CN204832104U - Little water sensor of P2O5 - Google Patents
Little water sensor of P2O5 Download PDFInfo
- Publication number
- CN204832104U CN204832104U CN201520586658.5U CN201520586658U CN204832104U CN 204832104 U CN204832104 U CN 204832104U CN 201520586658 U CN201520586658 U CN 201520586658U CN 204832104 U CN204832104 U CN 204832104U
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- China
- Prior art keywords
- sensor
- sleeve
- sensor body
- cavity
- gas
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Abstract
The utility model discloses a little water sensor of P2O5, including sensor core and sensor body. The sensor core includes the glass tube base body and platinum silk electrode, and platinum silk electrode sets up on glass tube base body exit end inner wall. Having seted up the cavity in the sensor body, being provided with the support ring in the cavity, divide into two parts with the cavity, the sensor core passes the support ring and sets up in the sensor body, and the inner wall of sensor body between have a clearance. Sensor body support ring both sides are run through and are provided with sampling gas outlet and bypass gas outlet, are more than the gas flow that the sampling gas outlet flows through the gas flow of bypass gas outlet, during the sensor core is in the gaseous atmosphere that awaits measuring always, have reduced the influence of portion's environment to the gas of sampling outer, have improved the detection precision of sensor. Through set up first sleeve, second sleeve and locking device in the sensilla body, will test the gas circuit and bypass gas separates, and the leakproofness is good, and dismantle convenient.
Description
Technical field
The utility model belongs to sensor technical field, is specifically related to a kind of P
2o
5micro-water sensor.
Background technology
P
2o
5electrode sensor uses electrolysis principle, around formula electrode structure in adopting, electrode evenly scribbles phosphoric acid, when gas to be measured enters P
2o
5time in electrode sensor, electrolysis H
3pO
4for moisture becomes P
2o
5, P
2o
5for the adsorbent of adsorption moisture, P
2o
5in absorption band measurement gas, moisture is electrolyzed to produce H
2and O
2, Faradaic current and moisture in direct ratio, by measuring the moisture in the gas to be measured that can survey of Faradaic current.
P
2o
5micro-water sensor sample gas flow when measuring is very little, then need to control accurately, traditional P
2o
5micro-water sensor is generally an air intake opening and a gas outlet, sensor on one's own time, leave in air ambient, and the humidity of air is much larger than the humidity of measured gas, then the inwall of sensor is just as one piece of sponge, absorb a lot of moisture, when carrying out measuring drier gas, moisture in inwall just constantly adds among gas to be measured, because the tube core of sensor is very thin, airshed to be measured is very little, so just can be dried up by gas to be measured through the moisture of sensor inwall absorption for a long time, the time that the gas that dew point is lower dries up is longer, thus make measurement consuming time long, and measuring accuracy is low.
Summary of the invention
The purpose of this utility model is to provide a kind of P
2o
5micro-water sensor, solves P in prior art
2o
5the technical matters that micro-water sensor Measuring Time is long, precision is low.
In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:
A kind of P
2o
5micro-water sensor, comprises sensor core and sensor body.Described sensor core comprises glass tube matrix and platinum wire electrode, and glass tube matrix is straight glass tube, comprises inlet end and the outlet side of connection, and platinum wire electrode is arranged on the inwall of glass tube matrix outlet side, and platinum wire electrode evenly scribbles phosphoric acid.
In order to reach quick detection, the more accurate object of measurement result, cavity is offered in described sensor body, sensor core is arranged in cavity, sensor core is arranged with support ring, and the contact internal walls of the outer rim of support ring and sensor body cavity, cavity is divided into two parts, between the inwall of sensor body and sensor core, there is gap, described sensor body offers sample gas outlet and bypass gas outlet.
Gas to be tested is divided into two-way after air intake opening enters sensor: a road enters through the inlet end of sensor core the detection that sensor core carries out moisture, gas through detecting flows out from the outlet side of sensor core, enter into the gap between sensor body and sensor core, due to the obstruct of support ring, gas flows out from sample gas outlet; Another road gas, through directly entering in the gap between sensor body and sensor core, due to the obstruct of support ring, flows out from bypass gas outlet.Through the gas flow that the gas flow of bypass gas outlet flows out much larger than sample gas outlet, large airshed can dry up fast to the moisture in the environment that sensor core wall adsorbs and moisture, sensor core is made to be in the atmosphere of gas to be measured at short notice, greatly reduce portion's environment outer to the impact of sample gas, improve the accuracy of detection of sensor, and the liquid water content in sample gas can be detected fast.
