CN117849287A

CN117849287A - Gaseous composition detection device for chlorine recovery system

Info

Publication number: CN117849287A
Application number: CN202410258127.7A
Authority: CN
Inventors: 李琪中; 何世武; 刘彩林; 赵庆琚
Original assignee: Shenzhen Ruisheng Environmental Protection Technology Co ltd
Current assignee: Shenzhen Ruisheng Environmental Protection Technology Co ltd
Priority date: 2024-03-07
Filing date: 2024-03-07
Publication date: 2024-04-09
Anticipated expiration: 2044-03-07

Abstract

The invention relates to the technical field of chlorine recovery system detection, and discloses a gas component detection device for a chlorine recovery system, which comprises a gas detection box, wherein two first module rails are arranged in the gas detection box, a first sliding seat is slidably arranged on the two first module rails, the two first sliding seats are connected through a second module rail, a second sliding seat is slidably arranged on the second module rail, an electric telescopic rod is arranged on the second sliding seat, a detector is arranged on the electric telescopic rod, the first sliding seat can drive the second module rail to move forwards and backwards through starting the first module rail, the second sliding seat can drive the detector to move transversely through starting the second module rail, and meanwhile, the detector can be driven to move longitudinally through starting the electric telescopic rod, so that the detector can detect multiple positions in the gas detection box.

Description

Gaseous composition detection device for chlorine recovery system

Technical Field

The invention relates to the technical field of detection of a chlorine recovery system, in particular to a gas component detection device for the chlorine recovery system.

Background

The chlorine recovery system mainly comprises an air inlet valve, a circulating water valve, an air return valve, an air outlet valve, a gas-liquid separator, an air return storage tank, a condensate liquid outlet valve, a blow-off valve, a pressure gauge, a thermometer and the like, wherein chlorine enters the system through the air inlet valve, is subjected to cooling external treatment of circulating water, the temperature of the chlorine is reduced, the cooled chlorine enters the gas-liquid separator, the gas and the condensate are separated, the external chlorine enters the air return storage tank, and then is sent into a pipe network through the air outlet valve, the circulating water enters a water seal pool after flowing through the gas-liquid separator to form recycling, when the temperature in the gas-liquid separator reaches 30 ℃, the condensate is discharged into the water seal Chi Huiqi through the liquid outlet valve to reach 0.3MPa, the pressure of the system is monitored by the pressure gauge, and is regulated by operators according to needs, the chlorine recovery system ensures safe recovery and utilization of the recovered gas, and ensures stable operation of the system.

When the existing chlorine recovery system detects the gas through the gas component detection device, the position of the detector is fixed, so that the detection is inconvenient to carry out in multiple positions, the detection precision is easy to reduce, and the detection error is formed.

Disclosure of Invention

The present invention is directed to a gas component detecting device for a chlorine recovery system, which solves the problems set forth in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a chlorine recovery system is with gaseous composition detection device, chlorine recovery group among this application is prior art, consequently, does not carry out too much in the description and states, and this chlorine recovery system is with gaseous composition detection device includes the gas detection case, install intake pipe and outlet duct on the gas detection case, install first electronic control valve on the outlet duct, two first module tracks are installed to the interior top symmetry of gas detection case, two slidable mounting has first slide on the first module track, two first slide is connected through the second module track, slidable mounting has the second slide on the second module track, install the electric telescopic handle on the second slide, install the detector on the telescopic end of electric telescopic handle, when carrying out the detection to the composition of gas through the intake pipe of gas recovery assembly with the detector, start first module track, can let first slide drive second module track and carry out back-and-forth movement, can let the second drive the detector and carry out the second slide through starting second module track, can realize the longitudinal movement of gas detection device through the electric telescopic handle, thereby can realize detecting the longitudinal movement in the gas detection device through the detector.

