RU2391036C1 - Garbage recipient - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: device is designed to receipt garbage into suction system of garbage collection using components of central vacuum system. The device contains recipient and box with ability if smooth traveling in the recipient between closed and opened positions. The form of external box periphery corresponds the form of internal periphery of the recipient. The box contains bottom and walls directed upwards from the bottom. The bottom and the walls determines borders of the chamber which let air through to the suction hole in the rear part of the recipient when the box is opened and exhaust goes to the hole. The device contains sealing configured to provide hermitic closing of the suction hole when the box is closed. Electric switch of the device has an ability to operate between "off" position when the box is closed and "on" position when the box is opened. The recipient closes the chamber when the box is closed. The base plate is connected to the recipient along the box bottom in the way that the closed box is protected inside of the recipient and base plate. The base plate has a hole inside of itself, and the hole forms suction port in the rear part of the base plate. The sealing provides hermetic closing of the hole in the base plate when the box is closed.

EFFECT: simplification of garbage removal from the floor, table tops, operating surfaces, desks, workbenches and similar operating surfaces.

13 cl, 27 dwg

Description

Central vacuum systems, used in increasing numbers in homes and businesses, provide a centralized collection of garbage and eliminate the need to move a heavy motor and bag or collection container during cleaning. These systems are designed to provide suction in many different areas in homes, offices and other buildings. In a typical conventional central vacuum system, access to suction openings located in walls and other hidden places is through long portable hoses that fit into the openings. Garbage is collected through hoses in much the same way that garbage is collected using a portable vacuum cleaner, needless to say, except for the need to move the motor and bag or collection container.

So, from the patent of Canada No. 675552, publ. 12/10/1963, there is known a device for receiving garbage into a suction system for collecting garbage, the device comprising a receiving element, a box configured to smoothly move in the receiving element between the closed position and the open position and having a bottom and walls extending upward from the bottom, and a switch configured to function between the “off” position when the box is in the closed position and the “on” position when the box is in the open position, the bottom and walls being determined ranitsy chamber through which air can pass to the suction opening at the rear of the receiving member, when the drawer is in an open position and suction is supplied to the hole. However, such a device has all the disadvantages of similar known devices.

Embodiments of the present invention have been developed to facilitate the removal of debris from floors, countertops, work surfaces of desks, workbenches and work surfaces of similar types by using components of a central vacuum system.

This goal is achieved due to the fact that the device for receiving garbage in the suction system of collecting waste according to the invention contains a receiving element; a box configured to smoothly move in the receiving element between the closed position and the open position, the shape of the outer periphery of the box corresponding to the shape of the inner periphery of the receiving element, and the box includes a bottom and walls extending upward from the bottom, the bottom and walls defining the boundaries a chamber through which air can pass to the suction port in the rear of the receiving element when the box is in the open position and vacuum is applied to the port; a seal configured to tightly close the suction port when the box is in the closed position; and an electric switch configured to function between the “off” position when the box is in the closed position and the “on” position when the box is in the open position.

Preferably, the receiving element closes the chamber when the box is in the closed position, and the device further comprises a base plate attached to the receiving element along the bottom of the box so that the box is substantially enclosed within the receiving element and the base plate when the box is in the closed position.

Preferably, the receiving element comprises a pallet whose shape substantially matches that of a box.

Preferably, the base plate has an opening formed therein, forming a suction hole, wherein the hole is located at the rear of the base plate, and the seal comprises a seal configured to seal the opening in the base plate when the box is in the closed position.

The device may further comprise a lid attached to the receiving element so that the camera will be completely closed by the lid when the box is in the closed position, and the camera will only be partially closed by the lid when the box is in the open position.

Preferably, the switch is a rocker switch attached to the receiving element in such a way that moving the box from the closed position to the open position causes the switch to be turned on, and moving the box from the open position to the closed position causes the switch to be turned off .

Preferably, the box is open from edge to edge of the front of the camera.

Preferably, the box further includes a pressure unit located along the front of the camera.

Preferably, the box further includes a front end wall extending across the front of the chamber between the front ends of the side walls.

