KR20170072577A - Apparatus for removing bad smell - Google Patents

Abstract

According to the present invention, there is provided a piping system comprising: a first piping section for supplying an acidic liquid; A first chamber receiving the acidic liquid supplied from the first piping portion and having a first gas discharge portion disposed on an upper side thereof; A second piping section for supplying an alkaline solution; A second chamber receiving the alkali solution supplied from the second piping portion and having a second gas discharge portion disposed on the upper side thereof; A contaminated gas supply unit for supplying a contaminated gas into the acidic liquid of the first chamber or the alkaline solution of the second chamber; A wastewater treatment unit for treating wastewater discharged from the first chamber or the second chamber to supply the treated liquid to the first gas discharge unit or the second gas discharge unit; And a gas feeder communicating with the first chamber and the second chamber and supplying the gas discharged from one chamber into the liquid of the other chamber.

Description

[0001] APPARATUS FOR REMOVING BAD SMELL [0002]

The present invention relates to a malodor removing apparatus capable of multi-processing in order to effectively remove odor polluting gas.

As the industry develops and the abundance of life increases, the pollutants emitted are becoming diverse and increasing.

In such a situation, there is a need to regulate the production or treatment of pollutants all over the world, and various waste or pollutant treatment apparatuses are being developed accordingly.

However, the development of a malodor removing apparatus for removing odors generated from the above-mentioned waste or pollutants has not yet been developed.

Conventional malodor treatment apparatuses employ an adsorption method, a cleaning method, or a combustion method.

Specifically, the above-mentioned adsorption method uses activated carbon or the like, which can not effectively remove odors, and has a disadvantage of requiring secondary treatment of the adsorbent.

The cleaning method has a disadvantage in that the contact area between the liquid and the contaminated gas is small and the efficiency of the flow of the polluted gas to avoid contact with the liquid is poor, .

The combustion method is effective in an environment with a low wind and a high concentration of polluting gas, but it has a disadvantage of high equipment cost and combustion cost.

In addition, since the polluted gas may contain a basic, acidic or heavy reducing gas, a malodor removing device capable of effectively removing such a complex pollutant gas is needed.

It is an object of the present invention to provide a malodor removing apparatus capable of effectively removing polluted gas.

According to an aspect of the present invention, there is provided an apparatus for supplying an acidic liquid, comprising: a first piping section for supplying an acidic liquid; A first chamber receiving the acidic liquid supplied from the first piping portion and having a first gas discharge portion disposed on an upper side thereof; A second piping section for supplying an alkaline solution; A second chamber receiving the alkali solution supplied from the second piping portion and having a second gas discharge portion disposed on the upper side thereof; A contaminated gas supply unit for supplying a contaminated gas into the acidic liquid of the first chamber or the alkaline solution of the second chamber; A wastewater treatment unit for treating wastewater discharged from the first chamber or the second chamber to supply the treated liquid to the first gas discharge unit or the second gas discharge unit; And a gas feeder communicating with the first chamber and the second chamber and supplying the gas discharged from one chamber into the liquid of the other chamber.

The first pipe portion may include a water pipe; Acidic liquid tank; An acidic liquid supply pipe having one end communicated with the acidic liquid tank and the other end connected to the water supply pipe; And a level control valve for controlling the level of the acidic liquid supplied into the first chamber.

The second piping section may include a water pipe; Alkaline liquid tank; An alkaline liquid supply pipe having one end communicated with the alkaline liquid tank and the other end connected with the water supply pipe; And a level control valve for controlling the level of the alkaline solution supplied into the second chamber.

The first gas discharge unit may include a first duct connected to a gas discharge port formed on an upper side of the first chamber and a second duct disposed on the other side of the first chamber so as to be spaced apart from the acidic liquid by a predetermined distance. And a first nozzle unit disposed inside the first duct to jet the liquid introduced from the wastewater treatment unit.

