KR102299153B1 - Auto Cleaning Device for Sampling Bag of Odor Sampler - Google Patents

Abstract

An automatic cleaning device for a sampling bag of an odor sampler in accordance with an embodiment of the present invention, which is a device for cleaning an odor sampler having a sampling box and a sampling bag, comprises: a cleaning pump for sucking or discharging air in the sampling box in accordance with a control signal to clean the sampling bag; a first passage switching valve formed at a connection portion between a first pump passage and a first discharge passage, and switching a fluid passage in accordance with a control signal, wherein the first pump passage is formed between a suction valve and the cleaning pump and the first discharge passage connects a discharge pipe and the first pump passage; a second passage switching valve formed at a connection portion between a second pump passage and a second discharge passage and switching the fluid passage in accordance with the control signal, wherein the second pump passage is formed between the suction valve and the cleaning pump and the second discharge passage connects the discharge pipe and the second pump passage; and a cleaning control unit outputting control signals to control the cleaning pump, the first passage switching valve, and the second passage switching valve for sucking and discharging air exhaust into and from the sampling box. Accordingly, it is possible to automatically clean out contamination sources generated in a manufacturing process and remaining in the sampling bag or contamination sources generated during use by a user, and prevent re-contamination of the sampling bag caused by the introduction of external contaminants after the contamination sources are removed.

Description

Automatic Cleaning Device for Sampling Bag of Odor Sampler

The present invention relates to an apparatus for cleaning a collection bag for an odor collector, and more particularly, to an apparatus for cleaning a collection bag of an odor collector, which can easily wash a contamination source inside the collection bag of the odor collector and prevent re-contamination by an external contamination source through an electromagnetic valve control. It relates to a collection bag automatic cleaning device.

In the case of the existing unmanned odor collector method, as shown in the published patent on the right, using a collection box (polypropylene, pelican box: 500 * 400 * 200), vacuum a 9 to 10 L/M vacuum pump directly into the collection box and wait It adopts a method of collecting odorous substances in the air within 5 minutes.

If the air flow rate is high, the vacuum pressure that can be sucked from the pump is low, so the amount of odors that can be captured is reduced or the suction is not possible. When the actual 9 ~ 10L/M vacuum pump is driven, if the noise generated from the DC brush is transferred to the ADC value to be measured, it is difficult to accurately control it.

For this reason, there is no choice but to judge whether the pump is operating or not. In particular, if the sensors work normally at room temperature of 25 degrees, but actually fall below freezing, the value in the field cannot be read or a deviation of more than 30% may occur.

In addition, the process of cleaning through suction and exhaust of external air before sampling (collecting atmospheric samples) of chemical substances generated during the heat sealing process of adhesive bonding and wrapping paper used during the assembly of the collection bag inside the collection box of the mobile collector. must go through

In the existing method, the atmospheric sample is collected in a collection bag by inhaling air, and the collection bag is removed from the collector, and a person artificially exhausts the atmospheric sample in the collection bag and then re-installs it. This process is a manual method. It goes through the process of

Fine dust and odors that may be on the user's hand, fine dust in the pump through the exhaust pipe, and external odors in the exhaust pipe can be re-inhaled. There is room for infection.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an automatic cleaning apparatus for a collection bag of a odor collector that automatically cleans a pollution source generated in a manufacturing process, etc. and remaining in the collection bag or a pollution source generated during a user's use.

Another object of the present invention is to provide an automatic cleaning device for a collection bag of a odor collector that prevents re-contamination due to inflow of an external pollution source even after removing the pollution source inside the collection bag.

According to an embodiment of the present invention, the apparatus for automatic cleaning of a collection bag of a odor collector is a device for cleaning a odor collector having a collection box and a collection bag. For cleaning the collection bag, the air in the collection box is sucked in or washing pump to exhaust; a first flow path switching valve formed at a connection portion between a first pump flow path formed between the suction valve and the washing pump and a first discharge flow path connecting the discharge pipe and the first pump flow path, the first flow path switching valve changing the flow path according to a control signal; A second flow path formed at a connection portion between a second pump flow path formed between the suction valve and the washing pump and a second discharge flow path connecting the discharge pipe and the second pump flow path, the second flow path changing the flow path according to a control signal diverter valve; and a washing control unit for outputting a control signal to control the washing pump, the first flow path switching valve, and the second flow path switching valve for intake and exhaust of the collection box.

