CN220323258U - Online monitoring device for concentration of various greenhouse gases - Google Patents

Abstract

The utility model discloses an online monitoring device for concentration of various greenhouse gases, which comprises a supporting plate, wherein the middle part of the upper end of the supporting plate is provided with a shell, the right upper end of the inner side of the shell is provided with a sensor, the right end of the upper side of the supporting plate is fixedly connected with an air extracting pump, the air extracting end of the air extracting pump is provided with a first electromagnetic valve, the middle part of the inner end of the shell is fixedly connected with a partition plate, the left side of the shell is rotationally connected with a filtering ring, the upper end of the left side of the shell is fixedly connected with a limiting rod, and the limiting rod is slidably connected with a scraping blade. This kind of online monitoring device of greenhouse gas concentration, at the device to external gas suction in-process, the motor drives the auger post and rotates, and the auger post passes through gear ring assembly and drives the filter ring and rotate, and the doctor-bar scrapes the impurity that adheres to on the filter plate, promotes impurity to drop, and the impurity that drops falls into the conveying shell through the lower hopper, rotates the auger post and carries the impurity that drops.

Description

Online monitoring device for concentration of various greenhouse gases

Technical Field

The utility model relates to the technical field of greenhouse gas concentration monitoring, in particular to an on-line monitoring device for concentration of various greenhouse gases.

Background

For on-line monitoring multiple greenhouse gas concentration, need adopt multiple greenhouse gas concentration on-line monitoring device to detect gas concentration, when current multiple greenhouse gas concentration on-line monitoring device used, when taking in external gas, generally adopt filter component to filter the large granule impurity in the gas, most devices can not effectively promote the large granule impurity that adheres to at filter component end and drop and retrieve, influence the device to the suction of external gas, and then influence the monitoring to multiple greenhouse gas concentration, except that in addition, the device is after promoting the liquefaction of steam in the gas of taking out, can not effectively derive the liquefied water that gathers in the device inner lower extreme, easily influence the monitoring because of liquefied water flows to the monitoring end.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides an on-line monitoring device for the concentration of various greenhouse gases, which solves the problems that the self-cleaning property of a filtering end of the device is poor, the device air suction is influenced, the monitoring of the concentration of various greenhouse gases is further influenced, and the like.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a multiple greenhouse gas concentration on-line monitoring device, includes the backup pad, backup pad upper end middle part is equipped with the casing, the inboard upper right end of casing is equipped with the sensor that is used for multiple greenhouse gas concentration on-line monitoring, backup pad upside right-hand member fixedly connected with aspiration pump, aspiration pump air-extracting end is equipped with first solenoid valve, the inboard middle part fixedly connected with baffle of casing, the casing left side rotates and is connected with the filter ring, casing left side upper end fixedly connected with gag lever post, gag lever post sliding connection has the doctor blade, the doctor blade left side is equipped with the spring with casing fixed connection, backup pad left side upper end is equipped with the motor, the casing left side is close to filter ring lower extreme fixedly connected with and carries the shell, carry the inboard rotation of shell be connected with the auger post of coaxial fixed connection of motor output, the casing left side inner be equipped with respectively with filter ring, auger post connected gear tooth ring subassembly, casing lower extreme left side is equipped with the second solenoid valve, casing upside left side is equipped with the pump, the cooling rod subassembly that is connected with the pump.

Preferably, the sensor is electrically connected with an external controller, the left side of the first electromagnetic valve is fixedly connected with the middle part of the right end of the shell, and a ventilation groove is formed in the middle of the partition plate.

Preferably, the filter plate attached to the scraping blade is fixedly connected to the inner end of the left side of the filter ring, the upper end of the left side of the conveying shell is fixedly connected and communicated with a discharging hopper, and a discharging port is formed in the left end of the lower side of the conveying shell.

Preferably, the auger post is fixedly connected with the inner gear of the gear ring assembly coaxially, and the inner gear ring of the gear ring assembly is fixedly connected with the filtering ring coaxially.

Preferably, the pumping piece comprises a water pump, a first three-way valve, a second three-way valve and a conduit, wherein the water pump is fixedly connected with the left end of the upper side of the shell, the water pumping pipe is arranged on the left side of the first three-way valve, the lower end of the second three-way valve is fixedly connected with the upper end of the cooling rod assembly, and the conduit is fixedly connected with the bottom of the second electromagnetic valve.