The device may further comprise a releasable latch functionally connected between the receiving element and the drawer to hold the drawer in the closed position until the latch is released.

The device may also further comprise a biasing mechanism operably connected between the receiving element and the box, the biasing mechanism being configured to bias the box to an open position.

The invention will now be explained in more detail with reference to the accompanying drawings, in which:

Figure 1 is a view of a cabinet with a drawer in accordance with one embodiment of the invention, designed to receive garbage from the upper surface of the countertop.

2 is a view of a countertop debris collection system in accordance with one embodiment of the invention.

3-6 are perspective views of a garbage collection device in accordance with one embodiment of the invention.

Fig.7 is a detailed, made with a spatial separation of the elements in a perspective view of the receiver and the lid of the box in the device of Fig.3-6.

Fig. 8 is a detailed perspective view of a box in the device of Figs. 3-6.

Fig.9 is a view of another variant implementation of the box, which can be used in the device of Fig.3-6.

10 and 11 are cross-sections that illustrate the collection of debris from a countertop by using one embodiment of the invention.

12 is a view of a cabinet in accordance with one embodiment of the invention for receiving debris from a floor.

13-15 are perspective views when viewed from above on the upper surface of the garbage collection device in accordance with another embodiment of the invention.

Fig. 16 is a detailed perspective view of the device of Figs. 13-15. In a perspective view of FIG. 16, the device is turned upside down so that it is shown in such a view when viewed from above on the lower surface of the device to better illustrate the elements of this embodiment.

Fig - detailed, made with a spatial separation of the elements in a perspective view of the box in the device of Fig.13-16.

Fig. 18 is a plan view from above of a box in the device of Figs. 13-16.

Fig.19-20 - views in plan from below of the device of Fig.13-16, showing the operation of the rocker switch.

Fig.21-27 - views in plan on an enlarged scale of part of the device of Fig.13-16, showing the operation of the unlockable latch, which holds the box in the closed position.

By “drawer” in this description is meant a retractable receiving container that opens by pulling or pushing and closes by pushing or pulling; “Opening” means an opening for suction or discharge of air; “Sealing” means a device (device) that prevents the passage of air into a channel or container; “Suction” means reduced air pressure or the action or process of applying force to a solid, liquid or gaseous body due to reduced air pressure; and “valve” means a device by which the flow of liquid, gas or bulk material can be started, stopped or controlled by a movable part that opens, closes or partially closes the hole or channel.

Figure 1 illustrates one embodiment of a cabinet 10, such as could be used in various places in a home or in an enterprise. As shown in FIG. 1, the cabinet 10 includes a base 12, a countertop 14 on the base 12, and a garbage collection device 16 mounted in the base 12 directly below the table top 14. The reception device 16 includes a drawer receiving element 18 fixed in the base 12 and a waste bin 20 that moves in the receiving element 18. The pipe (channel) 22 extends from the suction hole 24 at the rear side of the receiving element 18 to the central vacuum device (not shown in FIG. 1). The suction hole 24 is usually any suitable hole in the receiving element 18, which provides the possibility of a situation in which the vacuum (suction) supplied by the central vacuum device through the pipe 22 reaches the drawer 20 when the drawer 20 is open. A seal 26 is located at the bottom of the drawer 20 to close the suction opening 24 when the drawer 20 is closed, and to seal the opening 24 when the vacuum is applied to the opener 24. Therefore, when the drawer 20 is closed, the central vacuum device can suck in air through other suction openings if they are available in the central vacuum system. The switch 28 can be used to automatically turn on the central vacuum device when the drawer 20 is open, and to automatically turn off the central vacuum device when the drawer 20 is closed. The switch 28 is essentially any suitable electrical, electronic, optical or other switching device and circuits that are actuated to turn on the central vacuum device when the drawer 20 is open, and to turn off the central vacuum device when the drawer 20 is closed. If the central vacuum system includes other suction openings, the switch 28 is configured to allow the central vacuum device to operate when the drawer 20 is closed.