When detecting, gas to be measured enters sensor core, and the Faradaic current occurred between two electrodes makes the moisture in phosphoric acid be decomposed into H
2and O
2, the final product of this process is P
2o
5, P
2o
5it is strong hygroscopic matter, moisture is absorbed from gas to be measured, by continuous print electrolytic process, in final gas to be measured moisture and brine electrolysis divide between equilibrium establishment, then the moisture of Faradaic current and gas to be measured is proportional, can record the moisture in gas to be measured through detection Faradaic current.
In order to more reliable, test gas circuit and bypass gas are separated, and for convenience detach, described sensor body also comprises the first sleeve, the second sleeve and locking device.First sleeve is arranged in the cavity of sensor body, and be set on sensor core, near outlet side, gap is there is between first sleeve and sensor core, facilitate the circulation of gas to be measured, the contact internal walls of the first sleeve and sensor body cavity, the first sleeve offers the first hole exporting with sample gas and communicate, and the outer wall surface thereof of described first sleeve offers the first chute.Second sleeve is arranged in the cavity of sensor body, and be set on sensor core, near inlet end, gap is there is between second sleeve and sensor core, facilitate the circulation of gas to be measured, the contact internal walls of the second sleeve and sensor body cavity, the second sleeve offers the second hole exporting with bypass gas and communicate, second sleeve outer wall surface thereof offers the second chute, and described first chute, the second chute are splayed structure.Described locking device is saddle-shaped configuration, comprising two is splay first slide block, the second slide block and the web joint being arranged on slide block top, and described first slide block, the second slide block are inserted in the first chute, the second chute respectively through the sidewall of sensor body.Described support ring is elasticity clamp, and elasticity clamp is arranged between the first sleeve and the second sleeve, and the both sides of elasticity clamp contact with the first sleeve, the second sleeve respectively.
When carrying out gas detect, by pressing the web joint of locking device, make the first slide block, the second slide block respectively along the first chute, the second slide, because two slide blocks are splayed, the first sleeve, the second sleeve along its length on the contrary stressed that contact with it in the process then glided at slide block, and move toward one another, the elasticity clamp of crushing clamp between the first sleeve, the second sleeve, elasticity clamp steps up and seal sensor core after producing elastic deformation, then test gas circuit and bypass gas are separated completely.
In order to ensure locking device uniform force, described locking device also comprises screw, and screw is threaded with sensor body through web joint, and there is gap between web joint and sensor body.By rotary screw, make with the web joint uniform force of screws contact, slowly move down, ensure the uniform force of elasticity clamp, reach excellent sealing effectiveness.Described first sleeve and the second sleeve relative sensors core body are slidably connected.
Communicate better with sensor housing up-sampling gas vent to make the first hole on the first sleeve, ensure that detection gas normally flows out, testing result is more accurate, described first sleeve is fixedly connected with sensor body by register pin, second sleeve relative sensors body is slidably connected, then when pressing locking device web joint, slide block is along the first chute, the second slide, and the first sleeve relative sensors body is fixed, and the second sleeve slides close to the first sleeve.
Compared with prior art, the beneficial effects of the utility model are:
1, P described in the utility model
2o
5micro-water sensor, gas to be tested is divided into two-way after gas feed enters sensor: a road is detected through sensor core, and another road gas, through directly entering in the gap between sensor body and sensor core, flows out from bypass gas outlet.Through the gas flow that the gas flow of bypass gas outlet flows out much larger than sample gas outlet, moisture in the environment that large airshed can be adsorbed sensor inwall and moisture dry up fast, greatly enhance the accuracy of detection of sensor, and the liquid water content in sample gas can be detected fast.
2, P described in the utility model
2o
5micro-water sensor, by arranging the first sleeve, the second sleeve and locking device in sensor body, more reliably to separate test gas circuit and bypass gas, and sealing is good, and convenient disassembly.
3, P described in the utility model
2o
5micro-water sensor, is threaded locking device web joint with sensor body by screw, and rotary screw makes with the web joint uniform force of screws contact, slowly moves down, and ensures the uniform force of elasticity clamp, reaches excellent sealing effectiveness.
Accompanying drawing explanation
Fig. 1 is P described in the utility model
2o
5the structural representation of micro-water sensor.
Fig. 2 is the rear view of Fig. 1.
Fig. 3 is P described in the utility model
2o
5the structural representation that two sleeves of micro-water sensor all slide.
Fig. 4 is P described in the utility model
2o
5micro-water sensor comprise locating pin structure schematic diagram.
Embodiment
For making the purpose of this utility model and technical scheme clearly, below in conjunction with the utility model embodiment, the technical solution of the utility model is clearly and completely described.
embodiment one:
As shown in Figure 1, 2, a kind of P
2o
5micro-water sensor, comprises sensor core 1 and sensor body 3.Described sensor core 1 comprises glass tube matrix 11 and platinum wire electrode 12, and platinum wire electrode 12 is arranged on glass tube matrix 11 endpiece inwall, and platinum wire electrode 12 evenly scribbles phosphoric acid.
