KR20130126242A - Ventilation system for offensive odor treatment - Google Patents

Abstract

The present invention relates to a ventilation system for removing odor to remove odor or dust generated from an odor generation chamber such as a livestock shed in which domestic animals are bred and a compost fermentation place. The ventilation system includes a collection chamber which has a collection space which is installed on one side of the odor generation chamber, communicates with the odor generation chamber, and collects odor or dust generated from an odor generation chamber, and discharges the odor or dust to the other side of the collection space, a washing unit which washes odor or dust by spraying a washing solution while dropping the odor or dust with a washing solution to the bottom surface of the collection chamber, and a drainage unit which is prepared in the collection chamber, collects odor or dust and waste water dropped to the bottom surface of the collection chamber, purifies the collected waste water, and drains the waste water outside. The collection chamber includes plastic panels which are formed with collection spaces while shielding one side of the odor generation chamber, and a reinforcing rib which is integrally prepared on the surface of the plastic panel and enhances reinforced rigidity of the plastic panel. The present invention collects odor or dust generated from the odor generation chamber into the collection chamber, removes the odor or dust while being isolated from the odor generation chamber, and prevents recirculation of odor by draining out waste solution collected on the bottom surface of the collection chamber using the drainage unit.

Description

VENTILATION SYSTEM FOR OFFENSIVE ODOR TREATMENT}

The present invention relates to a odor removal ventilation system, and more particularly to a odor removal ventilation system for removing odors and dust generated in the odor generating chamber, such as barns and compost fermentation.

Generally, odors and dusts are generated in a compost fermentation plant or food waste treatment plant that fertilizes a livestock barn or compost, and many complaints are generated by such odors or dusts.

Accordingly, many techniques for removing odors or dust generated in odor generating facilities have been developed. As one of the prior arts, there is a odor removing system disclosed in Korean Patent No. 10-901756.

In the prior art odor removal system, as shown in FIG. 1, a collecting chamber 20 is provided at one side of the pig room where pigs are raised so that the odor gas of the pig room 101 is discharged through the exhaust fans 21 and 22. The odor is removed through sodium hypochlorite sprayed through the spray nozzle 202 installed in the collecting chamber 20, and the wastewater drained to the bottom of the collecting chamber 20 is lost. The discharge pipe 23 discharged to the 103 is composed.

The odor removal system of the prior art has the advantage that the odor gas is effectively removed as the sodium hypochlorite is injected into the odor gas exhausted into the collection chamber 20, but sewage collected in the bottom surface of the collection chamber 20 is separate Since it is discharged into the loss chamber 103 without the processing of the odor generated in the loss room 101, as well as the problem of reducing the storage capacity of the loss chamber 103.

KR 10-0901756 B1

The present invention was created in order to solve the problems of the prior art as described above, by cleaning the odor or dust generated in the odor generating chamber through the cleaning liquid to exhaust the washed air to the outside, the collected sewage to the odor generating chamber The purpose is to provide a odor removal ventilation system which can be discharged to the outside in a purified state without returning.

In the odor removal ventilation system according to the present invention for achieving the above object, in the odor removal ventilation system to remove the odor or dust generated in the odor generating chamber, such as livestock barn or compost fermentation, The compartment is installed at one side of the odor generating chamber and has a collecting space in which one side communicates with the odor generating chamber and collects odor or dust generated in the odor generating chamber, and exhausts the odor or dust to the other side of the collecting space. Collection chamber of the form; Washing means for spraying a cleaning liquid into a collecting space of the collecting chamber to wash the odor or dust while dropping the odor or dust together with the cleaning liquid to the bottom of the collecting chamber; And drainage means provided in the collection chamber for collecting wastewater dropped to the bottom of the collection chamber together with the odor or dust and draining it to the outside, wherein the collection chamber shields one side of the odor generating chamber in a compartment shape. A plurality of plastic panels to form the collecting space while; And a reinforcing rib integrally provided on the surface of the plastic panel to reinforce the rigidity of the plastic panel.

