KR100925250B1 - Cooling equipment for trash auto collection system - Google Patents

Abstract

PURPOSE: An exhaust gas cooling apparatus for an automatic garbage collection system is provided to minimize environmental contamination resulting from exhaustion of high temperature heat and energy used for cooling exhaust gas. CONSTITUTION: A cooling chamber(19) is installed behind suction blowers(13a,13b,13c) of an air pipe in order to cool and discharge the air which is heated while passing the suction blowers. The cooling chamber includes a first cooling coil(23) in which the cooling water cooled by a cooling tower(21) on the ground circulates, a temperature sensor(45) which measures the temperature of the air having passed through the first cooling coil, and a second cooling coil(25) in which the cooling water cooled by a coolant circuit circulates.

Description

Exhaust air cooling device for garbage automatic collecting device {COOLING EQUIPMENT FOR TRASH AUTO COLLECTION SYSTEM}

The present invention relates to an exhaust air cooling device for an automatic waste collecting device, and more particularly, when a plurality of waste inlets, a waste collection site, and a suction blower are sequentially installed in a continuous pipeline to operate the suction blower. In the automatic waste collecting device for transporting the waste introduced into the waste inlet along the conduit line with the generated air suction force, the waste air is collected at a temperature close to the ambient temperature before the heated air is discharged to the atmosphere during the air suction process by the suction blower. (40 degrees C or less) It is related with the exhaust air cooling apparatus for automatic garbage collection devices which make it cool.

In recent years, an automatic garbage collection device is installed in an assembly building such as an apartment or an officetel to easily collect garbage discarded by each household.

1 is a schematic configuration diagram of a conventional automatic garbage collection device. In recent years, since the legislation is required to put garbage in a garbage bag made of vinyl or the like, it becomes possible to use an automatic garbage collection device as shown in FIG. 1. Referring to FIG. 1, the automatic garbage collection device includes a garbage inlet 1 installed in each household, a garbage inflow line 3 installed to guide garbage contained in an envelope from the garbage inlet 1 to an underground direction, and waste ingestion. Garbage temporary storage 5 provided at the bottom of the conduit 3, air conduits 9a, 9b. 9c connected by a door 7 at the lower part of the waste temporary storage 5, and the air conduits 9a, 9b. , And a suction blower 13a, 13b, and 13b for transporting the garbage collection station 11 provided at a predetermined point along the 9c and the garbage bag dropped in the air pipeline 9a to the garbage collection station 11 by air suction force. ) And the suction blowers 13a, 13b, and 13c at the distal ends of the suction blowers 13a, 13b and 13c of the suction blowers 13a, 13b and 13c and the air conduits 9a, 9b and 9c to operate the suction blowers 13a, 13b and 13b. The outside air suction valve 51 for introducing external air into the air pipes 9a, 9b, and 9c, Groups it can be seen that with a talchi equipment 15, a disinfection facility (17) for removing bacteria, etc. contained in the exhaust air to remove the odor prior to discharge into the atmosphere.

Garbage bags 49 introduced from each generation are temporarily stored in the waste temporary storage bin 5, and when the door 7 is opened, the garbage bags 49 are dropped into the air line 9a, and the garbage bags dropped into the air line 9a are sucked up. The blowers 13a, 13b, and 13b are moved to the waste collection site 11 by operation. The garbage bags collected in the garbage collection site 11 are carried in a vehicle by a conveyor or the like and transported to a garbage incinerator or the like.

In the figure, the case where three suction blowers 13a, 13b, and 13b are installed in series is exemplarily illustrated. However, in practice, most suction suction blowers are installed in series of five to eight. Since the suction blower uses a large capacity to exert sufficient suction force, the air sucked from the atmosphere and passing through the air line is heated to around 15 ° C each time it passes through each suction blower 13a, 13b, 13c. Therefore, for example, when the outside air is sucked at the atmospheric temperature of 25 ° C and passes through the five suction blowers 13a, 13b, and 13c, the air is about 100 ° C. If the heated air is discharged into the atmosphere as it is, it will adversely affect the surrounding animals and plants, so it is discharged by cooling it to 40 ° C or lower (acceptable temperature in accordance with environmental regulations) before discharging it to the atmosphere.