The seal 26 in the box 20 functions as a valve that initiates and stops the air flow through the box 20 into the duct 22. If the box 20 is closed, the seal 26 closes and when vacuum is applied to the opening 24, hermetically closes the suction hole 24 so that air will not pass through box 20 into conduit 22 when vacuum is applied to opening 24. If box 20 is open, suction port 24 is also open, so that air will pass through box 20 to conduit 22 when vacuum is applied to opening 24. Air velocity The drawer through box 20 into conduit 22 can be increased by minimizing the flow of air into the receiving element 18 and conduit 22 not through the open drawer 20. Air will also pass faster through drawer 20 when drawer 20 is more closed and slower when box 20 will be more open. Therefore, when the drawer 20 is closed, the air flow rate increases, which helps the debris in the drawer 20 to be sucked back into the pipe 22. As shown in FIG. 1, the sides of the drawer 20 can be chamfered backward behind the garbage entry area so that help ensure faster airflow and direct debris to the suction port 24. Drawer 20 can also be tapering between the top and bottom toward the back to help ensure faster airflow for the area of garbage input.

FIG. 2 is a block diagram illustrating a vacuum system 30 for collecting debris from a countertop using, for example, a cabinet 32 similar to the cabinet shown in FIG. 1. As shown in FIG. 2, system 30 includes an engine 34, a vacuum pump 36, a collector 38, and a piping system 40, typically used in conventional central vacuum systems. The system 30 also includes a waste receptacle 42 mounted in the cabinet 32. The receiver 42 includes a drawer receiving element 44 fixed in the cabinet 32 and a waste collection box 46 that moves in the receiving element 44. The piping system 40 in the system 30 typically includes a plurality of conduits 40a-40e for a plurality of suction openings 48a-48e, in addition to the conduit 50 extending to the suction opening 52 in the cabinet 32. A seal 54, operatively connected to the box 46, seals the suction port stie 52 when drawer 46 is closed and suction is supplied to port 52. The switch 56 operatively connected to drawer 46 automatically turns on pump 36 by using the power supply 58 when drawer 46 is opened and automatically turns off pump 36 when drawer 46 is closed.

In operation, opening the drawer 46 causes the suction port 52 to open and the switch 56 is turned on to start the vacuum pump 36. The pump 36 provides a vacuum to the opening 52 at the rear of the intake element 44 through the pipe 50. Any debris that has been swept away from the upper surface of the cabinet 32 or was otherwise dropped into an open box 46, is sucked through the back of the box 46 into the receiving element 44 and then into the pipe 50 through the suction hole 52 and further to the collector 38. Closing the box 46 ra ot closing the suction port 52 and the transfer switch 56 in the off position of the vacuum pump 36.

FIGS. 3-6 are perspective views of a garbage collection device 60, such as can be used in the cabinets 10 and 32 of FIGS. 1 and 2. FIG. 7 is a detailed, spatially separated perspective view showing a receiving an element for a box and a lid from the device of FIGS. 3-6. Fig. 8 is a detailed perspective view of a box from the device of Figs. 3-6. As shown in FIGS. 3-8, the receiving device 60 includes a receiving element 62 for a box, a garbage collection box 64 that moves in the receiving element 62, and a lid 66 attached to the receiving element 62. The receiving element 62 forms essentially Y- a shaped cell (compartment) 68 bounded by a bottom 70, a cover / overlap 66, side walls 71 and 72, and a rear end wall 73. A hole 74 in the bottom 70 of the rear of the cell 68 forms a suction hole 76 (see FIG. 4), which can be connected to a piping system in a vacuum system. In the embodiment shown, as best seen in FIGS. 4 and 7, the suction port 76 is configured in a manner similar to a stepped cylinder, protruding downward from the bottom 70 for connection to a circular tubular conduit. Needless to say, other suction port configurations are possible.

As can also be seen in FIGS. 4 and 7, the cover 66 corresponds in shape to the uppermost flat profile of the receiving element 62. The cover 66 is attached to the flanged edge 78 along the side walls 72 of the receiving element 62 with screws 80. A groove 82 can be formed along the flanged edge 78. as shown in Fig. 7, which is designed to hold the gasket, and which includes a protrusion made on the underside of the cover 66 (not shown) to facilitate the tight connection of the cover 66 with the receiving element 62. Other accessories may be used dnye fasteners or methods of attachment and seal. The cover 66 can also be made as an integral part of the receiving element 62 instead of using two separate parts shown in the figures. As best seen in FIGS. 4 and 7, the electric on-off switch 83 is located at the rear of the receiving element 62 near the front of the suction hole 76. The switch 83 is mounted in a small forward-facing wall 85 formed in the rear of the receiving element 62. Of course of course, other locations of the switch 83 are also possible.