For example, the collection chamber may further include a support member coupled to the reinforcement ribs to provide a supporting force to the plastic panels, wherein the support member is integrally fixed to the reinforcement ribs to form a frame inside the plastic panels. A support for forming the plastic panels while forming; And an inclined pedestal for reinforcing the supporting force of the support by both ends being fixed to the support adjacent to each other in an orthogonal state among the supports.

For example, the washing means may be piped along the collecting space of the collecting chamber supply pipe through which the washing liquid; A water supply pump connected to the supply pipe and supplying the washing liquid to the supply pipe; And a spray nozzle provided in plurality along the supply pipe and spraying the washing liquid supplied to the supply pipe to the collection space.

For example, the drainage means is provided in the form of a water tank on one side of the bottom surface of the collecting chamber for collecting the waste water; A discharge tank connected to the collection tank so that the wastewater collected in the collection tank is discharged, and a baffle for storing the waste water is provided to discharge the wastewater to the top of the baffle while overflowing the wastewater; It is preferable to include; and the discharge pipe for discharging the waste water of the collecting tank to the discharge tank by the other end is extended to the discharge tank while one end is piped to the collecting tank.

In addition, the drainage means further comprises a filtration member for filtering foreign matter contained in the wastewater discharged from the water collection tank to the discharge tank through the discharge pipe, wherein the filtering member is formed perpendicular to the discharge pipe and the collection tank A vertical pipe which first discharges foreign substances floating on the upper end of the waste water collected in the water collection tank together with the waste water from the water collection tank to the discharge pipe as piped in the vertical direction of the water collection tank; And a strainer provided at the other end of the discharge pipe to filter the foreign matter.

In addition, it is preferable that the drainage means further includes an air generator installed in the water collecting tank to supply air to the collected wastewater.

In addition, the present invention is provided on the other side of the collection chamber and the outside of the collection space and the outside, the exhaust means for filtering the air in the collection space in which the odor or dust is washed by the cleaning means to exhaust the outside; It can be configured to include.

For example, the exhaust means is provided in the compartment form on the other side of the collecting chamber in communication with the collecting chamber, the exhaust port is provided on one side to exhaust the air of the collecting chamber to the outside through the exhaust port; And an air filter installed in the exhaust chamber in a penetrating state with the collection chamber to filter foreign matter in the air while communicating air in the collection space provided in the collection chamber to the exhaust chamber.

In the odor removal ventilation system according to the present invention, since the odor or dust generated in the odor generating chamber is collected in the collecting chamber and sprays the cleaning liquid, the odor can be removed in a state separated from the odor generating chamber, in particular by spraying the cleaning liquid. Since the wastewater collected on the bottom surface of the collection chamber is discharged by the drainage means, the odor recycling can be prevented.

In addition, since the member forming the collecting space is made of a plastic panel, it is not easily corroded by contaminants due to odors or dust, and the plastic panel is reinforced with rigidity by reinforcing ribs, thereby improving durability.

In addition, the rigidity of the collecting chamber can be further reinforced as the plastic panels are supported by the support and the inclined support.

In addition, as the cleaning liquid supplied by the feed water pump is sprayed into the collecting space through the supply pipe and the injection nozzle piped along the collecting space, the cleaning liquid is uniformly sprayed throughout the collecting space, so that no odor or dust in the collecting space is eliminated. Can be washed by.

In addition, as the wastewater collected in the sump is discharged to the discharge tank through the discharge pipe, foreign matter contained in the wastewater is precipitated by the baffle, so that the wastewater can be discharged in a purified state.

Moreover, as the foreign matter contained in the wastewater of the sump is filtered by the filtration member, the foreign matter of the wastewater can be purged multiplely with the baffle, and as the vertical pipe constituting the filtration member is piped in the vertical direction of the sump, It can be filtered through the strainer by first discharging foreign matter suspended in the upper part.

In addition, since the air is supplied to the wastewater of the sump through the air generator, it is possible to purify the wastewater while floating the foreign matter contained in the wastewater to the upper portion of the sump.

