CN215003776U - Device for measuring gas extraction flow - Google Patents
Device for measuring gas extraction flow Download PDFInfo
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- CN215003776U CN215003776U CN202120306367.1U CN202120306367U CN215003776U CN 215003776 U CN215003776 U CN 215003776U CN 202120306367 U CN202120306367 U CN 202120306367U CN 215003776 U CN215003776 U CN 215003776U
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- 238000000605 extraction Methods 0.000 title claims abstract description 40
- 230000007246 mechanism Effects 0.000 claims abstract description 124
- 239000002274 desiccant Substances 0.000 claims description 11
- 239000006096 absorbing agent Substances 0.000 claims description 9
- 230000035939 shock Effects 0.000 claims description 9
- 230000008878 coupling Effects 0.000 claims description 7
- 238000010168 coupling process Methods 0.000 claims description 7
- 238000005859 coupling reaction Methods 0.000 claims description 7
- 230000000149 penetrating effect Effects 0.000 claims description 6
- 238000005259 measurement Methods 0.000 claims description 3
- 230000002349 favourable effect Effects 0.000 abstract 2
- 239000003245 coal Substances 0.000 description 8
- 230000000694 effects Effects 0.000 description 5
- 238000000034 method Methods 0.000 description 5
- 238000001816 cooling Methods 0.000 description 4
- 238000009434 installation Methods 0.000 description 4
- 238000012544 monitoring process Methods 0.000 description 4
- 208000033999 Device damage Diseases 0.000 description 2
- 238000001514 detection method Methods 0.000 description 2
- 230000017525 heat dissipation Effects 0.000 description 2
- 230000003068 static effect Effects 0.000 description 2
- 238000012546 transfer Methods 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Chemical compound O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000006378 damage Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 230000002035 prolonged effect Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Abstract
The utility model belongs to the technical field of gas extraction, in particular to a device for measuring gas extraction flow, which comprises a gas flow measuring device main body, a measuring mechanism, a connecting mechanism and a control mechanism, wherein the middle part of the gas flow measuring device main body is embedded and connected with the measuring mechanism, the bottom end of the measuring mechanism is movably connected with the connecting mechanism, the other end of the measuring mechanism is embedded and connected with the control mechanism, one side of the measuring mechanism is embedded and connected with a mounting plate, the connecting mechanism is favorable for connecting and fixing a T-shaped pipe and a connecting pipe, so that an operator can conveniently install and disassemble the measuring mechanism, the measuring mechanism comprises a mounting plate, an installer, an anti-static shell, a connecting pipe, a fixed block, a connector, a first control valve, a gas extraction parameter measuring instrument, a second control valve and a hydraulic telescopic column, the measuring mechanism is favorable for detecting the content of gas in the gas, and the practicability of the device is improved, the working efficiency of the device is improved, and the device has wide development prospect in the future.
Description
Technical Field
The utility model relates to a gas drainage technical field specifically is a survey gas drainage flow's device.
Background
The coal seam gas extraction method is characterized in that coal seam gas is used as an associated resource of coal and is enriched in a large amount in an underground coal seam, the safety production of the coal mine is seriously influenced when the gas content of the coal seam is too high, and an effective method for controlling gas harm is coal seam gas extraction.
At present, the most accurate borehole gas micro-flow measuring method commonly used in underground coal mines utilizes a high-precision gas extraction parameter measuring instrument, the existing device cannot measure the real mixed flow of the borehole, and the pure gas extraction flow cannot be calculated, and the existing device has the advantages of single function, poor measuring effect, complex operation, low accuracy, inconvenience in installation, high installation cost and inconvenience in disassembly and assembly.
Therefore, how to design a device for measuring the gas extraction flow rate becomes a problem to be solved at present.
Disclosure of Invention
An object of the utility model is to provide a survey gas drainage flow's device to solve the inconvenient dismantlement equipment that provides in the above-mentioned background art, the degree of accuracy is low and the problem of function singleness.