In an embodiment, the washing control unit operates the washing pump to discharge the pollutant source of the collection bag, and controls the first flow path switching valve to open only the first pump flow path between the suction valve and the washing pump, and the It is possible to control the second flow path switching valve so that only the flow path between the washing pump and the second flow path switching valve and between the second flow path switching valve and the discharge pipe is opened.

In one embodiment, the washing control unit controls the first flow path switching valve, the second flow path switching valve and the washing pump to block the intake of the external pollutant source of the collection bag after the pollutant source of the collection bag is discharged. Thus, it is possible to maintain a constant pressure in the collection box.

In one embodiment, the washing control unit operates the washing pump for intake of external air into the collection bag, and between the discharge pipe and the first flow path switching valve and between the first flow path switching valve and the washing pump. It is possible to control the first flow path selector valve to open only the flow path, and control the second flow path selector valve to open only the second pump flow path between the washing pump and the suction valve.

The automatic cleaning apparatus for the collection bag of the odor collector according to the embodiments of the present invention has the effect of automatically cleaning the pollution source remaining in the collection bag generated in the manufacturing process or the like or the pollution source generated in the process of use by the user.

In addition, the automatic cleaning apparatus for the collection bag of the odor collector according to the embodiments of the present invention has an effect of preventing re-contamination due to the inflow of an external pollution source even after the pollution source inside the collection bag is removed.

1 is a detailed configuration diagram of an automatic cleaning apparatus for a collection bag of an odor collector according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a process in which the collecting bag washing apparatus of FIG. 1 removes a contaminant from the inside of the collecting bag.
FIG. 3 is a diagram illustrating a process in which the collecting bag washing apparatus of FIG. 1 draws external air into the collecting bag.
4 is a view illustrating a process of removing a contamination source inside the collection bag when the collection bag washing device of FIG. 1 is formed outside the collection box.
5(A) is a real photograph of the suction valve and the sensor unit installed inside the collection box in which the collection bag washing device of FIG. 1 is formed, and FIGS. 5(B) and (C) are detailed views of the sensor unit.
6(A) to 6(D) show the exterior and interior of the collection box in which the collection bag washing device of FIG. 1 is formed, the control unit, and the flow path switching valve.
7 is a detailed view of the odor collector having a dual tank to which the washing device of FIG. 1 is applied, and is a state diagram in which air from the collection box is discharged to the first and second vacuum tanks.
8 is a detailed view of the odor collector having a dual tank to which the washing device of FIG. 1 is applied, and is a state diagram of injecting air into the collection box and pressurizing it using an air pump.

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

Hereinafter, preferred embodiments of the present invention will be described, but the technical spirit of the present invention is not limited thereto and may be variously implemented by those skilled in the art without being limited thereto.

It should be noted that in adding reference numerals to the components of each drawing, the same components are given the same reference numerals as much as possible even though they are indicated on different drawings.

When a component is referred to as being “connected” or “connected” to another component, it may be directly connected or connected to the other component, but it should be understood that other components may exist in between. something to do.

Terms such as first, second, etc. may be used to describe various components, but such components should not be limited by the terms and are used only for the purpose of distinguishing one component from other components.

1 is a detailed configuration diagram of an automatic cleaning apparatus for a collection bag of an odor collector according to an embodiment of the present invention, and FIG. 2 is a flow chart of the flow path and air flow for the cleaning apparatus of FIG. 1 to remove contaminants from the collection bag. , FIG. 3 is a flow chart of the flow path and the flow path for the cleaning device of FIG. 1 to suck outside air into the collection bag, and FIG. 4 is a case in which the cleaning device of FIG. 1 is formed outside the collection box. 5(A) is a real photograph of the suction valve and sensor unit installed inside the collection box in which the collection bag washing device of FIG. It is a detailed view of the sensor unit, and FIGS. 6(A) to 6(D) show the exterior and interior of the collection box in which the collection bag washing device of FIG. 1 is formed, and the control unit and the flow path switching valve.

1 to 6 (D),

The automatic cleaning apparatus 100 for the collection bag of the odor collector according to an embodiment of the present invention has a cleaning pump 130 that intakes or exhausts the air inside the collection box 210 according to a control signal for cleaning the collection bag 211 . ), the first pump flow path 111 formed between the suction valve 212 and the washing pump 130 , and the first discharge flow path 112 connecting the discharge pipe 140 and the first pump flow path 111 . a first flow path switching valve 110 that is formed in the connection portion and changes the flow path according to the control signal; At the connection part of the second pump flow path 121 formed between the suction valve 212 and the washing pump 130 , and the second discharge flow path 122 connecting the discharge pipe 140 and the second pump flow path 121 . a second flow path switching valve 120 that is formed and changes the flow path according to the control signal; and a washing control unit 150 for outputting a control signal to control the washing pump 130 , the first flow path switching valve 110 , and the second flow path switching valve 120 for intake and exhaust of the collection box 210 . includes

Here, the first pump flow path 111 includes a first front end flow path 111a and a first rear end flow path 111b, and the second pump flow path 121 includes a second front end flow path 121a and a second rear end flow path ( 121b).