Since the air in the collection chamber is exhausted to the outside while being filtered by the exhaust means, the air can be exhausted in the state in which the odor or dust remaining in the air in the collection space is removed.

Specifically, since the air in the collecting chamber is exhausted to the outside through the exhaust chamber in the state filtered by the air filter, it is possible to completely remove the odor or foreign matter remaining in the air of the collecting chamber.

1 is a longitudinal sectional view showing a odor removal system according to the prior art.
Figure 2 is a perspective view showing a ventilation system for removing the odor according to the present invention.
Figure 3 is a longitudinal sectional view showing a odor removal ventilation system according to the present invention.
Figure 4 is a partial cutaway perspective view showing the main part of the present invention.
5 is a schematic view showing the configuration of a collecting chamber of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

Ventilation system for removing odor according to the present invention is installed in one side of the odor generating chamber 5, such as barn, compost fermentation plant or food waste treatment plant, as shown in Figure 10, the cleaning means 20 ) And the drain means 30 can be configured.

The collecting chamber 10 is a component that collects odor or dust generated in the odor generating chamber 5, and is communicable while being formed in one compartment of the odor generating chamber 5 as illustrated in FIG. 2. It has a collecting space (10a) in which odor or dust is collected in an isolated state. The collection chamber 10 may include, for example, a plastic panel 11 and a reinforcing rib 12 as illustrated in FIGS. 2 and 5.

As shown in FIG. 2, the plastic panel 11 forms a collection space 10a at one side of the odor generating chamber 5. The plastic panel 11 includes a plurality of ceilings and walls at one side of the odor generating chamber 5. While forming the compartment-shaped collection space (10a) is formed.

The plastic panel 11 is formed of a material having high corrosion resistance, such as FRP (Fiber Reinforced Plastics), SMC (Sheet Molding Compound), or BMC (Bulk Molding Compound), and the odor or dust collected in the collecting space 10a. It does not corrode for a long time even by pollutants such as ammonia, which is a polar oxide.

FRP, as is known, is used in building materials, ship hulls, baths or helmets because of its high rigidity and light weight.

In addition, SMC is a material in which a polyester resin, a filler, a colorant, and a curing agent are uniformly mixed and impregnated with glass fibers in a mixture of a thickener, which is excellent in water resistance and heat resistance, and in particular, has excellent molding fluidity. It is used in bathtubs, bathroom materials or water tanks.

BMC is a mechanical molding material of bulk thermosetting reinforced plastics in which an unsaturated polyester resin, a low shrinkage agent, a curing agent, a filler, a releasing agent, etc. are placed in a kneader and uniformly mixed with a glass fiber as a reinforcing material. It is used for the parts, bumpers, etc.

Here, the collection chamber 10 is the odor of the odor generating chamber 5 through the intake fan 13 is installed through the plastic panel 11 forming the interface with the odor generating chamber 5 as shown in FIG. The dust is taken in and collected in the collecting space 10a.

Reinforcing rib 12 is a member for reinforcing the rigidity of the plastic panel 11, as shown in Figure 5 formed integrally in the form of a grid on the surface of the plastic panel 11, the rigidity of the plastic panel 11 Reinforce.

Meanwhile, the collection chamber 10 may further include a support member member that provides a support force to the above-described plastic panels 11, and the support member includes a support 15 and an inclined support as shown in FIG. 5. It can comprise including (16).

As shown in FIG. 5, the supporter 15 is a member that is joined along the longitudinal direction of the reinforcing rib 12 and is formed at equal intervals on the inner surface of the plastic panel 11 to form a frame. ) And the side wall vertical stand 15b, the ceiling side stand 15c, and the ceiling vertical stand 15d, and are integrally fixed to the reinforcing rib 12 by the bracket 15e.

As shown in FIG. 5, the inclined pedestal 16 is disposed on the support 15 adjacent to each other in the orthogonal state, that is, the sidewall supports 15a and 15b and the ceiling support 15c and 15d. Both ends are fixed to reinforce the supporting force of the support (15).

