KR102440408B1 - Apparatus for collecting gas of industrial chimney - Google Patents

Abstract

According to an embodiment of the present invention, in collecting harmful gas discharged from a chimney at an industrial site, a suction passage through which the exhaust gas discharged from the chimney is sucked is installed on the outer wall of the chimney from the top to the bottom, and suction is performed at the bottom of the chimney It makes it easier to collect harmful gases from industrial chimneys by realizing a portable gas collector that connects to the passage and collects harmful gases to be inspected from the inhaled exhaust gas, and enables the collection of harmful gases by one person, and is required for collecting harmful gases. It can reduce the time required and increase work efficiency.

Description

Harmful gas extraction device for industrial chimneys

The present invention relates to an apparatus for collecting harmful gases for industrial chimneys, and in particular, in collecting harmful gases discharged from chimneys in industrial sites including power plants and incinerators, a suction passage through which exhaust gases discharged from the chimneys is sucked is formed on the outer wall of the chimney. It is installed from the top to the bottom of the chimney and connected to the suction passage at the bottom of the chimney to implement a portable gas collector that collects the harmful gas to be inspected from the inhaled exhaust gas, making it easier to collect harmful gases from the industrial chimney, and It relates to a hazardous gas sampling device for an industrial chimney that enables the gas extraction operation and reduces the time required to collect the harmful gas, thereby increasing work efficiency.

The exhaust gas emitted from the chimneys of thermal power plants, incinerators that incinerate industrial wastes or other general household waste, and various industrial facilities that burn fuels contain various types of hazardous substances that are harmful to humans, animals and the natural environment.

These harmful substances include halogen gas such as dioxin, hydrogen chloride and fluorine, oxidizing substances such as nitrogen oxides and sulfurous acid gas, toxic substances such as oxygen monoxide and ammonia, heavy metal substances such as lead, copper, cadmium, chromium, and particulate matter. combustion gas.

When such a noxious gas is sprayed into the air, when absorbed and accumulated, there is a hazard such as inducing disease to the human body and animals and plants. Accordingly, the government measures the pollution of the exhaust gas emitted from the chimney in accordance with regulations and policies such as the Air Environment Conservation Act, the Air Pollution Process Test Method and the Emission Permit Standard Test Method, and through this, the emission concentration of hazardous substances is regulated. .

In the industrial chimney, in measuring the contamination of the exhaust gas, a measuring hole is formed in the upper part of the chimney, and a device including a sampler, a probe, and a sample line is installed through this. Through this, the contamination of the exhaust gas has been measured through a method in which an operator recovers the exhaust gas collected in the sampler.

However, since this method is installed on a high chimney in relation to the location where the sampler is installed, it takes a lot of work time and the possibility of a safety accident is very high because the worker has to move to the location for work. It has been pointed out, and accordingly, problems due to the existence of risk potential along with excessive cost and time consumption for the measurement of pollution of exhaust gas have been largely pointed out.

Republic of Korea Patent No. 10-0538187 (Registration Date December 15, 2005)

Therefore, an object of the present invention is to install a suction passage through which the exhaust gas discharged from the chimney is sucked from the top to the bottom on the outer wall of the chimney, and from the bottom of the chimney to the suction passage It makes it easier to collect harmful gases from industrial chimneys by realizing a portable gas collector that connects and collects harmful gases to be inspected from the inhaled exhaust gas, enables the collection of harmful gases by one person, and the time required for collecting harmful gases It is to provide a harmful gas extraction device for industrial chimneys that can increase work efficiency by reducing

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the appended claims.