As shown in FIGS. 6 and 8, the box 64 forms a substantially Y-shaped chamber 84, the boundaries of which are defined by a bottom 86, side walls 87 and 88, and a front end wall 90, which extends across the front of the box 64 between side walls 87 and 88 As best seen in FIG. 6, the outer shape of the drawer 64 closely matches the internal shape of the receiving element 62, so that the box 64 is located inside the receiving element 62 completely under the lid 66 when the box 64 is closed. In the shown embodiment, the outer peripheral side walls 91 and 92, which extend parallel to the side walls 87 and 88 of the chamber along the “legs” of the letter Y, form the outer periphery of the box 64 along this rear end. The short rear end walls 93, 94 extend between the side walls 87, 91 and 88, 92 at the rear of the box 64. The outer peripheral side walls 91 and 92 provide reinforcement to the side walls 87 and 88 of the camera and the rear end walls 93 and 94. One of the rear the end walls 93 and 94 are used as an abutment at the rear of the box 64 to switch the switch 83 (see FIG. 7) to the “off” position when the box 64 is closed. For the switch 83 located at the rear right side of the receiving element 62, as shown in Fig.7, the rear end wall 94 is used as a stop.

As shown in FIG. 8, the wider front of the drawer chamber 84 forms a reservoir 96 into which debris is swept away when the drawer 64 is open. The narrower rear of the chamber 84 forms a channel 98, through which debris is directed from the reservoir 96 to the exit 100 at the rear of the box 64. The air passing through the chamber 84 is accelerated when it passes from the wide front with gradually tapering side walls 87, 88 into the narrow channel 98 to facilitate the movement of debris towards the suction port 76 (see FIG. 4). The narrowing side walls 87, 88 of the Y-shaped chamber 84 also make it possible to exclude deep angular zones, which facilitates the easier movement of debris along the side walls from the tank 96 to the channel 98. In addition, when the box 64 closes and the vacuum is applied to an ever-decreasing volume of incoming air, the action of the vacuum in the chamber 84 is greatly enhanced, which makes it virtually impossible situation in which any garbage remains in the box 64 after it is closed.

As shown in FIG. 8, two guides 102 formed along the bottom 86 of the drawer 64 slide in the guide grooves 104 formed in the bottom 70 of the receiving element 62 (see FIG. 7) to help maintain a proper alignment of the box 64 in the receiving element 62. A rubber cover 106 worn on a tab 108 protruding from the rear of the box 64 closes the suction port 76 (see FIG. 4) when the box 64 is closed. The cover 106 serves as a valve that initiates and stops the flow of air through the chamber 84. When the box 64 is closed, the cover 106 closes the hole 76 and when applying vacuum to the hole 76 hermetically closes the suction hole 76 so that air will not pass through the chamber 84 Two blocks 110 located on both sides of the channel 98 can be used in the box 64, if it is necessary or desirable to reduce the volume of air in the tank 96 and, thereby, increase the speed of the air passing through the tank 96.

FIG. 9 illustrates another embodiment of a box 112 that can be used in a receiving device, such as the device shown in FIGS. 3-6. As shown in FIG. 9, the drawer 112 is substantially the same as the drawer 64 shown in FIG. 8, except that the drawer 112 includes an inclined surface 114 defining an inclined transition from the front end wall 90 down to the bottom 86 , with a concave hollow area on the underside (not shown), intended to be used as a gripping area with your fingers to open the drawer, and one unit 116 located in front of the channel 98 to reduce the volume of air and increase the speed of air passing through the reservoir 96. Front and rear side of block 116 ck osheny so as to facilitate the direction of debris around block 116 and then into channel 98.