The washing control unit 150 draws air into the collection box 210 to discharge the pollutants from the collection bag 211 . First, the washing control unit 150 operates the washing pump 130 . Next, the first flow path switching valve 110 is controlled so that only the first pump flow path 111 is opened between the suction valve 212 and the washing pump 130 . In addition, the second flow path switching valve 120 is controlled so that only the flow path between the washing pump 130 and the second flow path switching valve 120 and between the second flow path switching valve 120 and the discharge pipe 140 is opened.

The washing control unit 150 includes the first flow path switching valve 110 and the second flow path switching valve 120 to block the pollutant source outside the collection bag 211 from being inhaled after the pollutant source of the collection bag 211 is discharged. and controlling the washing pump 130 to maintain a constant pressure in the collection box 210 .

For this reason, in the case of exhaust, internal static pressure remains, so that externally polluted air does not enter the collection bag 211 without closing the collection valve 218, and in the case of intake, even after collection in the collection bag 211 is completed. Since the internal vacuum pressure remains, the collection amount can be kept constant at 10L.

The washing control unit 150 may allow air to be drawn into the collecting box 210 for additional washing after discharging the contaminants of the collecting bag 211 . The remote washing control unit operates the washing pump 130 . Next, the first flow path switching valve 110 is controlled so that only the flow path between the discharge pipe 140 and the first flow path switching valve 110 and between the first flow path switching valve 110 and the washing pump 130 is opened. . In addition, the second flow path switching valve 120 is controlled so that only the second pump flow path 121 is opened between the washing pump 130 and the suction valve 212 .

It is possible to control the washing control unit 150 in a wired or wireless manner, and when controlling in a wireless manner, it is possible to control the elements through an RF wireless method.

As shown in FIG. 4 , the automatic cleaning apparatus 100 for the collection bag of the odor collector according to an embodiment of the present invention is formed inside the collection box 210 and is also formed outside the collection box 210 . it is possible to be

However, when the collection bag cleaning device 100 is also formed outside the collection box 210 , an operation of inhaling air into the collection box should be performed in order to clean the contamination source of the collection bag 211 , and the first flow path is switched. The control process of the valve and the second flow path switching valve is as follows.

The washing control unit 150 operates the washing pump 130 . Next, the first flow path switching valve 110 is controlled so that only the flow path between the discharge pipe 140 and the first flow path switching valve 110 and between the first flow path switching valve 110 and the washing pump 130 is opened. . In addition, the second flow path switching valve 120 is controlled so that only the second pump flow path 121 is opened between the washing pump 130 and the suction valve 212 .

The automatic cleaning apparatus 100 for the collection bag of the odor collector according to an embodiment of the present invention is a sensor unit that receives the expansion detection signal of the collection bag 211 when external air is inhaled and detects the degree of expansion of the collection bag 211 . It is possible to further include (213).

5(A) to (C), the sensor unit 213 includes a sensor housing 115 having a hole formed on one side in order to sense the expansion of the collection bag 211 in all directions, It is formed of an expansion touch unit 114 whose one side is non-fixedly extended into the sensor housing 115 through the hole, and a detection sensor 116 that detects the contact of the expansion touch unit 114 .

The sensor unit 213 may prevent the collection bag 211 from excessively inflated, causing the collection bag 211 itself to burst or from damage to various components such as the collection box 210 and control parts installed therein.

In addition, the sensor unit 213 can detect whether or not the collecting bag 211 has limited expansion even when the collecting bag 211 collects outdoor air containing odors through the suction valve 222 . do. In particular, the sensor unit 213 can sense the expansion of the collection bag 211 in all directions by having the expansion touch unit 215 having a structure capable of detecting contact in various directions.

7 is a detailed view of the odor collector having a dual tank to which the washing device of FIG. 1 is applied, and is a state diagram in which the air in the collection box is discharged to the first and second vacuum tanks, and FIG. 8 is the washing device of FIG. It is a detailed view of the odor collector having a dual tank, and is a state diagram of injecting air into the collection box and pressurizing it using an air pump.

