CN219046089U - In-situ direct-insert CO/O 2 Double parameter measuring device - Google Patents

Abstract

The utility model relates to the technical field of flue gas detection and discloses an in-situ direct-insert CO/O ₂ The utility model provides a dual parameter measuring device, includes flue, detector body, test probe, flue one side is opened there is the normal position hole, and normal position hole department is fixed with the connecting pipe, and connecting pipe one end is fixed with the second ring flange, detector body one side is connected with the detecting tube, and detecting tube one end cover is established and is fixed with first ring flange, the detecting tube runs through the normal position hole and extends to inside the flue, and the detector body passes through first ring flange and second ring flange and flue fixed connection, test probe one end is equipped with connecting portion, and connecting portion inserts and locate detecting tube one end, establish between test probe and the detecting tubeThere is a quick-connect mechanism. The utility model realizes quick connection and fixation, can be quickly released by only pressing the trapezoidal locking block during disassembly, is different from the traditional threaded connection, and avoids difficult disassembly caused by overlooking by smoke for a long time.

Description

In-situ direct-insert CO/O 2 Double parameter measuring device

Technical Field

The utility model belongs to the technical field of flue gas detection, and particularly relates to an in-situ direct-insert CO/O ₂ A double parameter measuring device.

Background

When the factory is in daily processing production, the problem of fume emission is unavoidable, and along with the improvement of national standard emission standard requirements, the fume emission of the factory can be discharged after reaching the standard after being treatedPut, in order to monitor the CO/O in the flue gas in real time during emission ₂ The content ratio of (2) requires to install a monitoring device at the discharge end, and at present, a direct-insertion type monitoring device is mostly adopted.

Because the monitoring measuring device needs to install the detection probe at the measuring end, the detection probe belongs to the loss piece, so the detection probe and the detector body can be connected by using threads, however, the detection probe is generally installed inside a flue and is influenced by smoke impurities and the like for a long time, corrosion can occur at the thread, the disassembly is difficult, and the later replacement is inconvenient.

The present utility model has been made in view of this.

Disclosure of Invention

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

in-situ direct-insert CO/O ₂ The utility model provides a dual parameter measurement device, includes flue, detector body, test probe, open in situ hole in flue one side, and in situ hole department is fixed with the connecting pipe, and connecting pipe one end is fixed with the second ring flange, detector body one side is connected with the detecting tube, and detecting tube one end cover is established and is fixed with first ring flange, the detecting tube runs through in situ hole and extends to inside the flue, and the detector body passes through first ring flange and second ring flange and flue fixed connection, test probe one end is equipped with connecting portion, and connecting portion inserts and locate detecting tube one end, be equipped with quick joint mechanism between test probe and the detecting tube, quick joint mechanism is used for with test probe and detecting tube lug connection, one end is fixed with the sealing ring in the detecting tube, and sealing ring one side and connecting portion one end all are equipped with the sealing washer.

As a preferred implementation mode of the utility model, the quick clamping mechanism comprises two clamping rods, one ends of the two sides of the detection tube, which are close to the detection probes, are provided with strip-shaped grooves, sliding blocks are arranged in the strip-shaped grooves in a sliding manner, the two clamping rods are respectively and rotatably arranged at one ends of the two sliding blocks, one ends of the clamping rods are respectively provided with clamping parts, one ends of the detection probes, which are close to the detection tubes, are fixedly sleeved with clamping rings, the clamping parts are respectively matched with the clamping rings, pushing rings are fixedly sleeved on the connecting parts, and after the connecting parts are inserted into the detection tubes, the pushing rings can squeeze the two sliding blocks and drive the clamping rods to move.

As a preferred implementation mode of the utility model, one end of the detection tube, which is close to the clamping rod, is sleeved with a fixed ring, the clamping rod is extruded and rotated by the fixed ring after moving to the fixed ring, one side of the clamping rod is provided with a trapezoidal locking piece in a rotating mode, the trapezoidal locking piece can be clamped on one side of the fixed ring, the clamping rod is provided with a rectangular opening, one end of the sliding block is arranged in the rectangular opening, the clamping rod is provided with a rotating pin in a penetrating mode, the rotating pin penetrates through the sliding block and is fixedly connected with the sliding block, and a torsion spring is arranged between the rotating pin and the clamping rod.

