Multifunctional gondola inbuilt in floor

FIELD: construction.

SUBSTANCE: multifunctional gondola of varied height used inside premises inbuilt in floor, adapted for connection of utilities, comprises the following components: pedestal, which is moved vertically, is waterproof in lowered or lifted position, is inserted in groove in floor, has external structure adapted for connection to utilities, besides external structure has upper surface, which forms surface aflush with floor, when pedestal is lowered position, and upper and lower sealing lip adjusted to provide for waterproof sealing, when pedestal is lowered or lifted, internal structure adjusted to receive utilities through connections under floor and having electric mechanism for pedestal movement along vertical line. Also combination of floor-inbuilt gondolas is described, as well as surgical trolley adapted for connection to floor-inbuilt gondola.

EFFECT: invention makes it possible to distribute such utilities as electricity, water, gases and to connect to such ports as Ethernet, serial and parallel ports, and other types of wireless communication.

14 cl, 6 dwg

 

The present invention relates to devices and methods that provide a supply of communications and, optionally, security in the home, hospital, laboratory and into other rooms.

BACKGROUND of the INVENTION

The present invention is a multi-function integrated in the floor of the gondola, similar to some extent to be installed outdoor distribution cabinets. Distribution tables are derived from already known to be installed outside tables of security and protection. Available in places where it is difficult to control the traffic, the last type of tables is an obstacle to traffic. The possibility of lowering the tables in the underground chamber allows the transport to pass over the tables. As you know, the raising and lowering of road security tables manually or by mechanical means of moving tables. In U.S. Patent No. 5462384, which issued in the name of Arlandis (Arlandis)described the Autonomous distribution Cabinet with adjustable height. The device, referred to here, is an attempt to offer the cabinets adapted to distribute connections to the communications, for example, for street trading stalls.

Tables, installed indoors must be adapted to use the Oia indoors. In particular, this Cabinet should include the already known function lowering. However, the previous tables for outdoor installation, such as described by Irlandesa have a top surface which is not installed flush with the surrounding floor when the stand is in a lowered position. This makes it difficult to clean the top surface. Moreover, the top "anchor" looks unsightly. Located inside retail outlets, such as grocery stores or retail stores, strive to create for the buyer, these conditions of purchase, when all the technical activities of the shop (for example, distribution of communications) is hidden or unnoticed. In addition, the upper anchor or ledge distribution tables represents a security risk, because people can easily about him stumble.

In addition, tables available inside, should be able to fall and rise using Electromechanical means. Preferably, the tables could vertically to navigate with a remote control that would allow, for example, the Manager of the store to drop at the end of the day, all unused tables store to give the opportunity to wash their upper surfaces, or for other purposes, such as allowing the d the I the transport of goods over them.

Some areas may require further modification of existing structures to provide the functionality of their operation. Sunken gondola in the rooms of hospitals or laboratories can be of great benefit, taking into account the shortage of space and safety considerations. Moreover, several gondolas, embedded in the floor in such areas could vacate the area occupied by the wiring and other communications (representing injury to person due to the fact that he may stumble on the wiring or touch the cable with damaged insulation). The user will be able to choose the optimal point communication, i.e. optimally integrated in the floor of the gondola, if such gondolas will be posted with regard to strategy use workspace.

However, the standard distribution tables cannot be adapted for use in such conditions for security reasons. Same thing, albeit to a lesser extent, applies to the use of the standard distribution tables in retail stores or at home. While the surface which is flush with the surrounding floor, could allow cleaning of the upper part of the tables, random debris from falling on the standard tables of the Il is in adjacent areas can lead to contamination of tables to such an extent, it would be difficult to clean and sterilize. The invention is able to offer a built-in floor gondola, which prevents the penetration of contaminants inside a sunken gondola and into the chamber built into the floor of the gondola, regardless of whether it is in a lowered or raised position, it would be useful. Also available in floor gondola with special connectors or sockets for communication, or even a docking port for any device would also be useful. For example, operating the trolley can be adapted for mating with the raised gondola, completely eliminating the danger of injury due to contact with the cables, since this configuration of the coupling eliminates the need for any connections made cables.

