Washing machine equipped with detergent feeding apparatus

FIELD: mechanical engineering.

SUBSTANCE: washing machine has detergent feeding apparatus adapted for mixing detergent dispensed from container with washing water and for feeding of mixed detergent and washing water into washing reservoir. Detergent feeding apparatus has housing, detergent container, and water feeding chambers. Housing has a plurality of inlet apertures connected with respective water feeding pipes, and outlet aperture connected with washing reservoir. Detergent container is detachably inserted into housing and is equipped with a plurality of chambers for receiving of detergent. Water feeding chambers are equipped with a plurality of through channels, one of through channels being adapted for feeding of washing water delivered through inlet apertures into chambers for receiving of detergent while adjusting washing water pressure within predetermined range.

EFFECT: increased efficiency and improved quality of washing of cloths.

7 cl, 3 dwg

 

DESCRIPTION

The technical field

The invention relates to a washing machine, and in particular to a washing machine having a feeder detergent for mixing the detergent contained in the detergent container with water for washing and for supplying a mixture of detergent and water for washing in the washtub.

The level of technology

Generally, washing machines are devices for washing clothes, using the force of friction created by the simultaneous mixing of linen, detergent and water for washing vessel for washing and driven by an electric motor. Washing machines use feeder detergent for supplying detergent to the water tank mixed with water for the wash cycle the water supply.

In the case of a washing machine drum type this feeder detergent installed on the upper front side of the housing and has a hood-shaped with an open front surface and a detachable detergent container, which is pushed into the casing through the open front surface or out of it. The rear upper part of the casing has an inlet connected to the pipes in the water supply. Water for washing is supplied through the pipes supplying water into the detergent container, n is confined in the casing. The lower rear part of the casing contains the outlet connected with a connecting tube. Water for Laundry passes through the detergent container inside the shell, and fed into the water tank of the washing machine through the connecting tube.

The detergent container is divided into several receiving chambers detergent for analysis and receive them in different kinds of detergents. The bottom surface of the detergent container is tilted down to her back, and so the detergents that are in the detergent container, can smoothly flow to the outlet of the casing with water for the wash cycle the water supply.

Detergents, pre-placed in the chambers for receiving the detergent in the detergent container, flowing to the outlet of the casing after mixing with water for washing, and thus they can serve in the capacity for water mixed with water for washing.

If the water pressure for washing, filed in chambers for receiving detergent, low, detergents can act in the capacity for water not mixed with water for washing and therefore can remain in the feeder detergent. On the contrary, if the water pressure for washing, coming in chambers for receiving detergent, high, water for washing face is carried out with detergent at high speed, resulting in the formation of bubbles of detergent.

For example, when using liquid detergent with high viscosity and high spumescence, such as, for example, the flushing substance, and if the water pressure for washing, fed into the chamber receiving liquid detergent, low, water for washing can go directly into the water tank without mixing with the washing substance, leaving the flushing agent in the detergent container. Moreover, if the water pressure for washing high, as described above, may form a large number of bubbles that penetrate into other chambers for receiving detergent containing different kinds of detergents, or drained from the washing machine.

The invention

Accordingly, one aspect of the present invention is to provide a washing machine having a feeder detergent, which can save the set-point pressure water wash supplied to chambers for receiving detergent, thereby eliminating the possibility that the detergent will remain in the receiving chambers detergent using water for washing with low pressure, or excluding the possibility of formation of bubbles in the water supply to washing with high pressure.

Other aspects and/or advantages nastojasih the invention is partly expressed in the following description and in part will be obvious from the description, or may be identified during the implementation of the present invention.

Referred to above and/or other aspects of the present invention are realized by providing a washing machine having a feeder detergent; and a feeder detergent has: a casing with multiple inlet ports connected to the corresponding pipes of the water supply; and the outlet connected to the tank for Laundry use; detergent container, a removable manner to be inserted into the casing and containing a number of receiving chambers detergent; and the camera's water supply, which regulate the pressure coming from the inlet hole of the water for washing the prescribed range of values and to supply water for washing chambers for receiving detergent.

Each camera feed water can have a flow channel for introducing water for washing from the inlet holes.

