the Cup only when he is indoors or out, so the coffee maker easy to use.

As the coffee maker according to the third variant of exercise can keep the coffee in the many portable cups, the user can take a Cup and drink coffee at any time. Accordingly, it is convenient and useful for busy modern people.

As described above, in the first-third embodiments, implementation of the present invention, the main technical feature is the fact that coffee is installed in the camera without changing the size of a microwave oven. In addition, in the respective embodiments implementing the Tulane provide additional functionality.

Specialists will be clear that the present invention can be made of various modifications and changes. Thus, it is assumed that the present invention covers the modifications and modifications of this invention provided that they are within the scope of the attached claims and their equivalents.

1. Microwave oven having a coffee maker containing a cavity, the front of which is open, the door cavity for opening/closing the open front of the cavity, the chamber made near the resonator, which is equipped with at least a magnetron for microwave radiation in the resonator, the transformer and the fan, the casing is provided at the front end of the internal part of the camera, with the front part of the body is open, the water tank provided inside the above case, the funnel is made with the possibility of input and output from the inside of the housing, a heater provided in the lower part of the casing, a pipe for water supply shaped so that one end connected to the water tank, the other end is located on the upper side of the crater and part of it is in contact with the heater, and a container provided below the funnel with input and output from the internal part of the body.

2. Microwave p is 1, in which container is the jug.

3. Microwave oven according to claim 1, additionally containing a door body for opening/closing the open front of the case.

4. Microwave oven according to claim 3, in which the Cabinet door has a hinge connection with one side of the front of the case.

5. Microwave oven according to claim 3, in which the door body has a surface which smoothly into the surface of the door cavity.

6. Microwave oven according to claim 1, additionally containing the front cover having a hole connecting the inside with the outside of the hull.

7. Microwave oven according to claim 6, further containing a door cover, fully or partially opening/closing the hole of the front cover.

8. Microwave oven according to claim 6, in which the front cover has a surface which smoothly into the surface of the door cavity.

9. Microwave oven according to claim 7, in which the door cover has a surface which smoothly into the surface of the front cover.

10. Microwave oven according to claim 1, in which the water tank has an inlet that is open from the open front of the housing when the water tank is inserted into the case.

11. Microwave oven according to claim 1, in which the water tank is rotated around a hinge and has a hinged connection to posom with the to the water tank can be input and output from the inside by pushing and pulling out.

12. Microwave oven according to claim 1, in which the housing further comprises a bracket protruding from the inner wall in the inner space and which serves as a shelf.

13. Microwave oven according to claim 1, in which the water tank and funnel formed in one body.

14. Microwave on item 13, in which the funnel has an outer peripheral surface is made concave cone-shaped.

15. Microwave on 14, in which the water tank further comprises a lid of the water tank, made on top of the water tank, for opening/closing the entrance of the water tank.

16. Microwave oven according to claim 2, in which the funnel further comprises kievitsei a valve that opens by pushing the jug when placing the jug inside.

17. Microwave on clause 16, in which kievitsei valve contains an element opening/closing inserted with the ability to move up and down in the drip hole, which is formed in the lower part of the funnel, and moved with pitcher for opening/closing the drip holes, and a spring disposed between the element opening/closing and the funnel is providing elastic force to the element opening/closing with the to drip hole was in contact with the element opening/closing.

18. Microwave on 17, in which the element opening/closing contains a rod made for penetration through the drip hole formed in the lower part of the funnel, the second end part formed wide at one end of the rod and move up through the pitcher, and the first end part formed wide at the other end of the rod for opening/closing the drip holes in the case, when the second end portion is moved upward in the state in which the first end part closes drip hole.

19. Microwave on p, in which between the second end part and the funnel is provided by a spring.

20. Microwave on p in which kievitsei valve further comprises an O-ring installed between the bottom of the funnel and the first end part to the first end part could fully close the drip hole.

21. Microwave on p, in which the second end part has a bottom surface with a shape of a bowl in order to reduce friction when the second end part is in contact with the pitcher.

22. Microwave on item 21, in which the second end portion further comprises notesto holes, generated for transmission coffee, which is injected through the drip hole and then remains on its upper surface.

23. Microwave oven according to claim 2, in which the water tank and funnel formed as a single body.

24. Microwave on item 23, in which the funnel further comprises kievitsei a valve that opens by pressing the pitcher when placing the jug inside.

25. Microwave on point 24, in which kievitsei valve contains an element opening/closing inserted with the ability to move up and down in the drip hole formed in the lower part of the funnel, and moved with pitcher for opening/closing the drip holes, and a spring disposed between the element opening/closing and funnel and providing elastic force to the element opening/closing to drip hole was in contact with the element opening/closing.

