KR102230758B1 - Ordor Collecting Device having Vaccum Tanks - Google Patents

Abstract

According to embodiments of the present invention, an odor collecting device having vacuum tanks comprises: a collection box having a collection bag which is provided to collect outside air containing odors, and a sensor unit which detects whether the collection bag is expanded to the limit; an auxiliary pressure unit having a plurality of vacuum tanks which increase the vacuum level of the collection box to increase the collection speed so that the collection bag collects outside air within a preset time; an air pump for supplying or discharging air to control the pressure state of the collection box and the vacuum state of the plurality of vacuum tanks; a valve unit having a plurality of vacuum valves which are positioned on a flow path formed between the collection box and the vacuum tanks to control supply and discharge of air to and from the plurality of vacuum tanks, a plurality of opening and closing valves which are positioned on a flow path formed between the collection box and the air pump to supply or block the air flow from the air pump to the collection box, and a selection valve which changes the direction of the air flow of the air pump; and a control unit for receiving an expansion detection signal of the collection bag from the sensor unit and controlling the degree of expansion of the collection bag, and controlling the plurality of vacuum valves, the plurality of opening and closing valves, the selection valve, and the air pump in order to collect outside gas. Even when the flow rate of the atmosphere is high, the odor collecting device can raise the vacuum level, thereby instantly collecting odors, and can precisely control the amount of odors collected, thereby preventing the collection bag from bursting.

Description

Odor Collecting Device having Vaccum Tanks {Ordor Collecting Device having Vaccum Tanks}

The present invention relates to a odor collecting device equipped with a vacuum tank, and more particularly, a vacuum tank capable of instantaneously collecting odor using a vacuum tank applied with vacuum to collect odor at a specific moment in a continuously changing gaseous condition. It relates to a odor collecting device provided with.

In the case of the existing unmanned odor collector method, a 9-10L/M vacuum pump is directly evacuated to the collection box using a collection box (high box: 500 * 400 * 200) as shown in the patent publication on the right to odor in the atmosphere. It adopts a method of collecting substances within 5 minutes.

In this case, when the flow rate of the atmosphere is high, the vacuum pressure that can be sucked from the pump is low, so that the amount capable of collecting odors decreases or the suction is impossible.

In addition, in order to control the collection amount of the collection bag, the ADC function is controlled based on the voltage value using digital and analog pressure sensors. In this case, the voltage value that can be controlled with DC 10 ~ 50 (mV) is small when converted into an actual control value of about 2 ~ 3Kpa of static pressure and resonance.

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, accurate control is difficult.

For this reason, it is only possible to judge whether or not the pump is operated. In particular, if the sensors operate normally under the condition of 25 degrees Celsius at room temperature, but actually fall to the sub-zero range, the value may not be read from the field or a deviation of 30% or more may occur.

This may cause a case where the collection bag bursts because the collection amount of the collection bag cannot be accurately controlled.

In the case of the existing suction valve, the inner diameter of the valve is 2.5Φ, and when vacuum is applied with a vacuum pump of 9 ~ 10L/M currently in use, when air in the atmosphere is sucked, the inner diameter is small, so it does not bring much flow, which further affects the collection speed. have.

It is an object of the present invention to provide an apparatus for collecting odors having a vacuum tank capable of instantaneously collecting odors by increasing the degree of vacuum even when the flow rate of the atmosphere is high.

Another object of the present invention is to provide an apparatus for collecting odors having a vacuum tank capable of preventing explosion of a collection bag by accurately controlling the amount of odors collected.

The odor collecting device having a vacuum tank according to the exemplary embodiments of the present invention includes a collecting bag provided to collect external air including odor and a collecting box having a sensor unit that detects whether the collecting bag has a limit expansion. ; An auxiliary pressure unit having a plurality of vacuum tanks for increasing a collection speed so that the collection bag collects outside air within a predetermined time by increasing the degree of vacuum of the collection box; An air pump for supplying or discharging air to adjust the pressure state of the collection box and the vacuum state of the plurality of vacuum tanks; A plurality of vacuum valves positioned on a flow path formed between the collection box and the vacuum tank to control supply and discharge of air to the plurality of vacuum tanks, and a flow path formed between the collection box and the air pump, and the air pump A valve unit including a plurality of on-off valves for opening and closing the air flow to the collection box and a selection valve for changing a direction of the air flow of the air pump; And controlling the degree of expansion of the collection bag by receiving an expansion detection signal of the collection bag from the sensor unit, and controlling the plurality of vacuum valves, the plurality of opening/closing valves, the selection valve, and the air pump to collect outside gas. It includes a control unit.