The second gas discharging unit may include a second duct having one side communicated with the gas outlet formed on the upper side of the second chamber and the other side disposed in the second chamber with a predetermined distance from the alkaline solution; And a second nozzle unit disposed inside the second duct for spraying the liquid introduced from the wastewater treatment unit.

Further, a gas induction film may be disposed on the other side of the first duct or the second duct.

The contaminated gas supply unit may include an inlet duct through which the polluted gas flows; An exhaust fan disposed in the inflow duct to flow the polluted gas; And a supply pipe communicating with the inflow duct and supplying the contaminated gas into the acidic liquid of the first chamber or the alkaline solution of the second chamber.

In addition, at least two or more of the supply pipes may be branched to supply the contaminated gas into the acidic liquid of the first chamber or into the alkaline liquid of the second chamber.

Further, the wastewater treatment section may include a discharge pipe communicating with the liquid discharge port of the first chamber or the second chamber; A filter screen for filtering wastewater flowing into the discharge pipe; A waste water treatment chamber for treating wastewater flowing into the discharge pipe; And a flow pipe for flowing the treated liquid from the wastewater treatment chamber to the first gas discharge unit or the second gas discharge unit.

The gas transferring part may include a transfer pipe having one end communicated with the gas outlet of the first chamber or the gas outlet of the second chamber and the other end immersed in the acidic liquid of the first chamber or the alkaline solution of the second chamber; And a flow pump disposed on the transfer tube.

INDUSTRIAL APPLICABILITY The present invention can effectively treat contaminated gas regardless of the constituents of the polluted gas by immersing the polluted gas in two chambers each containing an acidic solution and an alkaline solution.

Further, the wastewater generated after the contaminated gas treatment is treated, and the contaminated gas treated with the acidic solution or the alkaline solution is rinsed again before being discharged to treat the excellent polluted gas, and at the same time, an environmentally friendly odor removing device can be provided .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a malodor removing apparatus according to an embodiment of the present invention; Fig.
2 is a view schematically showing a contact area of contaminated gas by an immersion liquid or a cleaning liquid in a malodor removing apparatus according to an embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein are the same as the generic meanings of the terms understood by those of ordinary skill in the art, and where the terms used herein contradict the general meaning of the term, they shall be as defined herein.

It is to be understood, however, that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

FIG. 1 is a view showing a malodor removing apparatus according to an embodiment of the present invention, FIG. 2 is a view schematically showing a contact area of a contaminated liquid or a contaminated gas by a cleaning liquid of a malodor removing apparatus according to an embodiment of the present invention to be.

1, a malodor removing apparatus according to an embodiment of the present invention includes a first piping unit 100, a first chamber 200, a second piping unit 300, a second chamber 400, a polluted gas supply unit 500 A wastewater treatment unit 600, and a gas transfer unit 700.

Specifically, the first piping unit 100 can supply an acidic liquid and includes a water pipe 110, an acidic liquid tank 120, one end communicated with the acidic liquid tank 120, An acidic liquid supply pipe 130 to be connected to the water supply pipe 110 and a water level control valve 140 to regulate the level of the acidic liquid supplied into the first chamber 200.

An acidic liquid concentration sensor 150 may be disposed in the first piping unit 100 and a check valve 160 may be disposed in the acidic liquid supply pipe 130. In this case, the acidic liquid can be supplied to the first chamber 200, which will be described later, with the concentration of the acidic liquid by the user's setting.

The first chamber 200 receives the acidic liquid supplied from the first piping unit 100 and the first gas discharging unit 210 may be disposed on the upper side.

Specifically, the first gas exhaust unit 210 is connected to the gas exhaust port 201 formed on the upper side of the first chamber 200, and the other side communicates with the acidic liquid in the first chamber 200, And a first nozzle unit 212 disposed inside the first duct 211 for spraying the liquid flowing from the wastewater treatment unit 600. The first duct 211 is disposed at a predetermined distance from the first duct 211, .