As shown in FIG. 1, in the related art, the automatic garbage collecting device includes a cooling cylinder 19 at the rear end of the suction blowers 13a, 13b, and 13c of the underground pipe to cool the discharged air. 19) therein is provided a cooling coil 23 through which cooling water cooled by air in the cooling tower 21 on the ground circulates. Cooling water circulates the cooling coil 21 inside the cooling tower 21 and the cooling cylinder 19, and drops the discharged air below the allowable temperature (40 ° C). In Fig. 1, reference numeral 41 denotes a cooling water circulation pump, reference numeral P8 denotes a supplemental water pipe, and reference numeral P7 denotes a drain pipe.

However, according to the above-described method of cooling the exhaust air of the automatic garbage collecting device by using the circulating water cooled by the cooling tower, there is no problem in winter when the outside temperature is low, but in spring, summer and autumn when the outside temperature rises Cooling water is not cooled enough in the cooling tower according to the temperature of the day, the intake air by the blower is often discharged without cooling below the allowable temperature.

The present invention devised to solve the exhaust air cooling problem of the conventional automatic waste collection device described above, when the temperature of the exhaust air cooled in the cooling tower is more than the allowable temperature, the exhaust air cooling for automatic waste collection device that can be discharged by re-cooling it The object is to provide a device.

The present invention to solve the above problems is installed in the garbage collector and the suction blower along the air pipe, the automatic garbage collection device for transferring the garbage bag to the garbage collector by the suction force of the suction blower, the air pipe A first cooling coil disposed at a rear of the suction blower to cool and discharge the air heated by the suction blower, wherein the first cooling coil circulates the cooling water cooled by a cooling tower on the ground; And sequentially install a temperature sensor capable of measuring the temperature of the air passing through the first cooling coil, and a second cooling coil circulating the cooling water cooled by the refrigerant circulation circuit including a compressor, a condenser, an expansion valve, and an evaporator. And circulating the cooling water cooled by a cooling tower in the first cooling coil when operating the suction blower. When the cylinder is cooled, but the measured value of the temperature sensor rises above a preset value, the refrigerant circulation circuit is activated to recool the exhaust air passing through the first cooling coil in the second cooling coil. It features.

According to the present invention having the above-described configuration, even if the exhaust air is cooled by the cooling water cooled in the cooling tower, if the temperature of the exhaust air is higher than the allowable temperature, it is cooled again by the cooling water generated in the refrigerant circulation circuit and lowered below the allowable temperature. Therefore, it is possible to minimize environmental pollution due to high temperature hot air discharge, and the refrigerant circulation circuit is operated only when the air discharged from the automatic garbage collection device is at an abnormally high temperature, thereby minimizing the energy used for cooling the exhaust air. have.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the exhaust air cooling device for automatic waste collection device according to the present invention will be described in detail.

2 is a block diagram of an automatic garbage collection apparatus having an exhaust air cooling apparatus according to an embodiment of the present invention, Figure 3 is a garbage collection apparatus having an exhaust air cooling apparatus according to another embodiment of the present invention It is a block diagram.

First, referring to FIG. 2, the automatic garbage collecting device according to the present invention, like the conventional garbage collecting device, includes a plurality of garbage inlets 1 installed to allow a garbage bag 49 to be put in a building and the like. The waste container 49 is temporarily accommodated before the waste bag 49 is dropped into the air line 9a and the feed pipe 3 which guides the waste bag 49 inserted into the waste temporary storage container 5 from 1). The waste storage container 5 and the air passages 9a and 9b. 9c receiving the waste bag 49 housed in the waste storage container 5 when the door 7 at the lower portion of the waste storage container 5 are opened. do. One end of the air line (9a) extends to the ground around the temporary waste storage container (5), the end portion is provided with an outside air intake valve 51, the other end of the air line (9a) is the outside air intake valve (51) And the waste collection station 11 provided at a predetermined point in the opposite direction to the waste collection station 11 and the waste bag 49 provided at the rear of the waste collection station 11 and dropped on the air line 9a with air suction force. Suction blowers (13a, 13b, 13b) for conveying up to), deodorizing equipment (15) for removing odors before discharging suctioned air into the atmosphere, and disinfection equipment (17) for removing bacteria, etc. contained in the discharged air. Is extended. In this process, most of the air line 9a is buried underground, and only part of it extends to the ground. Although only three suction blowers 13a, 13b, and 13b are shown in the drawing, the drawings are provided to exemplify the drawings briefly, and the suction blowers 13a, 13b, and 13b are used to install an automatic garbage collecting device. Most of them install five to eight. However, in the case of a blower with a large power consumption (for example, 2 kW or more), the suction air at 25 ° C. may be heated to about 70 ° C. with only three suction blowers.