The apparatus for collecting harmful gas of an industrial chimney according to the present invention is inserted into an opening formed to allow exhaust gas to pass through the upper side wall of the chimney, and is installed on one side of the side wall of the chimney from the upper end of the chimney to the lower end of the chimney. a passage, an opening and closing part formed in an area adjacent to the opening on the suction passage to pass or blocking the exhaust gas on the suction passage, and formed in an area adjacent to the lower end of the chimney on the suction passage, the opening and closing part and the streamline or an opening/closing unit driving unit connected wirelessly to control the operation of the opening/closing unit, connected to the end of the suction passage extending to the rear end of the opening/closing unit driving unit, sucking the exhaust gas through the suction passage, and included in the exhaust gas Including a mobile gas extractor for collecting harmful gas, wherein the mobile gas extractor is connected to the end of the suction passage located at the bottom of the chimney so that the exhaust gas is sucked into the mobile gas extractor without leaking to the outside. a probe connected to the coupling unit and collecting the exhaust gas flowing in through the suction passage; A pump that sucks air from the suction passage so that the exhaust gas moves from the top of the chimney to the gas collection unit at the bottom of the chimney along the suction passage, and the probe is connected to measure the amount of exhaust gas collected from the probe A first sensor and the first sensor to detect the collection amount of the exhaust gas measured through the first sensor in real time to drive the pump until the collection amount becomes the reference collection amount of the exhaust gas preset for collecting the target harmful gas It may include a control unit.

In addition, the gas sampling unit includes an absorption passage in which an absorption liquid for collecting the target harmful gas is accommodated, an inlet formed on one side wall of the absorption tube and connected to the probe to allow the exhaust gas to flow into the absorption tube, the inlet and an outlet formed on the other side wall of the absorption tube in the opposite direction and connected to the pump to allow the introduced exhaust gas to flow out; at least one absorption liquid storage unit in which the absorption liquid accommodated in the absorption tube is stored; at least one valve positioned between the absorption tube and the absorption liquid storage unit to flow the absorption liquid into the absorption tube, and a second sensor measuring the capacity of the absorption liquid accommodated in the absorption tube, wherein the storage unit includes: It stores the reference capacity information to be accommodated in the absorption tube according to the absorption liquid, and the control unit is accommodated in the absorption tube through the second sensor while the absorbent liquid is received into the absorption tube through the absorbent liquid storage unit. The capacity may be sensed in real time, and the opening/closing of a valve connected to the corresponding absorbent liquid storage unit may be controlled so that the capacity is the reference capacity.

In addition, the mobile gas extractor is provided with a plurality of function keys for operating the mobile gas extractor, and a key input unit for generating corresponding key data when the function key is input, and displaying the operating state of the mobile gas extractor A display unit, a gas analyzer calculating the content of the target harmful gas included in the unit capacity of the exhaust gas based on the sampling amount of the target harmful gas collected by the gas sampling unit, and the extraction amount and content of the target harmful gas further comprising a storage unit for storing information on Based on the content of the target noxious gas, it is checked whether the content of the target noxious gas exceeds an allowable standard value per unit volume of the exhaust gas, and if it exceeds the allowable standard value, the target noxious gas is displayed through the display unit Information indicating that the permissible threshold has been exceeded can be displayed.

In addition, when the collection amount of the exhaust gas becomes the reference collection amount, the control unit may notify the display unit that the collection amount of the exhaust gas has been collected as much as the reference collection amount, and stop the driving of the pump.

In addition, the control unit, when receiving the diameter and length information of the suction passage installed in the chimney from which the target harmful gas is to be collected from the user through the key input unit, the discharge based on the diameter and length information of the intake passage The target air intake intensity of the pump is calculated so that gas flows into the gas collection unit along the suction passage, and the air intake intensity of the pump is controlled to be set as the target air intake intensity, and the measurement is performed through the first sensor. It is possible to detect in real time the collection amount of the exhaust gas to be collected and drive the pump at the target air intake intensity until the collection amount becomes the reference collection amount.

In addition, the mobile gas extractor, a GPS unit for calculating GPS location information of the mobile gas extractor, and a server wired/wireless communication network for managing the location information and identification information of each chimney, and the diameter and length information of the suction passage installed in each chimney. Further comprising a communication unit for communicating through, the control unit, when the power of the mobile gas harvester is turned on, to check whether the suction passage is connected to the coupling portion, and when the suction passage is connected, the communication unit through the After transmitting the GPS location information of the mobile gas collector in connection with the server, and receiving the identification information of the chimney and the diameter and length information of the suction passage matching the GPS location information from the server, the diameter of the received suction passage Calculating the target air intake intensity of the pump so that the exhaust gas flows to the gas collecting unit along the suction passage and the length information based on the length information and controlling the air intake intensity of the pump to be set to the target air intake intensity, , It is possible to detect the collection amount of the exhaust gas measured through the first sensor in real time and drive the pump with the target air intake intensity until the collection amount becomes the reference collection amount.