Therefore, the plastic panel 11 may be firmly installed as the rigidity is reinforced by the reinforcing rib 12 and the supporting member.

The cleaning means 20 sprays the cleaning liquid onto the odor or dust discharged to the collection space 10a by the exhaust fan 13 described above, and drops the odor or dust to the bottom of the collection chamber 10 together with the cleaning liquid. As a means for washing, for example, as shown in Figures 2 and 3 can be configured to include a supply pipe 21, feed water pump 23 and the injection nozzle (25).

The supply pipe 21 is installed in the collecting chamber 10 so as to be piped along the longitudinal direction of the collecting space 10a as shown in FIG. 2.

The feed pump 23 is connected to the supply pipe 21 as shown in FIG. 3 to supply the washing liquid to the supply pipe 21.

Here, the washing solution may be connected to the water supply pump 23 through water not shown, consisting of water, and alternatively, the water supply pump may be configured as a sterilizer or disinfectant containing chlorine dioxide or ozone and stored in a supply tank not shown. 23) may be connected.

As shown in FIG. 2, the injection nozzle 25 is installed along the supply pipe 21 to spray the cleaning liquid supplied to the supply pipe 21 to the collection space 10a.

The injection nozzle 25 is connected to the upper and lower portions of the supply pipe 21 as shown in Figures 2 and 3 can spray the cleaning liquid in the upper and lower portions of the collecting space (10a), shown in Figure 2 As described above, the spinning nozzle 25a installed in the radial state in the supply pipe 21 may be provided to spray the washing liquid from the upper, lower and side sides of the collecting space 10a.

Accordingly, the odor or dust is adsorbed to the washing liquid sprayed into the collecting space 10a by the spray nozzle 25 and falls together with the washing liquid to the bottom surface of the collecting chamber 10.

The drainage means 30 is a means for collecting waste water dropped to the bottom of the collecting chamber 10 and discharging it to the outside, for example, as shown in FIGS. It can comprise including 35.

As shown in FIG. 2, the collection tank 31 is installed in a water tank form on one side of the bottom surface of the collection chamber 10 to collect the wastewater dropped to the bottom of the collection chamber 10. Here, the collection chamber 10 may have a bottom surface formed in an inclined state toward the collection tank 31 or a drainage path not shown so that the waste water may be guided to the collection tank 31. In addition, the collection tank 31 may filter the foreign matter contained in the wastewater collected and the filter net 31a is installed as shown in FIG.

2 and 3, the discharge tank 33 is connected to the water collecting tank 31 so that water can be supplied to the wastewater of the water collecting tank 31, and discharges the supplied wastewater to the outside.

As the discharge tank 33 is provided with a baffle 33a having a predetermined height as shown in FIG. 4, the discharge tank stores the wastewater until the water level reaches the height of the baffle 33a, and the wastewater is baffle ( It is discharged to the outside while overflowing to the top of 33a). That is, the discharge tank 33 deposits the wastewater through the baffle 33a to precipitate the foreign matter contained in the wastewater to the bottom, and discharges the wastewater from which the foreign matter is separated through the upper portion of the baffle 33a to the outside.

As shown in FIG. 3, the discharge pipe 35 connects the water collecting tank 31 and the discharge tank 33 so that the water can be discharged to the discharge tank 33.

On the other hand, the drain means 30 may further include a filtration member 37 for filtering the foreign matter contained in the wastewater discharged from the collection tank 31 to the discharge tank 33 through the discharge pipe 35, the filtering member ( 37 may comprise, for example, a vertical pipe 37a and a strainer 37b as shown in FIGS. 3 and 4.

3 and 4, the vertical pipe 37a extends vertically at one end of the discharge pipe 35 and is piped vertically to the water collecting tank 31 so that the upper end of the wastewater collected in the water collecting tank 31. The foreign matter suspended in the air is discharged first together with the waste water.