Further, the aspiration pump is installed to one side of gas detection case, the input of aspiration pump is connected through the breathing pipe with the top of gas detection case, install the gas-supply pipe on the output of aspiration pump, the gas-supply pipe is with gas delivery to chlorine recovery subassembly again in, install the second electronic control valve on the breathing pipe, first electronic control valve, second electronic control valve, aspiration pump and detector electric connection, when the detector did not detect the chlorine composition in the gas detection case, control first electronic control valve and open for the gas in the gas detection case can be discharged through the outlet duct, when the detector detected the chlorine composition in the gas detection case, control second electronic control valve and start the aspiration pump, can carry the gas that contains the chlorine composition back to chlorine recovery subassembly through breathing pipe and gas-supply pipe and retrieve again.

Further, the gas detection box is provided with a gas pressure primary utilization component and a gas pressure secondary utilization component, and operation driving force is provided for the gas pressure primary utilization component and the gas pressure secondary utilization component through operation of the gas transmission pipe.

Further, the pneumatic primary utilization component comprises a connecting rod, a working cylinder, a piston, a spring, a branch pipe, an electric one-way valve, a transmission rod, a perforation, a spiral slideway, a rotating shaft, a fan blade, a driving disc, a connecting rod, a transmission sleeve and an extrusion rod;

the bottom of gas detection case is through connecting rod fixed mounting has the working cylinder, sliding mounting has the piston in the working cylinder, the piston is connected through the spring with the bottom of working cylinder, the bottom of working cylinder is connected through the branch pipe with the gas-supply pipe, install electronic check valve on the branch pipe, install the transfer line on the piston, the perforation has been seted up at the top of working cylinder, the transfer line runs through the perforation, and is equipped with spiral slide on the lateral wall of transfer line, the bottom of gas detection case rotates and installs the pivot, the flabellum is installed to the upper end of pivot, and the lower extreme of pivot installs the driving disc, the driving disc bottom is installed through the connecting rod and is overlapped on the transfer line, install the extrusion rod on the driving sleeve, the extrusion rod slides and alternates in spiral slide, when carrying gas in the gas-supply pipe fast, through the unidirectional action of electronic check valve on the branch pipe, can let forming negative pressure in the working cylinder for the piston can compress spring and move down, can let the piston drive the transfer line and move down synchronously, thereby make the gas detection case rotate under the drive disc, and the driving disc is installed to the driving disc through the connecting rod, the driving disc bottom is installed to the driving sleeve, the transmission sleeve is installed to the transmission sleeve is passed through the connecting rod, when the transmission sleeve is rotated, when the air is moved fast.

Further, the extrusion rod is provided with a ball groove, a rolling ball is embedded in the ball groove in a rolling way, and the rolling ball is in point contact with the spiral slideway, so that the moving friction force between the extrusion rod and the spiral slideway is reduced, and the extrusion rod can move smoothly in the spiral slideway.

Further, a pressing plate is fixedly arranged at the top of the transmission rod, a starting touch button is arranged at the bottom of the driving disc, a closing touch button is arranged on the transmission sleeve, an electric pressure release valve is arranged at the bottom of the working cylinder, and the starting touch button, the closing touch button and the electric check valve are electrically connected;

in the initial state, the pressing plate is contacted with the starting touch button, the electric check valve is controlled to be opened, the electric pressure relief valve is controlled to be closed, and when the pressing plate is contacted with the closing touch button, the electric check valve is controlled to be closed, the electric pressure relief valve is controlled to be opened, so that the piston is conveniently controlled to longitudinally reciprocate in the working cylinder.

Further, the air pressure secondary utilization component comprises a fixed block, a rotating column, a driven disc, a driving belt, a fixed plate, a sliding hole, a sliding rod, a moving plate, a threaded hole, a screw rod, a linkage plate, an air bag, a rotating disc, a baffle blade, an annular air pipe and an air jet head;