10 and 11 are sections that illustrate the collection of debris from a countertop by using one embodiment of the invention. As shown in FIGS. 10 and 11, the garbage collection device 118 is installed in a cabinet 120 having a countertop (upper surface) 122. The device 118 is located directly below the worktop 122. The reception device 118 includes a drawer receiving element 124 and a garbage collection box 126, which moves smoothly in the receiving element 124. The suction hole 128 in the rear of the receiving element 124 allows air to pass into the vacuum pipe 130. In this embodiment, the seal 132 is sealed in the bottom of the receiving element 124 so that it surrounds the suction port 128. When the box 126 is closed (see FIG. 10) and vacuum is applied to the suction port 128, the bottom of the box 126 is sealed against the seal 132 to prevent air from flowing through the opening 128 into the conduit 130. When the box 126 open (see 11), the garbage 134 falling into the box 126 is immediately sucked through the suction hole 128 into the pipe 130 and further to the collector in the Central vacuum system.

The vacuum acting on the particles of the garbage 134 when they fall into the box 126, and before these particles collide with the bottom of the box 126, helps to minimize the resistance (braking) that must be overcome to move the particles towards the suction port 128. In addition Moreover, after sweeping away the garbage 134 into the box 126 and after the closure of the box 126 has begun, the vacuum applied to the particles of the garbage 134 is greatly increased in order to facilitate the suction of all the garbage 134 located in the box 126 into the conduit 130. While airflow can vary depending on the vacuum (suction force) created by the vacuum pump, the size of the pipe / suction port, the size of the channel opening in the drawer, and the “efficiency” of the receiver, it is expected that a typical household vacuum pump, generating a capacity of 350-1000 watts on the pump will create proper flow through the waste bin if the ratio of the open area of the open box to the cross-sectional area of the pipe / suction opening is in the range from 14: 1 to 92: 1. For example, in drawer 126, which has a nominal depth of 1 inch (25.4 mm), a distance across the chamber tank 96 of 11 inches (279.4 mm), which is reduced to a channel width 98 of 1 inch (25.4 mm) ) (tank 96 and channel 98 are shown in FIGS. 8 and 9), and opens up to a maximum of 6 inches (152.4 mm) along the parallel side walls, the ratio of the open area of the fully open drawer 126 and the cross-sectional area of the suction hole 128 with a diameter of 1 inch (25.4 mm) is 84: 1. In this regard, it is expected that the vacuum generated by a typical household vacuum pump will allow air to be sucked into a suction port 128 with a diameter of 1 inch (25.4 mm) through a reservoir 96 of a box at a speed of at least 1000 feet per minute (304 8 m / min). This flow rate increases as the ratio between the area of the open box and the cross-sectional area of the suction hole decreases (at the same depth of the box). When drawer 126 approaches full closure, air is drawn in through reservoir 96 at a speed of over 10,000 feet per minute (3048 m / min). Even if these flow rates are reduced by 30%, which affects the airflow into drawer 126 (which reflects a 70% “efficiency” of airflow to intake 118), it is still expected that actual flow rates will be appropriate for sucking up debris through box 126 and into the suction port 128.

12 illustrates another embodiment of such a cabinet 140 that can be used in various places in a home or in an enterprise. As shown in FIG. 12, the cabinet 140 includes a base 142, a countertop 144 on the base 142, and a garbage collection device 146 mounted at floor level 148 in a pocket-like recess 150 in the base 142. The reception device 146 includes a receiving element 152 for the drawer, fixed in the base 142 or attached to the floor 148, and a garbage box 154, which moves smoothly in the receiving element 152. The pipe 156 passes from the suction hole in the rear of the device 146 to the central vacuum device. As described in more detail below, a seal is located at the bottom of the box 154 for closing and sealing the suction hole when the box 154 is closed and vacuum is applied to the hole. Therefore, when the drawer 154 is closed, the central vacuum device can provide air intake through other suction openings, if any, in the central vacuum system. An electrical switch is used to automatically turn on the central vacuum device when the drawer 154 is open, and to automatically turn off the central vacuum device when the drawer 154 is closed.