26. Microwave on A.25, in which the element opening/closing contains a rod, made to penetrate through the drip hole formed in the lower part of the funnel, the second end part formed wide at one end of the rod and pushed up with the pitcher, and the first end part formed wide at the other to the ice rod for opening/closing the drip holes the first end part opens drip hole, only when the second end portion is moved upward with the help of the jug.

27. Microwave on p, in which between the second end part and the funnel is provided by a spring.

28. Microwave on p in which kievitsei valve further comprises an O-ring installed between the bottom of the funnel and the first end part so that the first end part could fully close the drip hole.

29. Microwave on p, in which the second end part has a bottom surface with a shape of a bowl in order to reduce friction when the second end part is in contact with the pitcher.

30. Microwave on clause 29, in which the second end portion further comprises a number of holes formed to pass coffee, which is injected through the drip hole and then remains on its upper surface.

31. Microwave oven according to claim 1, in which the water tank further comprises a valve for water flow made with the possibility of opening with one end of a pipe to supply water when the water tank is pushed and installed in the housing by the user, to supply water to the pipe for supplying water.

32. Microwave on p where KLA is an for supplying water includes a valve body, set in one of the walls of the tank and includes an inner space, an inlet hole through which the water passes, and an exhaust hole through which water flows, the plate to control the flow, which is inserted in the inner space of the valve body can be moved for opening and closing the exhaust opening and by pressing with one end of a pipe to supply water moves and opens the discharge opening, while ensuring the communication of the inlet with the outlet, and a valve spring that is inserted in the inner space of the valve body and provides an elastic force to plate to control the flow was in contact with the outlet.

33. Microwave on p, in which the valve for the water supply further comprises O-ring installed on the inner peripheral surface of the valve body and located between the outlet and the plate to control the flow to prevent leakage.

34. Microwave on p in which pipe for water supply further comprises a clamping pin extending from one end, to open the outlet valve body by means of pushing plate for control p is koderiem flow when installing the water tank in the hull.

35. Microwave on clause 34, in which one end of the water hose has an internal diameter larger than the outer diameter of the valve body so that the valve body can be inserted in its inner part.

36. Microwave on p, in which a pipe for supplying water further comprises O-ring installed on the inner peripheral surface of one end of the water hose to prevent leakage when the valve body is inserted into one end of the water hose.

37. Microwave on 14, in which the water tank further comprises a valve for water flow made with the possibility of opening with one end of a pipe to supply water when the water tank is pushed and installed in the housing by the user, to supply water to the pipe for supplying water.

38. Microwave on clause 37, in which the valve for supplying water includes a valve body installed in one of the walls of the tank and includes an inner space, an inlet hole through which the water passes, and an exhaust hole through which water flows, the plate to control the flow, which is inserted in the inner space of the valve body can be moved for opening and closing the exhaust opening and by y the party with one end of a pipe to supply water moves and opens the discharge opening, while the communication of the inlet with the outlet, and a valve spring that is inserted in the inner space of the valve body and provides elastic force to the plate to control the flow was in contact with the outlet.

39. Microwave on 38, in which the valve for the water supply further comprises O-ring installed on the inner peripheral surface of the valve body and located between the outlet and the plate to control the flow to prevent leakage.

40. Microwave on 38, in which the pipe for water supply further comprises a clamping pin extending from one end, to open the outlet valve body by the push plate to control the flow when installing the water tank in the hull.

41. Microwave on 38, in which one end of the water hose has an internal diameter larger than the outer diameter of the valve body so that the valve body can be inserted in its inner part.

42. Microwave at paragraph 41, in which a pipe for supplying water further comprises O-ring installed on the inner peripheral surface of one end of a pipe to supply water to prevent Ute is key in case when the valve body is inserted into one end of the water hose.

43. Microwave oven according to claim 1, in which the pipe for water supply further comprises a check valve made in it to prevent water flow back towards the water tank.

44. Microwave oven according to claim 1, in which the housing further comprises a heating plate which is in contact with the heater, forming the inner surface of the bottom, and heated with a heater.

45. Microwave oven according to claim 2, in which jar contains the body of the jug, the upper side of which is open to receive and save the coffee flowing from the spout, and a handle on one side of the jug.

46. Microwave on 45, in which the pitcher contains an element, reinforcing rim of the pitcher made along the inner and outer circumference of the open top side of the body of the jug and the lid of the jug provided to open and close the open upper side of the body of the pitcher, and having an aperture shaped so that the coffee flowing from the drip funnel holes passed through it.