Therefore, in the first chamber 200, the polluted gas flowing into the inside is firstly immersed in the acidic liquid to remove odors, and the gas which is secondarily immersed in the acidic liquid and then discharged is supplied to the first nozzle part 212, It is possible to remove the malodor and discharge the gas to the outside.

In addition, the gas duct 213 may be disposed on the other side of the first duct 211 to control the flow of discharged gas more effectively.

The second piping unit 300 is capable of supplying an alkaline solution and includes a water supply pipe 310, an alkaline liquid tank 320, one end communicating with the alkaline liquid tank 320, 310 and a level control valve 340 for controlling the level of the alkaline solution supplied into the second chamber 400.

An alkaline liquid concentration detecting sensor 350 may be disposed in the second piping unit 300 and a check valve 360 may be disposed in the alkaline liquid supply pipe 330. In this case, the alkaline solution can be supplied to the second chamber 400 with the alkaline solution concentration set by the user.

The second chamber 400 receives the alkaline solution supplied from the second piping unit 300 and the second gas discharge unit 410 may be disposed on the upper side.

Specifically, the second gas discharge unit 410 is connected to the gas discharge port 401 formed on the upper side of the second chamber 400, and the other side communicates with the alkaline solution in the second chamber 400 And a second nozzle unit 412 disposed inside the second duct 411 for spraying the liquid introduced from the wastewater treatment unit 600. The second duct 411 is disposed at a distance from the first duct 411, .

Therefore, in the second chamber 400, the polluted gas flowing into the inside is firstly immersed in the alkaline solution to remove odors, and the gas which is secondarily immersed in the alkaline solution and then discharged is supplied to the second nozzle unit 412, It is possible to remove the malodor and discharge the gas to the outside.

In addition, the gas duct 413 is disposed on the other side of the second duct 411 to control the flow of discharged gas more effectively.

A gas discharge pipe 420 may be disposed outside the second chamber 400. A sensor 430 for measuring the degree of cleanliness of the gas may be disposed in the gas discharge pipe 420, If not, the exhaust gas may flow back to the inlet duct 510, which will be described later.

The contaminated gas supply unit 500 can supply (immerse) the polluted gas into the acidic liquid of the first chamber 200 or the alkaline liquid of the second chamber 400.

The polluted gas supply unit 500 includes an inlet duct 510 into which the polluted gas flows, an exhaust fan 520 disposed in the inlet duct 510 to flow the polluted gas, And a supply pipe 530 communicating with the first chamber 200 to supply the contaminated gas into the acidic liquid of the first chamber 200 or into the alkaline solution of the second chamber 400.

That is, as shown in the drawing, the polluted gas supply unit 500 can immerse the polluted gas into the acidic liquid of the first chamber 200, but is not limited thereto, and may be contaminated with the alkaline liquid of the second chamber 400 The gas can be first immersed.

Further, in order to effectively immerse the polluted gas, the supply pipe 530 may be branched at least two to supply the polluted gas into the acidic liquid of the first chamber 200 or the alkaline liquid of the second chamber 400.

The wastewater treatment unit 600 processes the wastewater discharged from the first chamber 200 or the second chamber 400 to remove the liquid discharged from the first gas discharge unit 210 or the second gas discharge unit 410 Can be supplied.

That is, the embodiment includes a wastewater treatment unit 600. By using such wastewater as the second KEPCO cleaning solution, a more environmentally friendly and economical odor removing apparatus can be realized.

The wastewater treatment unit 600 includes a discharge pipe 610 communicating with a liquid discharge port of the first chamber 200 or the second chamber 400 and a filter screen 610 for filtering wastewater flowing into the discharge pipe 610. [ A waste water treatment chamber 630 for treating wastewater flowing into the discharge pipe 610 and a treatment liquid discharged from the wastewater treatment chamber 630 through the first gas discharge portion 210 or the second gas And a flow tube 640 that flows to the discharge portion 410.