As a preferable implementation mode of the utility model, guide pins are fixed in the strip-shaped grooves, and penetrate through the sliding blocks and are in sliding connection with the sliding blocks, and springs are sleeved at one ends of the guide pins.

In a preferred embodiment of the present utility model, a filter cartridge is disposed inside the detection tube, a plurality of connection pins are fixed on the inner wall of the fixing ring, and the other ends of the connection pins are fixed on the outer wall of the detection tube.

As a preferable implementation mode of the utility model, a swivel is sleeved outside the detection tube at a position close to the first flange plate, and a rain shield is fixed on one side of the swivel.

As a preferable implementation mode of the utility model, one side of the rain shield is provided with a threaded hole, one end of one side of the detection tube, which is close to the detector body, is fixed with a fixed block, and the fixed block is penetrated with a fixed screw which is matched with the threaded hole.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, through the quick clamping mechanism, when the detection probe is installed, the connecting part of the detection probe can be inserted into one end of the detection pipe, the pushing ring is contacted with one end of the two sliding blocks and extrudes the two sliding blocks to move so as to drive the two sliding blocks and the clamping rods to move along, when the clamping rods are contacted with the fixed ring, the two clamping rods are enabled to rotate to a horizontal state under the extrusion effect, the clamping part is enabled to be in clamping contact with the clamping ring, the detection probe is tightly connected with the detection pipe, at the moment, one end of the connecting part is tightly contacted with the sealing ring to realize sealing, the trapezoidal locking block on the clamping rod is locked on one side of the fixed ring, the quick connection and the fixation are completed, and the quick connection is different from the traditional threaded connection, so that the detection probe is difficult to disassemble due to long-time overlook smoke.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a schematic view of a three-dimensional structure of the utility model after being installed with a flue;

FIG. 2 is a schematic view of a three-dimensional expanded structure of the present utility model;

FIG. 3 is a schematic cross-sectional view of a planar disk of the present utility model;

FIG. 4 is a schematic plan sectional view of the present utility model after installation with a flue;

fig. 5 is a schematic perspective view of a clamping rod according to the present utility model.

In the figure: 1. a flue; 2. a detector body; 3. a first flange; 4. a second flange; 5. a connecting pipe; 6. a rain shield; 7. a detection tube; 8. a detection probe; 9. a connection part; 10. a clasp; 11. a push ring; 12. a fixed block; 13. a filter cartridge; 14. a seal ring; 15. a fixing ring; 16. a clamping rod; 17. a fixing screw; 18. a threaded hole; 19. a swivel; 20. a slide block; 21. a guide pin; 22. a rotating shaft; 23. a spring; 24. a rectangular opening; 25. a trapezoidal locking piece.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model.

As shown in fig. 1-5, an in-situ in-line CO/O ₂ The double-parameter measuring device comprises a flue 1, a detector body 2 and a detection probe 8, wherein one side of the flue 1 is provided with an in-situ hole, a connecting pipe 5 is fixed at the in-situ hole, and the connecting pipe 5One end is fixed with second ring flange 4, detector body 2 one side is connected with detection tube 7, and detection tube 7 one end cover is established and is fixed with first ring flange 3, detection tube 7 runs through inside normal position hole extends to flue 1, and detector body 2 is equipped with connecting portion 9 through first ring flange 3 and second ring flange 4 and flue 1 fixed connection, detection probe 8 one end, and connecting portion 9 inserts and locates detection tube 7 one end, be equipped with quick joint mechanism between detection probe 8 and the detection tube 7, quick joint mechanism is used for with detection probe 8 and detection tube 7 quick connect, detection tube 7 inner end is fixed with sealing ring 14, sealing ring 14 one side and connecting portion 9 one end all are equipped with the sealing washer.

