CN214011194U - Remote control's flue gas detection analysis appearance - Google Patents
Remote control's flue gas detection analysis appearance Download PDFInfo
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- CN214011194U CN214011194U CN202023075585.3U CN202023075585U CN214011194U CN 214011194 U CN214011194 U CN 214011194U CN 202023075585 U CN202023075585 U CN 202023075585U CN 214011194 U CN214011194 U CN 214011194U
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Abstract
The utility model discloses a remote control's flue gas detection analyzer, including analysis main part and host computer, the analysis main part includes sensor assembly, first wireless module and microprocessor, microprocessor and first wireless module with the sensor electricity of sensor assembly is connected; the upper computer comprises a second wireless module connected with the first wireless module. The sensor assembly is used for flue gas detection, and will detect data transmission and give microprocessor, microprocessor handles or adjusts the detection parameter to the detection data, and send the detection data to the host computer through first wireless module, the host computer receives the detection data or sends detection parameter adjustment instruction through second wireless module, thereby carry out remote control to the flue gas detection analysis appearance through the host computer, avoid measuring personnel to arrive the exhanst gas outlet many times and read data or adjust the detection parameter, do benefit to and improve work efficiency, alleviate measuring personnel's work burden.
Description
Technical Field
The utility model relates to a flue gas technical field, concretely relates to remote control's flue gas detection and analysis appearance.
Background
In recent years, with the increasing prevention and treatment of air pollution, the quality management of detection data is enhanced, and the requirement for objectively reflecting the air quality condition is increased. According to the ten items of the atmosphere pollution prevention and control nation and the environmental air quality standard released and implemented by the environmental protection department, the monitoring of the smoke emission of industrial enterprises is carried out, and the reduction of the emission of pollutants is an important component part of the environmental protection of China. Stricter emission standards place higher demands on the detection and analysis instruments. Flue gas analyzer for detecting S0 in flue gas at discharge port of industrial enterprise2、NOxAnd pollutants such as CO, and the like, and effective and reliable environmental monitoring data are provided for industrial enterprises and environmental protection management.
In actual application, if the actual concentration of the relevant pollutant of discharge port flue gas needs to be detected, its staff need carry the flue gas detection analyzer of certain weight, carry relevant flue gas sampling equipment and connect electrical equipment to the flue gas discharge port to detect simultaneously, and the flue gas discharge port sets up in higher place usually, if discharge the chimney, and detect and need last a period, if gather different time points in one day, and behind the acquisition result, need pull down the flue gas detection analyzer, wherein need read detection data many times or adjust and detect the parameter, need the measurement personnel to climb to the eminence many times and count or modify the parameter, cause measurement personnel's work burden.
SUMMERY OF THE UTILITY MODEL
To the above-mentioned technical problem that exists among the prior art, the utility model provides a remote control's flue gas detection analysis appearance is connected host computer and flue gas detection analysis appearance through wireless, does benefit to through host computer control flue gas detection analysis appearance.
The utility model discloses a remote control's flue gas detection analyzer, including analysis main part and host computer, the analysis main part includes sensor assembly, first wireless module and microprocessor, microprocessor and first wireless module with the sensor electricity of sensor assembly is connected; the upper computer comprises a second wireless module connected with the first wireless module.
Preferably, the first wireless module comprises one or a combination of the following: bluetooth module, 3G module, 4G module, 5G module, loRa module, NB-IOT module, WIFI module and GPRS module.
Preferably, the microprocessor is of a model STM32F4 or STM32H7, the 4G module is of a model ATK-M751, and the WIFI module is of a model ESP 8266.
Preferably, the upper computer comprises one of the following components: cell-phone, panel computer and computer.
Preferably, the sensor assembly comprises one or a combination of the following sensors: a sulfur dioxide sensor, an oxygen sensor, a carbon monoxide sensor, a nitric oxide sensor, a hydrogen sulfide sensor, a pressure sensor, and a temperature sensor.