Here, the wastewater treatment chamber 630 may be disposed in the first wastewater treatment chamber 631 and the second wastewater treatment chamber 632 as shown in FIG.

The discharge pipe 610 may be connected to the liquid discharge ports 202 and 402 of the first chamber 200 and the second chamber 400 as shown in FIG.

In addition, the wastewater treatment chamber 630 may be directly connected to a sewer pipe (manhole) 650 to discharge sewage to the sewer pipe if the wastewater is sufficiently purified.

The filter screen 620 is preferably arranged to precede the wastewater treatment chamber 630 but is not limited thereto and the wastewater treatment chamber 630 may be disposed before the filter screen 620 .

The gas transfer part 700 may communicate with the first chamber 200 and the second chamber 400 to supply the gas discharged from one chamber into the liquid of the other chamber.

That is, as shown in the figure, the gas transfer part 700 may be arranged to immerse the gas discharged after the second cleaning from the first chamber 200 into the alkaline solution of the second chamber 400, The gas transfer part 700 may be arranged to immerse the gas discharged after the second cleaning from the second chamber 400 in the acidic solution of the first chamber 200. [

Specifically, the gas transfer part 700 has one end communicated with the gas outlet of the first chamber 200 or the gas outlet of the second chamber 400, and the other end communicated with the acidic liquid of the first chamber 200, A flow pipe 640 immersed in an alkaline solution of the flow path 400 and a flow pump 720 disposed on the flow path 640.

At least two of the other ends of the flow pipe 640 are branched so that the immersion effect of the gas in the acidic liquid or the alkaline liquid can be more effectively achieved.

Hereinafter, a driving process of the malodor removing apparatus according to the embodiment of the present invention will be described.

The contaminated gas is flowed into the first chamber 200 containing the acidic liquid as the contaminated gas supply unit 500 and immersed in the acidic liquid.

The polluted gas which has been immersed in the acidic liquid so as to rise above the water surface is firstly purified, and the cleaning liquid injected from the first nozzle part 212 before being discharged to the first gas discharging part 210 disposed on the upper side, Cleaning is performed.

Thereafter, the contaminated gas that has been secondarily cleaned flows through the gas transfer part 700 and is immersed in the alkaline solution of the second chamber 400.

The polluted gas which has been immersed in the alkaline solution and rises above the surface of the water is thirdly purified, and the cleaning liquid injected from the second nozzle unit 412 before being discharged to the second gas discharge unit 410 disposed on the upper side, Cleaning is performed.

In this case, the sensor 430 that measures the cleanliness of the gas disposed in the gas discharge pipe 420 may not clean the gas after the series of rinsed cleanings, The exhaust gas can flow back to the inlet duct 510.

Of course, the order of immersion of the acidic solution and the alkaline solution may be reversed. That is, the first pipe 200 is connected to the second pipe 300 and the second pipe 400 is connected to the first pipe 100.

2, the malodor removing apparatus according to an embodiment of the present invention immerses the polluted gas in an acidic liquid or an alkaline liquid to purify the gas in the form of bubbles, and again rinses the gas rising in the direction of the discharge port of the chamber, This structure allows the contact area of the immersion liquid or the cleaning liquid to be maximized in the gas, so that the gas can be effectively purified regardless of the type of the odor.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. Range and its equivalent range.