Preferably, the water pump draws water to hold and first three-way valve fixed connection, first three-way valve upper end and pipe fixed connection, water pump drainage end and second three-way valve fixed connection, the second three-way valve left side is equipped with row material pipe, cooling pole subassembly upside is connected with the back flow subassembly of being connected with the casing.

Advantageous effects

The utility model provides an on-line monitoring device for concentration of various greenhouse gases. Compared with the prior art, the method has the following beneficial effects:

(1) This multiple greenhouse gas concentration on-line monitoring device through setting up gear ring gear subassembly and doctor-bar in the device, at the device to external gas suction in-process, the timing start motor, the motor drives the auger post and rotates, the auger post passes through gear ring gear subassembly and drives the filter ring rotation, the doctor-bar scrapes the impurity of attaching on the filter plate, promote impurity to drop, it falls into the transport shell through the lower hopper to drop the impurity, rotate the auger post and carry the impurity that drops, finally drop the impurity and fall into the recovery box through the bin outlet, this kind of setting is convenient for the user to handle fast and retrieve the impurity that the filtration gas end is attached in the device, avoid influencing the introduction multiple greenhouse gas because of device filtration gas end is attached impurity too much, and then influence the on-line monitoring to multiple greenhouse gas concentration.

(2) This multiple greenhouse gas concentration on-line monitoring device, through set up pumping piece and cooling pole subassembly in the device, in the device extraction process, the water pump is with external cold water suction and pour into cooling pole subassembly through the second three-way valve in through first three-way valve, cold water in the cooling pole subassembly is through the liquefaction of the vapor in the heat exchange promotion gas and fall into the left cavity lower extreme of casing, wait after the liquefaction water liquid level reaches suitable height, make first three-way valve, the second three-way valve switching-over and open the second solenoid valve, the water pump is through first three-way valve this moment, the pipe, the second solenoid valve is extracted left lower extreme liquefaction water of left cavity in the casing, the liquefaction water is discharged to the recovery end through second three-way valve, the row material pipe, this kind of setting is convenient for export the liquefaction water that gathers the downside in the device in the effective filtering of user gas of taking out, avoid the liquefaction rivers to monitor the end and influence the monitoring.

Drawings

FIG. 1 is a cross-sectional view of the present utility model;

FIG. 2 is an enlarged view of a portion of the utility model at A in FIG. 1;

fig. 3 is an enlarged view of the inner pumping member of the present utility model.

In the figure: 1. a support plate; 2. a housing; 3. a sensor; 4. an air extracting pump; 5. a first electromagnetic valve; 6. a partition plate; 7. a filter ring; 8. a limit rod; 9. a wiper blade; 10. a spring; 11. a motor; 12. a transport housing; 13. an auger column; 14. a gear ring assembly; 15. a second electromagnetic valve; 16. a water pumping member; 161. a water pump; 162. a first three-way valve; 163. a second three-way valve; 164. a conduit; 17. and the cooling rod assembly.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

A first embodiment as shown in fig. 1-2: the utility model provides a multiple greenhouse gas concentration on-line monitoring device, including backup pad 1, backup pad 1 upper end middle part is equipped with casing 2, casing 2 inboard upper right end is equipped with the sensor 3 that is used for multiple greenhouse gas concentration on-line monitoring, backup pad 1 upside right-hand member fixedly connected with aspiration pump 4, aspiration pump 4 air-bleed end is equipped with first solenoid valve 5, casing 2 inner middle part fixedly connected with baffle 6, sensor 3 and external controller electric connection, first solenoid valve 5 left side and casing 2 right-hand member middle part fixed connection, baffle 6 middle part is equipped with the ventilation groove, baffle 6 separates casing 2 inner into left cavity, right cavity;