7 to 8 , the odor collector 200 having a dual vacuum tank to which the apparatus 100 for cleaning the collection bag of the odor collector according to the embodiment of the present invention is applied includes a collection bag 211 and a suction valve 222 . ), a collection box 210 having a sensor unit 213 , an auxiliary pressure unit 220 having a first vacuum tank 221 and a second vacuum tank 222 , and an air pump 230 . Each of the collection box 210 and the first vacuum tank 221 and the second vacuum tank 222 includes a first vacuum connection pipe 251 and a second vacuum valve 242 provided with a first vacuum valve 241 , respectively. It communicates with the second vacuum connection tube 252 provided. Each of the air pump 230 and the first vacuum tank 221 and the second vacuum tank 222 includes a third vacuum connection pipe 253 and a fourth vacuum valve 244 provided with a third vacuum valve 243 . It communicates with the fourth vacuum connection tube 254 provided with.

Each of the first and second opening/closing valves 245 and 246 is between the first compressed air connection pipe 255 and the air pump 230 and the filter unit 270 formed between the collection box 210 and the air pump 230 . It is positioned on the formed second compressed air connection pipe 256 to open and close the air flow from the air pump 230 to the collection box 210 . Here, the filter unit 270 includes an air filter 271 and a dust filter 272 . The selection valve 247 is a 3-port universal 3-way valve that can change the opening/closing direction, and changes the direction of the air flow of the air pump 230 according to the control signal.

The control unit 260 receives the expansion detection signal of the collection bag 211 from the sensor unit 213 to control the degree of expansion of the collection bag 211, and a plurality of collection bags 211 to instantly capture odors. All controllable components constituting the odor collector 200 such as the vacuum valves 241,242, 243,244, the plurality of on/off valves 245 and 246, the selection valve 247 and the air pump 230 are controlled.

Referring to FIG. 7 , when the first and second vacuum tanks 221 and 222 are in a vacuum state, the control unit 260 controls the first and third vacuum connections when the first and third vacuum valves 241 and 243 are opened. It is controlled so that the air in the collection box 210 is discharged to the first and second vacuum tanks 221 and 222 in a vacuum state through the tube.

Referring to FIG. 8 , the control unit 260 closes the first on/off valve 245 , opens the second on/off valve 246 , and changes the flow path of the selection valve 247 so that the air pump 230 is Air is injected into the collection box 210 through the first and third compressed air connection pipes 255 and 257 to control the collection box 210 to be pressurized.

The control unit 260 controls the first and second vacuum valves 241 and 242 respectively located on the first and second vacuum connection tubes 251 and 252 in a state in which the first and second vacuum tanks 221 and 222 are evacuated. opens, closes the third and fourth vacuum valves 243 and 244 respectively located on the third and fourth vacuum connection tubes 253 and 254, and the first formed between the collection box 210 and the air pump 230 1 The second opening/closing valve ( 246) is possible.

The control unit 260 may start the air pump 230 so that the first and second vacuum tanks 221 and 222 are vacuumed to a preset limit value in order for the collection box 210 to collect the outside air within a preset speed. .

Here, the first, second, third, and fourth vacuum valves 241, 242, 243, and 244 are 2-port vacuum solenoid valves, and the first and second on-off valves 245 and 246 are also 2-port vacuum solenoid valves. am.

The control unit 260 controls the collection box 210 to be maintained in a vacuum state by the air pump 230 . , 252, 253, 254) and the first and second compressed air connection pipes 255 and 256 through the first and second compressed air connection pipes 255 and 256 to be connected to the collection box 210 to suck the air of the collection box, and the first and second compressed air connection pipes 255 , 256) by discharging to the outside, so that the collection box 210 is maintained in a vacuum.

In the odor collector 200, the collection box 210 is formed in a size of 500 * 400 * 200, and the air pump 230 has a capacity of 18 L/M. The vacuum pressure is maintained at -65KPa by indirectly vacuuming the 500 * 200 size vacuum tanks (221, 222), and the method of instantaneously collecting the odor to be captured within 10s according to the control signal is adopted.

Since the internal volume of the collection box 210 is 40,000CM ^{3 , the vacuum tanks 221 and 222 are filled (13,602CM 3} * 2=27,205CM ³ per unit) to increase the flow rate for instantaneous collection of odors in the atmosphere. The flow rate of the initial collection bag 211 was strengthened by reducing the vacuum pressure and applying a vacuum pressure to -65 KPa.

In order to increase the vacuum degree of the collection box 210 and speed up the instantaneous flow rate, the vacuum tanks 221 and 222 ^{each with a volume of 13,602CM 3} are individually operated, compared to when a single vacuum tank ^{with a volume of 27,205CM 3 is used.} It was possible to advance the time by about 5(s) or more.