In addition, when the collection of the target noxious gas is completed, the control unit accesses the server through the communication unit and transmits the analysis information on the target noxious gas together with the identification information of the chimney, the server, The analysis information on the target harmful gas may be stored in association with the identification information of the corresponding chimney.

In addition, the mobile gas extractor further includes a GPS unit for calculating GPS location information of the mobile gas extractor, and the storage unit includes location information and identification information of each chimney, and diameter and length information of a suction passage installed in each chimney. Store, the control unit, when the power of the mobile gas extractor is turned on, inspects whether the suction passage is connected to the coupling unit, and when the suction passage is connected, identification of a plurality of chimneys stored in the storage unit Among the information and the diameter and length information of the suction passage, the identification information of one chimney and the diameter and length information of the suction passage matching the GPS location information of the mobile gas collector are searched, and then the diameter and length information of the searched suction passage based on calculating the target air intake intensity of the pump to allow the exhaust gas to flow into the gas collecting unit along the suction passage and control so that the air intake intensity of the pump is set to the target air intake intensity, and the first By detecting the collection amount of the exhaust gas measured through a sensor in real time, the pump may be driven with the target air intake intensity until the collection amount becomes the reference collection amount.

In addition, the target noxious gas may be a noxious gas containing carbon dioxide or dioxin, and the absorption liquid may be an absorption liquid for collecting carbon dioxide or dioxin.

In addition, the device is installed at the lower end of the chimney, and in order to prevent the ends of the opening and closing part driving part and the suction passage from being approached by the outside, it may further include a protection box surrounding the end of the opening and closing part driving part and the suction passage can

In addition, the suction passage may be formed of a cylindrical pipe made of a metal or plastic material.

According to an embodiment of the present invention, in collecting harmful gas discharged from a chimney at an industrial site, a suction passage through which the exhaust gas discharged from the chimney is sucked is installed on the outer wall of the chimney from the top to the bottom, and suction is performed at the bottom of the chimney It makes it easier to collect harmful gases from industrial chimneys by realizing a portable gas collector that connects to the passage and collects harmful gases to be inspected from the inhaled exhaust gas, and enables the collection of harmful gases by one person, and is required for collecting harmful gases. It can reduce the time required and increase work efficiency.

In addition to the above-described effects, the specific effects of the present invention will be described together while describing specific details for carrying out the invention below.

1 is an exemplary view of the installation of an industrial chimney toxic gas sampling device according to an embodiment of the present invention.
2 is a detailed block diagram of an apparatus for collecting harmful gas of an industrial chimney according to an embodiment of the present invention.
3 is a conceptual diagram of an operation of an opening/closing unit on a suction passage according to an embodiment of the present invention;
Figure 4 is a configuration diagram of the protection box and the opening and closing drive unit according to an embodiment of the present invention.
Figure 5 is a conceptual diagram of connecting a suction passage in the coupling portion of the mobile gas extractor according to an embodiment of the present invention.

Hereinafter, the operating principle of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms described below are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

1 is a view showing an example of installation of a harmful gas sampling device of an industrial chimney according to an embodiment of the present invention.

Figure 2 shows the detailed block configuration of the harmful gas extraction apparatus of the industrial chimney according to an embodiment of the present invention.

Hereinafter, with reference to FIGS. 1 and 2, the operation in each component of the harmful gas sampling apparatus of the industrial chimney 100 according to an embodiment of the present invention will be described in more detail.

First, as shown in FIG. 1 , in the upper and lower ends of the industrial chimney 100 , there is a suction passage 102 for moving the exhaust gas discharged to the chimney 100 to the lower end of the chimney 100 for collecting harmful gases. ) can be installed.

