CN219854184U - Positioning jig for temperature sensor processing - Google Patents

Abstract

The utility model provides a positioning jig for processing a temperature sensor. The positioning jig for processing the temperature sensor comprises: a processing seat; the processing groove is formed in the processing seat and is used for placing a temperature sensor to be processed; the clamping plates are arranged in the processing groove and are oppositely arranged, and the clamping plates are used for clamping a temperature sensor to be processed; the positioning mechanism is arranged in the processing seat and corresponds to the clamping plate, and the positioning mechanism is used for controlling the clamping plate to position the temperature sensor in the processing process. The positioning jig for processing the temperature sensor has the advantages of being convenient for positioning the temperature sensor and improving the processing efficiency.

Description

Positioning jig for temperature sensor processing

Technical Field

The utility model relates to the technical field of temperature sensor processing, in particular to a positioning jig for temperature sensor processing.

Background

The temperature sensor (temperature transducer) is a sensor that senses temperature and converts it into a usable output signal. The temperature sensor is a core part of the temperature measuring instrument and has various varieties. The measuring method can be divided into two main types, namely contact type and non-contact type, and the measuring method can be divided into two types, namely thermal resistor and thermocouple according to the characteristics of sensor materials and electronic elements.

At present, the processing of the temperature sensor usually adopts the assembly line production, and in the assembly line production process, an important process is assembly. When the temperature sensor is assembled, workers need to position the temperature sensor so as to facilitate assembly operation, however, the conventional temperature sensor positioning device is not convenient for placing and taking the temperature sensor, and the problem of low processing efficiency is caused.

Therefore, it is necessary to provide a new positioning jig for processing a temperature sensor to solve the above-mentioned technical problems.

Disclosure of Invention

The utility model provides a positioning jig for processing a temperature sensor, which aims to solve the technical problem of low processing efficiency caused by inconvenient positioning and assembly in the processing process of the temperature sensor.

The positioning jig for processing the temperature sensor provided by the utility model comprises: a processing seat; the processing groove is formed in the processing seat and is used for placing a temperature sensor to be processed; the clamping plates are arranged in the processing groove and are oppositely arranged, and the clamping plates are used for clamping a temperature sensor to be processed; the positioning mechanism is arranged in the processing seat and corresponds to the clamping plate, and the positioning mechanism is used for controlling the clamping plate to position the temperature sensor in the processing process.

Preferably, the positioning mechanism comprises a first compression groove arranged in the processing seat, the first compression groove is communicated with the processing groove, a first compression rod is arranged in the first compression groove, the clamping end of the first compression rod extends into the processing groove and is fixedly connected with the clamping plate, an L-shaped sliding plate fixedly connected with the other end of the first compression rod is arranged in the first compression groove in a sliding mode, a first compression spring is sleeved on the first compression rod, and two ends of the first compression spring are fixedly connected with the inner wall of the first compression groove and the vertical section of the L-shaped sliding plate respectively.

Preferably, the horizontal section of the L-shaped sliding plate is fixedly connected with a pull rope, and the pull rope is positioned in the first compression groove.

Preferably, a second compression groove is formed in the inner wall of the bottom of the processing groove, a second compression rod is arranged in the second compression groove, an inverted T-shaped sliding plate is arranged on the second compression rod in a sliding mode, a sliding groove is formed in the inverted T-shaped sliding plate, the second compression rod can slide in the inverted T-shaped sliding plate, the horizontal section of the inverted T-shaped sliding plate is located in the second compression groove, the vertical section of the inverted T-shaped sliding plate vertically penetrates through the compression groove and is fixedly connected with the pull rope, the top end of the vertical section of the inverted T-shaped sliding plate is located in the processing groove, a second compression spring is sleeved on the second compression rod, two ends of the second compression spring are fixedly connected with the vertical section of the inverted T-shaped sliding plate and the inner wall of the second compression groove respectively, and a pressing block is fixedly installed at the top end of the vertical section of the inverted T-shaped sliding plate.

Preferably, a pair of movable grooves are formed in the processing seat, the movable grooves are respectively located at two sides of the second compression groove, a pair of third compression grooves are formed in the processing seat, the third compression grooves are located between the second compression groove and the movable grooves and are communicated with the second compression groove and the movable grooves, a third compression rod is slidably penetrated in the third compression grooves, a trapezoid limiting block is fixedly arranged on one side of the third compression rod, the tip end of the trapezoid limiting block can extend into the second compression groove, a third compression spring is sleeved on the third compression rod, and two ends of the third compression spring are respectively fixedly connected with the inner wall of the third compression groove.