the lower part of one side of the gas detection box is provided with a fixed block, the fixed block is rotatably provided with a rotary column, the lower end of the rotary column is provided with a driven disc, the driven disc and the driving disc are sleeved with a transmission belt, the upper end of the rotary column is provided with a screw rod, the upper part of one side of the gas detection box is provided with a fixed plate, the fixed plate is provided with a sliding hole, the sliding hole is provided with a sliding rod in a sliding way, the lower end of the sliding rod is provided with a movable plate, the moving plate is provided with a screw hole, the screw rod penetrates through the screw hole and is in threaded fit, the upper end of the sliding rod is provided with a linkage plate, the linkage plate is connected with the fixed plate through an air bag, the input end of the air bag is provided with a one-way air valve, the bottom of the second sliding seat is rotatably provided with a rotary disc, the bottom of the second sliding seat is fixedly provided with an annular air pipe, the bottom of the rotary disc is provided with an electric telescopic rod, the side wall of the rotating disc is obliquely provided with a plurality of baffle blades, the inner diameter of the annular air pipe is provided with a plurality of air injection heads, the annular air pipe is connected with the input end of the air bag through a connecting pipe, when the driving disc rotates anticlockwise, the driving disc can drive the driven disc to synchronously rotate through a transmission belt, the driven disc can drive the screw rod to anticlockwise rotate through the rotating column, the moving plate can move upwards along with the anticlockwise rotation of the screw rod, the moving plate can drive the linkage plate to stretch the air bag to synchronously move upwards in the moving process, the air bag can suck external air through a one-way air valve in the stretching process, when the driving disc rotates clockwise, the moving plate can move downwards along with the clockwise rotation of the screw rod, so that the linkage plate can compress the air bag, and the air flow in the air bag can enter the annular air pipe through the connecting pipe, the jet head jets air flow towards the baffle blade, the baffle blade can drive the rotary disc to rotate under the action force of the air flow, the detector can rotate after the detection is finished, and substances attached to the surface of the detector can be thrown away by utilizing the rotary centrifugal force.

Further, the plurality of baffle blades are in one-to-one correspondence with the plurality of jet heads, and the baffle blades are parallel to the jet heads.

Compared with the prior art, the invention has the following beneficial effects:

the gas passing through the chlorine recovery assembly is conveyed into the gas detection box through the gas inlet pipe, the first module track is started when the components of the gas are detected through the detector, the first sliding seat drives the second module track to move back and forth, the second sliding seat drives the detector to move transversely through the second module track, and meanwhile, the detector can be driven to move longitudinally through the electric telescopic rod, so that the detection of the detector at multiple positions in the gas detection box can be realized, and the detection precision of the detector to the gas can be improved.

When the detector detects the chlorine component in the gas detection box, the first electric control valve is controlled to be opened, so that the gas in the gas detection box can be discharged through the gas outlet pipe, and when the detector detects the chlorine component in the gas detection box, the second electric control valve is controlled to be opened, and the air suction pump is started, so that the gas containing the chlorine component can be conveyed back to the chlorine recovery assembly for recovery again through the air suction pipe and the gas conveying pipe, and the circulation of the gas is realized.

When gas is conveyed fast in the gas conveying pipe, negative pressure is formed in the working cylinder, the piston drives the transmission rod to move downwards, the transmission sleeve is driven to rotate, the fan blades are rotated, upward-flowing gas flow is formed in the gas detection box, the gas in the box is conveyed fast, and the conveying efficiency of the gas is improved.

When the driving disc rotates anticlockwise, the linkage plate stretches the air bag to suck external air, when the driving disc rotates clockwise, the linkage plate compresses the air bag, the air jet head jets air flow towards the baffle blades, the baffle blades drive the rotating disc to rotate under the action force of the air flow, the detector can rotate after the detection is finished, and substances attached to the surface of the detector can be thrown away by utilizing the rotating centrifugal force.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of a first view angle structure of the present invention;

FIG. 2 is a schematic view of a second view angle structure of the present invention;

FIG. 3 is a schematic view of a first cut-away configuration of the present invention;

FIG. 4 is a second cut-away schematic view of the present invention;

FIG. 5 is a schematic view of the annular air tube and jet head configuration of the present invention;

FIG. 6 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 7 is an enlarged schematic view of the structure at B in FIG. 4;

fig. 8 is an enlarged schematic view of the structure at C in fig. 4.