An opening for allowing exhaust gas to flow into the suction passage 102 may be formed on one side of the upper side wall of the chimney 100 to form the suction passage 102 , and the upper end of the suction passage 102 . Silver may be inserted into the chimney 100 through the opening. In addition, the suction passage 102 is inserted into the inside of the chimney through the opening at the top of the chimney 100 from the top of the chimney 100 to the bottom of the chimney 100 on one side of the side wall of the chimney 100. can be installed. At this time, the suction passage 102 may be formed in a straight shape through the guide member 130 for fixing the suction passage 102 to the outer wall of the chimney 100 , but is not limited thereto.

In addition, the suction passage 102 may be formed of a metal or plastic cylindrical pipe, but is not limited thereto.

In addition, an opening/closing part 106 for introducing or blocking the exhaust gas into the suction passage 102 may be formed at the upper end of the suction passage 102 . This opening/closing unit 106 is controlled by the opening/closing unit driving unit 410 to open and close the suction passage 102 as shown in FIG. ) can be blocked. 4 illustrates a concept in which the opening/closing unit 106 is controlled by the opening/closing unit driving unit 410 .

The opening/closing unit 106 operates the blocking film 300 on the inflow path 102 as shown in FIG. It can be positioned in such a way as to block this suction passage. In addition, when there is a driving command to release the blocking of the suction passage 102, the blocking film 300 is operated on the suction passage 102 as shown in FIG. It can be positioned in a form to release the blocking.

The opening/closing unit 106 is connected to the opening/closing unit driving unit 410 by wire or wirelessly and is operated according to the driving command of the opening/closing unit driving unit 410, and the opening/closing unit driving unit 410 is the lower end of the suction passage 102 for easy access by the operator. can be installed on

The opening/closing part driving unit 410 is installed at the lower end of the suction passage 102 as shown in FIG. 1 for the ease of access of the operator according to an embodiment of the present invention, thereby preventing access by outsiders other than a legitimate operator, and , it may be implemented in a shielded form with a protective box 104 as shown in FIG. 4 to prevent it from being affected by rain. At this time, the protection box 104 may be provided with a locking means (not shown) on the door 402 of the protection box 104 so that only a legitimate operator can open and close, but is not limited thereto.

In addition, the protection box 104 may be formed to surround the end of the suction passage 102 to which the movable gas extractor 150 is connected together with the opening and closing part driving unit 410 . That is, the end 400 of the suction passage 102 is a part to which the mobile gas extractor 150 should be connected, and when it is damaged by an external force, a problem may occur in the connection with the mobile gas extractor 150, so protect it (104) It is desirable to prevent damage caused by external force by being positioned inside.

The mobile gas extractor 150 is a device that can be carried by an operator authorized to collect harmful gases from the exhaust gas discharged from the industrial chimney 100, and is protected after opening the door 402 of the protection box 104. It is connected to the end 400 of the suction passage 102 located in the box 104, it is possible to collect the target harmful gas from the exhaust gas.

As shown in FIG. 2 , the mobile gas extractor 150 includes a coupling unit 200 , a probe 202 , a key input unit 208 , a display unit 210 , a pump 206 , a gas sampling unit 230 , and gas analysis. It may include a unit 212 , a communication unit 218 , a storage unit 214 , a GPS unit 216 , a control unit 220 , a first sensor 204 , a second sensor 242 , and the like.

Hereinafter, the operation of each part of the mobile gas extractor 150 according to an embodiment of the present invention will be described in more detail with reference to FIGS. 1 to 4 .

The coupling part 200 is connected to the end 400 of the suction passage 102 located at the bottom of the chimney 100 so that the exhaust gas does not leak to the outside and is stably sucked into the inside of the mobile gas extractor 150 . 5 illustrates a concept in which the end 400 of the suction passage 102 and the coupling end 500 of the mobile gas extractor 150 are coupled in the coupling unit 200 . In this coupling, a female screw is formed in the coupling part 200, and an external screw is formed at the end 400 of the suction passage 102 and the coupling end 500 of the mobile gas extractor 150, but may be coupled in a screw fastening manner, However, the present invention is not limited thereto.