The automatic garbage collecting device according to the present invention also has a cooling container 19 capable of cooling and discharging the suction air heated by the suction blowers 13a, 13b, and 13c at the rear of the suction blowers 13a, 13b, and 13c. And a first cooling coil 19 in which the cooling water cooled by the cooling tower 21 on the ground circulates in the cooling cylinder 19, which is the same as a conventional automatic garbage collection device.

Features of the present invention further extends the cooling cylinder 19 and the temperature sensor 45 capable of measuring the temperature of the air passing through the first cooling coil 19 behind the first cooling coil 19 and Further, a second cooling coil 25 for circulating the cooling water cooled by the refrigerant circulation circuit consisting of the compressor 31, the condenser 27, 35, expansion valve 37 and the evaporator 29, 33, While operating the suction blowers 13a, 13b, and 13c, the cooling water cooled by the cooling tower 21 is first circulated through the first cooling coil to cool the cooling cylinder 19, but the measurement of the temperature sensor 45 is performed. When the value rises above the preset value, the refrigerant circulation circuit is activated to re-cool the exhaust air passing through the first cooling coil 23 in the second cooling coil 25 so that the exhaust air is at the set temperature. (Or allowable temperature) to be cooled down and discharged. That is, according to the present invention, if the temperature passing through the first cooling coil 23 of the exhaust air measured by the temperature sensor 45 is less than or equal to a preset value (allowable temperature), the exhaust air is discharged only by the first cooling coil 23. After cooling, the temperature rises above a predetermined value, the cooling water is circulated through both the first cooling coil 23 and the second cooling coil 25 to cool the discharged air. As shown in FIG. 1, the temperature sensor 45 is preferably installed immediately after the first cooling coil 23 inside the cooling cylinder 19. However, the temperature sensor 45 is disposed in the air line 9c behind the cooling cylinder 19. It may be provided adjacent to the cooling cylinder 19.

The condenser consists of a water cooled heat exchanger 27 and a condensation coil 35, and the evaporator consists of a water cooled heat exchanger 29 and an evaporation coil 33. The compressor 31 is a refrigerant compressor that compresses and circulates CFC-based refrigerant or HFC-based refrigerant, and the refrigerant during operation of the compressor is the compressor 31-> condensing coil 35-> expansion valve 37-> evaporation coil. While circulating (33)-> compressor 31, the heat is discarded in the condensation coil 35, and the heat is taken out of the evaporation coil 33.

The water of the water-cooled heat exchanger 27 for the condenser is circulated through the cooling tower 21 and cooled, thereby increasing condensation efficiency even in summer. The water of the water-cooled heat exchanger 29 for the evaporator is circulated through the second cooling coil 25 and used to cool the exhaust air. Reference numeral 41 is a pump for water circulation between the cooling tower 21, the water-cooled heat exchanger 27 and the first cooling coil 23 for the condenser. One pump is a permanent pump and the other 14 pumps connected in parallel are spares.