In order to reach quick detection, the more accurate object of measurement result, cavity is offered in described sensor body 2, the support ring 4 vertical with its length direction is provided with in cavity, cavity is divided into two parts, sensor core 1 is arranged in sensor body 3 through support ring 4, and and there is gap between the inwall of sensor body 3, the two side that described sensor body 3 is separated by support ring 4 is run through and is provided with sample gas outlet 5 and bypass gas outlet 6.
Gas to be tested is divided into two-way after gas feed enters sensor: moisture detection is carried out through sensor core 1 in a road, gas through detecting flows out from the endpiece of sensor core 1, enter into the gap between sensor body 3 and sensor core 1, due to the obstruct of support ring 4, gas flows out from sample gas outlet 5; Another road gas, through directly entering in the gap between sensor body 3 and sensor core 1, due to the obstruct of support ring 4, flows out from bypass gas outlet 6.The gas flow flowing through bypass gas outlet 6 exports 5 effluent air flows much larger than sample gas, large airshed can dry up fast to the moisture in the environment that sensor core 1 wall adsorbs and moisture, sensor core 1 is made to be in the atmosphere of gas to be measured at short notice, greatly reduce portion's environment outer to the impact of sample gas, improve the accuracy of detection of sensor, and the liquid water content in sample gas can be detected fast.
When detecting, gas to be measured enters between sensor core 1, two electrode and occurs that Faradaic current makes the moisture in phosphoric acid be decomposed into H
2and O
2, the final product of this process is P
2o
5, P
2o
5it is strong hygroscopic matter, moisture is absorbed from gas to be measured, by continuous print electrolytic process, in final gas to be measured moisture and brine electrolysis divide between equilibrium establishment, the moisture of Faradaic current and gas to be measured is proportional, can record the moisture in gas to be measured through detection Faradaic current.
In order to more reliable, test gas circuit and bypass gas are separated, and for convenience detach, described sensor body 3 also comprises the first sleeve 7, second sleeve 8 and locking device 10.First sleeve 7 is arranged in the cavity of sensor body 3, and be set on sensor core 1, near gas outlet end, gap is there is between first sleeve 7 and sensor core 1, facilitate the circulation of gas, first sleeve 7 offers and exports 5 the first holes 72 communicated with sample gas, described first sleeve 7 surface thereof offers the first chute 71.Described second sleeve 8 is arranged in sensor body 3, and be set on sensor core 1, near air intake opening end, gap is there is between second sleeve 8 and sensor core 1, facilitate the circulation of gas, second sleeve 8 offers and exports 6 the second hole 82, second sleeve 8 surface thereof communicated with bypass gas and offer the second chute 81, described first chute 71, second chute 81 is in splayed structure.Described locking device 10 is saddle-shaped configuration, comprising two is splay first slide block 101, second slide block 102 and the web joint 103 being arranged on slide block top, and described first slide block 101, second slide block 102 is inserted in the first chute 71, second chute 81 respectively through sensor body.Described support ring 4 is elasticity clamp, and elasticity clamp is arranged between the first sleeve 7 and the second sleeve 8, and the both sides of elasticity clamp contact with the first sleeve 7, second sleeve 8 respectively.
When carrying out gas detect, by pressing the web joint 103 of locking device 10, first slide block 101, second slide block 102 is slided along the first chute 71, second chute 81 respectively, because two slide blocks are splayed, the first sleeve 7, second sleeve 8 then contacted with it in the process of slide block downslide is contrary along length Impact direction, move toward one another, the elasticity clamp of crushing clamp between the first sleeve 7, second sleeve 8, elasticity clamp steps up and seal sensor core 1 after producing elastic deformation, then test gas circuit and bypass gas are separated completely.
Described first sleeve 7 and the second sleeve 8 relative sensors body 3 are all slidably connected.
embodiment two:
As shown in Figure 3, in order to ensure locking device uniform force, described locking device 10 also comprises screw 104, and screw 104 is threaded with sensor body 3 through web joint 103, and there is gap between web joint 103 and sensor body 3.By rotary screw 104, web joint 103 uniform force making to contact with screw 104, slowly to move down, ensure the extruding uniform force of elasticity clamp, reach excellent sealing effectiveness.
Described first sleeve 7 and the second sleeve 8 relative sensors body 3 are all slidably connected.
embodiment three:
In order to ensure locking device uniform force, described locking device 10 also comprises screw 104, and screw 104 is threaded with sensor body 3 through web joint 103, and there is gap between web joint 103 and sensor body 3.By rotary screw 104, web joint 103 uniform force making to contact with screw 104, slowly to move down, ensure the extruding uniform force of elasticity clamp, reach excellent sealing effectiveness.