In the figure: 1. a gas detection box; 2. an air inlet pipe; 3. an air outlet pipe; 4. a first electrically-operated control valve; 5. a first module rail; 6. a first slider; 7. a second module rail; 8. a second slider; 9. an electric telescopic rod; 10. a detector; 11. an air extracting pump; 12. an air suction pipe; 13. a gas pipe; 14. a second electrically-operated control valve;

15. a pneumatic primary utilization assembly; 1501. a connecting rod; 1502. a working cylinder; 1503. a piston; 1504. a spring; 1505. a branch pipe; 1506. an electric check valve; 1507. a transmission rod; 1508. perforating; 1509. a spiral slideway; 1510. a rotating shaft; 1511. a fan blade; 1512. a drive plate; 1513. a connecting rod; 1514. a transmission sleeve; 1515. a ball groove; 1516. a rolling ball; 1517. pressing the plate; 1518. starting a touch button; 1519. closing the touch button; 1520. an electric pressure relief valve; 1521. an extrusion rod;

16. an air pressure secondary utilization component; 1601. a fixed block; 1602. a rotating column; 1603. a driven plate; 1604. a transmission belt; 1605. a fixing plate; 1606. a slide hole; 1607. a slide bar; 1608. a moving plate; 1609. a wire hole; 1610. a screw rod; 1611. a linkage plate; 1612. an air bag; 1613. a rotating disc; 1614. blocking leaves; 1615. an annular air tube; 1616. a jet head; 1617. and (5) connecting pipes.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1-4 and 8, the present invention provides the following technical solutions: the utility model provides a gaseous composition detection device for chlorine recovery system, this gaseous composition detection device for chlorine recovery system includes gaseous detection case 1, install intake pipe 2 and outlet duct 3 on the gaseous detection case 1, install first electronic control valve 4 on the outlet duct 3, two first module track 5 are installed to the interior top symmetry of gaseous detection case 1 first slide 6 are installed to sliding on the first module track 5, two first slide 6 is connected through second module track 7, sliding mounting has second slide 8 on the second module track 7, install electric telescopic handle 9 on the second slide 8, install detector 10 on the telescopic end of electric telescopic handle 9, when detecting the gaseous composition of gaseous composition through gaseous recovery component of detector 10 through intake pipe 2 transport to gaseous detection case 1, start first module track 5, can let first slide 6 drive second module track 7 and carry out the back and forth movement, can let second slide 8 drive detector 10 and carry out the horizontal movement of detector 10 and can carry out the detection of detector 10 simultaneously in the detection case 1, can realize the longitudinal movement accuracy and can be improved at the same time at the detector 10 to the detector 10.

The gas detection box 1 is characterized in that one side of the gas detection box 1 is provided with the gas pump 11, the input end of the gas pump 11 is connected with the top of the gas detection box 1 through the gas suction pipe 12, the output end of the gas pump 11 is provided with the gas transmission pipe 13, the gas transmission pipe 13 is used for conveying gas into the chlorine recovery assembly again, the gas suction pipe 12 is provided with the second electric control valve 14, the first electric control valve 4, the second electric control valve 14, the gas pump 11 and the detector 10 are electrically connected, when the detector 10 does not detect chlorine components in the gas detection box 1, the first electric control valve 4 is controlled to be opened, so that the gas in the gas detection box 1 can be discharged through the gas outlet pipe 3, and when the detector 10 detects the chlorine components in the gas detection box 1, the second electric control valve 14 is controlled to be opened, and the gas containing the chlorine components can be conveyed back into the chlorine recovery assembly through the gas suction pipe 12 and the gas transmission pipe 13 to be recovered again.

The gas detection box 1 is provided with a gas pressure primary utilization assembly 15 and a gas pressure secondary utilization assembly 16, and operation driving force is provided for the gas pressure primary utilization assembly 15 and the gas pressure secondary utilization assembly 16 through the operation of the gas pipe 13.