The probe 202 is installed at the rear end of the coupling unit 200 to collect the exhaust gas flowing in through the suction passage 102 . At this time, the probe 202 may be equipped with a filter, etc., and may perform a pretreatment operation for purifying a gas that may be a problem in the collection of a target harmful gas among various polluting components included in the exhaust gas, but is not limited thereto.

The first sensor 204 measures the amount of exhaust gas collected from the probe 202 and provides it to the controller 206 .

The gas collecting unit 230 collects at least one preset target harmful gas by sucking the exhaust gas collected by the probe 202 .

The gas collecting unit 230 may include an absorption tube 232 , an absorption liquid storage unit 238 , a valve 240 , a second sensor 242 , and the like.

The absorption tube 232 collects the target harmful gas from the exhaust gas through the absorption liquid. The absorption tube 232 is connected to the probe 202 so that the target harmful gas is collected from the inlet 234 and the absorption tube 232 through which the exhaust gas is introduced is discharged to the outside of the absorption tube 232 . An outlet 236 may be formed. That is, as shown in FIG. 2 , the inlet 234 is formed on one side wall of the absorption tube 232 and connected to the probe 202 , and the outlet 236 is an inlet 234 on the other side wall of the absorption tube 232 . ) and may be formed in a structure connected to the pump 206 by being formed in the opposite direction.

The absorption liquid storage unit 238 stores the absorption liquid accommodated in the absorption tube 232 . The absorption liquid storage unit 238 may be formed with a plurality of absorption liquid storage units according to the type of target harmful gas to be collected from the exhaust gas. At this time, the absorbent liquid may mean an absorption liquid capable of absorbing carbon dioxide well, for example, when the type of target harmful gas to be collected from the exhaust gas of the chimney 100 is carbon dioxide, and the type of the target harmful gas is a dioxin component. In the case of a gas containing this, it may mean an absorption liquid capable of absorbing dioxins well. This absorption liquid may be discharged to the outside through a pipe (not shown) that may be installed in the lower portion of the absorption tube 232 when the target harmful gas collection process is completed.

The valve 240 is positioned between the absorption tube 232 and the absorption liquid storage unit 238 and flows the absorption liquid into the absorption tube 232 through an opening and closing operation by the control unit 220 . The second sensor 242 measures the capacity of the absorbent liquid accommodated in the absorbent tube 232 and applies it to the controller 220 .

The gas analyzer 212 calculates the content of the target harmful gas included in the unit capacity of the exhaust gas based on the sampling amount of the target harmful gas collected by the gas extraction unit 230, and The information is provided to the control unit 220 .

The pump 206 may be connected to the suction passage 102 through the outlet 236 of the absorption tube 232, and suction and discharge air from the suction passage 232 in the direction of the mobile gas collector 150 through a pumping operation. It allows gas to move from the top of the chimney 100 to the gas collecting unit 230 at the bottom of the chimney 100 along the suction passage 102 . The pump 206 may be integrally provided inside the mobile gas harvester 150, or may be implemented as a separate type that is provided as a separate device so that it can be connected to the mobile gas harvester 150 if necessary.

The key input unit 208 is provided with a plurality of function keys for operation of the mobile gas extractor 150 , and when a function key is input by the user, it generates key data corresponding to the input function key and transmits it to the control unit 220 . do.

The display unit 210 displays various information according to the operation of the portable gas extractor 150 according to the control of the controller 220, such as the operation state of the mobile gas extractor 150 or the amount of exhaust gas collected, the amount of target harmful gas collected, the capacity of the absorbent, etc. display

The storage unit 214 stores the operation program of the mobile gas extractor 150 , and stores temporary data generated according to the operation of the control unit 220 . In addition, the amount of target harmful gas collected for each chimney for which the measurement is performed is stored together with identification information for each chimney, and information on the content of target harmful gas for each unit capacity of the exhaust gas analyzed by the gas analyzer 212 is stored.