FIGS. 13-15 are perspective views of the garbage collection device 146. FIG. 16 is a detailed, spatially separated perspective view of the device 146. In the perspective view of FIG. 16, the device 146 is turned upside down so that it is shown in a view as seen from the top of the bottom surface of the device 146. As shown in FIGS. 13-16, the receiving device 146 includes a receiving element 152, a box 154 that smoothly moves in the receiving element 152, and a base plate 158 (FIG. 16) attached to the receiving element 152. As shown in FIG. 16, the base plate 158 covers the bottom of the receiving element 152 and the drawer 154. The receiving element 152 forms a substantially Y-shaped cell 160, the boundaries of which are defined by the overlapping element 162, the bottom / base plate 158, the side walls 164 and 166 and the rear end wall 168. The base plate 158 is attached to a flanged edge extending along the side walls 164, 166 of the receiving element 152, screws or other appropriate fasteners. The base plate 158 can also be made as an integral part of the receiving element 152 instead of using two separate parts shown in the drawings.

A hole in the bottom 158 at the rear of the cell 160 forms a suction hole 172 that can be connected to a piping system in a vacuum system. The suction port 172 is essentially any suitable opening in the device 146 that allows the vacuum provided by the central vacuum device (for example, via line 156 in FIG. 12) to reach the drawer 154 when the drawer 154 is open. In the shown embodiment, the suction hole 172 is configured with a cylinder-like protrusion downward from the bottom 158 for connection with a circular tubular conduit. Other configurations of the suction opening 172 are possible. If the bottom / base plate 158 is excluded and the receiving element 152 is attached directly to the underside of the cabinet or directly to the floor of the room, then the suction opening 172 may be formed on the underside of the cabinet or in the floor.

An electrical on / off switch 174 is located in the side wall 164 of the receiver 152. The switch 174 is used to automatically turn on the central vacuum device when the drawer 154 is open, and to automatically turn off the central vacuum device when the drawer 154 is closed. The operation of the rocker switch 174 is described in more detail below with reference to FIGS. 19 and 20. The rocker switch 174 is only one example of a suitable electrical on / off switch. The biasing mechanism 176, connected in the operating position between the receiving element 152 and the drawer 154, constantly draws the drawer 154 toward the open position when the drawer 154 is not fully open. In the shown embodiment, which is just one example of a suitable biasing mechanism, the biasing mechanism 176 includes a coil spring type compression spring 178 attached to the receiving element cover member 162 and acting on the box 154 via a tracking member / rod 180 that protrudes up through the slot 182 in the overlapping element 162 of the receiving element. When the drawer 154 is in the closed position shown in FIG. 13, the rod 180 is located at a shorter distance from the axis 184, around which the spring 178 is coiled and deployed, and, accordingly, the spring 178 is in the position in which it is folded to a greater extent and acts with a greater opening force on the box 154 through the rod 180. When the box 154 is in the fully open position shown in Figs. 14 and 15, the rod 180 is at a greater distance from the axis 184 of coiling the spring with a spiral, and, accordingly, pr dinner 178 will be in a position in which it is less curled and acts with less opening force on the box 154 through the rod 180.

As shown in FIGS. 17 and 18, the box 154 forms a substantially Y-shaped chamber 186, the boundaries of which are defined by the bottom 188 and the side walls 190 and 192. The outer shape of the box 154 corresponds to the internal shape of the receiving element 152, so that the box 154 is placed inside the receiving element 152 (see FIG. 16) when the drawer 154 is closed. The wider front of the drawer chamber 186 along the “branches” of the letter Y forms a reservoir 194 into which debris can be swept away when the drawer 154 is open. The narrower rear of the chamber 186 along the “legs” of the letter Y forms a channel 196, through which garbage is directed from the reservoir 194 to the exit 198 at the rear of the box 154. The side walls 190 and 192 are made inclined along the channel 196 from the narrower part 197 at the tank 194 to the wider part 199, which extends to the exit 198 in order to maximize the speed of the air passing through the narrower part 197. The side walls 190 and 192 are shaped on each of two rounded corners 200 along the “branches” of the letter Y. Shaped surface 202 every corner 200 is inclined upward from the bottom 188 and tapers in each direction when offset from the center of the angle 200 until the inclined surface 202 passes into a substantially vertical side wall. The contoured surfaces 202 minimize opening to the impact of flat areas on the upper surface of the drawer 154, on which debris might otherwise be swept away when the drawer 154 is open.