In order to achieve the above object, the utility model provides a following technical scheme: a device for measuring gas extraction flow comprises a gas flow measuring device main body, a measuring mechanism, a connecting mechanism and a control mechanism, wherein the measuring mechanism is connected to the middle part of the gas flow measuring device main body in an embedded manner, the connecting mechanism is movably connected to the bottom end of the measuring mechanism, the control mechanism is connected to the other end of the measuring mechanism in an embedded manner, a mounting plate is connected to one side of the measuring mechanism in an embedded manner, an installer is connected to the top of the mounting plate in an embedded manner, an anti-static shell is connected to the other end of the mounting plate in an embedded manner, a connecting pipe penetrates through one side of the interior of the anti-static shell, a fixed block is connected to the top of one side of the interior of the anti-static shell in an embedded manner, a connector is connected to the other side of the interior of the anti-static shell in an embedded manner, a first control valve is connected to the top of one end of the connector in an embedded manner, and a gas extraction parameter measuring instrument is connected to the middle part of one end of the connector, the connector is characterized in that a second control valve is connected to the bottom of one end of the connector in an embedded mode, a hydraulic telescopic column is connected to the one end of the second control valve in an embedded mode, a connecting block is connected to the top of the connecting mechanism in an embedded mode, a flowmeter is connected to the top of the connecting block in an embedded mode, a shock absorber is connected to the other side of the bottom of the flowmeter in an embedded mode, a T-shaped pipe is movably connected to the middle of the connecting mechanism in an embedded mode, connecting threads are connected to the top of the T-shaped pipe in an embedded mode, a limiting block is connected to the bottom of the connecting block in an embedded mode, a fixing device is connected to the other end of the limiting block in an embedded mode, the other side of the bottom of the T-shaped pipe is connected with a gas extraction pipe in a penetrating mode, a control box is connected to the bottom of the inner portion of the control mechanism in an embedded mode, and a control panel is connected to the other end of the control mechanism in an embedded mode.
Preferably, a desiccant storage box is embedded and connected in the middle of one side of the interior of the anti-static shell.
Preferably, a temperature sensor is embedded and connected to the top of one side inside the control mechanism.
Preferably, a radiator is connected to the top end of the control mechanism in a penetrating manner.
Preferably, the measuring mechanism is formed by combining a mounting plate on one side of the measuring mechanism, a mounting device on the top of the mounting plate, an anti-static shell on the other end of the mounting plate, a connecting pipe on one side inside the anti-static shell, a fixed block on the top of one side inside the anti-static shell, a connector on the other side inside the anti-static shell, a first control valve on the top of one end of the connector, a gas extraction parameter measuring instrument in the middle of one end of the connector, a second control valve on the bottom of one end of the connector and a hydraulic telescopic column on one end of the second control valve.
Preferably, the connecting mechanism is formed by combining a connecting block at the top of the connecting mechanism, a flowmeter at the top of the connecting block, a shock absorber on the other side of the bottom end of the flowmeter, a T-shaped pipe in the middle of the connecting mechanism, a connecting thread at the top of the T-shaped pipe, a limiting block at the bottom end of the connecting block, a fixer at the other end of the limiting block and a gas extraction pipe on the other side of the bottom end of the T-shaped pipe.
Compared with the prior art, the beneficial effects of the utility model are that:
1. this kind of survey gas drainage flow's device, survey mechanism comprises mounting panel, erector, antistatic shell, connecting pipe, fixed block, connector, first control valve, gas drainage parameter measurement appearance, second control valve and the flexible post of hydraulic pressure to reach the effect that detects the content of gas in the gas, survey mechanism helps detecting the content of gas in the gas, thereby improved the practicality of device, and then improved the work efficiency of device.
