KR200401857Y1 - automatic collecting apparatus for kitchen refuse in suction operated - Google Patents

Abstract

The present invention is an automatic food waste disposal system for each generation of air transfer, and an inlet for receiving food waste for each generation is installed on the upper surface of a sink having a space communicating with outside air only through a check valve, and at the lower end of the inlet. The gate valves are arranged at predetermined intervals, and a basket is installed around the lower end of the inlet at a position in communication with the front end of the gate valve, so that the food waste introduced by each generation does not leave a predetermined space, and the gate The rear end of the valve is extended to a suction pipe that takes in food waste by generation, and the suction pipe is connected to a conveying line extending to the waste collection area so that the food waste can be collected and collected from the sink in real time. Conveying with the suction tube in a device of construction A rider supply pipe for supplying a compressed air / water from the outside and, compressed air pipes, each capable of further comprising a communication system configured air-moving generational garbage automatic processing apparatus for pushing the blockage generational garbage during the furnace.

Description

Automatic collecting apparatus for kitchen refuse in suction operated by generation

The present invention is an air transfer type automatic waste disposal system, which automatically collects waste introduced into a conduit separated from the outside by the air flow inside. In particular, it is possible to automatically collect food waste by generation in a sink in real time. The present invention relates to an automatic food waste disposal device for each generation.

As the residential environment has evolved into modern apartment complexes or high-rise residential complexes, the scale of household waste has also increased astronomically, and accordingly, the existing garbage collection, which periodically collects garbage collected at a certain place, is collected. There is a limit to the process.

For more advanced garbage collection methods suitable for large residential complexes, it is necessary to bury transfer pipelines that are isolated from the outside from the building to the garbage collection station, and automatically collect garbage by piggybacking the wastes introduced into the transportation pipelines to the internal air flow. Air transfer waste automatic treatment systems are known to transport them to the market.

FIG. 1 is a view showing an example of a conventional air transfer type automatic waste disposal system, wherein a waste inlet 2 is disposed on each floor of a building in a group residential area, and the waste inlet 2 is a multi-branched end pipe. (4) communicates with the conveying pipe (6), the waste is put into the collection area (8) which is the end of the conveying pipe (6) is a system that is processed.

This air transfer type automatic waste disposal system transports garbage bags into the collection area by air flow from the sealed transport pipeline to be collected so that unpleasant odors or other pollutants cannot be leaked around the living quarters. Although there is an advantage that it can be collected hygienically and completely, there is a disadvantage in that it is not suitable for the handling of food waste generated every day in the household.

In other words, food waste by generation is mostly left over from food scraps or ingredients, and if it is collected until it becomes an amount that can be put in an envelope, corruption progresses and causes unsanitary problems.

This problem can be a source of mold and contaminate the air filter of air conditioning facilities, especially in a residential residential complex that operates as a central air conditioning system.

Therefore, it is preferable to collect the food waste by generation in a bag or the like, and collect it in real time through a dedicated air transport generation food waste automatic disposal system.

The present invention provides an automatic food waste disposal apparatus for each generation in order to solve the problems encountered in the conventional automatic waste transport system described above, which can collect the food waste by generation in real time in the sink. There is a purpose.

According to the above purpose, the present invention, when the generation of food waste by generation can be collected by suction using the air flow directly from the sink, and when not in use, the smell of garbage should not leak into the kitchen, and also by generation If the food waste suction passage is blocked, it should have its own first aid and drill function.

In the present invention, the above object is to form a space in communication with the outside air only through the check valve inside the sink to install the equipment necessary for suction collection, the sink is installed by the inlet opening and closing the inlet opening by the lid Dispose of food wastes in real time, and at the lower end of the inlet, the gate valves are arranged at a predetermined interval so as to be opened only when the household waste is collected. Arrange the basket so as to surround the lower end of the house so that the food waste introduced into each generation is not scattered to the outside, and a suction pipe communicating with the household waste collected by the generation of food waste introduced into the rear end side of the gate valve is also connected to the suction pipe. Draws food waste from generation to collection area That can be implemented in a configuration in which communication with the conveying line.