One of the flow channels may contain regulatory pressure holes for removal from the flowing channel of water for washing with a flow rate corresponding to the pressure value of about 20 psi, and the water for washing takes place via a flow channel.

Can be done multiple cameras water supply, in coordination with the respective receiving chambers detergent in the detergent container; and water for Laundry, the output of the holes of the control pressure generated in the flow channel for supplying the odes for washing in one of the receiving chambers detergent can be served in different cell reception detergent.

The flow channel may communicate with multiple handsets water supply is made in such a way that their directions of water flow intersect each other, and a flow channel may supply water for washing, while the intake of a variety of pipes of water supply and converging in a predetermined position in the camera in the water supply.

One end of the flow channel may have extending flow passage portion for supplying part of the converging flow of water for washing, exceeding a specified flow rate of the feed chamber of the water.

Camera water supply may be located in the upper part of the casing, and a detergent container may be removable manner is inserted into the lower part of the casing.

In the detergent container can be made several receiving chambers detergent, and several chambers of the water supply can be installed above the detergent container in coordination with the respective receiving chambers detergent.

Brief description of drawings

These and/or other aspects and advantages of the present invention will become apparent and better understood from the following description of its implementation in conjunction with the attached drawings, on which:

Fig. 1 is a depiction in perspective of the internal layout of the washing machine according to the ACLs of the present invention;

Fig. 2 - the picture in perspective, with a spatial separation of the parts feeder of detergent in the washing machine shown in Fig. 1; and

Fig. 3 is a horizontal projection of the flow channels formed in the upper compartment feeder detergent shown in Fig. 2.

Detailed description of preferred implementations

Below is a detailed description of the implementation of the present invention, examples of which are illustrated in the accompanying drawings, in which similar reference signs in all cases indicate similar elements. Describe here the implementation explains the present invention with reference to the accompanying drawings.

Fig. 1 shows a washing machine a drum type according to the present invention, comprising: a cylindrical container 11 to the water, mounted in the housing 10 and containing water for washing, and a cylindrical container 12 for washing installed with the possibility of rotation in the water tank 11 and at its peripheral surface with many holes for drying by centrifugation; the drive motor 13 located under the container 11 for water and torque capacity 12 wash, installed in the water tank 11, in the direction of forward or back to perform washing, the industry is key and drying by centrifugation.

On the respective front ends of the housing 10, the water tank 11 and tank for washing 12 made openings through which put the linen into the container 12 for washing and removing linen from the tank 12 for washing. For opening or closing the openings of the door 14 mounted on the front end of the housing 10.

Above the container 11 for water is the device 20 of the feed water and the feed device 15 detergent for simultaneous supply of water and detergent into the tank 11 to the water cycle water supply. Under the container 11 for water also installed discharge device 16 to drain water for washing from the tank 11 to the water after washing. Discharge device 16 has a drain tube 16A and the pump 16b for pumping.

The device 20 water supply has several gates 21 water supply connected with the external inlet hose (not shown), for regulation of water supply; many tubes 23 water supply connected between the respective gates 21 water supply and feed device 15 detergent; and a connecting tube 24, which directs the water for washing, passing through the device 15 supply detergent into the tank 11 to the water.

According Fig. 1 and 2: device 15 filing detergent has a box-shaped casing 30 with an aperture 34 formed on its front end, and the container 35 for the detergent con is mainly installed in the casing 30 through the opening 34. In order for the container 35 for the detergent can be removed from the casing 30 to the outside of the housing 10, the device 15 supply of detergent is installed on the upper front side of the case.

According Fig. 2: the housing 30 of the device 15 filing detergent formed by connecting the upper compartment 40 with the lower compartment 31. The lower compartment 31 has an internal space in which is placed a container 35 for detergent, and it is open at its front and upper surfaces. The upper compartment 40 is connected with the lower compartment 31 to close the open upper surface of the lower compartment 31.