And finally, sunken gondola, which can function as a security device inside of the premises, may be especially useful for retailers, where sunken gondola can help to manage the flow of pedestrians and even prevent the entry of vehicles and equipment in commercial premises. In addition, the protection of heavy equipment located in a warehouse, can be carried out with the help of built-in floor gondolas with the goals of the firm prevent its removal.

TASK AND BRIEF description of the INVENTION

The objective of the invention is to provide a built-in floor gondola able to distribute such communications as electricity, water, gas, and capable of connection with data ports as Ethernet, serial and parallel ports, USB ports and Bluetooth ports and other types of wireless communication).

Therefore, it describes a device that provides the user with the supply of electricity, liquids, gases and connected to the communication lines, such as Ethernet, USB and similar products, in such domestic premises as a house, office building, operating room, hospital, University, laboratory, retail store, restaurant or meeting. This device also releases the floor or other places from unnecessary external cables, wires and hoses.

Another objective of this invention is to provide a built-in floor gondola opportunity to descend and ascend in the vertical direction, thereby establishing the its surface is flush with the surrounding floor in the lowered position, providing the specified moving through Electromechanical means and conducting it directly through the controls on the Cabinet or remotely via wired or wireless connection.

Built-in the floor of the gondola in accordance with this invention provides for such Electromechanical means, as a combination of the reference block and the piston, which, being equipped with electro-pneumatic, electro-hydraulic actuator or, preferably, an Electromechanical motor/generator, lifts similar to Cabinet gondola. The drive control vertical movement of the gondola may be via wired or wireless communication from a location remote from the gondola, for example, from a control unit installed on the wall or on the gondola. These controls will ensure not only the execution of such transfer gondola, but may also provide a means of protection, such as electronic lock to prevent unauthorized use of utility connections.

This gondola is located in the recess under the floor. External communications are brought to the gondola under the floor, thus creating above the floor space free from wires, cables and hoses. In the lowered position, the upper surface embedded in the floor of the gondola, which is somewhat larger than underneath, the recess is a recess, which is adapted to accommodate the upper surface so that it was flush with the surface of the adjacent floor.

In addition, another objective of this invention is to offer ustroennoe the floor of the gondola, which is able to provide protection and security, functioning as a means to control the movement of pedestrians and vehicles. It is also designed to withstand the weight and pressure caused by people or equipment standing on the upper surface built-in floor gondolas or rolls along the upper surface embedded in the floor of the gondola.

Sunken gondola in accordance with this invention secures the anchor bolts to the sub floor or the surface below the subfloor. Such anchoring of this device will be partly to provide the structural strength required for the built-in floor gondolas, which function as device protection/security. Further, a recess built into the floor of the gondola itself is built into the floor of the gondola can be made of materials known for their high tensile strength, compression, shear and other loads, such as steel, reinforcing steel, or even of more lightweight materials such as aluminum or magnesium, while their thickness and the number is well known to provide such resistance. For example, this sunken gondola can be made of polished steel, mounted in the recessed anchor bolts and can be located in the recess in the concrete is the ground floor so when the gondola is in a lowered position, a person weighing 100 kg or more, or any device, weighing up to 300 kg can stay there for a long period of time, for example for one hour, on a surface area of about 80 square centimeters.

The Cabinet can be constructed so that in its extended position it at the expense of additional reinforcement prevented the entry of the vehicle, for example on the territory of the warehouse. This Cabinet may further be adapted to provide funds for emergency shutdown of communications in order to prevent any danger, for example by means of a power sensor that disables the remote controlled valve and/or machine power, if such a sensor is exposed. In those places where it is necessary to control the movement of pedestrians, a number of built-in floor gondolas in the raised position can serve as a clear signal that the input is prohibited. It is assumed that sunken gondola can also use light, sound, or other visual/audio indicators as warning signals. Such signals can warn that the entry is forbidden, or that any component built into the floor of the gondola is defective.