A cover 204 worn on a tongue 206 protruding from the rear of the box 154 closes the suction hole 172 (FIG. 16) when the box 154 is closed. The cover 204 serves as a valve that initiates and stops the flow of air through the chamber 186. When the box 154 is closed, the cover 204 closes the hole 172 and when applying vacuum to the hole 172 hermetically closes the suction hole 172 so that air will not pass through the chamber 186 A pressure unit 205 may be formed on one or both sides of the front of the drawer 154 so as to make it easier for the user to push the drawer 154 with the foot to open and close the drawer 154.

Figs. 19 and 20 illustrate the operation of the on / off rocker switch 174. Figs. 19 and 20 are plan views when viewed from the lower side of the garbage collection device 146 with the base plate 158 (Fig. 16) removed to show the receiving element 152 and the drawer. 154. As shown in FIGS. 19 and 20, the rocker switch 174 is mounted almost flush with the inner surface of the side wall 164 of the receiving element. The channel zone of the box 154 is placed in a predetermined position in the channel zone of the receiving element 152 by the side wall 192 of the box on one side and by a flanged edge 208 that projects outward from the side wall 190 of the box, on the other hand. A curved protrusion 210 on the side wall 190 under the flanged edge 208 causes the rocker switch to move back and forth (in the "on" and "off" position) when the drawer 154 opens and closes, as best seen when comparing Figs. 19 and 20. (A curved protrusion 210 is also shown in FIG. 17). The relative positions of the curved protrusion 210 along the side wall 190 of the box and the switch 174 along the side wall 164 of the receiving element can be adjusted to turn the vacuum source on and off by the switch 174 at a given position of the box 154. For example, in the configuration shown in FIGS. 19 and 20, the switch 174 is turned to the on position to turn on the vacuum device when the suction hole 172 (FIG. 16) starts to open, and accordingly, the switch 174 is turned to the off position To turn off the vacuum device, when the suction hole 172 almost closed.

Figs. 21-27 illustrate the operation of a releasable latch 212 that holds the drawer 154 in the closed position. Figs. 21-27 are plan views taken when looking at the lower side of the end provided with the channel of the garbage collection device 146 with the base plate 158 (Fig. 16) removed to show the receiving element 152 and the drawer 154. As shown in Figs. .21-27, the latch 212 includes a groove 214 in the overlapping element 162 of the receiving element, a pin 216 attached to the flanged edge 208 of the drawer, and a sequence of boundaries 218 of the entry zones and stops 220 in the front of the groove 214. The groove 214 includes an elongated plot 222 having essentially the straight parallel sides, which opens into the onion-shaped "head" section 224, having curved sides at the upstream end of the groove 214, which corresponds to the essentially closed position of the box 154. (The groove 214 is shown in Fig.13-15, if you look down on the upper side of the receiving element overlapping element 162.) The locking pin 216 is attached to the flanged edge 208 of the box so that it can rotate on the bulbous head portion 224 of the groove 214, as described below. (A pin 216 attached to the flanged edge 208 is also shown in FIGS. 17 and 18.) The pin 216 and the groove 214 are located relative to each other so that the pin 216 moves along the groove 214 when the box 154 moves back and forth between closed and open provisions.

As shown in FIGS. 21-22 and 27, as the drawer 154 moves toward the closed position, the pin 216 is guided along the curved outer side 226 of the groove head portion 224 through the first surface 228 that intersects the groove 214 in the transition zone from the straight portion 222 to the head section of the groove 224. The first intersecting surface 228 is a portion of a substantially heart-shaped pad 230 located on the head portion 224 of the groove. The first intersecting surface 228 serves as the first boundary 218a of the entry channel 232 around the area 230. As shown in FIGS. 23-24 and 27, as the drawer 154 moves inward “past” the closed position, the pin 216 reaches the end of the groove 214 at the first emphasis 220a. When the box 154 is released from this position at the stop 220a and moves back towards the open position when the biasing mechanism 176 is pressed (Figs. 13-15), the pin 216 is directed downward into the recess 234 formed at the upstream end of the platform 230 by means of a second the intersecting surface 236. The second intersecting surface 236 serves as the second boundary 218b of the entry zone of the recess 234. The recess 234 serves as the second stop 220b.