2. This kind of survey gas drainage flow's device, coupling mechanism are taken out by connecting block, flowmeter, bumper shock absorber, T type pipe, connecting thread, stopper, fixer and gas and adopt the pipe to constitute to reach and connect fixed effect to T type pipe and connecting pipe, coupling mechanism helps connecting fixedly to T type pipe and connecting pipe, thereby makes things convenient for operating personnel to install the dismantlement, and then has improved the stability of device.
Drawings
Fig. 1 is a schematic view of the overall cross-sectional structure of the present invention;
FIG. 2 is a schematic view of the cross-sectional structure of the measuring mechanism of the present invention;
fig. 3 is a schematic sectional structure view of the connection mechanism of the present invention;
fig. 4 is a schematic view of the sectional structure of the control mechanism of the present invention.
The labels in the figure are: 1. the gas flow measuring device comprises a gas flow measuring device body 2, a measuring mechanism 201, a mounting plate 202, an installer 203, an antistatic shell 204, a connecting pipe 205, a drying agent storage tank 206, a fixing block 207, a connector 208, a first control valve 209, a gas extraction parameter measuring instrument 2010, a second control valve 2011, a hydraulic telescopic column 3, a connecting mechanism 301, a connecting block 302, a flowmeter 303, a damper 304, a T-shaped pipe 305, a connecting thread 306, a limiting block 307, a fixer 308, a gas extraction pipe 4, a control mechanism 401, a control box 402, a temperature sensor 403, a radiator 404 and a control panel.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.
Referring to fig. 1-4, the present invention provides a technical solution: a device for measuring gas extraction flow comprises a gas flow measuring device main body 1, a measuring mechanism 2, a connecting mechanism 3 and a control mechanism 4, wherein the measuring mechanism 2 is connected to the middle part of the gas flow measuring device main body 1 in an embedded manner, the connecting mechanism 3 is movably connected to the bottom end of the measuring mechanism 2, the control mechanism 4 is connected to the other end of the measuring mechanism 2 in an embedded manner, a mounting plate 201 is connected to one side of the measuring mechanism 2 in an embedded manner, a mounting device 202 is connected to the top of the mounting plate 201 in an embedded manner, an anti-static shell 203 is connected to the other end of the mounting plate 201 in an embedded manner, a connecting pipe 204 is connected to one side of the interior of the anti-static shell 203 in a penetrating manner, a fixed block 206 is connected to the top of one side of the interior of the anti-static shell 203 in an embedded manner, a connector 207 is connected to the other side of the interior of the anti-static shell 203 in an embedded manner, a first control valve 208 is connected to the top of one end of the connector 207 in an embedded manner, a gas extraction parameter measuring instrument 209 is connected to the middle part of one end of the connector 207, the embedding of the one end bottom of connector 207 is connected with second control valve 2010, the one end embedding of second control valve 2010 is connected with hydraulic telescoping post 2011, coupling mechanism 3's top embedding is connected with connecting block 301, connecting block 301's top embedding is connected with flowmeter 302, flowmeter 302's bottom opposite side embedding is connected with bumper shock absorber 303, coupling mechanism 3's middle part swing joint has T type pipe 304, T type pipe 304's top embedding is connected with connecting thread 305, connecting block 301's bottom embedding is connected with stopper 306, stopper 306's other end embedding is connected with fixer 307, T type pipe 304's bottom opposite side through connection has gas drainage pipe 308, control mechanism 4's inside bottom embedding is connected with control box 401, control mechanism 4's other end embedding is connected with control panel 404.
Preferably, the desiccant storage box 205 is embedded and connected in the middle of one side inside the anti-static shell 203, when the device is in operation, the desiccant in the desiccant storage box 205 in the middle of one side inside the anti-static shell 203 can absorb moisture in the air inside the anti-static shell 203, so as to reduce the content of water vapor inside the anti-static shell 203, thereby ensuring the dryness inside the anti-static shell 203, thereby preventing the instruments inside the anti-static shell 203 from rusting to cause accidents, thereby affecting the normal operation of the device, further reducing the service life of the device, the desiccant storage box 205 helps to absorb moisture in the air inside the anti-static shell 203, thereby ensuring the dryness inside the anti-static shell 203.