In one embodiment, the sensor unit includes a sensor housing having a hole formed on one side to detect the expansion of the collection bag in all directions, and an expansion touch unit formed with a non-fixed extension of one side into the sensor housing through the hole. It is possible to include a detection sensor that senses the contact of the expansion touch unit.

In one embodiment, the sensor unit may be formed in a central portion of an inner surface of one surface having a scene area among 6 surfaces of the collection box.

In one embodiment, the plurality of vacuum tanks are formed of a first vacuum tank and a second vacuum tank each having the same capacity, and the first vacuum tank is a first flow path from the collection box and a first flow path from the air pump. The second vacuum tank communicates with the collection box through a second flow passage, and the second vacuum tank communicates with the collection box through a third flow passage and the air pump through a fourth flow passage.

In one embodiment, the control unit opens the first and third vacuum valves respectively located on the first and third flow paths while the first and second vacuum tanks are vacuumed, and the second and fourth flow paths Closing the second and fourth vacuum valves respectively located on the upper side, inhaling through a first opening/closing valve formed in a flow path between the collection box and the air pump, and a second opening/closing formed in a flow path through which the air pump sucks external air It is possible to exhaust through the valve.

In one embodiment, the control unit 160 may start the air pump so that the first and second vacuum tanks are vacuumed to a preset limit value in order for the collection box to collect the outside air within a preset speed. .

The apparatus for collecting odors having a vacuum tank according to embodiments of the present invention has an effect of instantaneously collecting odors by increasing the degree of vacuum even when the flow rate of the atmosphere is high.

In addition, the odor collecting device provided with the vacuum tank according to the embodiments of the present invention has the effect of accurately controlling the amount of odor collecting to prevent the collection bag from bursting.

1 is a schematic diagram of an apparatus for collecting odors having a vacuum tank according to an embodiment of the present invention,
FIG. 2 is a detailed view of the odor collecting device of FIG. 1, and is a state diagram in which air from the collecting box is discharged to the first and second vacuum tanks.
FIG. 3 is a detailed view of the odor collecting device of FIG. 1, and is a state diagram of injecting air into a collecting box using an air pump to pressurize it.
4 is a detailed view of the odor collecting device of FIG. 1, and is a state diagram of discharging air from the collecting box using an air pump.
5 is a real photograph of a collection box, a collection bag, a sensor unit, and first and second vacuum tanks of an apparatus for collecting odors having a vacuum tank according to an embodiment of the present invention.
6(A) is a real picture of a suction valve and a sensor unit installed in a collecting box of a odor collecting device having a vacuum tank according to an embodiment of the present invention, and FIGS. 6(B) and (C) are detailed views of the sensor unit to be.
7 is a diagram illustrating a state of components in an expanded state and a contracted state of a collecting bag in the odor collecting apparatus having a vacuum tank according to an exemplary embodiment of the present invention.
8 is a diagram illustrating states of components in a vacuum state of an auxiliary pressure unit and an instantaneous collection state of a collecting box in the odor collecting apparatus having a vacuum tank 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.

Hereinafter, preferred embodiments of the present invention will be described, but the technical idea of the present invention is not limited thereto or is not limited thereto, and may be modified and variously implemented by those skilled in the art.

In adding reference numerals to elements of each drawing, it should be noted that, even though they are indicated on different drawings, the same elements are to have the same reference numerals as much as possible.

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

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

1 is a schematic diagram of an apparatus for collecting odors having a vacuum tank according to an embodiment of the present invention, and FIGS. 2 to 4 are detailed views of the apparatus for collecting odors of FIG. 1, and FIG. 2 is ,A state diagram of being discharged to a second vacuum tank, FIG. 3 is a state diagram of injecting air into a collection box using an air pump to pressurize, and FIG. 4 is a state diagram of discharging air from the collection box using an air pump.

5 is a real photograph of a collection box, a collection bag, a sensor unit, and first and second vacuum tanks of an apparatus for collecting odors having a vacuum tank according to an embodiment of the present invention, and FIG. 6(A) is a view of the present invention. Photographs of a suction valve and a sensor unit installed in a collection box of an apparatus for collecting odors having a dual vacuum tank according to an embodiment are shown, and FIGS. 6B and 6C are detailed views of the sensor unit.