As shown in fig. 1-4 and 6, the pneumatic primary utilization assembly 15 includes a connecting rod 1501, a working cylinder 1502, a piston 1503, a spring 1504, a manifold 1505, an electrically operated check valve 1506, a drive rod 1507, a bore 1508, a spiral slide 1509, a rotating shaft 1510, a fan blade 1511, a drive disk 1512, a connecting rod 1513, a drive sleeve 1514, and a squeeze rod 1521;

the bottom of the gas detection box 1 is fixedly provided with a working cylinder 1502 through a connecting rod 1501, a piston 1503 is slidably arranged in the working cylinder 1502, the piston 1503 is connected with the bottom of the working cylinder 1502 through a spring 1504, the bottom of the working cylinder 1502 is connected with a gas pipe 13 through a branch pipe 1505, an electric one-way valve 1506 is arranged on the branch pipe 1505, a transmission rod 1507 is arranged on the piston 1503, a through hole 1508 is arranged at the top of the working cylinder 1502, the transmission rod 1507 penetrates through the through hole 1508, a spiral slideway 1509 is arranged on the side wall of the transmission rod 1507, a rotating shaft 1510 is rotatably arranged at the bottom of the gas detection box 1, a fan blade 1511 is arranged at the upper end of the rotating shaft 1510, a driving disc 1512 is arranged at the lower end of the rotating shaft 1510, a transmission sleeve 1514 is arranged at the bottom of the driving disc 1512 through a connecting rod 1513, the transmission sleeve 1514 is sleeved on the transmission rod 1507, the transmission sleeve 1514 is provided with the extrusion rod 1521, the extrusion rod 1521 is slidably inserted in the spiral slide 1509, when the gas is rapidly conveyed in the gas conveying pipe 13, negative pressure can be formed in the working cylinder 1502 through the unidirectional action of the electric check valve 1506 on the branch pipe 1505, the piston 1503 can compress the spring 1504 to move downwards, the piston 1503 can drive the transmission rod 1507 to synchronously move downwards, at this time, under the sliding fit action of the spiral slide 1509 and the extrusion rod 1521, the transmission rod 1507 can drive the transmission sleeve 1514 to rotate in the downward moving process, so that the transmission sleeve 1514 drives the driving disc 1512 to synchronously rotate through the connecting rod 1513, the driving disc 1512 drives the fan blade 1511 to rotate through the rotating shaft, and then upward air flow is formed in the gas detection box 1, which is beneficial to rapid conveying of the gas in the box and improves the conveying efficiency of the gas.

The extrusion rod 1521 is provided with a ball groove 1515, a ball 1516 is embedded in the ball groove 1515 in a rolling manner, and the ball 1516 is in point contact with the spiral slide 1509, which is beneficial to reducing the moving friction between the extrusion rod 1521 and the spiral slide 1509, so that the extrusion rod 1521 can move smoothly in the spiral slide 1509.

A pressing plate 1517 is fixedly mounted on the top of the transmission rod 1507, a start touch button 1518 is mounted on the bottom of the driving disc 1512, a closing touch button 1519 is mounted on the transmission sleeve 1514, an electric relief valve 1520 is mounted on the bottom of the working cylinder 1502, and the start touch button 1518, the closing touch button 1519 and the electric check valve 1506 are electrically connected;

in the initial state, the pressing plate 1517 contacts with the start touch button 1518 to control the electric check valve 1506 to open and the electric relief valve 1520 to close, and when the pressing plate 1517 contacts with the close touch button 1519, the electric check valve 1506 is controlled to close and the electric relief valve 1520 to open to facilitate the longitudinal reciprocation of the control piston 1503 in the working cylinder 1502.

As shown in fig. 1, 4-5, and 7-8, the pneumatic secondary utilization assembly 16 includes a fixed block 1601, a rotary column 1602, a driven disk 1603, a drive belt 1604, a fixed plate 1605, a sliding hole 1606, a sliding rod 1607, a moving plate 1608, a wire hole 1609, a lead screw 1610, a linkage plate 1611, an air bag 1612, a rotary disk 1613, a baffle 1614, an annular air tube 1615, and a jet head 1616;