Another objective of this invention is to provide a built-in floor gondola, adapted to prevent the ingress of dirt into the interior of the nacelle or in the recess in which is located the gondola.

Therefore, as an improvement in comparison with the known prototypes built into the floor of the gondola has the ability not only to fall below the floor level, if necessary, clean the top surface or at the time when it is not used, but, sinking into its recess, it provides a surface flush with the floor and seals its perimeter, making it waterproof. The seal on its lower perimeter (when the gondola is lifted) also provides a waterproof seal while the gondola is in the top position. These seals consist of at least one sealing ring with at least one seal, plated embedded in the floor of the gondola in the raised or lowered position. For additional security, it is assumed that within the grooves or on the perimeter of the recess can be placed extra o rings. Thus, sunken gondola designed to withstand contact with large quantities of water or waste, for example using water from fire hoses.

Another objective of this invention is to provide a built-in floor th is down which can be integrated with other built-in floor gondolas in a single network, thus providing plenty of access to communications or other connections, or for other purposes, such as security.

Another objective of this invention is to provide a built-in floor gondola, which may allow you to connect devices that are adapted for connection to the sockets or contacts available on the gondola.

Another objective of this invention is to provide a built-in floor gondola, which can distribute a variety of communication, in particular gases, using a single type of adapter for any sockets or contacts on the gondola.

Another objective of this invention is to provide a method for use of different variants of the embodiment described above embedded in the floor of the gondola in the premises of hospitals and laboratories.

Another objective of this invention is to provide a method of using different variants of the embodiment described above embedded in the floor of the gondola in residential, commercial or industrial premises.

At least one of the above problems solved completely or partially in this invention. Other objectives will become clear from the following description and formalisable.

BRIEF DESCRIPTION of DRAWINGS

To better understand the present invention it is possible by consideration of the accompanying drawings. It should be noted that this invention is not limited to the precise variant of the embodiments represented in the drawings, where:

figure 1 shows a side cross-section of the lift in the raised position;

figure 2 shows a lateral cross section of the nacelle shown in figure 1, in a lowered position;

figure 3 shows a perspective view of the gondola, showing lateral expansion connectors and the side of the nest;

figure 4 shows a side view of the attachment between the upper surface of the nacelle and the lower part of table anesthetic;

figure 5 shows a side view of an alternative embodiment of the coupling of the upper surface of the nacelle and the lower part of the table anesthetic;

figure 6 shows a perspective view of an alternative embodiment of the gondola, showing lateral expansion connectors and the side of the nest.

A BRIEF description of the numerical DESIGNATIONS

100 - sunken gondola; 102 - the upper surface built-in floor gondolas; 104 - lateral and top sleeve built into the floor of the gondola; 104' - side and the lower sleeve built into the floor of the gondola; 106 - support unit; 108 - cylinder; 110 - internal recess built into the floor of the gondola; 112 - piston; 114 - anchor; 116 - usage is sustained fashion mechanism; 118 - the lower terminal and the surface of the subfloor; 120 - floor; 122 - floor basis; 132 - seal upper lip; 132' seal of the lower lip; 200 nests; 200' wires, cables, hoses; 202 - universal docking socket; 204 - connectors; 206 - universal docking connector; 208 - docking connectors; 210 nests; 212 receptacle; 214 - valve; 220 - gas; 222 - water; 224 - electricity; 226 - unit adapter/switch; 228 - cell adapter/switch; 230 - cell adapter; 232 - wire/hose/cable; 234 - socket adapter; 236 connector; 238 control unit; 240 - switch/multiplexer; 242 - rail adapter communications; 244 - directing on/off for the control unit; 250 truck.