Preferably, the sensor assembly comprises a gas circuit board, an installation sleeve and a sensor, the gas circuit board comprises a gas inlet and a gas outlet, the upper end of the installation sleeve is provided with an installation seat, the gas circuit board is installed in the installation sleeve, the gas circuit board on the lower side of the installation seat is provided with an inlet and an outlet, the gas inlet is communicated with the inlet, and the gas outlet is communicated with the outlet.
Preferably, the analysis main body further comprises a gas filtering component, a gas pump component and a water-gas separation component, wherein the output end of the gas pump component is connected with the input end of the gas filtering component, the output end of the gas filtering component is connected with the gas input port of the water-gas separation component, and the gas output port of the water-gas separation component is connected with the gas inlet of the sensor component.
Preferably, the water-gas separation assembly comprises a pipeline body, a drain plug and a semiconductor refrigeration piece, the pipeline body is provided with a gas inlet, a gas outlet, a water collection cavity and a water outlet, the gas inlet and the gas outlet are arranged on the side wall of the pipeline body, the water collection cavity is arranged on the lower side of the pipeline body, the water outlet is arranged at the lower end of the water collection cavity, and the drain plug is detachably arranged on the water outlet; the pipeline body right-hand member be equipped with semiconductor refrigeration piece assorted first mounting groove, the refrigeration face of semiconductor refrigeration piece is installed in the first mounting groove, first mounting groove left side is equipped with cooling pipeline, cooling pipeline's one end with gas input port intercommunication, cooling pipeline's the other end with the chamber intercommunication catchments, catchment the chamber upper end with gas delivery outlet intercommunication.
Preferably, the cooling pipeline is close to the side wall of the first mounting groove, and the semiconductor refrigeration piece is close to the cooling pipeline.
Preferably, the cooling pipeline is arranged on the side wall of the mounting groove to form a U-shaped groove or a groove.
Compared with the prior art, the beneficial effects of the utility model are that: the sensor assembly is used for flue gas detection, and will detect data transmission and give microprocessor, microprocessor handles or adjusts the detection parameter to the detection data, and send the detection data to the host computer through first wireless module, the host computer receives the detection data or sends detection parameter adjustment instruction through second wireless module, thereby carry out remote control to the flue gas detection analysis appearance through the host computer, avoid measuring personnel to arrive the exhanst gas outlet many times and read data or adjust the detection parameter, do benefit to and improve work efficiency, alleviate measuring personnel's work burden.
Drawings
Fig. 1 is a logic block diagram of the present invention;
FIG. 2 is a schematic structural view of a sensor assembly;
FIG. 3 is a stripped view of the sensor assembly;
FIG. 4 is a schematic view of a water gas separation module;
fig. 5 is a cross-sectional view of the water gas separation assembly.
The labels in the figure are: 1-a sensor component, 11-an air inlet, 13-a mounting seat, 14-a sensor, 15-an inlet, 16-an outlet, 17-an air channel plate, 18-a mounting sleeve, 19-an air channel pipeline, 2-an analysis main body, 4-an air pump component, 5-a microprocessor, 6-an air filtering component, 7-a water-gas separation component, 71-a pipeline body, 72-a drain plug, 73-a semiconductor refrigeration piece, 74-an air inlet, 75-an air outlet, 76-a water collecting cavity, 77-a water outlet, 78-a first mounting groove, 79-a cooling pipeline, 81-a fan, 8-a first wireless module, 9-an upper computer and 91-a second wireless module.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
The invention is described in further detail below with reference to the accompanying drawings:
a remote control smoke detection analyzer is shown in figure 1 and comprises an analysis main body 2 and an upper computer 9, wherein the analysis main body 2 comprises a sensor assembly 1, a first wireless module 8 and a microprocessor 5, and the microprocessor 5 is electrically connected with the first wireless module 8 and a sensor 14 of the sensor assembly 1; the upper computer 9 includes a second wireless module 91 connected to the first wireless module 9.