a fixed block 1601 is installed at the lower part of one side of the gas detection box 1, a rotary column 1602 is rotatably installed on the fixed block 1601, a driven disc 1603 is installed at the lower end of the rotary column 1602, a driving belt 1604 is sleeved on the driven disc 1603 and a driving disc 1512, the driving disc 1512 and the driven disc 1603 are equal in size, a screw 1610 is installed at the upper end of the rotary column 1602, a fixed plate 1605 is installed at the upper part of one side of the gas detection box 1, a sliding hole 1606 is formed in the fixed plate 1605, a sliding rod 1607 is installed in the sliding hole 1606 in a sliding mode, a moving plate 1608 is installed at the lower end of the sliding rod 1607, a wire hole 1609 is formed in the moving plate 1608, the screw 1610 penetrates through the wire hole 1609 and is in threaded fit, a one-way air valve 1611 is installed at the upper end of the sliding rod 1607, the linkage plate 1611 and the fixed plate 1615 are connected through an air bag 1612, the bottom of the second sliding seat 8 is rotatably provided with a rotary disk 1613, the bottom of the second sliding seat 8 is fixedly provided with an annular air pipe 1615, the bottom of the rotary disk 1613 is provided with an electric telescopic rod 9, the side wall of the rotary disk 1613 is obliquely provided with a plurality of baffle leaves 1614, the inner diameter of the annular air pipe 1615 is provided with a plurality of jet heads 1616, the annular air pipe 1615 is connected with the input end of an air bag 1612 through a connecting pipe 1617, when the driving disk 1512 rotates anticlockwise, the driving disk 1512 can drive the driven disk 1603 to synchronously rotate through a driving belt 1604, the driven disk 1603 can drive a lead screw 1610 to anticlockwise rotate through a rotary column 1602, the moving plate 1608 can move upwards along with the anticlockwise rotation of the lead screw 1610, the moving plate 1608 can drive the air bag 1612 to synchronously move upwards through the sliding rod 1607 to stretch the air bag 1612, the air bag 1612 can suck air through an external air valve in the stretching process, when the driving disc 1512 rotates clockwise, the moving plate 1608 can move downwards along with the clockwise rotation of the screw 1610, so that the linkage plate 1611 can compress the air bag 1612, air flow in the air bag 1612 can enter the annular air pipe 1615 through the connecting pipe 1617, air flow is sprayed towards the baffle 1614 through the air jet head 1616, the baffle 1614 can drive the rotating disc 1613 to rotate under the action of the air flow, the detector 10 can rotate after the detection is finished, and substances attached to the surface of the detector 10 can be thrown away by utilizing the rotating centrifugal force.

The plurality of baffle blades 1614 are in one-to-one correspondence with the plurality of jet heads 1616, and the baffle blades 1614 are parallel to the jet heads 1616, so that the air flow ejected by the jet heads 1616 can ensure that the baffle blades 1614 continuously drive the rotary disk 1613 to rotate.

The working principle of the invention is as follows:

the gas passing through the chlorine recovery assembly is conveyed into the gas detection box 1 through the gas inlet pipe 2, the first module track 5 is started when the components of the gas are detected through the detector 10, the first sliding seat 6 can drive the second module track 7 to move back and forth, the second sliding seat 8 can drive the detector 10 to move transversely through the second module track 7, and meanwhile, the detector 10 can be driven to move longitudinally through the electric telescopic rod 9, so that the detection of the detector 10 at multiple positions in the gas detection box 1 can be realized, and the detection precision of the detector 10 to the gas can be improved.

When the detector 10 detects no chlorine component in the gas detection box 1, the first electric control valve 4 is controlled to be opened, so that gas in the gas detection box 1 can be discharged through the gas outlet pipe 3, and when the detector 10 detects the chlorine component in the gas detection box 1, the second electric control valve 14 is controlled to be opened, and the air suction pump 11 is started, so that the gas containing the chlorine component can be conveyed back to the chlorine recovery assembly for recovery again through the air suction pipe 12 and the gas transmission pipe 13.