DETAILED description of the INVENTION

In General, a typical embodiment of the present invention includes a gondola with connections of various communications. This gondola is usually the first panel communications, which provides the distribution for supply networks negatory substances, such as electricity or data line. Then this car should also have a second panel generally opposite the first panel, which distributes the gaseous substances such as oxygen, and/or provides adapters for suction machines, including vacuum. The second panel of networks gaseous substances and communications for the extraction usually is predstavljaet one unified, universal type adapter. The choice of the universal adapter simplifies operation and increases the speed of replacement connectors. The universal adapter can be plug-in type, such as a hose barb design Ohmeda or female type, as fitting for a hose construction Schrader (rotary or rotary), or female versions of the same fittings for hose connection. Also considered the possibility of using other types of universal adapters, such as the design of the fittings NPT type Ohmeda or Schrader (both plug and socket type). Can also be used a universal adapter design Chemetron and Puritan. Preferred is the use of fittings company Schrader.

In a preferred variant embodiment of the nacelle 100 is shown in cross section in the recesses 110 in figure 1 (in raised position) and figure 2 (in lowered position). Gondolas 100 are located directly in the floor covering 122, which may be made of any standard material used for the subfloor, such as concrete or stone. Gondolas are located in recesses formed, for example, by cutting with the use of coolants, and fixed anchors below the floor material 122 and 118 of the anchor embedded in the floor of the gondola 114. The piston 112 within the cylinder 108 and the reference block 106 is used for raising or lowering the andali 100 using lifting forces, those that are liquid using either electro-pneumatic, electro-hydraulic or Electromechanical generator 116. The nacelles 100 has outer side sleeve 104, the inner side sleeve 104'. Any external surface of the nacelle 100, such as the side sleeve 104 or the upper surface 102 may be adapted to provide communication or means for interfacing with devices such as specially designed surgical trolley, providing, thus, the flow of communication for these and other devices - such as 200, 202, 204, 206, filed by cable 200', the wire 200' or hose 200'. As can be seen in figure 2, the upper surface 120 of the floor covering is flush with the top of the nacelle 102 when the latter is in a lowered position.

The exterior is similar to the coil surface 104 with seals 132 and 132' acts in such a way as to enhance the resistance of the connection. The seal 132', which can be located along a portion or along the entire length of the sides 104, provides a waterproof seal when the gondola 100 raised, and the seal 132 provides a waterproof seal when the gondola 100 is omitted. These seals can be made of any material known for excellent abrasion resistance and water resistance, such as material is s, used for o-ring Buna-N (suffix), which are copolymers of butadiene and Acrylonitrile. They can also, in a preferred variant embodiment, be made of materials used for the production of ethylene propylene diene monomer (EPDM, EPR, EP) o-rings, which are copolymers of ethylene and propylene, or terpolymers with butadiene. The latter has an excellent water resistance. Other materials that are typically used to provide water resistance, and have good performance wear, can also be used. The reference block 106 provides additional structural strength of the nacelle 100.

Figure 3 presents a perspective view of one preferred variant embodiment of the nacelle 100, showing the spool shape of the upper and lower parts and sides connecting socket 202 and the side of the socket 200. The gondola is lifted above the floor 120.

Figure 4 shows the relationship between the first set of connectors 206 of the plug type on the side of the docking panel truck 250 and socket 202 on the side of the nacelle 100 during a connection, or when the gondola is in a lowered position. The slots 202 are designed to ensure connection with surgical trolley adapted for mating. Shows the interaction between the second set of connectors breeding the type 200 and the external connection 204, for example with electrical equipment. The connector 200 is designed so that it can be used to connect various communications. In alternative embodiments of connectors can be reversed, in this case, the connectors plug type 206 and/or 204 are replaced with female connectors, and connectors socket type 202 and/or 200 are replaced plugs plug type. The female connectors type 200 and 202 are attached under the floor 120 to various communications. For this variant embodiment it is preferable that the connectors plug and socket type, providing a flow of gases and runoff, would be a generic type, for example a universal adapter can be used for all connections gas/vacuum.