Preferably, a fixing plate is fixedly arranged at one end of the compression rod III extending out of the processing seat, a sliding ring is sleeved on the processing seat in a sliding manner, and the fixing plate is in sliding contact with the tip end of the sliding ring.

Preferably, a pair of limiting plates are fixedly installed on the processing seat, the limiting plates are located at the top of the sliding ring, and the limiting plates are used for limiting the displacement of the sliding ring.

Compared with the related art, the positioning jig for processing the temperature sensor has the following beneficial effects:

the utility model provides a positioning jig for processing a temperature sensor, which comprises:

1. the clamping of the clamping plate is controlled through the positioning mechanism, so that the temperature sensor is conveniently processed in the processing groove, the compression rod I is pushed by the L-shaped sliding plate to compress the compression spring I to push out of the clamping plate so as to position the temperature sensor to be processed, the pair of L-shaped sliding plates are conveniently pulled to move in opposite directions through the pair of pull ropes so as to conveniently control the displacement of the clamping plate, the inverted T-shaped sliding plate is driven to move downwards along the compression rod II by pressing the pressing block, the compression spring II is compressed, and the pull ropes are pulled to enter the compression groove II so as to conveniently control the displacement of the L-shaped sliding plate;

2. the trapezoid limiting block is pushed by the inverted T-shaped sliding plate to leave the space of the compression groove II to release the compression groove II, so that the inverted T-shaped sliding plate moves downwards to the lower part of the trapezoid limiting block, the tip of the trapezoid limiting block loses the thrust of the inverted T-shaped sliding plate and is pushed into the compression groove II again by the rebound compression spring III, so that the rebound of the compression spring II is limited, the inverted T-shaped sliding plate cannot return to the original position, the L-shaped sliding plate is continuously pulled by the pull rope, and the aim of enabling the clamping plate to position the temperature sensor is fulfilled;

3. the fixing plate is displaced along the inclined plane of the sliding ring through the sliding ring, so that the third compression rod drives the tip end of the trapezoid limiting block to leave the second compression groove, the inverted T-shaped sliding plate is conveniently released to relax the clamping and positioning of the clamping plate to the temperature sensor, the displacement position of the sliding ring is conveniently controlled through the limiting plate, the tip end of the sliding ring is prevented from sliding away from the fixing plate, and the control of the fixing plate is lost.

Drawings

FIG. 1 is a schematic diagram of a front view of a positioning fixture for temperature sensor processing according to a preferred embodiment of the present utility model;

FIG. 2 is a schematic diagram of a positioning fixture for temperature sensor processing according to a preferred embodiment of the present utility model;

fig. 3 is an enlarged schematic view of the portion a shown in fig. 2.

Reference numerals in the drawings: 1. a processing seat; 2. a processing groove; 3. a clamping plate; 4. a first compression groove; 5. compressing the first rod; 6. an L-shaped sliding plate; 7. compressing a first spring; 8. a pull rope; 9. a compression groove II; 10. compression rod II; 11. an inverted T-shaped sliding plate; 12. a sliding groove; 13. compression spring II; 14. pressing the blocks; 15. a moving groove; 16. a third compression groove; 17. compression rod III; 18. a trapezoid limiting block; 19. compression spring III; 20. a fixing plate; 21. a slip ring; 22. and a limiting plate.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

Referring to fig. 1-3 in combination, fig. 1 is a schematic front view of a positioning fixture for processing a temperature sensor according to a preferred embodiment of the present utility model; FIG. 2 is a schematic diagram of a positioning fixture for temperature sensor processing according to a preferred embodiment of the present utility model; fig. 3 is an enlarged schematic view of the portion a shown in fig. 2.

Positioning jig for temperature sensor processing includes: a processing seat 1; the processing groove 2 is formed in the processing seat 1, and the processing groove 2 is used for placing a temperature sensor to be processed; the clamping plates 3 are arranged in the processing groove 2 and are opposite to each other, and the clamping plates 3 are used for clamping a temperature sensor to be processed; the positioning mechanism is arranged in the processing seat 1 and corresponds to the clamping plate 3, and is used for controlling the clamping plate 3 to position the temperature sensor in the processing process; the clamping of the clamping plate 3 is controlled through the positioning mechanism, so that the temperature sensor can be conveniently processed in the processing groove 2.