Wherein the first wireless module 8 comprises one or a combination of the following: bluetooth module, 3G module, 4G module, 5G module, loRa module, NB-IOT module, WIFI module and GPRS module. In one embodiment, the microprocessor 5 is model number STM32F4 or STM32H7, but is not limited thereto, the 4G module is model number ATK-M751, and the WIFI module is model number ESP 8266. The upper computer comprises one of the following components: cell-phone, panel computer and computer. But is not limited thereto.
The sensor assembly 1 comprises one or a combination of the following sensors: a sulfur dioxide sensor, an oxygen sensor, a carbon monoxide sensor, a nitric oxide sensor, a hydrogen sulfide sensor, a pressure sensor, and a temperature sensor.
As shown in fig. 2 and 3, the sensor assembly may include a gas path plate 17, a mounting sleeve 18 and a sensor 14, the gas path plate 17 includes a gas inlet 11 and a gas outlet (not shown in the figure), the mounting sleeve 18 is provided with a mounting base 13 at an upper end thereof, the gas path plate 17 is mounted in the mounting sleeve 18, the gas path plate 17 on a lower side of the mounting base 13 is provided with an inlet 15 and an outlet 16, the gas inlet 11 is communicated with the inlet 15, and the gas outlet is communicated with the outlet 16. When the sensor 14 is mounted on the mount 13, the detection electrode of the sensor 14 faces the inlet 15 and the outlet 16, and the detection gas flows from the inlet 15 to the outlet 16 so as to come into contact with the detection electrode. The gas circuit board 17 is provided with a gas circuit pipeline 19.
As shown in fig. 1, the analysis main body 2 may further include a gas filtering assembly 6, a gas pump assembly 4 and a water-gas separating assembly 7, wherein an output end of the gas pump assembly 4 is connected to an input end of the gas filtering assembly 6, an output end of the gas filtering assembly 6 is connected to a gas input port 74 of the water-gas separating assembly 7, and a gas output port 75 of the water-gas separating assembly 7 is connected to the gas inlet 11 of the sensor assembly 1.
As shown in fig. 4 and 5, the water-gas separation assembly 7 includes a pipe body 71, a drain plug 72 and a semiconductor refrigeration sheet 73, the pipe body 71 is provided with a gas inlet 74, a gas outlet 75, a water collection chamber 76 and a drain opening 72, the gas inlet 74 and the gas outlet 75 are provided on a side wall of the pipe body 71, the water collection chamber 76 is provided on a lower side of the pipe body 71, the drain opening 77 is provided at a lower end of the water collection chamber 76, and the drain plug 72 is detachably mounted on the drain opening 77; the pipeline body 71 right-hand member be equipped with semiconductor refrigeration piece 73 assorted first mounting groove 78, semiconductor refrigeration piece 73's refrigeration face is installed in first mounting groove 78, and first mounting groove 78 left side is equipped with cooling pipeline 79, cooling pipeline 79 is pressed close to the refrigeration face, and cooling pipeline 79's one end and gas input port 74 intercommunication, cooling pipeline 79's the other end and the chamber 76 intercommunication that catchments, the chamber 76 upper end and the gaseous delivery outlet 75 intercommunication that catchments.
Wherein, the cooling pipeline 79 can be adjacent to the side wall of the first installation groove 78, and the semiconductor chilling plate 73 is adjacent to the cooling pipeline 79. The heating surface of the semiconductor cooling fins 73 may be provided with a fan 81.
The cooling pipeline can be arranged on the side wall of the mounting groove to form a U-shaped groove or a groove, so that the flue gas or gas to be tested is directly connected with the refrigerating surface of the semiconductor refrigerating sheet at an angle, and the refrigerating effect is improved.
Taking bluetooth connection as an example, after the bluetooth of the mobile phone and the analysis main body is successfully paired, a master-slave relationship is formed, and mutual transmission of data is realized: after the mobile phone is installed with the APP, the detection data or the running state data of the analysis main body 2 can be read, and the detection parameters can be modified. The analysis main body can also store detection data at regular time, so that the mobile phone can be conveniently checked.