7 is a diagram illustrating the state of components in an expanded state and a contracted state of a collection bag in an apparatus for collecting odors having a vacuum tank according to an embodiment of the present invention, and FIG. 8 is a dual vacuum tank according to an embodiment of the present invention. It is an explanatory diagram of the state of the components in the vacuum state of the auxiliary pressure part and the instantaneous collection state of the collecting box in the odor collecting apparatus having a

1 to 4, the odor collecting device 100 having a vacuum tank according to an embodiment of the present invention includes a collecting bag 111, a suction valve 112, and a collecting box having a sensor unit 113. 110, an auxiliary pressure unit 120 having a first vacuum tank 121 and a second vacuum tank 122, and an air pump 130. Each of the collection box 110 and the first vacuum tank 121 and the second vacuum tank 122 includes a first vacuum connector 151 and a second vacuum valve 142 provided with a first vacuum valve 141 It is in communication with the second vacuum connector 152 provided. Each of the air pump 130, the first vacuum tank 121, and the second vacuum tank 122 is provided with a third vacuum valve 143, a third vacuum connector 153 and a fourth vacuum valve 144 It is in communication with the fourth vacuum connector 154 provided.

The collection box 110 includes a collection bag 111 provided to collect outside air including odor through the suction valve 112 and a sensor unit 113 that detects whether the limit expansion of the collection bag 111 is present. ).

The auxiliary pressure unit 120 includes first and second vacuum tanks 121 and 122 that increase the collection speed so that the collection bag collects outside air within a predetermined time by increasing the degree of vacuum of the collection box 110.

The air pump 130 supplies or discharges air to the collection box 110 in order to adjust the pressure state of the collection box 110 and the vacuum state of the first and second vacuum tanks 121 and 122 according to a control signal. Each of the first and third vacuum valves 141 and 143 is located on the first vacuum connector 151 and the third vacuum connector 153 formed between the collection box 110 and the first vacuum tanks 121 and 122. , Each of the second and fourth vacuum valves 142 and 144 is on the second vacuum connector 152 and the fourth vacuum connector 154 formed between the first vacuum tank 121 and 122 and the air pump 30 Positioned, air supply and discharge to the first and second vacuum tanks 121 and 122 are controlled according to the control signal.

Each of the first and second on-off valves 145 and 146 is between the first compressed air connection pipe 155 and the air pump 130 and the filter unit 170 formed between the collection box 110 and the air pump 130. It is located on the formed second compressed air connection pipe 156 to open and close the air flow from the air pump 130 to the collection box 110. Here, the filter unit 170 is composed of an air filter 171 and a dust filter 172. The selection valve 147 is a 3-port universal 3-way valve capable of changing the opening and closing direction, and changes the direction of the air flow of the air pump 130 according to a control signal.

The control unit 160 controls the degree of expansion of the collection bag 111 by receiving an expansion detection signal of the collection bag 111 from the sensor unit 113, and allows the collection bag 111 to instantly collect a plurality of odors. Controls all controllable components constituting the odor collecting device 100, such as vacuum valves 141, 142, 143, and 144, a plurality of on-off valves 145 and 146, a selection valve 147, and an air pump 130.

Referring to FIG. 2, when the first and second vacuum tanks 121 and 122 are in a vacuum state, the controller 160 connects the first and third vacuum valves when the first and third vacuum valves 141 and 143 are opened. The air in the collection box 110 is controlled to be discharged to the first and second vacuum tanks 121 and 122 in a vacuum state through the tube.

3, the control unit 160 closes the first on-off valve 145, opens the second on-off valve 146, and changes the flow path of the selection valve 147, so that the air pump 130 Air is injected into the collection box 110 through the first and third compressed air connection pipes 155 and 157 to control to pressurize the collection box 110.

4, the control unit 160 opens the first on-off valve 145, closes the second on-off valve 146, and changes the flow path of the selection valve 147 so that the air pump 130 is Controls to discharge the air from the collection box 110 through the first and third compressed air connection pipes (155, 157).

5 and 6(B) and (C), the sensor unit 113 includes a sensor housing 114 having a hole formed on one side to detect the expansion of the collection bag 111 in all directions. It is possible to include an expansion touch unit 115 having one side extending non-fixedly into the sensor housing 114 through the hole and a detection sensor 116 for sensing contact of the expansion touch unit. The sensor unit 113 may be formed in the center of the inner side of one side of the six sides of the collection box 110 having a scene area.

The auxiliary pressure unit 120 is composed of a first vacuum tank 121 and a second vacuum tank 122 each having the same capacity, and the first vacuum tank 121 is a first vacuum connector with the collection box 110 151, the air pump 130 is communicated with the second vacuum connector 152, the second vacuum tank 122 is the collection box 110 and the third vacuum connector 153, the air pump ( 130) and it is possible to communicate with the fourth vacuum connector 154.