In addition, the storage unit 214 stores the reference capacity information to be accommodated in the absorption tank according to the absorption liquid for each harmful gas to be collected.

The communication unit 218 communicates with a server (not shown) that manages location information and identification information of each chimney, and diameter and length information of a suction passage installed in each chimney through a wired/wireless communication network.

When the mobile gas harvester 150 is moved, the GPS unit 216 measures GPS location information of the mobile gas harvester 150 and provides it to the controller 220 .

The controller 220 controls the overall operation of the mobile gas extractor 150 according to the operation program of the mobile gas extractor 150 stored in the storage unit 214 .

In addition, the control unit 220 detects in real time the collection amount of the exhaust gas measured through the first sensor 204 according to an embodiment of the present invention, and the collection amount is a reference collection amount of the exhaust gas preset in order to collect the target harmful gas. Run the pump until

In addition, the control unit 220 detects in real time the capacity of the absorption liquid accommodated in the absorption tube 232 through the second sensor 242 while the absorption liquid is received into the absorption tube 232 through the absorption liquid storage unit 238 . The opening and closing of the valve 240 connected to the corresponding absorbent liquid storage unit 238 may be controlled so that the capacity is the reference capacity.

In addition, the control unit 220 stores information on the amount and content of the target harmful gas in the storage unit to be linked with the identification information of the chimney. In addition, based on the content of the target harmful gas analyzed by the gas analyzer 212, it is inspected whether the content of the target harmful gas exceeds the permissible standard value per unit capacity of the exhaust gas, and when the target harmful gas exceeds the allowable standard value, the display unit 210 ), information indicating that the target harmful gas exceeds the allowable standard can be displayed.

In addition, when the collection amount of the exhaust gas becomes the reference collection amount, the controller 220 may notify the display unit 210 that the collection amount of the exhaust gas has been collected by the reference collection amount, and stop the operation of the pump 206 . In this case, the reference collection amount of the exhaust gas may be information on the collection amount of exhaust gas required for the collection of the target harmful gas, and the reference collection amount of the exhaust gas may be set differently depending on the type of the target harmful gas, but is not limited thereto .

In addition, when the control unit 220 receives information on the diameter and length of the suction passage 102 installed in the chimney from which the target harmful gas is to be collected from the user through the key input unit 208 , the diameter and length of the intake passage 102 . Based on the information, the target air intake strength of the pump 206 is calculated so that the exhaust gas flows to the gas collection unit 230 along the suction passage 102, and the air intake strength of the pump 206 is the target air intake strength. can be controlled to be set.

In addition, by detecting the collection amount of the exhaust gas measured through the first sensor 204 in real time, the pump 206 may be driven with the target air intake intensity until the collection amount becomes the reference collection amount.

In addition, the control unit 220 checks whether the suction passage 102 is connected to the coupling unit 200 when the power of the mobile gas extractor 150 is turned on, and when the suction passage 102 is connected, the communication unit 218 ) to transmit the GPS location information of the mobile gas harvester 150 by connecting to the server on the wired/wireless communication network. Then, the control unit 220 receives the identification information of the chimney and the diameter and length information of the suction passage matching the GPS location information from the server.

Then, based on the diameter and length information of the suction passage received from the server as described above, the control unit 220 determines the target air intake intensity of the pump 206 so that the exhaust gas flows to the gas collection unit 230 along the intake passage. By calculating, the air intake intensity of the pump 206 may be controlled to be set to the target air intake intensity.

In addition, the control unit 220 may detect the collection amount of the exhaust gas measured through the first sensor 204 in real time and drive the pump 206 at the target air intake intensity until the collection amount becomes the reference collection amount.

In addition, when the collection of the target noxious gas is completed, the controller 220 may access the server through the communication unit 218 to transmit analysis information on the target noxious gas together with the identification information of the chimney. Then, the server may store the analysis information on the target harmful gas in association with the identification information of the corresponding chimney. Accordingly, even if the worker does not input measurement data one by one when returning to the head office during the chimney collecting operation, the measurement information on the harmful gas can be updated directly on the server in real time, thereby further improving work efficiency. .