In Fig. 3: inside the upper cover 40 made several chambers 41, 42, 43 and 44 of the water supply, separated by partitions. On the lower surface of the upper compartment 40 is a through hole 48 for distribution of water for washing, received in corresponding chambers 41, 42, 43 and 44 of the water in the container 35 for the detergent under the lower compartment 40. On the rear end of the upper compartment is a through the inlet openings 49A, 49b, C and 49d, United with the corresponding tubes 23a, 23b 23C and 23d water supply for supplying water to the washing chamber 41, 43 and 44 of the water supply. The upper compartment 40 within has flow channels; design flow channels is explained in more detail below with reference to Fig. 3.

The lower compartment 31 at the rear end e is on the bottom surface has an outlet 32, and connecting tube 24 is connected to the outlet 32, causing the water inside the lower compartment 31 can flow into the container 11 for water. The bottom surface of the lower compartment 31 is inclined downward toward the outlet 32 to ensure the smooth flow of water for washing in the outlet 32. Next, along the upper ends of both side surfaces of the lower cover 31 is installed rails 33 which direct the container 35 for detergent for his nomination.

The container 35 to the cleaning means has an open top surface and the inside has a camera 35A, 35b, 35C and 35d reception detergent separated by partitions for separate sorting and receive different types of detergents.

The receiving chamber detergent is divided into a chamber 35b reception detergent pre-wash, which takes a powder detergent for pre-washing; chamber 35A receiving powder detergent, which takes a powder detergent for use in the main wash; the camera 35S receiving washing substances for receiving wash liquid substances; and the chamber 35d reception bleach for receiving liquid bleach. On the back of the chambers 35A and 35b reception detergent makers powder detergent made excretory opening 36A, and each and the cameras 35C and 35d reception detergent taking liquid detergent has a plate 36b.

Referring to Fig. 2 and 3, the respective chambers 35A, 35b, 35c and 35d correspond to the chambers 41, 42, 43 and 44 of the water formed in the upper compartment 40; and the bottom surface of the container 35 for detergent inclined downward toward the rear. When the water for washing is supplied into the container 35 for detergent according to the relevant chambers 41, 42, 43 and 44 of the water supply, different detergents, located in the cells 35A, 35b, 35c and 35d reception detergent flow to the outlet 32 of the casing 30 and are received in the container 11 for water passing through the output aperture 36A and the plate 36 in a mixture with water.

According Fig. 3, the upper compartment 40 of the device 15 supply of detergent according to the present invention has several chambers 41, 42, 43 and 44 of the water supply, and on the bottom surfaces of the chambers 41, 42, 43 and 44 of the water formed holes 48 in the water supply. Camera water supply is divided into the first chamber 41 of the water supply, the position of which corresponds to the chamber 35A receiving powder detergent; a second camera 42 water supply, the position of which corresponds to the chamber 36b reception detergent for pre-washing; the camera 43 supply of wash water, the position of which corresponds to the chamber 35C receiving washing substances; and the third chamber 44 of the water supply, the position of which corresponding the t chamber 35d reception bleach.

As described above, the rear end of the upper compartment 40 is installed pipes 23a, 23b, 23c, 24d supply of water for washing in the upper compartment 40. The water supply tube includes a first tube 23a water supply, a second tube 23b water supply, shown in the upper position in the drawing of Fig. 3; tube 23d hot water, installed in parallel on the second tube 23b water supply; and a third tube 23C water supply. The third tube 23C water supply is located next to the first tube 23a of the water supply in such a way that their directions of water supply intersect. As described above, the respective tubes 23a, 23b, 23c, 23d water supply to open and close the appropriate valves 21a, 21b, 21c, 21d water supply under the control of the control unit (not shown).

Tube 23a, 23b, 23c, 23d water supply are connected with the chambers 41, 42, 43 and 44 of the water supply flow channels 41a, 42a, 44a, 45, and 46. The third tube 23C water supply and the first tube 23a water supply, located next to each other, to supply water for washing in such a way that their directions of water flow cross each other in razvitsya part 47 of the flow channels. From razvitsya part 47 flow channels diverge three channel flow: the first flow passage 41A to supply water for washing in the first chamber 41 of the feed water flow channel 45 wash water to supply wash water into the chamber 43 of the oven, and wash water, and the third wash channel 44a to supply water for washing in the third chamber 44 of the water supply.