The controller 160 controls the first and third vacuum valves 141 and 143 respectively located on the first and third vacuum connectors 151 and 153 while the first and second vacuum tanks 121 and 122 are vacuumed. Open and close the second and fourth vacuum valves 142 and 144 respectively located on the second and fourth vacuum connection pipes 152 and 154, and the agent formed between the collection box 110 and the air pump 130 1 A second on/off valve located on the second compressed air connection pipe, which is a flow path through which the air pump 130 sucks outside air and inhales through the first on/off valve 145 located on the compressed air connection pipe 155. It is possible to exhaust through 146).

The control unit 160 may start the air pump 130 so that the first and second vacuum tanks 121 and 122 are vacuumed to a preset limit value in order for the collection box 110 to collect the outside air within a preset speed. .

Here, the first, second, third, and fourth vacuum valves 141, 142, 143, and 144 are two photo vacuum solenoid valves, and the first and second on-off valves 145 and 146 are also photo vacuum solenoid valves. .

The control unit 160 controls the collection box 110 to maintain a vacuum state by the air pump 130. For this purpose, the air pump 130 includes first, second, third, and fourth vacuum connection pipes 151 , 152, 153, 154) and the first and second compressed air connecting pipes (155, 156) and connected to the collection box 110 to inhale the air of the collection box, and the first and second compressed air connection pipes (155). By discharging to the outside through the, 156, the collection box 110 is maintained in a vacuum.

In the odor collecting device 100 according to the present invention, the collecting box 110 is formed in a size of 500 * 400 * 200, and the air pump 130 has a capacity of 18L/M. It adopts a method of indirectly vacuuming the 500 * 200 sized vacuum tanks 121 and 122 to maintain the vacuum pressure -65KPa, and then instantaneously collecting the odors to be collected within 10s according to the control signal.

Since the internal volume of the collection box 110 is 40,000CM ^{3 , the vacuum tanks 121 and 122 are collected (13,602CM 3} per 1 unit * 2=27,205CM ³ ) in order to speed up the flow rate for instantaneous collection of odors in the atmosphere. The flow rate of the initial collection bag 111 was strengthened by reducing the pressure and applying a vacuum pressure to -65KPa.

In order to increase the degree of vacuum in the collecting box 110 faster than when the instantaneous flow rate per unit volume 13,602CM ³ in the vacuum tank 121, 122 to one of the volume of the vacuum tank 27,205CM ³ employs a method that operates as an individual one Time could be accelerated by about 5(s) or more.

In addition, in order to further improve the suction speed, the inner diameter of the suction valve 112 was expanded from 2.5 Φ to 3.5 Φ, thereby improving the suction speed of about 2 (s).

When digital and analog pressure sensors are used in the instant collection method In winter and summer, when the collection bag is momentarily inflated due to the sensitivity of the sensor, when the control timing for stop is missed due to sensor deviation, the collection bag barks or bursts due to pressure. Cases do happen.

6A, in order to improve this, in the odor collecting device 100 according to the present invention, a sensor unit 113, which is an auxiliary control device capable of controlling when the collecting bag 111 is swollen, is separately provided. It was installed in the center of the side of the collection box (110).

6(B) and (C), the sensor unit 113 is designed to operate in any direction when the collecting bag 111 is swollen, and this auxiliary control device is When transmitting the swelling signal to the control unit 160, the control unit 160 closes the first and second vacuum valves 151 and 153, which are solenoid valves located in the flow path between the vacuum tanks 121 and 122 and the collection box 110. Control, and control to open the first and second on-off valves (145, 146) to discharge a certain portion of the vacuum pressure in the collection box 110 to the outside. As a result, the problem of the collection bag popping has been improved.

4 and 7, in order to expand the collection bag 111, the control unit 160 closes the first, second, third, and fourth vacuum valves 141, 142, 143, and 144 and the second on-off valve 146 And control to open the first on-off valve 145. At the same time, the control unit 160 controls the air pump 130 to intake air from the collection box 110, so that the inside of the collection box 110 is contracted so that the collection bag 111 is exposed to outside air through the floor meter 181. Inhale.

In order to contract the collection bag 111, the control unit 160 controls the first, second, third, and fourth vacuum valves 141, 142, 143, 144 and the second on-off valve 146 to close, and the first on-off valve ( 145) is controlled to open. At the same time, the control unit 160 controls the air pump 130 to exhaust air to the collection box 110, and expands the inside of the collection box 110 so that the collecting bag 111 is placed through the floor meta 181. Exhaust.