Preferably, inside one side top embedding of control mechanism 4 is connected with temperature-sensing ware 402, when the device is when the operation in-process, operating personnel is connected with temperature-sensing ware 402 through control panel 404 control mechanism 4's inside one side top embedding and is started to operate, and then temperature-sensing ware 402 monitors the inside temperature of control mechanism 4, and then temperature-sensing ware 402 transmits relevant temperature data to control panel 404, thereby make things convenient for operating personnel to look over the inside temperature of control mechanism 4, and then make things convenient for operating personnel to cool down to control mechanism 4 is inside, temperature-sensing ware 402 helps monitoring the inside temperature of control mechanism 4, detect whether the temperature is normal, thereby control mechanism 4's security has been improved.
Preferably, the top through connection of control mechanism 4 has radiator 403, when the inside temperature of control mechanism 4 reaches a definite value, temperature-sensing ware 402 can monitor, thereby give the microprocessor in control box 401 information transfer, and then the radiator 403 on microprocessor control mechanism 4 top begins to operate, thereby the inside motor operation of radiator 403, and then it is rotatory to drive the heat dissipation fan of the inside one side of radiator 403, thereby make the inside outside air of device trade, thereby reach the purpose of cooling, and then accelerate control mechanism 4's cooling effect, radiator 403 helps making things convenient for operating personnel to cool down to control mechanism 4 is inside, thereby control mechanism 4's radiating efficiency has been improved.
Preferably, the measuring mechanism 2 is formed by combining a mounting plate 201 at one side of the measuring mechanism 2, a mounting device 202 at the top of the mounting plate 201, an anti-static casing 203 at the other end of the mounting plate 201, a connecting pipe 204 at one side inside the anti-static casing 203, a fixed block 206 at one side top inside the anti-static casing 203, a connector 207 at the other side inside the anti-static casing 203, a first control valve 208 at one end top of the connector 207, a gas extraction parameter measuring instrument 209 at the middle part of one end of the connector 207, a second control valve 2010 at one end bottom of the connector 207, and a hydraulic telescopic column 2011 at one end of the second control valve 2010, wherein when an operator connects and fixes the T-shaped pipe 304 and the connecting pipe 204, the operator controls the second control valve 2010 at the bottom of one end of the connector 207 to operate through the control panel 404, so that the second control valve 2010 controls the hydraulic telescopic column 2011 to contract to open the connecting pipe 204 at one side inside the anti-static casing 203, so that the gas in the T-shaped pipe 304 enters the connecting pipe 204, the operator controls the gas extraction parameter measuring instrument 209 at the middle part of one end of the connector 207 to start to operate, therefore, the gas extraction parameter tester 209 detects the content of the gas in the gas, after the detection is finished, an operator opens the first control valve 208 at the top of one end of the connector 207, so that the gas is discharged out of the device for treatment, and the operator sets the gas extraction parameter measuring instrument 209 to detect the content of the gas in the gas once in each period of time through the control panel 404, so that according to the total amount of the gas recorded by the flowmeter 302, and then can calculate the total amount of gas, the erector 202 on the top of the mounting plate 201 is helpful for an operator to fix the device on a wall surface, and the measuring mechanism 2 is helpful for detecting the content of gas in the gas, thereby improving the practicability of the device and further improving the working efficiency of the device.