One end of the first flushing channel 41A communicates with the first chamber 41 of the water supply and the other end of the first flushing channel 41A direct and corresponds to the direction of water flow first tube 23a water supply. The flow-through channel 46 for hot water which is connected with a pipe 23d hot water, transferred to a predetermined position of the first flow passage 41A.

One end of the third flow channel 44a passes into the third chamber 44 of the water supply and the other end of the third flow channel 44a is located on a straight line with the direction of water flow of the third tube 23C water.

One end of the flow channel 45 supply of flush water is located between the end of the first flow passage 41A, on a straight line with the first tube 23a water supply, and the end of the third wash channel 44a, in a straight line with the third tube 23C water supply. The other end of the flow channel 45 supply of flush water passes to the chamber 43 of the supply of flush water. The angle (a1)defined between the end of the first flow passage 41A, near razvitsya part 47 of the flow channels, and the end of the flow channel 45 supply of wash water, near razvitsya part 47 flow channels equal to the angle (a2)defined between the end of the third flow channel 44a, near razvitsya part 47 of the flow channels, and the end of the flow channel 45 is giving rinse water near razvitsya part 47 of the flow channel.

At the end of the flow channel 45 supply of wash water, near razvitsya part 47 flow channels formed extending portion 45b of the flow channel, and the diameter of the flow channel 45 of the supply of the washing water increases towards razvitsya part 47 of the flow channels. In part of the flow channel 45 supply wash water above the chamber 35d reception bleach, formed holes 45A pressure regulation.

The second chamber 42 of the feed water, which supplies water for washing in the camera receiving 35b detergent pre-wash, is communicated with the second pipe 23b water flow through the second flow channel 42A.

Below with reference to the drawings Fig. 2 and 3 is illustrated a washing machine in respect of the filing of detergent and water.

First, to bring the washing machines in action container 35 for the cleaning device 15 filing detergent forward and separated from the casing 30 (Fig. 1)to put powder detergent, rinse agent and bleach in the respective chambers 35A, 35b, 35c, 35d reception detergent formed in the container 35. Then the washing machine to operate to initiate the cycle of water supply - after the complete installation of the container 35 for the detergent to the inside of the casing 30. During the cycle of water supply, water for stirk is, coming from the external water supply source (not shown) through valves 21 of the feed water is fed into the device 15 supply of detergent through the inlet openings 49A, 49b, 49c and 49d.

Fed into the feed device 15 detergent water for washing, according to the desired modes of washing, passes at least through one of the chambers 41, 42, 43 and 44 of the water supply, while falling in the respective chambers 35A, 35b, 35c, 35d reception detergent container 35 for detergent. Then, the water for washing is mixed with the detergent in the chambers 35A, 35b, 35c, 35d and is displayed in the lower compartment 31 through the outlet 36A or siphons 36b, and then enters the tank 11 to the water through the exhaust hole 32 formed in the lower compartment 31.

That is, in the initial mode - mode pre-washing, water for washing is supplied into the second chamber 42 water flow through the second tube 23b water supply so that the detergent in chamber 35b reception detergent pre-wash, first served in the container 11 for water. In the following the main washing water for washing is supplied into the first chamber 41 of the feed water through the pipe 23d hot water and the first tube 23a water supply, resulting detergent in chamber 35A receiving powder detergent is supplied into the container 11 for water. ZAT is m for the introduction of bleach during the regime of washing water for washing is supplied to the third chamber 44 of the water supply by the third tube 23C water supply, resulting bleach in chamber 35d reception bleach, served in a container 11 for water.

Finally, for the introduction of the flushing substance during the regime of washing water for washing is introduced as a third tube 23C water supply, and the first tube 23a of the water, causing the water for washing is supplied to the chamber 43 of the supply of flush water flow channel 45 supply of flush water. Because of the expanding portion 45b flow channels formed on the end of the flow channel 45 supply of wash water, even when the first and second tubes 23a and 23C water does not enter the water for washing on the line in a straight line with a flow channel 45 of the supply of the washing water due to the difference of pressure of the feed water, a sufficient quantity of water for washing can be submitted in a flow channel 45 wash water.