As shown in Figure 4, communicate better with sensor housing up-sampling gas vent 5 to make the first hole 72 on the first sleeve 7, ensure that detecting gas normally flows out, testing result is more accurate, described first sleeve 7 is fixedly connected with sensor body 3 by register pin 31, second sleeve 8 is slidably connected with sensor body 3, then press at rotary screw 104 in the process of locking device web joint 103, first slide block 101, second slide block 102 is respectively along the first chute 71, second chute 72 slides, first sleeve 7 relative sensors body 3 is fixed, second sleeve 8 slides close to the first sleeve 7.Other parts are all identical with embodiment one.
Do not do in the utility model illustrate be prior art or can be realized by prior art, and described in the utility model, concrete case study on implementation is only better case study on implementation of the present utility model, is not used for limiting practical range of the present utility model.Namely all equivalences done according to the content of the utility model claim change and modify, all should as technology category of the present utility model.
Claims (5)
1. a P
2o
5micro-water sensor, is characterized in that, comprising:
Sensor core, described sensor core comprises glass tube matrix and platinum wire electrode, and glass tube matrix is straight glass tube, comprises inlet end and the outlet side of connection, platinum wire electrode is arranged on the inwall of glass tube matrix outlet side, and platinum wire electrode evenly scribbles phosphoric acid;
Sensor body, cavity is offered in described sensor body, sensor core is arranged in cavity, sensor core is arranged with support ring, and the contact internal walls of the outer rim of support ring and sensor body cavity, cavity is divided into two parts, between the inwall of sensor body and sensor core, there is gap, described sensor body offers sample gas outlet and bypass gas outlet.
2. P according to claim 1
2o
5micro-water sensor, is characterized in that, described sensor body also comprises:
First sleeve, described first sleeve is arranged in the cavity of sensor body, and be set on sensor core, near outlet side, gap is there is between first sleeve and sensor core, the contact internal walls of the first sleeve and sensor body cavity, the first sleeve offers the first hole exporting with sample gas and communicate, and the outer wall surface thereof of described first sleeve offers the first chute;
Second sleeve, described second sleeve is arranged in the cavity of sensor body, and be set on sensor core, near inlet end, there is gap between second sleeve and sensor core, the contact internal walls of the second sleeve and sensor body cavity, the second sleeve offers the second hole exporting with bypass gas and communicate, second sleeve outer wall surface thereof offers the second chute, and described first chute, the second chute are splayed structure;
Locking device, described locking device is saddle-shaped configuration, and comprising two is splay slide block and the web joint being arranged on slide block top, and described two sidewalls passing sensor body in splay slide block are inserted in the first chute, the second chute respectively;
Described support ring is elasticity clamp, and elasticity clamp is arranged between the first sleeve and the second sleeve, and the both sides of elasticity clamp contact with the first sleeve, the second sleeve respectively.
3. P according to claim 2
2o
5micro-water sensor, is characterized in that, described locking device also comprises screw, and screw is threaded with sensor body through web joint, and there is gap between web joint and sensor body.
4. P according to Claims 2 or 3
2o
5micro-water sensor, is characterized in that, described first sleeve and the second sleeve relative sensors body are all slidably connected.
5. P according to Claims 2 or 3
2o
5micro-water sensor, is characterized in that, described first sleeve is fixedly connected with sensor body by register pin, and the second sleeve relative sensors body is slidably connected.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520586658.5U CN204832104U (en) | 2015-08-06 | 2015-08-06 | Little water sensor of P2O5 |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520586658.5U CN204832104U (en) | 2015-08-06 | 2015-08-06 | Little water sensor of P2O5 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN204832104U true CN204832104U (en) | 2015-12-02 |
Family
ID=54689692
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520586658.5U Withdrawn - After Issue CN204832104U (en) | 2015-08-06 | 2015-08-06 | Little water sensor of P2O5 |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN204832104U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105021675A (en) * | 2015-08-06 | 2015-11-04 | 南京英格玛仪器技术有限公司 | P[2]O[5] micro water sensor |
-
2015
- 2015-08-06 CN CN201520586658.5U patent/CN204832104U/en not_active Withdrawn - After Issue
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105021675A (en) * | 2015-08-06 | 2015-11-04 | 南京英格玛仪器技术有限公司 | P[2]O[5] micro water sensor |
| CN105021675B (en) * | 2015-08-06 | 2017-07-11 | 南京英格玛仪器技术有限公司 | A kind of P2O5Micro- water sensor |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20151202 Effective date of abandoning: 20170711 |
|
| AV01 | Patent right actively abandoned |