Preferably, the connecting mechanism 3 is formed by combining a connecting block 301 at the top of the connecting mechanism 3, a flow meter 302 at the top of the connecting block 301, a shock absorber 303 at the other side of the bottom end of the flow meter 302, a T-shaped pipe 304 at the middle part of the connecting mechanism 3, a connecting thread 305 at the top of the T-shaped pipe 304, a limiting block 306 at the bottom end of the connecting block 301, a fixer 307 at the other end of the limiting block 306 and a gas extraction pipe 308 at the other side of the bottom end of the T-shaped pipe 304, when an operator needs to use the device, the operator inserts the T-shaped pipe 304 at the middle part of the connecting mechanism 3 into the connecting block 301 at the top of the connecting mechanism 3 by connecting and fixing the connecting mechanism 3 and the measuring mechanism 2, further fixes the T-shaped pipe 304 on the connecting block 301 through the connecting thread 305 at the top of the T-shaped pipe 304, and further seals the T-shaped pipe 304 through the limiting block 306 at the bottom end of the connecting block 301, thereby further fixing T type pipe 304 through fixer 307 of the other end of stopper 306, and then make T type pipe 304 switch-on prevent the inside connecting pipe 204 of one side of static shell 203, the flowmeter 302 at connecting block 301 top helps monitoring through what of T type pipe 304 gas volume, produced friction when flowmeter 302 bottom opposite side bumper shock absorber 303 helps reducing the installation, prevent the device damage, coupling mechanism 3 helps connecting T type pipe 304 and connecting pipe 204 fixedly, thereby make things convenient for operating personnel to install and dismantle, and then improved the stability of device.
The working principle is as follows: firstly, the connecting mechanism 3 is formed by combining a connecting block 301 at the top of the connecting mechanism 3, a flowmeter 302 at the top of the connecting block 301, a damper 303 at the other side of the bottom end of the flowmeter 302, a T-shaped pipe 304 at the middle part of the connecting mechanism 3, a connecting thread 305 at the top of the T-shaped pipe 304, a limiting block 306 at the bottom end of the connecting block 301, a fixer 307 at the other end of the limiting block 306 and a gas extraction pipe 308 at the other side of the bottom end of the T-shaped pipe 304, when an operator needs to use the device, the operator connects and fixes the connecting mechanism 3 and the measuring mechanism 2, so that the operator inserts the T-shaped pipe 304 at the middle part of the connecting mechanism 3 into the connecting block 301 at the top of the connecting mechanism 3, further fixes the T-shaped pipe 304 on the connecting block 301 through the connecting thread 305 at the top of the T-shaped pipe 304, and further seals the T-shaped pipe 304 through the limiting block 306 at the bottom end of the connecting block 301, thereby further fixing T type pipe 304 through fixer 307 of the other end of stopper 306, and then make T type pipe 304 switch-on prevent the inside connecting pipe 204 of one side of static shell 203, the flowmeter 302 at connecting block 301 top helps monitoring through what of T type pipe 304 gas volume, produced friction when flowmeter 302 bottom opposite side bumper shock absorber 303 helps reducing the installation, prevent the device damage, coupling mechanism 3 helps connecting T type pipe 304 and connecting pipe 204 fixedly, thereby make things convenient for operating personnel to install and dismantle, and then improved the stability of device.
Then, the measuring mechanism 2 is formed by combining a mounting plate 201 at one side of the measuring mechanism 2, a mounting device 202 at the top of the mounting plate 201, an anti-static casing 203 at the other end of the mounting plate 201, a connecting pipe 204 at one side inside the anti-static casing 203, a fixed block 206 at one side top inside the anti-static casing 203, a connector 207 at the other side inside the anti-static casing 203, a first control valve 208 at one end top of the connector 207, a gas extraction parameter measuring instrument 209 at the middle part of one end of the connector 207, a second control valve 2010 at one end bottom of the connector 207 and a hydraulic telescopic column 2011 at one end of the second control valve 2010 together, when an operator connects and fixes the T-shaped pipe 304 and the connecting pipe 204, the operator controls the second control valve 2010 at the bottom of one end of the connector 207 to start to operate through the control panel 404, so that the second control valve 2010 controls the hydraulic telescopic column 2011 to contract to open the connecting pipe 204 at one side inside the anti-static casing 203, so that the gas in the T-shaped pipe 304 enters the connecting pipe 204, the operator controls the gas extraction parameter measuring instrument 209 at the middle part of one end of the connector 207 to start to operate, therefore, the gas extraction parameter tester 209 detects the content of the gas in the gas, after the detection is finished, an operator opens the first control valve 208 at the top of one end of the connector 207, so that the gas is discharged out of the device for treatment, and the operator sets the gas extraction parameter measuring instrument 209 to detect the content of the gas in the gas once in each period of time through the control panel 404, so that according to the total amount of the gas recorded by the flowmeter 302, and then can calculate the total amount of gas, the erector 202 on the top of the mounting plate 201 is helpful for an operator to fix the device on a wall surface, and the measuring mechanism 2 is helpful for detecting the content of gas in the gas, thereby improving the practicability of the device and further improving the working efficiency of the device.