In order to prevent the water circulating in the water-cooled heat exchanger 29 and the second cooling coil 25 for the evaporator is reduced to reduce the cooling efficiency of the second cooling coil 25, the reservoir 39 in FIG. Was used. That is, the water returned from the second cooling coil 25 to the water-cooling heat exchanger for the evaporator is stored in the water storage tank 39, and the water stored in the water storage tank 39 is transferred to the water-cooling heat exchanger 29 for the evaporator by the pump 43. By supplying, the quantity of circulating water can be prevented from decreasing. One of the pumps 43 is for permanent use and one for reserve. The amount of water stored in the reservoir 39 is to maintain the constant amount of water to always supply the water.

As shown in FIG. 2, the pressure of the water circulating in the water-cooled heat exchanger 29 and the second cooling coil 25 for the evaporator using the water tank 53 and the positive pressure valve 55 instead of the reservoir 39. When lower than the water tank 53 and the water pressure, the water of the water tank 53 may be automatically introduced to the water-cooled heat exchanger 29 and the second cooling coil 25 for the evaporator. The embodiment shown in FIG. 1 and the embodiment shown in FIG. 2 are different only in this regard, and the remaining parts are the same.

The control unit 43 is provided to drive the compressor 31 and the pump 43 only when the measured value of the temperature sensor 45 is read and above the set temperature.

According to the present invention, even when the exhaust air is cooled by the cooling water cooled in the cooling tower 21, when the temperature of the exhaust air is higher than the allowable temperature, it is cooled again by the cooling water generated in the refrigerant circulation circuit to be lower than the allowable temperature. As it can be lowered, it is possible to minimize the environmental pollution caused by high temperature hot air discharge, and the refrigerant circulation circuit is operated only when the air discharged from the automatic garbage collection device is at an abnormal high temperature, thereby minimizing the energy used for cooling the discharged air. There is.

1 is a configuration diagram showing a main part of a conventional automatic garbage collection device.

2 is a block diagram of an automatic garbage collecting device having an exhaust air cooling device according to an embodiment of the present invention.

3 is a block diagram of an automatic garbage collecting device having a discharge air cooling device according to another embodiment of the present invention.

          Explanation of symbols on the main parts of the drawings

1: Garbage input hole 3: Garbage input pipe

5: garbage bin 7: door

9a, 9b, 9c: air line 11: garbage collection station

13a, 13b, 13c: suction blower 15: deodorization equipment

17: disinfection equipment 19: cooling tube

23 cooling coil 21 cooling tower

25 cooling coil 27 water-cooled condenser

29: water-cooled evaporator 31: compressor

33: evaporation coil 35: condensation coil

37: expansion valve 39: reservoir

41, 43: pump 45: temperature sensor

46: control unit 47: building

49: garbage bag 51: outside air suction valve

53: water tank 55: constant pressure valve

Claims (2)

In the garbage collection device which installs a garbage collector and a suction blower along an air line, and transfers a garbage bag to the said garbage collector by the suction force of the said suction blower, At the rear of the suction blowers 13a, 13b, and 13c of the air line, a cooling cylinder 19 for cooling and discharging the heated air in the process of passing through the suction blowers 13a, 13b, and 13c is installed. But In the cooling cylinder 19, the temperature of the air passing through the first cooling coil 23 and the first cooling coil 23 through which the cooling water cooled by the ground cooling tower 21 can be measured. And a second cooling coil 25 through which the coolant cooled by the refrigerant circulation circuit including the temperature sensor 45 and the compressor 31, the condenser 27, the expansion valve 37, and the evaporator 29 are sequentially The cooling water cooled by the cooling tower 21 is circulated in the first cooling coil 23 when the suction blowers 13a, 13b, and 13c are operated to cool the cooling cylinder 19, and the temperature sensor When the measured value of (45) rises above the preset value, the refrigerant circulation circuit is activated to re-cool the exhaust air having passed through the first cooling coil 23 in the second cooling coil 25. A discharge air cooling device for an automatic garbage collecting device. The condenser and the evaporator of claim 1, wherein the condenser and the evaporator are provided with a water-cooled heat exchanger, the water of the water-cooled heat exchanger for the condenser is circulated in the cooling tower to cool, the water of the water-cooled heat exchanger for the evaporator is circulated in the second cooling coil. Exhaust air cooling device for an automatic garbage collection device, characterized in that it is used to cool the exhaust air.

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