When gas is rapidly conveyed in the gas conveying pipe 13, negative pressure can be formed in the working cylinder 1502 through the unidirectional action of the electric check valve 1506 on the branch pipe 1505, so that the piston 1503 can compress the spring 1504 to move downwards, the piston 1503 can drive the transmission rod 1507 to move downwards synchronously, at the moment, under the sliding fit action of the spiral slide 1509 and the extrusion rod 1521, the transmission rod 1507 can drive the transmission sleeve 1514 to rotate in the downward moving process, so that the transmission sleeve 1514 drives the driving disc 1512 to synchronously rotate through the connecting rod 1513, the driving disc 1512 drives the fan blade 1511 to rotate through the rotating shaft 1510, and then upward-flowing gas flow is formed in the gas detection box 1, rapid conveying of gas in the box body is facilitated, and the conveying efficiency of the gas is improved.

When the driving disc 1512 rotates anticlockwise, the driving disc 1512 can drive the driven disc 1603 to synchronously rotate through the driving belt 1604, the driven disc 1603 can drive the screw rod 1610 to rotate anticlockwise through the rotary column 1602, the moving plate 1608 can move upwards along with the anticlockwise rotation of the screw rod 1610, the moving plate 1608 can drive the linkage plate 1611 to stretch the air bag 1612 to synchronously move upwards through the sliding rod 1607 in the moving process, the air bag 1612 can suck external air through the one-way air valve in the stretching process, when the driving disc 1512 rotates clockwise, the moving plate 1608 can move downwards along with the clockwise rotation of the screw rod 1610, so that the air bag 1612 can be compressed by the linkage plate 1611, the air flow in the air bag 1612 can enter the annular air pipe 1615 through the connecting pipe 1617, the air flow is sprayed towards the baffle 1614 through the air jet head 1616, the baffle 1614 can drive the rotary disc 1613 to rotate under the action force of the air flow, the rotation of the detector 10 can be realized after the detection is finished, and the substances attached to the surface of the detector 10 can be thrown away from the detector by the rotation of the rotary centrifugal force.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A gas component detection device for a chlorine recovery system is characterized in that: this gaseous composition detection device for chlorine recovery system includes gaseous detection case (1), install intake pipe (2) and outlet duct (3) on gaseous detection case (1), install first electric control valve (4) on outlet duct (3), two first module track (5) are installed to the interior top symmetry of gaseous detection case (1) first slide (6) are installed to the sliding on first module track (5), two first slide (6) are connected through second module track (7), sliding mounting has second slide (8) on second module track (7), install electric telescopic handle (9) on second slide (8), install detector (10) on the flexible end of electric telescopic handle (9).

2. The gas component detecting apparatus for a chlorine recovery system according to claim 1, wherein: the gas detection device is characterized in that a suction pump (11) is arranged on one side of the gas detection box (1), the input end of the suction pump (11) is connected with the top of the gas detection box (1) through a suction pipe (12), a gas transmission pipe (13) is arranged at the output end of the suction pump (11), the gas transmission pipe (13) is used for conveying gas to a chlorine recovery component again, a second electric control valve (14) is arranged on the suction pipe (12), and the first electric control valve (4), the second electric control valve (14), the suction pump (11) and the detector (10) are electrically connected.

3. The gas component detecting apparatus for a chlorine recovery system according to claim 1, wherein: the gas detection box (1) is provided with a gas pressure primary utilization component (15) and a gas pressure secondary utilization component (16), and operation driving force is provided for the gas pressure primary utilization component (15) and the gas pressure secondary utilization component (16) through operation of the gas transmission pipe (13).

4. A gas component detecting apparatus for a chlorine recovery system according to claim 3, wherein: the air pressure primary utilization assembly (15) comprises a connecting rod (1501), a working cylinder (1502), a piston (1503), a spring (1504), a branch pipe (1505), an electric one-way valve (1506), a transmission rod (1507), a perforation (1508), a spiral slide (1509), a rotating shaft (1510), a fan blade (1511), a driving disc (1512), a connecting rod (1513), a transmission sleeve (1514) and a squeezing rod (1521);