Then, inside one side top embedding of control mechanism 4 is connected with temperature-sensing ware 402, when the device is when the operation in-process, operating personnel is connected with temperature-sensing ware 402 through control panel 404 control mechanism 4's inside one side top embedding and is started to operate, and then temperature-sensing ware 402 monitors the inside temperature of control mechanism 4, and then temperature-sensing ware 402 transmits relevant temperature data to control panel 404, thereby make things convenient for operating personnel to look over the inside temperature of control mechanism 4, and then make things convenient for operating personnel to cool down to control mechanism 4 is inside, temperature-sensing ware 402 helps monitoring the inside temperature of control mechanism 4, detect whether the temperature is normal, thereby control mechanism 4's security has been improved.
Next, the top through connection of control mechanism 4 has radiator 403, when the inside temperature of control mechanism 4 reaches a definite value, temperature-sensing ware 402 can monitor, thereby give the microprocessor in control box 401 information transfer, and then the radiator 403 on microprocessor control mechanism 4 top begins to operate, thereby the inside motor operation of radiator 403, and then it is rotatory to drive the heat dissipation fan of the inside one side of radiator 403, thereby make the inside outside air of device trade, thereby reach the purpose of cooling, and then accelerate control mechanism 4's cooling effect, radiator 403 helps making things convenient for operating personnel to cool down to control mechanism 4 is inside, thereby control mechanism 4's radiating efficiency has been improved.
Finally, the desiccant storage tank 205 is embedded and connected to the middle portion of one side inside the anti-static shell 203, when the device is in the operation process, the desiccant in the desiccant storage tank 205 in the middle portion of one side inside the anti-static shell 203 can absorb moisture in air inside the anti-static shell 203, so that the content of water vapor inside the anti-static shell 203 is reduced, the dryness inside the anti-static shell 203 is guaranteed, accidents caused by rusting of instruments inside the anti-static shell 203 are prevented, normal operation of the device is influenced, the service life of the device is prolonged, the desiccant storage tank 205 is helpful for absorbing moisture in air inside the anti-static shell 203, the dryness inside the anti-static shell 203 is guaranteed, and the working principle of the device for measuring gas extraction flow is achieved.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The utility model provides a survey gas drainage flow's device, includes gas flow survey device main part (1), survey mechanism (2), coupling mechanism (3) and control mechanism (4), its characterized in that: the middle part of the gas flow measuring device main body (1) is embedded and connected with a measuring mechanism (2), the bottom end of the measuring mechanism (2) is movably connected with a connecting mechanism (3), the other end of the measuring mechanism (2) is embedded and connected with a control mechanism (4), one side of the measuring mechanism (2) is embedded and connected with a mounting plate (201), the top of the mounting plate (201) is embedded and connected with an installer (202), the other end of the mounting plate (201) is embedded and connected with an anti-static shell (203), one side of the interior of the anti-static shell (203) is connected with a connecting pipe (204) in a penetrating way, the top of one side of the interior of the anti-static shell (203) is embedded and connected with a fixed block (206), the other side of the interior of the anti-static shell (203) is embedded and connected with a connector (207), and the top of one end of the connector (207) is embedded and connected with a first control valve (208), the gas extraction parameter measuring instrument (209) is connected to the middle of one end of the connector (207) in an embedded mode, a second control valve (2010) is connected to the bottom of one end of the connector (207) in an embedded mode, a hydraulic telescopic column (2011) is connected to one end of the second control valve (2010) in an embedded mode, a connecting block (301) is connected to the top of the connecting mechanism (3) in an embedded mode, a flow meter (302) is connected to the top of the connecting block (301) in an embedded mode, a shock absorber (303) is connected to the other side of the bottom end of the flow meter (302) in an embedded mode, a T-shaped pipe (304) is movably connected to the middle of the connecting mechanism (3), connecting threads (305) are connected to the top of the T-shaped pipe (304) in an embedded mode, a limiting block (306) is connected to the bottom end of the connecting block (301) in an embedded mode, and a fixing device (307) is connected to the other end of the limiting block (306) in an embedded mode, the other side of the bottom end of the T-shaped pipe (304) is connected with a gas extraction pipe (308) in a penetrating way.