In addition, according to another embodiment of the present invention, the control unit 220 checks whether the suction passage 102 is connected to the coupling unit 200 when the power of the mobile gas extractor 150 is turned on, and the suction passage 102 ) is connected, identification information of one chimney that matches the GPS location information of the mobile gas extractor 150 among the identification information of the plurality of chimneys stored in the storage unit 214 and the diameter and length information of the suction passage 102 . and the diameter and length of the suction passage can be searched.

Next, the control unit 220 calculates the target air intake intensity of the pump 206 so that the exhaust gas flows to the gas collection unit 230 along the suction passage, based on the found diameter and length information of the intake passage, and the air of the pump It is possible to control the intake intensity to be set to the target air intake intensity.

In addition, the control unit 220 may detect the collection amount of the exhaust gas measured through the first sensor 204 in real time and drive the pump 206 at the target air intake intensity until the collection amount becomes the reference collection amount.

As described above, according to one embodiment of the present invention, in collecting harmful gas discharged from a chimney at an industrial site, a suction passage through which the exhaust gas discharged from the chimney is sucked is installed on the outer wall of the chimney from the top to the bottom, It makes it easier to collect harmful gases from industrial chimneys by implementing a portable gas collector that connects to the suction passage at the bottom of the chimney and collects the harmful gas to be inspected from the inhaled exhaust gas. It is possible to increase work efficiency by reducing the time required for collecting harmful gases.

As described above, the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed in the present specification. It is obvious that variations can be made. In addition, although the effects according to the configuration of the present invention are not explicitly described and described while describing the embodiments of the present invention, it is natural that the effects predictable by the configuration should also be recognized.

102: suction passage 104: protection
106: opening and closing part 150: mobile gas collector
200: coupling portion 202: probe
204: first sensor 206: pump
208: key input unit 210: display unit
212: gas analysis unit 214: storage unit
216: GPS unit 218: communication unit
220: control unit 230: gas collection unit
232: absorption tank 238: absorption liquid storage unit
240: valve 242: second sensor

Claims (11)