Filter net (37b) is formed as a mesh as shown in Figure 3, is coupled to the other end of the discharge pipe 35, such as waste, waste, feed, dust discharged to the discharge pipe 35 through the vertical pipe (37a) Filter out foreign objects. The strainer 37b is removed from the discharge pipe 35 at any time by the manager to remove foreign substances. Therefore, the wastewater discharged to the discharge tank 33 can be prevented from corruption as the foreign matter is filtered out by the strainer 37b.

On the other hand, the drain means 30 may further comprise an air generator 39 as shown in FIG.

The air generator 39 is installed inside the collection tank 31 as shown in FIG. 3 to supply air to the wastewater collected in the collection tank 31. That is, the air generator 39 promotes oxidation and digestion by aerobic microorganisms by aeration of the wastewater, and purifies the wastewater by removing carbon dioxide, hydrogen sulfide, and methane gas. In addition, the air generator 39 guides the foreign matter contained in the wastewater to the water surface through the air supply to the above-mentioned vertical pipe 37a.

That is, the waste water is collected in the water collecting tank 31 and the foreign matter is floated on the upper side by the aeration treatment of the air generator 39, and the foreign matter is introduced into the end of the vertical pipe 37a and discharged to the discharge pipe 35 together with the foreign matter. Filtered by 37b.

In summary, the drainage means 30 purifies the wastewater collected in the water collecting tank 31 through the aeration of the air generator 39, and filters the foreign matter contained in the wastewater through the filtering member 37 while discharging the tank 33. The foreign substances remaining in the discharged waste water are purged while settling through the baffles 33a of the discharge tank 33.

On the other hand, the present invention can be configured to further include an exhaust means 40 as shown in FIG.

Exhaust means 40 is a means for filtering the air in the collecting space (10a) in which odor or dust has been cleaned by the above-described cleaning means 20 to exhaust to the outside, for example, as shown in Figures 2 and 3 The seal 43 and the air filter 41 can be comprised.

3 and 4, the exhaust chamber 43 is provided in a compartment shape on one side of the collecting chamber 10 and communicates with the collecting chamber 10 through an air filter 41 which will be described later. 43a is formed to exhaust the air filtered by the air filter 41 to the outside through the exhaust port 43a. The exhaust chamber 43 may be formed in a compartment form by the above-described plastic panel 11 constituting the collecting chamber 10.

Here, the exhaust chamber 43 exhausts the air in the collection chamber 10 through the air pressure difference of the air discharged to the chimney 44 as the chimney 44 is provided in the exhaust port 43a as shown in FIG. 3. As shown in FIG. 4, as the fan 46 is installed in the exhaust port 43a, the air of the collection chamber 10 may be forced out.

Meanwhile, as illustrated in FIG. 4, the exhaust chamber 43 may include an entrance door DR1 to allow an administrator to enter and exit, and an inspection door DR2 communicating with the collection chamber 10 may be provided to collect the chamber 10. Allows you to check the devices installed on your system.

In addition, the exhaust chamber 43 may be provided with a separate air purifier (not shown) which purifies the air discharged through the air filter 41 to be described later and discharges it to the exhaust port 43a.

As shown in FIGS. 3 and 4, the air filter 41 is installed in a part of the plastic panel 11 constituting the collecting chamber 10 to pass through the air in the collecting space 10a. 43) to filter foreign matter in the air while exhausting. The air filter 41 filters the odor or dust remaining in the air of the collecting space 10a washed by the washing means 20 to supply the filtered air to the exhaust chamber 43, and prefilter or medium filter. Or a conventional filter member known in the art, such as hepa filter may be used.

The operation and operation of the present invention including the above-described components will be described.

Odor or dust generated in the odor generating chamber 5 is collected in the collecting space 10a of the collecting chamber 10 by the operation of the intake fan 13 as shown in FIG.

As shown in FIG. 3, the water feed pump 23 supplies a cleaning solution such as water or a disinfectant to the supply pipe 21 to inject the cleaning solution into the collection space 10a through the injection nozzle 25.