2. The device for measuring the gas extraction flow rate according to claim 1, characterized in that: the bottom of the interior of the control mechanism (4) is connected with a control box (401) in an embedded mode, and the other end of the control mechanism (4) is connected with a control panel (404) in an embedded mode.
3. The device for measuring the gas extraction flow rate according to claim 2, characterized in that: a desiccant storage tank (205) is embedded and connected in the middle of one side inside the anti-static shell (203).
4. The device for measuring the gas extraction flow rate according to claim 1, characterized in that: and a temperature sensor (402) is embedded and connected to the top of one side inside the control mechanism (4).
5. The device for measuring the gas extraction flow rate according to claim 1, characterized in that: the top end of the control mechanism (4) is connected with a radiator (403) in a penetrating way.
6. The device for measuring the gas extraction flow rate according to claim 1, characterized in that: the measurement mechanism (2) is formed by combining a mounting plate (201) on one side of the measurement mechanism (2), an installer (202) at the top of the mounting plate (201), an anti-static shell (203) at the other end of the mounting plate (201), a connecting pipe (204) on one side inside the anti-static shell (203), a fixed block (206) on one side top inside the anti-static shell (203), a connector (207) on the other side inside the anti-static shell (203), a first control valve (208) on the top of one end of the connector (207), a gas extraction parameter measuring instrument (209) in the middle of one end of the connector (207), a second control valve (2010) on the bottom of one end of the connector (207) and a hydraulic telescopic column (2011) at one end of a second control valve (2010).
7. The device for measuring the gas extraction flow rate according to claim 1, characterized in that: the connecting mechanism (3) is formed by combining a connecting block (301) on the top of the connecting mechanism (3), a flowmeter (302) on the top of the connecting block (301), a shock absorber (303) on the other side of the bottom end of the flowmeter (302), a T-shaped pipe (304) in the middle of the connecting mechanism (3), a connecting thread (305) on the top of the T-shaped pipe (304), a limiting block (306) on the bottom end of the connecting block (301), a fixer (307) on the other end of the limiting block (306) and a gas extraction pipe (308) on the other side of the bottom end of the T-shaped pipe (304).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120306367.1U CN215003776U (en) | 2021-02-03 | 2021-02-03 | Device for measuring gas extraction flow |
Applications Claiming Priority (1)
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CN202120306367.1U CN215003776U (en) | 2021-02-03 | 2021-02-03 | Device for measuring gas extraction flow |
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CN215003776U true CN215003776U (en) | 2021-12-03 |
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CN202120306367.1U Expired - Fee Related CN215003776U (en) | 2021-02-03 | 2021-02-03 | Device for measuring gas extraction flow |
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- 2021-02-03 CN CN202120306367.1U patent/CN215003776U/en not_active Expired - Fee Related
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Granted publication date: 20211203 |