The quick clamping mechanism comprises two clamping rods 16, strip-shaped grooves are formed in one ends, close to the detection probes 8, of two sides of the detection tube 7, sliding blocks 20 are arranged in the strip-shaped grooves in a sliding mode, the two clamping rods 16 are respectively arranged at one ends of the two sliding blocks 20 in a rotating mode, clamping parts are arranged at one ends of the clamping rods 16, clamping rings 10 are fixedly sleeved at one ends, close to the detection tubes 7, of the detection probes 8, the clamping parts are matched with the clamping rings 10, pushing rings 11 are fixedly sleeved on the connecting parts 9, and after the connecting parts 9 are inserted into the detection tubes 7, the pushing rings 11 can squeeze the two sliding blocks 20 and drive the clamping rods 16 to move.

The detection tube 7 is close to clamping rod 16 one end cover and is equipped with solid fixed ring 15, clamping rod 16 receives solid fixed ring 15 extrusion rotation after clamping rod 16 moves to solid fixed ring 15 department, insert detection tube 7 one end with connecting portion 9 of detection probe 8, push ring 11 and two slider 20 one end contact and extrusion their removal, drive two clamping rods 16 follow the removal, receive the extrusion effect after clamping rod 16 contacts with solid fixed ring 15 and make two clamping rods 16 rotate to the horizontality, make clamping portion and snap ring 10 chucking contact, with the taut connection between detection probe 8 and the detection tube 7, clamping rod 16 one side all rotates and is equipped with trapezoidal locking piece 25, trapezoidal locking piece 25 chucking is in gu fixed ring 15 one side, open rectangular mouth 24 on the clamping rod 16, and slider 20 one end all locates in the rectangular mouth, clamping rod 16 all runs through the rotation and is equipped with rotary pin 22, rotary pin 22 all runs through slider 20 and rather than fixed connection, install the torsional spring between rotary pin 22 and the clamping rod 16.

Guide pins 21 are fixed in the strip-shaped grooves, the guide pins 21 penetrate through the sliding blocks 20 and are in sliding connection with the sliding blocks, and springs 23 are sleeved at one ends of the guide pins 21.

The inside of the detection tube 7 is provided with a filter cylinder 13, the inner wall of the fixed ring 15 is fixed with a plurality of connecting pins, and the other ends of the connecting pins are fixed on the outer wall of the detection tube 7.

The detection tube 7 is externally sleeved with a swivel 19 at a position close to the first flange plate 3, and a rain shield 6 is fixed on one side of the swivel 19, so that the two flange plates can be shielded, and rust caused by long-time sun-drying and rain-spraying is avoided.

A threaded hole 18 is formed in one side of the rain shield 6, a fixed block 12 is fixed at one end, close to the detector body 2, of one side of the detection tube 7, a fixed screw 17 penetrates through the fixed block 12, the fixed screw 17 is matched with the threaded hole 18, after the installation is finished, the rain shield 6 is rotated to the upper part, two flange plates are shielded, and the fixed screw 17 is screwed into the threaded hole 18 to be fixed.

In-situ direct-insert CO/O (carbon monoxide/oxygen) of the embodiment ₂ The implementation principle of the double-parameter measuring device is as follows: during installation, the connecting portion 9 of the detection probe 8 is inserted into one end of the detection tube 7, the pushing ring 11 is contacted with one end of the two sliding blocks 20 and extrudes the two sliding blocks to move, the two clamping rods 16 are driven to move in a following manner, after the clamping rods 16 are contacted with the fixing ring 15, the two clamping rods 16 are enabled to rotate to be in a horizontal state under extrusion, the clamping connection portion is enabled to be in clamping contact with the clamping ring 10, the detection probe 8 and the detection tube 7 are in tensioning connection, at the moment, one end of the connecting portion 9 is in tight contact with the sealing ring 14 in a sealing mode, the trapezoidal locking block 25 on the clamping rod 16 is locked on one side of the fixing ring 15 and is fast connected and fixed, then the hand-held detector body 2 is used for inserting the detection tube 7 and the detection probe 8 into the flue 1 from the connecting tube 5, the first flange 3 and the second flange 4 are used for fixedly connecting the detection tube, after installation is completed, the rain shield 6 is rotated to the upper portion, the two flanges are shielded, and meanwhile the fixing screws 17 are screwed into the threaded holes 18 for fixing, and the trapezoidal locking block 25 is only needed to be pressed when the detection probe 8 is disassembled and replaced.