a suction passage inserted into an opening formed in the upper side wall of the chimney through which the exhaust gas passes and installed on one side of the side wall of the chimney from the upper end of the chimney to the lower end of the chimney; An opening/closing unit formed on the suction passage to pass or block the exhaust gas, and an opening/closing unit formed in an area adjacent to the lower end of the chimney on the suction passage and connected to the opening/closing unit by wire or wirelessly to control the operation of the opening/closing unit A movable gas extractor connected to an end of the suction passage extending to the rear end of the driving unit and the opening/closing unit driving unit to suck the exhaust gas through the suction passage and collect the harmful gas contained in the exhaust gas, the suction passage An industrial chimney toxic gas sampling device comprising a pump that sucks air from the chimney and moves the exhaust gas from the top of the chimney to the gas collection unit at the bottom of the chimney along the suction passage,
The mobile gas extractor includes: a coupling part connected to the end of the suction passage located at the bottom of the chimney so that the exhaust gas is sucked into the mobile gas extractor without leaking to the outside;
a probe connected to the coupling part to collect the exhaust gas flowing in through the suction passage;
An absorption tube for collecting the target harmful gas is accommodated so that the exhaust gas collected by the probe can be sucked to collect at least one predetermined target harmful gas, and is formed on one side wall of the absorption tube and connected to the probe an inlet for allowing the exhaust gas to flow into the absorption tube, an outlet formed on the other side wall of the absorption tube in a direction opposite to the inlet port and connected to the pump to allow the introduced exhaust gas to flow out; At least one absorbent liquid storage unit in which the absorbent liquid is stored, at least one valve positioned between the absorption tube and the absorbent liquid storage portion to flow the absorbent liquid into the absorption tube, and measuring the capacity of the absorption liquid accommodated in the absorption tube a gas extraction unit including a second sensor to;
a first sensor connected to the probe to measure a collection amount of exhaust gas collected from the probe;
a control unit that senses the collection amount of the exhaust gas measured through the first sensor in real time and drives the pump at a target air intake intensity until the collection amount becomes a reference collection amount;
a storage unit for storing reference capacity information according to the sample amount and content of the target noxious gas and the absorption liquid for each target noxious gas to be accommodated in the absorption tank;
a GPS unit for calculating GPS location information of the mobile gas harvester;
A communication unit that communicates through a wired/wireless communication network with a server that manages location information and identification information of each chimney and information on the diameter and length of the suction passage installed in each chimney;
The control unit checks whether the suction passage is connected to the coupling part when the power of the mobile gas harvester is turned on, and when the suction passage is connected, connects to the server through the communication unit and the mobile gas collector After transmitting GPS location information, and receiving the identification information of the chimney and the diameter and length information of the suction passage matching the GPS location information from the server, the exhaust gas based on the received diameter and length information of the intake passage calculates the target air intake strength of the pump to flow into the gas collection unit along the suction passage and controls the air intake strength of the pump to be set to the target air intake strength,
When the collection of the target noxious gas is completed, the server is accessed through the communication unit to transmit the analysis information on the target noxious gas together with the identification information of the chimney, and the server performs the analysis of the target noxious gas Harmful gas extraction device for industrial chimneys that stores information in conjunction with identification information of the relevant chimney. The method of claim 1,
The control unit detects in real time the capacity accommodated in the absorption tube through the second sensor while the absorbent liquid is accommodated into the absorption tube through the absorbent liquid storage unit, and the absorbent liquid storage unit so that the capacity is the reference capacity. Harmful gas sampling device for industrial chimneys that controls the opening and closing of valves connected to The method of claim 1,
The mobile gas collector,
a key input unit having a plurality of function keys for operating the mobile gas extractor and generating corresponding key data when the function keys are input;
a display unit for displaying the operating state of the mobile gas extractor;
Further comprising a gas analyzer for calculating the content of the target harmful gas included in the unit capacity of the exhaust gas based on the sampling amount of the target harmful gas collected by the gas sampling unit,
The control unit is
Information on the amount and content of the target noxious gas is stored in the storage unit to be linked with the identification information of the chimney, and the content of the target noxious gas is determined based on the content of the target noxious gas analyzed by the gas analysis unit. Noxious gas of an industrial chimney that inspects whether the permissible standard value per unit capacity of the exhaust gas is exceeded, and displays information indicating that the target noxious gas exceeds the allowable standard value through the display unit when the allowable standard value is exceeded collection device. 4. The method of claim 3,
The control unit is
When the collection amount of the exhaust gas becomes the reference collection amount, the display unit informs that the collection amount of the exhaust gas has been collected as much as the reference collection amount, and stops the operation of the pump. 4. The method of claim 3,
The control unit is
When receiving the diameter and length information of the suction passage installed in the chimney from which the target harmful gas is to be collected from the user through the key input unit,
Based on the diameter and length information of the suction passage, the target air intake intensity of the pump is calculated so that the exhaust gas flows to the gas collection unit along the intake passage, and the air intake intensity of the pump is the target air intake intensity. Harmful gas sampling device for industrial chimneys that is controlled to be set to delete delete The method of claim 1,
The storage unit stores location information and identification information of each chimney and diameter and length information of a suction passage installed in each chimney,
The control unit checks whether the suction passage is connected to the coupling unit when the power of the mobile gas extractor is turned on, and when the suction passage is connected, identification information and suction for a plurality of chimneys stored in the storage unit After searching for the identification information of one chimney and the diameter and length information of the suction passage matching the GPS location information of the mobile gas collector among the diameter and length information of the passage, based on the diameter and length information of the searched intake passage, the Harmful gas sampling device of an industrial chimney for controlling the air intake intensity of the pump to be set to the target air intake intensity by calculating the target air intake intensity of the pump so that the exhaust gas flows to the gas collecting unit along the suction passage . delete delete delete

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