The positioning mechanism comprises a first compression groove 4 which is arranged in a processing seat 1, the first compression groove 4 is communicated with a processing groove 2, a first compression rod 5 is arranged in the first compression groove 4, the clamping end of the first compression rod 5 extends into the processing groove 2 and is fixedly connected with a clamping plate 3, an L-shaped sliding plate 6 which is fixedly connected with the other end of the first compression rod 5 is slidably arranged in the first compression groove 4, a first compression spring 7 is sleeved on the first compression rod 5, and two ends of the first compression spring 7 are respectively fixedly connected with the inner wall of the first compression groove 4 and the vertical section of the L-shaped sliding plate 6; the L-shaped sliding plate 6 pushes the first compression rod 5 to compress the first compression spring 7 to push out the clamping plate 3 so as to position the temperature sensor to be processed.

The horizontal section of the L-shaped sliding plate 6 is fixedly connected with a pull rope 8, and the pull rope 8 is positioned in the first compression groove 4; the pair of L-shaped sliding plates 6 are conveniently pulled to move in opposite directions through the pair of pull ropes 8, so that the displacement of the clamping plate 3 is conveniently controlled.

A second compression groove 9 is formed in the inner wall of the bottom of the processing groove 2, a second compression rod 10 is arranged in the second compression groove 9, an inverted T-shaped sliding plate 11 is slidably arranged on the second compression rod 10, a sliding groove 12 is formed in the inverted T-shaped sliding plate 11, the second compression rod 10 can slide in the inverted T-shaped sliding plate 11 through the sliding groove 12, the horizontal section of the inverted T-shaped sliding plate 11 is positioned in the second compression groove 9, the vertical section of the inverted T-shaped sliding plate 11 vertically penetrates through the first compression groove 4 and is fixedly connected with the pull rope 8, the top end of the vertical section of the inverted T-shaped sliding plate 11 is positioned in the processing groove 2, a second compression spring 13 is sleeved on the second compression rod 10, two ends of the second compression spring 13 are fixedly connected with the vertical section of the inverted T-shaped sliding plate 11 and the inner wall of the second compression groove 9 respectively, and a pressing block 14 is fixedly arranged at the top end of the vertical section of the inverted T-shaped sliding plate 11; the pressing block 14 is pressed to drive the inverted T-shaped sliding plate 11 to move downwards along the compression rod II 10 to compress the compression spring II 13, and the pull rope 8 is pulled to enter the compression groove II 9, so that the displacement of the L-shaped sliding plate 6 is conveniently controlled.

A pair of moving grooves 15 are formed in the processing seat 1, the pair of moving grooves 15 are respectively located at two sides of the second compression groove 9, a pair of third compression grooves 16 are formed in the processing seat 1, the third compression grooves 16 are located between the second compression groove 9 and the moving grooves 15 and are communicated with the second compression groove 9 and the moving grooves 15, a third compression rod 17 penetrates through the third compression grooves 16 and the moving grooves 15 in a sliding manner, a trapezoid limiting block 18 is fixedly arranged at one side of the third compression rod 17, the tip end of the trapezoid limiting block 18 can extend into the second compression groove 9, a third compression spring 19 is sleeved on the third compression rod 17, and two ends of the third compression spring 19 are respectively fixedly connected with the trapezoid limiting block 18 and the inner wall of the third compression groove 16; the trapezoid limiting block 18 is extruded by the inverted T-shaped sliding plate 11 to push the trapezoid limiting block 18 to leave the compression groove II 9 to release the space of the compression groove II 9, so that the inverted T-shaped sliding plate 11 moves downwards to the lower side of the trapezoid limiting block 18, the tip of the trapezoid limiting block 18 loses the thrust of the inverted T-shaped sliding plate 11 and is pushed into the compression groove II 9 again by the rebound compression spring III 19, the rebound of the compression spring II 13 is limited, the inverted T-shaped sliding plate 11 cannot return to the original position, the pull rope 8 continuously pulls the L-shaped sliding plate 6, and the aim of enabling the clamping plate 3 to position a temperature sensor is achieved.

A fixed plate 20 is fixedly arranged at one end of the third compression rod 17 extending out of the processing seat 1, a sliding ring 21 is sleeved on the processing seat 1 in a sliding manner, and the fixed plate 20 is in sliding contact with the tip of the sliding ring 21; the fixed plate 20 is displaced along the inclined plane of the sliding ring 21 by sliding the sliding ring 21, so that the third compression rod 17 drives the tip end of the trapezoid limiting block 18 to leave the second compression groove 9, and the inverted T-shaped sliding plate 11 is conveniently released to release the clamping and positioning of the clamping plate 3 on the temperature sensor.