In addition, the water supply pipe is connected in the middle of the suction pipe, and the water supply pipe connected to the normal water pipe and the air supply pipe supplied with the compressed air from the normal compressor are integrally connected to each other to open and close the water supply solenoid valve and the air supply solenoid valve. By interposing a shut-off gate valve for opening and closing a passage in a certain section of the conveying pipe, it is possible to inspect whether food waste is blocked by household for each section, and pressurized solenoid valves in each section of the conveying pipe. Compression air engines having integrally connected pressurized pipes and external air supply pipes having external air valves can be connected to each other so that food waste can be pushed to the pressure of the compressed air when the household waste is blocked in the suction pipes and the transfer pipe path.

On the other hand, it is preferable that the compressed air engine connected to each area of the transfer pipe line communicates in a direction perpendicular to the radial direction of the transfer pipe line.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of FIGS. 2 to 4.

2 is a cross-sectional view showing the configuration of the main part of the device of the present invention, and shows the household waste food inlet 12 provided in the sink 10 and the component adjacent thereto.

The household waste food inlet 12 has a structure in which the inlet side is opened and closed by the lid 14, and the lower end portion extends to a position adjacent to the front end side of the gate valve 16 at a predetermined interval. Replace.

And around the lower end of the household waste food inlet 12 is surrounded by a basket 18 communicated with the gate valve (16). In the upper half of this basket 18, the through hole 20 is innumerably opened so that outside air can pass through.

A suction pipe 22 that sucks food waste by generation is connected to the lower side of the gate valve 16 to extend below the sink 10, and the water supply pipe 24 is in communication.

The brackish water supply pipe 24 communicates with a portion of the first T-shaped pipe 26 from the outside and the water supply pipe 30 drawn in via the water supply solenoid valve 28, and the first T-shaped pipe 26 from the outside. The other side of the air supply solenoid valve 32 and the air supply pipe 36 drawn in via the second T-shaped pipe 34 communicate with each other, and the other side of the second T-shaped pipe 34 is a pneumatic line. In communication with (38), it is possible to supply compressed air to the cylinder (40) for operating the gate valve (16).

In the present invention, the water supply pipe 30 may be provided with a water supply capability by simply communicating with the peripheral water pipe (not shown) of the sink 10. However, the air supply pipe 36 must be in communication with the output end 42 extending from a conventional compressor (not shown) to have the air supply capability.

The compressor for generating compressed air may employ a small capacity compressor that can be installed for each generation, or use one or several large capacity compressors that can be shared by all households in a designated place of a building.

The inside of the sink 10 forms a space isolated from the outside, and the suction pipe 22 and the water supply pipe 30 and the air supply pipe 36 disposed therein are hermetically sealed at portions extending to the outside. On the other hand, the lower side of the sink 10 is provided with a check valve 44 that opens only in the direction of receiving outside air, so that the smell of food waste by generation from the inside of the sink 10 is not leaked and At the same time, it has a structure that can accept outside air.

The suction pipes 22 extending to the lower side of the sink 10 are arranged to be branched for each generation, and their ends are communicated with the transfer pipe 46.

In the present invention, the transfer pipe 46 is to provide a passage for allowing the input of the food waste to be transported by generation of air flow, which is interposed with a blocking gate valve 48 for opening and closing the passage as shown in FIG. have.

The shut-off gate valve 48 is arranged in a predetermined area divided into several parts over the entire length of the transfer pipe 46, and the rear end side of each shut-off gate valve 48 is arranged at a predetermined distance, for example, 100 to 200 m intervals. It includes a configuration in communication with the bent tube (50).

The inlet side of the bent pipe 50 communicates with a compressed air engine 52. The compressed air pipe 52 has a pressurized solenoid valve 54 and a pressurized solenoid valve 56 having a pressurized manual valve 56, and an external air solenoid valve. An external air supply pipe 64 having a 60 and an external air manual valve 62 is communicated together through a third T-type pipe 66.

The pressurizing pipe 58 is in communication with the output end 42 of the compressor (not shown) and the outside air supply pipe 64 is opened to the atmosphere. Accordingly, when the pressurizing solenoid valve 54 and the outside air solenoid valve 60 are opened, The other side must be set to work in reverse with each other closing.