47. Microwave on p.46, in which the pitcher further comprises at least one hanger extending from the element, reinforcing rim of the pitcher, in order to capture and hang the object.

48. Microfono the traveler oven p, which pitcher further comprises a frame for boiling eggs, containing at least one egg, part of which is fastened to the suspension and fixed inside the body of the jug, and contains a grid.

49. Microwave on p, in which the frame for boiling eggs contains the first element having a concave curve surface to accommodate approximately half of the outer peripheral surface of the egg shell, and a second element having a shape corresponding to the shape of the first element, and having a swivel connection with the first element.

50. Microwave on 49, in which the frame for boiling eggs further comprises at least one mounting portion that extends from the first element or the second element and is inserted into the suspension for mounting the frame for boiling eggs.

51. Microwave on 49, in which the frame for boiling eggs further comprises a hook extending from the first element, and the holder of the hook extending from the second element so that the hook is suspended from and fixed when the second element and the first element stacked together.

52. Microwave on 49, in which the first and second elements have a single concave curve surface formed elongated in order to place her eggs in one column.

53. Microwave on 49, in which the first and second elements have a DV of the concave curved surface, formed elongated and parallel to each other in order to place the eggs in two columns.

54. Microwave on 49, in which the first and second elements are additionally contain horizontal element, protruding inward from the concave curved surface to maintain both sides of the eggs, set in a frame for boiling eggs, and thus to prevent the movement of eggs in the box for cooking eggs.

55. Microwave on item 54, in which the horizontal elements are located in a narrow interval in order to support both sides of the egg in the direction of the width.

56. Microwave on item 54, in which the horizontal elements are located in a wide range to support both sides of the egg in the direction of the length.

57. Microwave on p.46, in which the pitcher contains many shelves, protruding in a horizontal direction from an element reinforcing the edge of the jug, in the inner part of the jug.

58. Microwave on 57, in which the shelf contains a section cut inward from its outer peripheral surface in order to fix the thread attached to the teabag or device for brewing the tea.

59. Microwave on 57, in which the shelf includes a mounting recess cut in the shape of a wedge inside from its external accessories the historical surface for to lock the thread attached to the teabag or device for brewing the tea.

60. Microwave on 57, in which the pitcher additionally contains a tea strainer, which is sourced tea and the upper part of which is mounted on the shelf and supported so that the lower part of it fell into the water, which is contained in the jug.

61. Microwave on p, in which the tea strainer contains a sieve, which has the shape of the container and the upper side of which is open, and the flanged edge formed along the open upper periphery of the sieve.

62. Microwave oven according to claim 1, in which the container is a Cup.

63. Microwave oven according to claim 1, in which the funnel further comprises a passage for the flow of coffee with lots of holes formed on the lower part of the funnel, through which it flows, filtered coffee in the funnel and flows downward.

64. Microwave on p, in which the container is a set of cups provided at the bottom of the holes to leak coffee.

65. Microwave on p, optionally containing holder cups, which establish multiple cups, and executed so that the water tank could enter and withdraw from inside by pushing and pulling out.

66. Microwave on p, in which the housing further comprises a guide groove formed concave on both internal surfaces of the body so that you can insert both ends of the holder of cups, for input and output holder cups.

67. Microwave on p, in which the holder of the cups contains many holes to install cups, made on the upper surface of the holder cups so that you can insert and support the bottom of the cups.

68. Microwave on p, in which the holder of the cups contains many holes to install cups, made to penetrate through the holder cups so that you can insert and support the Cup.

69. Microwave on 14, in which the funnel further comprises a passage for the flow of coffee with lots of holes formed in the lower part of the funnel, through which it flows, filtered coffee in the funnel and flows downward.

70. Microwave on p, in which the container is a set of cups provided at the bottom of the holes to leak coffee.

71. Microwave on item 70, optionally containing holder cups, which establish multiple cups, and executed so that the water tank could enter and vivactis inner part by pushing and pulling out.

72. Microwave on p, in which the housing further comprises a guide groove formed concave on both internal surfaces of the body so that you can insert both ends of the holder of cups, while directing input and output holder cups.

73. Microwave on p, in which the holder of the cups contains many holes to install cups, made on the upper surface of the holder cups so that you can insert and support the bottom of the cups.

74. Microwave on p, in which the holder of cups is a lot of holes to install cups made with the possibility of penetration through the holder cups so that you can insert and maintain Cup

The priority of claims 1 to 4, 10-12, 43-45 - 05.03.2002.

Priority p, 13-42, 46-61 - 29.07.2002.

Priority subparagraph 5, 7-9, 62-74 - 10.08.2002.



 

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21 cl, 5 dwg

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