4 and 8, in order to make the auxiliary pressure unit 120 into a vacuum state, the control unit 160 closes the first and third vacuum valves 141 and 143, and the second and fourth vacuum valves (142, 144) and the first on-off valve 145 is controlled to open. At the same time, the control unit 160 starts the air pump 130, and the collecting box 110 operates until the sensor unit 113 mounted on the inner surface of one side of the collecting box 110 detects whether the collecting bag 111 is inflated. ) To inhale the bet and vacuum, and control the second and fourth vacuum valves 142 and 144 to be closed.

In such a vacuum state of the auxiliary pressure unit 120, the control unit 160 opens the first and third vacuum valves 141 and 143 so that the collection box 110 instantaneously collects the outside air, Control to keep the fourth vacuum valves 142 and 144 closed. At the same time, the control unit opens the second on/off valve 146, and the air pump to inhale and vacuum the inside of the collection box 110 until the sensor unit 113 detects whether the collection bag 111 has a limit expansion. Control the start of (130).

As described above, the odor collecting apparatus 100 having a dual vacuum tank according to the embodiments of the present invention includes an auxiliary pressure unit 120 composed of two vacuum tanks 121 and 122 so that the flow velocity of the atmosphere is reduced. Even if it is fast, the degree of vacuum can be increased to instantly capture odors.

In addition, the odor collecting device 100 having a vacuum tank according to the embodiments of the present invention includes a sensor unit 113 in the collecting box 110, thereby accurately controlling the amount of odor collecting to the collecting bag 111. This can be prevented from bursting.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the technical field to which the present invention pertains can make various modifications, changes, and substitutions within the scope not departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings. . The scope of protection 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, an embodiment may be configured by combining claims that do not have an explicit citation relationship in the claims, or may be included as a new claim by amendment after filing.

110: collection box
111: collection bag
112: suction valve
113: sensor unit
120: auxiliary pressure part
121: first vacuum tank
122: second vacuum tank
130: air pump
141: first vacuum valve
142: second vacuum valve
143: third vacuum valve
144: fourth vacuum valve
145: first on-off valve
146: second on-off valve
147: selection valve
151: first vacuum connector
152: second vacuum connector
153: third vacuum connector
154: fourth vacuum connector
155: first compressed air connector
156: second compressed air connector
157: third compressed air connector
160: control unit
170: filter unit
171: air filter
172: dust filter
181: flow meter
182: sample collection tube

Claims (6)

A collection box provided with a collection bag provided to collect outside air including odors and a sensor unit for detecting whether the collection bag is inflated to a limit;
An auxiliary pressure unit having first and second vacuum tanks for increasing a collection speed so that the collection bag collects outside air within a predetermined time by increasing the degree of vacuum of the collection box;
An air pump for supplying or discharging air to adjust the pressure state of the collection box and the vacuum state of the first and second vacuum tanks;
A first vacuum valve formed on a first flow path communicating the first vacuum tank and the collection box, a second vacuum valve formed on a second flow path communicating the first vacuum tank and the air pump, and the second vacuum A plurality of vacuum valves having a third vacuum valve formed on a third flow path communicating the tank and the collection box, a fourth vacuum valve formed on a fourth flow path communicating the second vacuum tank and the air pump, the A valve unit including a plurality of on-off valves positioned on a flow path formed between the collection box and the air pump to open and close the air flow from the air pump to the collection box, and a selection valve that changes the direction of the air flow of the air pump; And
And a control unit configured to receive an expansion detection signal of the collection bag from the sensor unit to control the degree of expansion of the collection bag, and to control the valve unit and the air pump to collect outside gas,
The control unit operates the air pump to vacuum the collection box, opens the first and third vacuum valves in a state in which the first and second vacuum tanks are vacuumed, and the second and fourth vacuum valves An apparatus for collecting odors with a vacuum tank, characterized in that the collection box instantly collects outside air by maintaining the closing of the odor. The method of claim 1,
The sensor unit includes a sensor housing having a hole formed at one side to detect the expansion of the collecting bag in all directions, an expansion touch unit having a non-fixed extension formed therein through the hole, and the expansion touch unit An apparatus for collecting odors with a vacuum tank, comprising: a sensor for sensing contact. The method of claim 2,
The sensor unit is formed in a central portion of the inner surface of one surface having a scene area among the six surfaces of the collecting box, the odor collecting device having a vacuum tank. The method of claim 1,
The first and second vacuum tanks respectively have the same capacity. delete The method of claim 1,
The control unit activates the air pump so that the first and second vacuum tanks are vacuumed to a preset limit value in order for the collection box to collect the outside air within a preset speed. Device.

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