In addition, in order to further improve the suction speed, the inner diameter of the suction valve 222 was expanded from 2.5φ to 3.5φ, thereby improving the suction speed of about 2(s).

As described above, the odor collector 200 includes the auxiliary pressure unit 220 composed of two vacuum tanks 221 and 222, so that even when the flow rate of the atmosphere is high, the degree of vacuum can be increased to instantly collect odors.

In addition, since the odor collector 200 includes the sensor unit 213 in the collection box 210 , it is possible to accurately control the amount of odor collection and prevent the collection bag 211 from bursting.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions are possible within the range that does not depart from the essential characteristics of the present invention by those of ordinary skill in the art to which the present invention pertains. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are for explaining, not limiting, the technical spirit of the present invention, and the scope of the technical spirit of the present invention is not limited by these embodiments and the accompanying drawings. . The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention. In addition, claims that are not explicitly cited in the claims can be combined to form an embodiment or included as a new claim by amendment after filing.

110: first flow path switching valve
111: first pump flow path
111a: first shear flow path
111b: first downstream flow path
112: first discharge flow path
120: second flow path switching valve
121: second pump flow path
121a: second shear flow path
121b: second downstream flow path
122: second discharge flow path
130: washing pump
140: discharge pipe
150: washing control unit
210: collection box
211: collection bag
222: suction valve
213: sensor unit
220: auxiliary pressure unit
221: first vacuum tank
222: second vacuum tank
230: air pump
241: first vacuum valve
242: second vacuum valve
243: third vacuum valve
244: fourth vacuum valve
245: first on-off valve
246: second on-off valve
247: selection valve
251: first vacuum connector
252: second vacuum connector
253: third vacuum connector
254: fourth vacuum connector
255: first compressed air connector
256: second compressed air connector
257: third compressed air connector
260: control unit
270: filter unit
271: air filter
272: dust filter
281: flow meter
282: sample collection tube

Claims (6)

A device for cleaning a odor collector equipped with a collection box and a collection bag.
a cleaning pump for inhaling or exhausting air in the collection box according to a control signal for cleaning the collection bag;
a first pump passage formed between the suction valve and the washing pump, and a first flow path switching valve formed at a connection portion between the discharge pipe and the first discharge flow passage connecting the first pump flow passage and changing the flow path according to a control signal;
A second flow path formed at a connection portion between a second pump flow path formed between the suction valve and the washing pump and a second discharge flow path connecting the discharge pipe and the second pump flow path, the second flow path changing the flow path according to a control signal diverter valve; and
a washing control unit for outputting a control signal to control the washing pump, the first flow path switching valve, and the second flow path switching valve for intake and exhaust of the collection box;
A collection bag automatic cleaning device of the odor collector comprising a. According to claim 1, wherein the washing control unit for discharging the pollutant source of the collection bag,
operate the washing pump;
A first flow path switching valve is controlled so that only the first pump flow path is opened between the suction valve and the washing pump,
An automatic cleaning device for collecting bags of odor collectors for controlling the second flow path switching valve to open only a flow path between the washing pump and the second flow path switching valve and between the second flow path switching valve and the discharge pipe. The method of claim 2, wherein the washing control unit blocks the pollutant source outside the collection bag from being sucked in after the pollutant source of the collection bag is discharged;
An automatic cleaning device for a collection bag of an odor collector for controlling the first flow path switching valve, the second flow path switching valve, and the washing pump to maintain a constant pressure in the collection box. According to claim 2, wherein the washing control unit for intake of external air into the collection bag,
operate the washing pump;
controlling the first flow path switching valve so that only the flow path between the discharge pipe and the first flow path switching valve and between the first flow path switching valve and the washing pump is opened,
An automatic cleaning device for a collection bag of an odor collector that controls a second flow path switching valve to open only the second pump flow path between the washing pump and the suction valve. 5. The method of claim 4,
Further comprising a sensor unit for sensing the degree of expansion of the collection bag by receiving an expansion detection signal of the collection bag when the outside air is inhaled,
The sensor unit includes a sensor housing having a hole formed on one side in order to sense the expansion of the collection bag in all directions, an expansion touch unit having one side non-fixedly extending into the sensor housing through the hole, and the expansion An automatic cleaning device for the collection bag of the odor collector, which is formed by a sensor that detects the touch of the touch part. According to claim 1,
The apparatus for cleaning the collection bag of the odor collector is formed inside or outside the collection box.

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