Because the flow-through channel 45 wash water has openings 45A pressure control, when the water washing under high pressure flows through the flow channel 45 wash water, with a large quantity of wash water is in the chamber 35d reception bleach for regulating the pressure of the holes 45A, so when the water for washing at low pressure flows through the flow channel 45 supply of wash water, only a relatively small amount of water for washing is displayed to the measure 35d reception bleach through regulatory pressure holes 45A. Therefore, the water pressure for washing, coming into the chamber 43 of the supply of flush water to be regulated within the specified limits when passing water wash flow channel 45 supply of wash water, and, accordingly, pressure water wash distributed in the camera receiving 35S washing substances is regulated within the specified limits.

As indicated above, the water for washing is displayed in the camera 35d reception bleach while passing through the flow channel 45 supply of wash water, and therefore, the injection mode of bleach can be performed simultaneously with the introduction of the flushing substance, thereby reducing the regulatory regime supply of detergent, or reducing the amount of water for washing is supplied through the third tube 23 ° C water flow during the injection mode of bleach, which reduces the time of submission of detergent.

From the above description it is apparent that a washing machine having a feeder detergent according to the present invention, is arranged to supply water for washing at a given pressure from the chambers of the water supply, thereby eliminating the abandonment of the detergent in the receiving chambers detergent or blistering.

Also according to the present invention, since the feed tube of the water at the same time, water is supplied to the washing chamber producivity flow channel and the direction of water flow intersect, and since a flow channel on one of its end has an expanding part of the flow channel, even if the direction of water flow is not precisely coincide with the longitudinal direction of the flow channel, it is still possible to exclude the filing of a diminished quantity of water for washing in the camera in the water supply.

Although the above illustrated and described one implementation of the present invention, but experts in the art it will be clear that in this implementation, you can implement changes in the framework of the principles and ideas of the invention, the scope of which is defined in the claims and its equivalents.

1. Washing machine having a feeder detergent, and referred to the feeder detergent contains a casing containing multiple inlet ports connected to the corresponding pipes of the water supply, and the outlet connected to the tank for washing, the detergent container, a removable manner to be inserted into the casing and containing a number of receiving chambers detergent, and the camera feed water, each of which contains a flow channel to regulate water pressure for washing fed from the inlet ports in the specified range of values and for supplying water for washing chambers for receiving detergent, one of the flow channels has adjusted the respective pressure holes for removal from the flowing channel of water for washing, the flow through which corresponds to a pressure water wash, passing through the flow channel, and the camera's water supply are coordinated with the respective receiving chambers of detergent and water for Laundry, the output of the regulating pressure holes formed in the respective flow channel for supplying water for washing in one of the receiving chambers detergent, served in a different camera from a number of receiving chambers detergent.

2. Washing machine according to claim 1, characterized in that the flow channels are connected to many tubes of water, arranged so that their directions of water flow cross each other, and a flow channel configured to supply water for washing, while the insertion of the tubes of the water in a predetermined position in the camera in the water supply.

3. Washing machine according to claim 2, characterized in that one end of the flow channels has an expanding portion for submission to the camera feed water side of the converging flow of water for washing, exceeding the specified flow.

4. Washing machine according to claim 1, characterized in that the camera feed water are located in the upper part of the casing and the container of detergent removable manner is inserted into the lower part of the casing.

5. Washing machine according to claim 4, characterized in that the camera's water supply is located above the container m is found funds in coordination with the respective receiving chambers detergent.

6. Washing machine according to claim 2, characterized in that it also has a branching portion of the flow channels located at the intersection of the directions of water flow.

7. Washing machine having a feeder detergent, and referred to the feeder detergent contains a casing having upper and lower portions connected to each other, and lots of inlet ports connected to the corresponding pipes of the water supply, the detergent container containing chambers for receiving detergent and due to the sliding movement of the insert in the lower portion and containing a cleaning agent, and channels water supply located in the upper part and having flow channels for supplying water into the chambers for receiving detergent, wherein one of the flow channels has a regulating pressure openings for regulating the pressure of water coming from the pipes of the water supply within the specified range of pressure values.



 

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