100: first pipe section 110: water pipe
120: acidic liquid tank 130: acidic liquid supply pipe
140: Water level control valve 150: Acid liquid concentration detection sensor
160: Check valve 200: First chamber
201: gas outlet 202: liquid outlet
210: first gas discharge part 211: first duct
212: first nozzle portion 213: gas induction film
300: Second piping section 310: Water piping
320: alkaline liquid tank 330: alkaline liquid supply pipe
340: Water level control valve 350: Alkaline liquid concentration detection sensor
360: check valve 400: second chamber
401: gas outlet port 402: liquid outlet port
410: second gas discharging part 411: second duct
412: second nozzle part 413: gas induction film
420: gas discharge pipe 430: gas measurement sensor
500: Pollution gas supply unit 510: Inlet duct
520: exhaust fan 530: supply pipe
600: waste water treatment section 610: discharge pipe
620: Filter screen 630: Wastewater treatment chamber
631: first wastewater treatment chamber 632: second wastewater treatment chamber
640: Flow pipe 650: Sewer pipe
700: gas transfer part 710: transfer pipe
720: Flow pump

Claims (10)

A first piping section for supplying an acidic liquid;
A first chamber receiving the acidic liquid supplied from the first piping portion and having a first gas discharge portion disposed on an upper side thereof;
A second piping section for supplying an alkaline solution;
A second chamber receiving the alkali solution supplied from the second piping portion and having a second gas discharge portion disposed on the upper side thereof;
A contaminated gas supply unit for supplying a contaminated gas into the acidic liquid of the first chamber or the alkaline solution of the second chamber;
A wastewater treatment unit for treating wastewater discharged from the first chamber or the second chamber to supply the treated liquid to the first gas discharge unit or the second gas discharge unit; And
And a gas transferring unit communicating with the first chamber and the second chamber to supply the gas discharged from one chamber into the liquid of the other chamber.
The method according to claim 1,
Wherein the first piping portion includes:
Water supply pipe;
Acidic liquid tank;
An acidic liquid supply pipe having one end communicated with the acidic liquid tank and the other end connected to the water supply pipe; And
And a water level control valve for controlling the level of the acidic liquid supplied into the first chamber.
The method according to claim 1,
Wherein the second pipe portion
Water supply pipe;
Alkaline liquid tank;
An alkaline liquid supply pipe having one end communicated with the alkaline liquid tank and the other end connected with the water supply pipe; And
And a water level control valve for controlling the level of the alkaline solution supplied into the second chamber.
The method according to claim 1,
Wherein the first gas discharging portion includes:
A first duct communicating one side with a gas outlet formed on the upper side of the first chamber and the other side being disposed at a predetermined distance from the acidic liquid in the first chamber; And
And a first nozzle unit disposed inside the first duct to inject liquid from the wastewater treatment unit.
The method according to claim 1,
Wherein the second gas discharging portion includes:
A second duct having one side communicated with a gas outlet formed on the upper side of the second chamber and the other side disposed in the second chamber at a predetermined distance from the alkaline solution; And
And a second nozzle unit disposed inside the second duct to inject liquid from the wastewater treatment unit.
The method according to claim 4 or 5,
And a gas induction film is disposed on the other side of the first duct or the second duct.
The method according to claim 1,
Wherein the polluted gas supply unit includes:
An inflow duct into which the polluted gas flows;
An exhaust fan disposed in the inflow duct to flow the polluted gas; And
And a supply pipe communicating with the inflow duct and supplying a contaminated gas into the acidic liquid of the first chamber or the alkaline solution of the second chamber.
8. The method of claim 7,
Wherein at least two of the supply pipes are branched to supply the contaminated gas into the acidic liquid of the first chamber or into the alkaline solution of the second chamber.
The method according to claim 1,
The wastewater treatment unit includes:
A discharge pipe communicating with a liquid discharge port of the first chamber or the second chamber;
A filter screen for filtering wastewater flowing into the discharge pipe;
A waste water treatment chamber for treating wastewater flowing into the discharge pipe; And
And a flow pipe for flowing the treated liquid from the wastewater treatment chamber to the first gas discharge unit or the second gas discharge unit.
The method according to claim 1,
The gas-
A transfer tube having one end communicated with the gas outlet of the first chamber or the gas outlet of the second chamber and the other end immersed in the acidic liquid of the first chamber or the alkaline solution of the second chamber; And
And a flow pump disposed on the transfer pipe.

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