Drawer 154 is opened by pushing onto closed drawer 154. As shown in FIGS. 25-26 and 27, as the drawer 154 is pushed past the closed position, pin 216 is guided toward the end of groove 214 at third stop 220c via a third intersecting surface 238. The third intersecting surface 238. surface 238 serves as the third boundary 218c of the passage zone to the abutment 220c. When the drawer 154 then unlocks and moves toward the open position when the biasing mechanism 176 is pushed, the pin 216 is guided along the curved inner side 240 of the groove head portion 224 by the fourth intersecting surface 242 on the platform 230. The fourth intersecting surface 242 serves as the fourth area boundary 218d the entrance to the external channel 244 around the platform 230. After that, the pin 216 can move freely along the rectilinear section 222 of the groove when the box 154 moves towards open position.

The present invention has been shown and described with reference to the above exemplary embodiments. Other embodiments are possible. For example, the garbage collection device can be used together with a local vacuum device or include a local vacuum device (instead of a central vacuum device) made in the form of an autonomous unit. In another example, trash receivers from the floor and countertops can be included in the same cabinet or system. Thus, it should be understood that other configurations, embodiments and embodiments can be made without departing from the essence and scope of the invention, which is defined in the following claims.

Claims (13)

1. A device for receiving garbage in a suction system for collecting garbage, while the device contains
receiving element;
a box configured to smoothly move in the receiving element between the closed position and the open position, the shape of the outer periphery of the box corresponding to the shape of the inner periphery of the receiving element, and the box includes a bottom and walls extending upward from the bottom, the bottom and walls defining the boundaries a chamber through which air can pass to the suction port in the rear of the receiving element when the box is in the open position and vacuum is applied to the port;
a seal configured to tightly close the suction port when the box is in the closed position; and
an electrical switch operable between the “off” position when the box is in the closed position and the “on” position when the box is in the open position. 2. The device according to claim 1, in which the receiving element closes the chamber when the box is in the closed position, and the device further comprises a base plate attached to the receiving element along the bottom of the box so that the box is essentially enclosed within the receiving element and the base plate, when the box is in the closed position. 3. The device according to claim 2, in which the receiving element contains a pallet, the shape of which essentially corresponds to the shape of the box. 4. The device according to claim 2, in which the base plate has a hole formed therein, forming a suction hole, wherein the hole is located at the rear of the base plate, and the seal includes a seal configured to seal the opening of the hole in the base plate when the box is in the closed position. 5. The device according to claim 1, additionally containing a lid attached to the receiving element so that the camera will be completely closed by the lid when the box is in the closed position, and the camera will only be partially closed by the lid when the box is in the open position. 6. The device according to claim 5, in which the receiving element comprises a pallet, the shape of which essentially corresponds to the shape of the box. 7. The device according to claim 5, in which the receiving element has a hole formed therein, forming a suction hole, wherein the hole is located at the rear of the receiving element, and the seal comprises a seal configured to seal the opening in the receiving element when the box is in the closed position. 8. The device according to claim 1, in which the switch comprises a rocker switch attached to the receiving element so that moving the box from the closed position to the open position causes the switch to move to the on position, and moving the box from the open position to the closed position causes putting the switch in the off position. 9. The device according to claim 1, in which the box is open from edge to edge of the front of the camera. 10. The device according to claim 9, in which the box further includes a pressure unit located along the front of the camera. 11. The device according to claim 1, in which the box further includes a front end wall extending across the front of the camera between the front ends of the side walls. 12. The device according to claim 1, additionally containing a lockable latch, functionally connected between the receiving element and the drawer to hold the drawer in the closed position until the latch is unlocked. 13. The device according to claim 1, additionally containing a biasing mechanism, functionally connected between the receiving element and the box, while the biasing mechanism is configured to bias the box to the open position.

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