A pair of limiting plates 22 are fixedly arranged on the processing seat 1, the limiting plates 22 are positioned at the top of the sliding ring 21, and the limiting plates 22 are used for limiting the displacement of the sliding ring 21; the displacement position of the sliding ring 21 is conveniently controlled through the limiting plate 22, so that the tip of the sliding ring 21 is prevented from sliding away from the fixed plate 20, and the control on the fixed plate 20 is lost.

The working principle of the positioning jig for processing the temperature sensor provided by the utility model is as follows:

when the temperature sensor is used, a temperature sensor shell to be processed is firstly placed on a pressing block 14 of a first compression groove 4, meanwhile, the pressing block 14 is pressed downwards, the pressing block 14 moves downwards to enable an inverted T-shaped sliding plate 11 to slide downwards along a second compression rod 10 through a sliding groove 12, a second compression spring 13 sleeved on the second compression rod 10 is compressed, when the inverted T-shaped sliding plate 11 slides downwards and is extruded to a trapezoid limiting block 18 extending into the second compression groove 9, the trapezoid limiting block 18 pushes a third compression rod 17 to slide along a third compression groove 16 to enable a third compression spring 19 to be compressed, when the inverted T-shaped sliding plate 11 slides over the most point of the trapezoid limiting block 18, the trapezoid limiting block 18 loses thrust, the third compression spring 19 is enabled to rebound, the tip of the trapezoid limiting block 18 is pushed to enter the second compression groove 9 again, the pressing block 14 is loosened at the moment, the second compression spring 13 is rebound to enable the thrust to push the inverted T-shaped sliding plate 11 to move upwards, but the inverted T-shaped sliding plate 11 cannot continue to move upwards due to the blocking effect of the trapezoid limiting block 18;

in the process of downward movement of the inverted T-shaped sliding plate 11, a pull rope 8 fixed on the vertical section of the inverted T-shaped sliding plate 11 is pulled to enter the compression groove II 9 along with the downward movement of the inverted T-shaped sliding plate 11, so that the L-shaped sliding plate 6 is pulled to enable the pair of L-shaped sliding plates 6 to move in opposite directions along the compression groove I4, the L-shaped sliding plate 6 moves in opposite directions and pushes the compression rod I5 to move, the compression spring I7 sleeved on the compression rod I5 compresses, and the pair of clamping plates 3 are mutually close to each other to clamp the shell of the temperature sensor to achieve the positioning aim;

after the assembly is completed, the sliding ring 21 is slid downwards, the fixed plate 20 moves along the inclined plane of the sliding ring 21 towards the direction away from the processing seat 1, meanwhile, the compression rod III 17 pulls the trapezoid limiting block 18 to move outwards, the compression spring III 19 is compressed, the tip of the trapezoid limiting block 18 slides away from the compression groove I4 along the compression groove III 16, the inverted T-shaped sliding plate 11 loses the blocking of the trapezoid limiting block 18 and is continuously pushed upwards by the elastic force of the compression spring II 13 on the compression rod II 10, the stay rope 8 fixed on the vertical section of the inverted T-shaped sliding plate 11 leaves the compression groove II 9, the L-shaped sliding plate 6 is loosened, the compression spring I7 on the compression rod I5 is rebounded to push the L-shaped sliding plate 6 towards the direction away from the clamping groove I4, so that the clamping plate 3 is driven to return to the original position, then the sliding ring 21 is slid upwards, the fixed plate 20 is released, the tip of the trapezoid limiting block 18 is pushed by the compression rod III 17 to enter the compression groove II 9 again, the upward displacement of the sliding ring 21 is limited by the limiting plate 22 on the sliding ring 21, and finally, the processed temperature sensor can be continuously processed next.

Compared with the related art, the positioning jig for processing the temperature sensor has the following beneficial effects:

the utility model provides a positioning jig for processing a temperature sensor, which is characterized in that the clamping of a clamping plate 3 is controlled through a positioning mechanism, the temperature sensor is conveniently processed in a processing groove 2, a compression rod I5 is pushed by an L-shaped sliding plate 6 to compress a compression spring I7 to push out the clamping plate 3 so as to position the temperature sensor to be processed, a pair of pull ropes 8 are conveniently pulled to move in opposite directions by the L-shaped sliding plate 6, so that the displacement of the clamping plate 3 is conveniently controlled, a pressing block 14 is pressed to drive an inverted T-shaped sliding plate 11 to move downwards along the compression rod II 10, the compression spring II 13 is used for pulling the pull ropes 8 to enter the compression groove II 9, the displacement of the L-shaped sliding plate 6 is conveniently controlled, a trapezoid limiting block 18 is pushed by the inverted T-shaped sliding plate 11 to leave the compression groove II 9 to release the space of the compression groove II 9, the tip of the trapezoid limiting block 18 is lost, the rebound of the inverted T-shaped sliding plate 11 is pushed into the compression spring III 19 again, the rebound of the compression spring II 13 is limited, the inverted T-shaped sliding plate 11 is prevented from continuously moving downwards along the compression groove II 9, the compression groove II is prevented from moving downwards, the tip end of the trapezoid limiting block 18 is prevented from moving downwards, the sliding plate 21 is prevented from continuously leaving the compression groove II 21 to be pushed by the compression groove II, and the sliding plate 21 is conveniently controlled to move along the compression groove 20, and the sliding plate 20 is conveniently controlled to move the compression groove 20, and the sliding plate 20 is conveniently released from moving along the compression groove 20.