Accordingly, the odor or dust is adsorbed by the washing liquid sprayed into the collecting space 10a and falls together with the washing liquid to the bottom surface of the collecting chamber 10.

The wastewater dropped to the bottom surface of the collecting chamber 10 is guided to the collection tank 31 to be collected as shown in FIG. 3, and the air supplied by the air generator 39 is collected in the collection tank 31. While being purified through it is discharged to the discharge tank 33 through the discharge pipe (35).

At this time, the foreign matter floating in the upper portion of the wastewater is first introduced into the discharge tank 33 together with the wastewater through the vertical pipe (37a), is filtered while caught by the strainer (37b) provided at the other end of the discharge pipe (33). The manager removes the filter net 37b from the discharge pipe 33 from time to time and removes the foreign matter from the filter net 37b, and discards the removed foreign matter in the composting room.

The discharge tank 33 discharges the waste water discharged through the discharge pipe 35 by the baffle 33a to precipitate foreign substances remaining in the waste water to the lower portion, and discharges the waste water to the upper end of the baffle 33a while overflowing the wastewater. .

On the other hand, the air in the collecting space (10a) is discharged to the exhaust chamber 43 by the pressure difference by the chimney 44 as shown in FIG. 3 or the operation of the fan 46 as shown in FIG.

At this time, the air filter 41 filters the odor or foreign matter remaining in the air of the collecting space (10a).

Accordingly, the air in the collecting chamber 10 is discharged to the exhaust chamber 43 in a filtered state by the air filter 41 and then exhausted to the outside through the exhaust port 43a.

As described above, in the odor removing ventilation system according to the present invention, the odor or dust generated in the odor generating chamber 5 is collected in the collecting chamber 10 and sprayed with a cleaning liquid so that the odor is isolated from the odor generating chamber 5. The waste water collected on the bottom surface of the collection chamber 10 by the spraying of the washing liquid may be discharged in a purified state by the drainage means 30, so that the odor recycling may be prevented.

In addition, since the member forming the collection space 10a is constituted by the plastic panel 11, it is not easily corroded by contaminants due to odors or dust, and the plastic panel 11 is rigid by the reinforcing ribs 12. Since it is reinforced, durability can be improved.

In addition, as the plastic panels 11 are supported by the support 15 and the inclined support 16, the rigidity of the collection chamber 10 may be further reinforced.

In addition, as the washing liquid supplied by the feed water pump 23 is injected into the collecting space 10a through the supply pipe 23 and the injection nozzle 25 piped along the collecting space 10a, the whole of the collecting space 10a. Since the washing liquid is uniformly sprayed on, the odor or dust in the collecting space 10a can be washed by the washing liquid without missing.

In addition, since the wastewater collected in the collection tank 31 is discharged to the discharge tank 33 through the discharge pipe 35, foreign matter contained in the wastewater is precipitated by the baffle 33a, so that the wastewater can be discharged in a purified state.

Furthermore, as the foreign matter contained in the wastewater of the water collecting tank 31 is filtered by the filtration member 37, the foreign matter of the wastewater can be purified together with the baffles 33a, and the water constituting the filtration member 37 can be cleaned. As the straight pipe 37a is piped in the vertical direction of the water collecting tank 31, the foreign matter floating on the upper portion of the wastewater may be first filtered out through the strainer 37b.

In addition, since air is supplied to the wastewater of the collecting tank 31 through the air generator 39, the foreign matter contained in the wastewater may be purified to the upper part of the collecting tank 31 while purifying the wastewater.

Since the air in the collecting chamber 10 is exhausted to the outside while being filtered by the exhaust means 40, the air can be exhausted in the state in which the odor or dust remaining in the air of the collecting space 10a is removed.

Specifically, since the air in the collecting chamber 10 is exhausted to the outside through the exhaust chamber 43 in a filtered state by the air filter 41, the odor or foreign matter remaining in the air of the collecting chamber 10 is completely removed. can do.

As described above with reference to the drawings illustrated for the present invention, the present invention is not limited by the embodiments and drawings disclosed herein, various modifications by those skilled in the art within the scope of the technical idea of the present invention Of course it can be done.