the left side of the shell 2 is rotationally connected with a filter ring 7, the upper end of the left side of the shell 2 is fixedly connected with a limit rod 8, the limit rod 8 is slidably connected with a scraping blade 9, the left side of the scraping blade 9 is provided with a spring 10 fixedly connected with the shell 2, and the upper end of the left side of the supporting plate 1 is provided with a motor 11; the left side of the shell 2 is fixedly connected with a conveying shell 12 near the lower end of the filter ring 7, the left inner end of the filter ring 7 is fixedly connected with a filter plate attached to the scraping blade 9, the upper end of the left side of the conveying shell 12 is fixedly connected and communicated with a discharging hopper, the left end of the lower side of the conveying shell 12 is provided with a discharge outlet, the conveying shell 12 is fixedly connected with a recovery box near the lower end of the discharge outlet through a screw, the inner end of the conveying shell 12 is rotationally connected with a packing auger column 13 coaxially and fixedly connected with the output end of the motor 11, and the left inner end of the shell 2 is provided with a gear toothed ring assembly 14 respectively connected with the filter ring 7 and the packing auger column 13;

the auger post 13 is fixedly connected with an inner gear of the gear tooth ring assembly 14 in a coaxial manner, and an inner gear ring of the gear tooth ring assembly 14 is fixedly connected with the filter ring 7 in a coaxial manner; the left side of the lower end of the shell 2 is provided with a second electromagnetic valve 15, the left end of the upper side of the shell 2 is provided with a water pumping piece 16, and the left side in the shell 2 is provided with a cooling rod assembly 17 connected with the water pumping piece 16; in the process of pumping external gas, the motor 11 is started at fixed time, the motor 11 drives the auger column 13 to rotate, the auger column 13 drives the filter ring 7 to rotate through the gear ring assembly 14, the scraping blade 9 tightly attached to the filter ring 7 is pushed by the spring 10 to scrape impurities attached to the filter plate, the impurities are promoted to fall off, the fallen impurities fall into the conveying shell 12 through the discharging hopper, the auger column 13 is rotated to convey the fallen impurities, and finally the fallen impurities fall into the recovery box through the discharging hole;

the second embodiment, as shown in fig. 1-3, differs from the first embodiment primarily in that:

the water pumping piece 16 is composed of a water pump 161, a first three-way valve 162, a second three-way valve 163 and a conduit 164, wherein the water pump 161 is fixedly connected with the left end of the upper side of the shell 2, a water pumping pipe is arranged on the left side of the first three-way valve 162, the lower end of the second three-way valve 163 is fixedly connected with the upper end of the cooling rod assembly 17, and the conduit 164 is fixedly connected with the bottom of the second electromagnetic valve 15; the water pumping end of the water pump 161 is fixedly connected with the first three-way valve 162, the upper end of the first three-way valve 162 is fixedly connected with the conduit 164, the water discharging end of the water pump 161 is fixedly connected with the second three-way valve 163, a discharge pipe is arranged on the left side of the second three-way valve 163, the upper side of the cooling rod assembly 17 is connected with a return pipe assembly connected with the shell 2, the middle part of a cooling rod at the inner end of the cooling rod assembly 17 is provided with a cooling groove, and the lower side of the shell 2 close to the left cavity end is provided with a liquid level sensor;

in the device air extraction process, a liquid level sensor and a water pump 161 are started, the water pump 161 pumps external cold water through a first three-way valve 162 and a water pumping pipe, then the cold water is injected into a cooling tank in a cooling rod assembly 17 through a second three-way valve 163, finally the cold water flows to a water source through a return pipe assembly, the cold water absorbs heat and cools the pumped air through heat exchange when flowing through the cooling rod assembly 17, water vapor liquefaction in the air is promoted, the liquefied water falls into the lower end of a left cavity of a shell 2, the liquid level sensor detects the liquid level of the liquefied water, after the liquid level reaches a proper height, the first three-way valve 162 and the second three-way valve 163 are reversed and a second electromagnetic valve 15 are opened, at this time, the water pump 161 pumps the liquefied water at the left lower end of the left cavity in the shell 2 through the first three-way valve 162, the conduit 164 and the second electromagnetic valve 15, and then the liquefied water is discharged to a recovery end through the second three-way valve 163 and a discharge pipe.

Meanwhile, the contents which are not described in detail in the specification belong to the prior art known to the person skilled in the art, and model parameters of each electric appliance are not particularly limited and conventional equipment can be used.