In addition, when the pressurized solenoid valve 56 and the external air solenoid valve 62 fail in the pressurized solenoid valve 54 and the external air solenoid valve 60, respectively, the said pressurized pipe 58 or the external air supply line 64 is closed. They are added for release and they are normally left open.

Reference numeral 68 of FIG. 2 is a sensor for detecting the amount of food waste for each generation that is input to the food waste inlet 12 for each household, and another non-explained reference numeral 70 denotes a solenoid valve and a gate valve provided in the present invention. A controller for controlling the operation sequence, and another reference numeral 72, 74 is a suction side negative pressure sensor and a collection side negative pressure sensor installed in the suction pipe 22 and the transfer pipe 46, respectively, to sense the internal pressure, wherein the collecting side The negative pressure sensor 74 is actually disposed at each partitioned section of the conveying pipe 46.

The device of the present invention having such a configuration operates as follows.

Prior to operation, the gate valve 16 of the suction pipe 22, the feed water solenoid valve 28, the feed air solenoid valve 32, and the pressurized solenoid valve 54 attached to the compressed air pipe 52 are closed and the transfer pipe 46 The shutoff gate valve 48 and the solenoid solenoid valve 60 of FIG. 6 are placed in an open state, and an air flow is generated in the transfer pipe 46.

The generated household food waste is discarded by opening the lid 14 exposed to the top surface of the sink 10, putting it in the household food waste inlet 12, and then closing the lid 14 again.

When the food waste input by generation is detected by the sensor 68 and sends a waste input signal to the controller 70, the controller 70 operates the cylinder 40 to open the gate valve 16.

When the gate valve 16 is opened, the internal air of the sink 10 is sucked into the suction pipe 22 so that the air pressure drops, which causes the check valve 44 to open naturally, as shown by the arrow of FIG. (18) passes through the through hole 20 and begins to be sucked into the suction pipe 22, the food waste per generation put into the food waste inlet 12 for each generation by the air flow accompanying the outside air suction action is a gate valve ( 16, it is sucked into the suction pipe 22 and is transported and collected through the transfer pipe 46.

The transport state of the food waste collected for each generation can be grasped by the detected values of the suction side negative pressure sensor 72 and the collection side negative pressure sensor 74.

On the other hand, when the suction pipe 22 is blocked by the food waste for each generation, a local pressure change occurs in the pipe, and the suction side negative pressure sensor 72 detects this and inputs a pressure abnormal signal to the controller 70.

When the signal from the suction side negative pressure sensor 72 is input, the controller 70 closes the gate valve 16 by driving the cylinder 40 in reverse, and then opens the air supply solenoid valve 32 to compress the suction pipe 22. By supplying air, household wastes that are clogged in the pipes are pushed out.

If the controller 70 does not receive the normal pressure signal from the suction side negative pressure sensor 72 even though the compressed air is supplied for a predetermined time, for example, 10 seconds, this time, the water supply solenoid valve 28 is opened and compressed. Allow water to be supplied with the air.

The supplied water is applied to clogged food waste by generation, which makes it soft and humidified, and forms a water film at the inner edge of the pipe to prevent pressure leakage of compressed air. As a result, clogged food waste is pushed back. The blockage of the suction pipe 22 is eliminated by being guided to the outgoing feed pipe 46.

In addition, this effect is shown equally in the conveyance pipe 46. FIG.

That is, when the inside of the conveying pipe 46 is blocked by food waste for each generation, the pressure change generated thereby is detected by the collecting side negative pressure sensor 74 so that a pressure abnormal signal is input to the controller 70, and the controller ( 70 recognizes the zone where the pressure change occurred in the transfer line 46 by comparing the input signal with the built-in address information, closes the shut-off gate valve 48 and the outside air solenoid valve 60 in the corresponding zone, and pressurizes it. By opening the solenoid valve 54 to supply compressed air, the clogged food waste is pushed out.