5: Odor generating room 10: Collection room
10a: collection space 11: plastic panel
12: reinforcing rib 13: intake fan
15: support 16: inclined support
20: washing means 21: supply pipe
23: water feed pump 25: injection nozzle
30: drainage means 31: water tank
33: discharge tank 33a: baffle
35 discharge pipe 37 filter member
37a: vertical tube 37b: strainer
40: exhaust means 41: air filter
43: exhaust chamber 43a: exhaust port
44: chimney 46: fan

Claims (8)

In the odor removal ventilation system to remove odors and dust generated in odor generating chambers, such as livestock farms or compost fermentation plant,
The compartment is installed at one side of the odor generating chamber and has a collecting space in which one side communicates with the odor generating chamber and collects odor or dust generated in the odor generating chamber, and exhausts the odor or dust to the other side of the collecting space. Collection chamber of the form;
Washing means for spraying a cleaning liquid into a collecting space of the collecting chamber to wash the odor or dust while dropping the odor or dust together with the cleaning liquid to the bottom of the collecting chamber; And
And drainage means provided in the collection chamber and collecting wastewater dropped to the bottom of the collection chamber together with the odor or dust.
The collection chamber,
A plurality of plastic panels forming the collection space while shielding one side of the odor generating chamber in a compartment shape; And
And a reinforcing rib integrally provided on the surface of the plastic panel to reinforce the rigidity of the plastic panel. The method of claim 1, wherein the collection chamber,
And a support member coupled to the reinforcing ribs to provide support to the plastic panels.
Wherein the support member comprises:
A support integrally fixed to the reinforcing ribs to support the plastic panels while forming a frame inside the plastic panels; And
Both ends of the support in the orthogonal state adjacent to each other of the supports are inclined support for reinforcing the support of the support, respectively; the odor removal ventilation system comprising a. The method of claim 1, wherein the washing means,
A supply pipe that is piped along a collection space of the collection chamber and flows through the washing liquid;
A water supply pump connected to the supply pipe and supplying the washing liquid to the supply pipe; And
And a spray nozzle provided in plurality along the supply pipe and spraying the washing liquid supplied to the supply pipe to the collection space. The method of claim 1, wherein the drainage means,
A water collection tank provided at a bottom side of the collection chamber in a water tank shape to collect the waste water;
A discharge tank connected to the collection tank so that the wastewater collected in the collection tank is discharged, and a baffle for storing the waste water is provided to discharge the wastewater to the top of the baffle while overflowing the wastewater; And
And a discharge pipe for discharging the wastewater of the collection tank to the discharge tank by discharging the wastewater of the collection tank to the discharge tank while the other end is extended to the discharge tank. The method of claim 4, wherein the drainage means,
And a filtration member for filtering foreign substances contained in the wastewater discharged from the water collection tank to the discharge tank through the discharge pipe.
The filtration member,
A vertical tube extending vertically to the discharge pipe and discharging foreign matter floating on the upper end of the waste water collected in the water collection tank together with the waste water from the water collection tank to the discharge pipe first; And
Odor removal ventilation system comprising; filter net provided to the other end of the discharge pipe to filter the foreign matter. The method of claim 4, wherein the washing means,
And an air generator installed in the water collection tank to supply air to the collected wastewater. The method of claim 1,
It is provided on the other side in the collecting chamber and the collecting space communicates with the outside, and the exhaust means for filtering the air in the collecting space in which the odor or dust is washed by the cleaning means to exhaust to the outside; Ventilation system. The method of claim 7, wherein the exhaust means,
An exhaust chamber provided on the other side of the collection chamber in a compartment shape to communicate with the collection chamber, and an exhaust port is provided at one side to exhaust the air in the collection chamber to the outside through the exhaust port; And
And an air filter installed in the exhaust chamber in a penetrating state with the collection chamber to filter foreign matters in the air while communicating air in the collection space provided in the collection chamber to the exhaust chamber.

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