Claims (7)

1. In-situ direct-insert CO/O ₂ The double-parameter measuring device comprises a flue (1), a detector body (2) and a detection probe (8), and is characterized in that one side of the flue (1) is provided with an in-situ hole, a connecting pipe (5) is fixed at the in-situ hole, and one end of the connecting pipe (5) is provided withBe fixed with second ring flange (4), detector body (2) one side is connected with detection tube (7), and detection tube (7) one end cover is established and is fixed with first ring flange (3), detection tube (7) run through inside normal position hole extends to flue (1), and detector body (2) are through first ring flange (3) and second ring flange (4) and flue (1) fixed connection, detection probe (8) one end is equipped with connecting portion (9), and connecting portion (9) are inserted and are located detection tube (7) one end, be equipped with quick joint mechanism between detection probe (8) and detection tube (7), quick joint mechanism is used for detecting probe (8) and detection tube (7) quick connect, detection tube (7) inner end is fixed with sealing ring (14), and sealing ring (14) one side and connecting portion (9) one end all are equipped with the sealing washer.

2. An in-situ CO/O as claimed in claim 1 ₂ The double-parameter measuring device is characterized in that the quick clamping mechanism comprises two clamping rods (16), a strip-shaped groove is formed in one end, close to the detection probe (8), of each of two sides of the detection tube (7), sliding blocks (20) are arranged in the strip-shaped groove in a sliding mode, the two clamping rods (16) are respectively arranged at one ends of the two sliding blocks (20) in a rotating mode, clamping parts are arranged at one ends of the clamping rods (16) respectively, the detection probe (8) is provided with clamping rings (10) close to the fixed sleeve of one end of the detection tube (7), the clamping parts are matched with the clamping rings (10), pushing rings (11) are fixedly sleeved on the connecting parts (9), and the connecting parts (9) are inserted into the detection tube (7) and can extrude the two sliding blocks (20) and drive the clamping rods (16) to move.

3. An in-situ CO/O as claimed in claim 2 ₂ The double-parameter measuring device is characterized in that one end of the detecting tube (7) close to the clamping rod (16) is sleeved with a fixed ring (15), the clamping rod (16) is extruded and rotated by the fixed ring (15) after the clamping rod (16) moves to the fixed ring (15), one side of the clamping rod (16) is provided with a trapezoidal locking block (25) in a rotating mode, the trapezoidal locking block (25) can be clamped on one side of the fixed ring (15),the clamping rod (16) is provided with a rectangular opening (24), one end of the sliding block (20) is arranged in the rectangular opening, the clamping rod (16) is provided with a rotary pin (22) in a penetrating and rotating mode, the rotary pin (22) penetrates through the sliding block (20) and is fixedly connected with the sliding block, and a torsion spring is arranged between the rotary pin (22) and the clamping rod (16).

4. An in-situ CO/O as claimed in claim 2 ₂ The double-parameter measuring device is characterized in that guide pins (21) are fixed in the strip-shaped grooves, the guide pins (21) penetrate through the sliding blocks (20) and are in sliding connection with the sliding blocks, and springs (23) are sleeved at one ends of the guide pins (21).

5. An in-situ CO/O as claimed in claim 3 ₂ The double-parameter measuring device is characterized in that a filter cylinder (13) is arranged inside the detection tube (7), a plurality of connecting pins are fixed on the inner wall of the fixed ring (15), and the other ends of the connecting pins are fixed on the outer wall of the detection tube (7).

6. An in-situ CO/O as claimed in claim 1 ₂ The double-parameter measuring device is characterized in that a rotating ring (19) is sleeved at the position, close to the first flange plate (3), of the outer part of the detecting tube (7), and a rain shield (6) is fixed on one side of the rotating ring (19).

7. An in-situ CO/O as claimed in claim 6 ₂ The double-parameter measuring device is characterized in that a threaded hole (18) is formed in one side of the rain shield (6), a fixed block (12) is fixed at one end, close to the detector body (2), of one side of the detection tube (7), fixing screws (17) penetrate through the fixed block (12), and the fixing screws (17) are matched with the threaded hole (18).

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