The device structure and the drawings of the present utility model mainly describe the principle of the present utility model, and in terms of the technology of the design principle, the arrangement of the power mechanism, the power supply system, the control system, etc. of the device is not completely described, but the specific details of the power mechanism, the power supply system, and the control system thereof can be clearly known on the premise that those skilled in the art understand the principle of the present utility model.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. Positioning jig is used in temperature sensor processing, its characterized in that includes:

a processing seat;

the processing groove is formed in the processing seat and is used for placing a temperature sensor to be processed;

the clamping plates are arranged in the processing groove and are oppositely arranged, and the clamping plates are used for clamping a temperature sensor to be processed;

the positioning mechanism is arranged in the processing seat and corresponds to the clamping plate, and the positioning mechanism is used for controlling the clamping plate to position the temperature sensor in the processing process.

2. The positioning jig for processing the temperature sensor according to claim 1, wherein the positioning mechanism comprises a first compression groove arranged in the processing seat, the first compression groove is communicated with the processing groove, a first compression rod is arranged in the first compression groove, a clamping end of the first compression rod extends into the processing groove and is fixedly connected with the clamping plate, an L-shaped sliding plate fixedly connected with the other end of the first compression rod is arranged in the first compression groove in a sliding mode, a first compression spring is sleeved on the first compression rod, and two ends of the first compression spring are fixedly connected with the inner wall of the first compression groove and the vertical section of the L-shaped sliding plate respectively.

3. The positioning jig for processing the temperature sensor according to claim 2, wherein a pull rope is fixedly connected to the horizontal section of the L-shaped sliding plate, and the pull rope is located in the first compression groove.

4. The positioning jig for temperature sensor processing according to claim 3, wherein a second compression groove is formed in the inner wall of the bottom of the processing groove, a second compression rod is arranged in the second compression groove, an inverted-T-shaped sliding plate is arranged on the second compression rod in a sliding mode, a sliding groove is formed in the inverted-T-shaped sliding plate, the second compression rod can slide in the inverted-T-shaped sliding plate, the horizontal section of the inverted-T-shaped sliding plate is located in the second compression groove, the vertical section of the inverted-T-shaped sliding plate vertically penetrates through the compression groove and is fixedly connected with the pull rope, the top end of the vertical section of the inverted-T-shaped sliding plate is located in the processing groove, a second compression spring is sleeved on the second compression rod, two ends of the second compression spring are fixedly connected with the vertical section of the inverted-T-shaped sliding plate and the inner wall of the second compression groove respectively, and a pressing block is fixedly installed at the top end of the vertical section of the inverted-T-shaped sliding plate.

5. The positioning jig for temperature sensor processing according to claim 4, wherein a pair of moving grooves are formed in the processing seat, the moving grooves are respectively located at two sides of the second compressing groove, a pair of third compressing grooves are formed in the processing seat, the third compressing grooves are located between the second compressing groove and the moving groove and are communicated with the second compressing groove and the moving groove, a third compressing rod is slidably penetrated through the third compressing grooves and the moving groove, a trapezoid limiting block is fixedly installed on one side of the third compressing rod, the tip end of the trapezoid limiting block can extend into the second compressing groove, a third compressing spring is sleeved on the third compressing rod, and two ends of the third compressing spring are respectively fixedly connected with the inner walls of the trapezoid limiting block and the third compressing groove.

6. The positioning jig for temperature sensor processing according to claim 5, wherein a fixing plate is fixedly mounted at one end of the third compression rod extending out of the processing seat, a sliding ring is sleeved on the processing seat in a sliding manner, and the fixing plate is in sliding contact with the tip end of the sliding ring.

7. The positioning jig for processing the temperature sensor according to claim 6, wherein a pair of limiting plates are fixedly mounted on the processing seat, the limiting plates are located at the top of the sliding ring, and the limiting plates are used for limiting displacement of the sliding ring.