the bottom of gas detection case (1) is through connecting rod (1501) fixed mounting has working cylinder (1502), interior movable mounting has piston (1503) in working cylinder (1502), the bottom of piston (1503) and working cylinder (1502) is connected through spring (1504), the bottom of working cylinder (1502) is connected through branch pipe (1505) with gas-supply pipe (13), install electronic check valve (1506) on branch pipe (1505), install transfer line (1507) on piston (1503), perforation (1508) have been seted up at the top of working cylinder (1502), transfer line (1507) runs through perforation (1508), and be equipped with spiral slide (1509) on the lateral wall of transfer line (1507), pivot (1510) are installed in the bottom rotation of gas detection case (1), flabellum (1511) are installed to the upper end of pivot (1510), and the lower extreme of pivot (1510) is installed driving dish (1512), install drive dish (1512) bottom through connecting rod (1513) and install drive sleeve (1514), install perforation (1514) on transfer line (1524), install spiral slide (1524) on transfer line (1524).

5. The gas component detecting apparatus for a chlorine recovery system according to claim 4, wherein: the extrusion rod (1521) is provided with a ball groove (1515), a ball (1516) is embedded in the ball groove (1515) in a rolling way, and the ball (1516) is in point contact with the spiral slideway (1509).

6. The gas component detecting apparatus for a chlorine recovery system according to claim 4, wherein: the top of the transmission rod (1507) is fixedly provided with a pressing plate (1517), the bottom of the driving disc (1512) is provided with a starting touch button (1518), the transmission sleeve (1514) is provided with a closing touch button (1519), the bottom of the working cylinder (1502) is provided with an electric pressure relief valve (1520), and the starting touch button (1518), the closing touch button (1519) and the electric check valve (1506) are electrically connected;

in the initial state, the pressing plate (1517) is contacted with the starting touch button (1518), the electric check valve (1506) is controlled to be opened, the electric relief valve (1520) is controlled to be closed, and when the pressing plate (1517) is contacted with the closing touch button (1519), the electric check valve (1506) is controlled to be closed, and the electric relief valve (1520) is controlled to be opened.

7. The gas component detecting apparatus for a chlorine recovery system according to claim 6, wherein: the air pressure secondary utilization assembly (16) comprises a fixed block (1601), a rotary column (1602), a driven disc (1603), a driving belt (1604), a fixed plate (1605), a sliding hole (1606), a sliding rod (1607), a moving plate (1608), a wire hole (1609), a screw rod (1610), a linkage plate (1611), an air bag (1612), a rotary disc (1613), a baffle blade (1614), an annular air pipe (1615) and an air jet head (1616);

a fixed block (1601) is arranged at the lower part of one side of the gas detection box (1), a rotary column (1602) is rotatably arranged on the fixed block (1601), a driven plate (1603) is arranged at the lower end of the rotary column (1602), a transmission belt (1604) is sleeved on the driven plate (1603) and a driving plate (1512), a lead screw (1610) is arranged at the upper end of the rotary column (1602), a fixed plate (1605) is arranged at the upper part of one side of the gas detection box (1), a sliding hole (1606) is arranged on the fixed plate (1605), a sliding rod (1607) is arranged in the sliding hole (1606), a movable plate (1608) is arranged at the lower end of the sliding rod (1607), a wire hole (1609) is arranged on the movable plate (1608), the lead screw (1610) penetrates through the wire hole (1609) and is in threaded fit, a lead screw (1) is arranged at the upper end of the sliding rod (1607), a sliding plate (1601) is connected with the fixed plate (1605) through a sliding plate (1602), a second air valve (1618) is arranged at the bottom of the sliding seat (1618), a sliding seat (1618) is arranged at the bottom of the air valve (1618), and a plurality of baffle blades (1614) are obliquely arranged on the side wall of the rotary disk (1613), a plurality of jet heads (1616) are arranged on the inner diameter of the annular air pipe (1615), and the annular air pipe (1615) is connected with the input end of the air bag (1612) through a connecting pipe (1617).

8. The gas component detecting apparatus for a chlorine recovery system according to claim 7, wherein: the plurality of baffles (1614) are in one-to-one correspondence with the plurality of jet heads (1616), and the baffles (1614) are parallel to the jet heads (1616).