Figure 5 shows an alternative embodiment of the gondola. Shows the interaction between the connection plug type 208 on the docking bar at the bottom truck parts 250 and 210 nests within the upper part of the nacelle 100 in the connection process or in a lowered position. These connectors can be reversed in alternative embodiments, where the connectors plug type 208 is replaced by a connector socket type, and the female connectors type 210 replaced plugs plug type. Under the floor 120 of the slot 210 are connected by hoses to oxygen, vacuum, nitrous oxide, and cables are connected to the source e is truenergy. In an alternative embodiment of the connector plug and socket types can be generic type, for example a universal adapter is used to connect to all the networks.

Figure 6 shows a close-up of the upper surface of an alternative embodiment of the nacelle 100, shown in figure 5, which shows the sealed compartment, the opening of the socket 210 due to the presence of delayed automatic door or flap 214. When the door 214 is closed, it is sealed and provides resistance so that the upper surface can be washed. The upper edge of the nacelle 100 also provides a tight connection with the floor 120 (not shown), thereby preventing seepage of water down the sides of the device. Designed for use in hospital socket 212 is also provided for equipment which may be located on an elevated gondola 100 (in addition to trucks, for example, 250, which requires a connection to the communications).

In the above description of the specific terms and images are used to illustrate the preferred embodiment. But we should not assume that the used terms or illustrations represent any unnecessary restrictions in addition to show the previous prototype and, because the terms and illustrations are only examples and do not seek to limit the scope of the present invention. In addition, the present invention can have other modifications without departure from the scope of the present invention specified in the claims.

1. Multifunctional used indoors sunken gondola variable height, adapted for connection to a communication containing:
moved vertically, waterproof in the lowered or raised position, inserted into the recess in the floor Cabinet having outer design, which is adapted to provide communication, and the outer structure has an upper surface, the upper surface of the outer structure forms a surface flush with the floor when the stand is in a lowered position, and
the upper and lower sealing lip, which is adapted to provide a watertight seal when the stand is lowered or raised,
the inner construction, which is adapted to receive communications via connections under the floor and has an electrical mechanism to move tables vertically.

2. Sunken gondola according to claim 1, in which the electric mechanism is driven by a motor, electro-pneumatic g is pratorum, Electromechanical or electro-hydraulic generator generator.

3. Sunken gondola according to claim 1, in which communication is provided by the presence of nests for the connection.

4. Sunken gondola according to claim 1, in which communication is provided by the presence of connectors.

5. Sunken gondola according to claim 1, in which any of these utility connections provided by universal adapter adapted to the gas supply, vacuum, suction means for aspirating and other similar communications.

6. Sunken gondola according to claim 1, in which communication is provided by the port, containing any combination of sockets, connectors and universal adapters.

7. Sunken gondola according to claim 1, in which the specified electric mechanism by a control box with a wired or wireless connection, allowing the user to set the built-in floor gondola at the top/bottom position.

8. Sunken gondola according to claim 1, in which the upper surface is made of non-porous materials that allow sterilization.

9. Sunken gondola according to claim 1, in which the plug of communication can be represented by any combination of electricity, water, gas, data ports, such Ethernet, serial and parallel ports, USB ports and Bluetooth ports and other types of wireless communication), and connections for purging, such as the connection for the suction or vacuum.

10. Sunken gondola according to claim 1, in which the pedestal is configured to dock with the device, adapted for connection with any such communications by placing these devices on the Cabinet or rolling the said device on the nightstand.

11. A set of built-in floor gondolas containing at least two embedded in the floor of the gondola according to claim 1.

12. The combination according to claim 11, in which the mentioned electric mechanisms embedded in the floor of the gondola are controlled by the control unit via a wired or wireless connection, allowing the user to set the built-in floor gondola at the top/bottom position.

13. Surgical trolley adapted for interfacing with a sunken gondola according to claim 1.

14. Surgical trolley according to item 13, costacabana with built-in floor gondola according to claim 1.



 

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