The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. The remote control smoke detection analyzer is characterized by comprising an analysis main body and an upper computer, wherein the analysis main body comprises a sensor assembly, a first wireless module and a microprocessor, and the microprocessor is electrically connected with the first wireless module and a sensor of the sensor assembly;
the upper computer comprises a second wireless module connected with the first wireless module.
2. The smoke detection analyzer of claim 1, wherein said first wireless module comprises one or a combination of: bluetooth module, 3G module, 4G module, 5G module, loRa module, NB-IOT module, WIFI module and GPRS module.
3. The flue gas detection analyzer of claim 2, wherein the microprocessor is model number STM32F4 or STM32H7, the 4G module is model number ATK-M751, and the WIFI module is model number ESP 8266.
4. The flue gas detection analyzer of claim 1, wherein the upper computer comprises one of: cell-phone, panel computer and computer.
5. The smoke detection analyzer of claim 1, wherein said sensor assembly comprises one or a combination of the following sensors: a sulfur dioxide sensor, an oxygen sensor, a carbon monoxide sensor, a nitric oxide sensor, a hydrogen sulfide sensor, a pressure sensor, and a temperature sensor.
6. The flue gas detection analyzer of claim 1, wherein the sensor assembly comprises a gas circuit board, a mounting sleeve and a sensor, the gas circuit board comprises a gas inlet and a gas outlet, a mounting seat is arranged at the upper end of the mounting sleeve, the gas circuit board is mounted in the mounting sleeve, an inlet and an outlet are arranged on the gas circuit board at the lower side of the mounting seat, the gas inlet is communicated with the inlet, and the gas outlet is communicated with the outlet.
7. The smoke detection analyzer of claim 1, wherein said analysis body further comprises a gas filtering assembly, a gas pump assembly and a water-gas separation assembly,
the output end of the air pump assembly is connected with the input end of the air filtering assembly, the output end of the air filtering assembly is connected with the air input port of the water-gas separating assembly, and the air output port of the water-gas separating assembly is connected with the air inlet of the sensor assembly.
8. The flue gas detection analyzer of claim 7, wherein the water-gas separation component comprises a pipeline body, a drain plug and a semiconductor refrigeration piece,
the pipeline body is provided with a gas inlet, a gas outlet, a water collecting cavity and a water outlet, the gas inlet and the gas outlet are arranged on the side wall of the pipeline body, the water collecting cavity is arranged on the lower side of the pipeline body, the water outlet is arranged at the lower end of the water collecting cavity, and the water drain plug is detachably arranged on the water outlet;
the right end of the pipeline body is provided with a first mounting groove matched with the semiconductor refrigerating sheet, the refrigerating surface of the semiconductor refrigerating sheet is mounted in the first mounting groove,
a cooling pipeline is arranged on the left side of the first mounting groove,
one end of the cooling pipeline is communicated with the gas input port, the other end of the cooling pipeline is communicated with the water collecting cavity, and the upper end of the water collecting cavity is communicated with the gas output port.
9. The flue gas detection analyzer of claim 8, wherein said cooling pipeline is proximate to said first mounting groove side wall, and said semiconductor chilling plate is proximate to said cooling pipeline.
10. The flue gas detection analyzer of claim 8, wherein the cooling pipeline is disposed on a side wall of the mounting groove to form a U-shaped groove or a groove.
Priority Applications (1)
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CN202023075585.3U CN214011194U (en) | 2020-12-18 | 2020-12-18 | Remote control's flue gas detection analysis appearance |
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CN202023075585.3U CN214011194U (en) | 2020-12-18 | 2020-12-18 | Remote control's flue gas detection analysis appearance |
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CN214011194U true CN214011194U (en) | 2021-08-20 |
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CN202023075585.3U Active CN214011194U (en) | 2020-12-18 | 2020-12-18 | Remote control's flue gas detection analysis appearance |
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