When the device is used, a user opens the first electromagnetic valve 5, the sensor 3, the air pump 4 and the water pumping piece 16, the air pump 4 pumps air to the outside through the first electromagnetic valve 5, the shell 2 and the filter ring 7, the filter plate in the filter ring 7 filters large particle impurities in the pumped air, the water pumping piece 16 pumps external cold water into and injects the cooling rod assembly 17, the cooling rod assembly 17 absorbs heat and cools the pumped air through heat exchange, water vapor liquefaction in the air is promoted, liquefied water falls into the lower end of the left cavity of the shell 2, the air finally enters the right cavity in the shell 2, the sensor 3 positioned in the right cavity detects various greenhouse gas concentrations in the air and transmits monitoring data to the terminal, in the process, the motor 11 is started at regular time, the motor 11 drives the auger column 13 to rotate, the auger column 13 drives the filter ring 7 to rotate through the gear tooth ring assembly 14, impurities attached to the filter plate are scraped and fall off through the impurities under the pushing of the spring 10, the water vapor liquefaction in the air is promoted, the liquefied water falls into the lower cavity of the shell 2, the air finally enters the right cavity of the shell 2, the sensor 3 detects various greenhouse gas concentrations in the air, and the monitoring data are transmitted into the terminal, and the impurity falls into the drain box through the drain hole.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a multiple greenhouse gas concentration on-line monitoring device, includes backup pad (1), its characterized in that: the utility model discloses a water pump, including backup pad (1) upper end middle part is equipped with casing (2), the inboard upper right end of casing (2) is equipped with sensor (3) that are used for multiple greenhouse gas concentration on-line monitoring, backup pad (1) upside right-hand member fixedly connected with aspiration pump (4), aspiration pump (4) air extraction end is equipped with first solenoid valve (5), casing (2) inner middle part fixedly connected with baffle (6), casing (2) left side rotation is connected with filter collar (7), casing (2) left side upper end fixedly connected with gag lever post (8), gag lever post (8) sliding connection has doctor blade (9), doctor blade (9) left side be equipped with casing (2) fixedly connected spring (10), backup pad (1) left side upper end is equipped with motor (11), casing (2) left side is close to filter collar (7) lower extreme fixedly connected with transport shell (12), transport shell (12) inner rotation be connected with motor (11) output coaxial fixedly connected's auger post (13), casing (2) left side inner is equipped with filter collar (7), auger (14) are equipped with respectively, left side upper end (16) solenoid valve (14), the left side in the shell (2) is provided with a cooling rod assembly (17) connected with a water pumping piece (16).

2. The on-line monitoring device for concentration of multiple greenhouse gases according to claim 1, wherein: the sensor (3) is electrically connected with an external controller, the left side of the first electromagnetic valve (5) is fixedly connected with the middle part of the right end of the shell (2), and a ventilation groove is formed in the middle of the partition plate (6).

3. The on-line monitoring device for concentration of multiple greenhouse gases according to claim 1, wherein: the filter plate attached to the scraping blade (9) is fixedly connected to the inner end of the left side of the filter ring (7), the upper end of the left side of the conveying shell (12) is fixedly connected and communicated with a discharging hopper, and a discharging port is formed in the left end of the lower side of the conveying shell (12).

4. The on-line monitoring device for concentration of multiple greenhouse gases according to claim 1, wherein: the auger post (13) is fixedly connected with an inner gear of the gear ring assembly (14), and an inner gear ring of the gear ring assembly (14) is fixedly connected with the filtering ring (7) coaxially.

5. The on-line monitoring device for concentration of multiple greenhouse gases according to claim 1, wherein: the water pumping piece (16) is composed of a water pump (161), a first three-way valve (162), a second three-way valve (163) and a guide pipe (164), wherein the water pump (161) is fixedly connected with the left end of the upper side of the shell (2), a water pumping pipe is arranged on the left side of the first three-way valve (162), the lower end of the second three-way valve (163) is fixedly connected with the upper end of the cooling rod assembly (17), and the guide pipe (164) is fixedly connected with the bottom of the second electromagnetic valve (15).

6. The on-line monitoring device for concentration of multiple greenhouse gases according to claim 5, wherein: the water pump (161) draws water to hold and first three-way valve (162) fixed connection, first three-way valve (162) upper end and pipe (164) fixed connection, water pump (161) drainage end and second three-way valve (163) fixed connection, second three-way valve (163) left side is equipped with row material pipe, cooling pole subassembly (17) upside is connected with the back flow subassembly of being connected with casing (2).