Typically, since the conveying pipe 46 is to be a tube of a larger diameter than the suction pipe 22, it is hardly clogged, and even if clogged, the compressed air can be pushed out with only compressed air. However, in the bent portion of the bending pipe 50, the food waste residues of each generation stay mixed with water, but this acts as a barrier to prevent the spread of food waste smells by generations, and the compressed air pipe 52 When pressurized by the compressed air supplied through the hermetic movement through the entire cross-section of the conveying pipe 46, pressurized space in the role of a piston, the food waste blocked by generation is effectively pushed out, It will eliminate the clogging phenomenon.

In addition, when the compressed air pipe 52 is arranged in a direction orthogonal to the radial direction of the bent pipe 50 as shown in FIG. 4, the compressed air supplied is vortexed on the inner surface of the bent pipe 50. While generating the pressurized food waste by generations can be implemented more effective extrusion.

The above-described embodiment shows an example in the case of using a relatively small facility, and in the case of a large-scale facility, an appropriate number of temporary storage tanks (not shown) may be interposed in the middle of the delivery pipe 46.

As described above, according to the present invention, since the household waste can be collected directly from the sink without putting it in a bag, it ensures hygienic life in a place such as a multi-purpose building, and does not cause pollution of the air conditioning facilities of the building. It is effective.

In addition, since the collection passage is blocked by food waste by generations, it also detects this and automatically supplies compressed air and water so that it can be handled by itself.

1 is a schematic view showing a configuration example of a conventional air transfer type automatic waste disposal system.

Figure 2 is a side cross-sectional view showing the configuration of the main portion of the device of the present invention in a partial cross-sectional structure.

Figure 3 is a side cross-sectional view showing a part of the cross-sectional structure of another main portion of the device of the present invention.

4 is a cross-sectional view taken along the line-Ga of FIG.

<Description of the symbols for the main parts of the drawings>

2: garbage inlet 4: end pipe

6: Transfer line 8: Collection area

10: sink 12: food waste inlet by household

14: lid 16: gate valve

18: basket 20: through

22: suction pipe 24: water supply pipe

26: first T-type pipe 28: feed water solenoid valve

30: water supply pipe 32: air supply solenoid valve

34: 2nd T pipe 36: air supply pipe

38: pneumatic line 40: cylinder

42: output stage 44: check valve

46: transfer pipe 48: shut-off gate valve

50: bending pipe 52: compressed air pipe

54: pressure solenoid valve 56: pressure manual valve

58: pressurized pipe 60: outside air solenoid valve

62: outside air manual valve 64: outside air supply pipe

66: third T-shaped tube 68: sensor

70: controller 72: suction side negative pressure sensor

74: negative pressure sensor

Claims (3)

In the air transfer type automatic waste disposal system in which the waste thrown into the inlet is sucked and transferred to the air flow in the pipe to be disposed of in the collection area, A sink having a space inwardly communicating with the outside through a check valve; An inlet installed in the sink to inject food waste for each generation, and an inlet opening and closing with a lid; A gate valve disposed to be opposed to the lower end of the inlet at a predetermined interval; A basket disposed around the lower end of the inlet at a position in communication with the front end of the gate valve, and having a through hole through which outside air flows in the upper half; A suction pipe communicating with a rear end side of the gate valve and receiving food waste for each generation introduced into the inlet; The generation of food waste automatic processing apparatus of the air transport type automatic waste disposal system characterized in that it is configured to be connected to the suction pipe to suction the transfer of food waste by generation to the collection area. The water supply pipe is connected in the middle of the suction pipe, and a water supply pipe connected to a normal water pipe and an air supply pipe for supplying compressed air from a normal compressor are integrally connected to each other. In addition to the opening and closing operation by the solenoid valve, the transfer pipe is interposed with a shut-off gate valve for opening and closing the passage in each of the predetermined zone, and in the middle of each zone of the transfer pipe, a pressurized pipe with a pressurized solenoid valve and an external solenoid valve Each generation of the air transfer type automatic waste disposal system characterized in that it is provided with a compressed air engine that is connected to the outside air supply pipe is provided, it is possible to push out the food waste by generation blocked in the suction pipe and the transfer pipe passage. Food waste automatic processing device. The apparatus of claim 2, wherein the compressed air engine is configured to communicate in a direction orthogonal to the radial direction of the delivery pipe.