CN113459058B - Material receiving device with automatic stacking function for corrugated pipe production - Google Patents

Abstract

The invention discloses a material receiving device with an automatic stacking function for corrugated pipe production, which comprises: the corrugated pipe support comprises a corrugated pipe, a first support frame, a hinge, a holding frame and a bearing, wherein the hinge is connected to the top of the first support frame, the side face of the hinge is connected to the top of the first support frame, and a turnover structure is formed between the holding frame and the first support frame through the hinge, and the bearing is connected to the inside of the holding frame. This bellows production is with receiving device that has automatic stacking function can extrude the locating piece through self impact force when the bellows rolls to the surface that holds the board, can extrude the second spring when the locating piece receives the extrusion through the second extrusion groove, can extrude the locating piece when the locating piece slides, and the bellows can roll out the locating piece when the locating piece extrudees to second extrusion inslot, and the locating piece can reset through second spring self elasticity, can block the location to the bellows after the locating piece resets, can fix a position when making things convenient for the bellows to roll to holding board upper portion.

Description

Material receiving device with automatic stacking function for corrugated pipe production

Technical Field

The invention relates to the technical field of corrugated pipe production equipment, in particular to a material receiving device with an automatic stacking function for corrugated pipe production.

Background

The corrugated pipe is a tubular elastic sensing element formed by connecting foldable corrugated sheets along the folding and stretching directions. The bellows is widely used in instruments and meters, and is mainly used as a measuring element of a pressure measuring instrument to convert pressure into displacement or force. The corrugated pipe has thinner pipe wall and higher sensitivity, and the measuring range is tens of Pa to tens of megaPa. The open end is fixed, the sealed end is in a free state, and the elasticity is increased by using an auxiliary spiral spring or reed. When in operation, the movable end is stretched along the length direction of the pipe under the action of internal pressure, so that the movable end generates displacement in a certain relation with the pressure. The corrugated pipe is required to be connected through the material receiving device during production, so that the corrugated pipe can be stably placed.

The receiving device for corrugated pipe production in the market at present has a plurality of defects, does not have an automatic stacking function, is inconvenient to adjust, inconvenient to assemble, inconvenient to position and inconvenient to take, so that the technology of improving the structure of the receiving device with the automatic stacking function for corrugated pipe production is urgently needed in the market to perfect the equipment.

Disclosure of Invention

The invention provides the following technical scheme: the invention aims to provide a receiving device with an automatic stacking function for corrugated pipe production, which solves the problems that the receiving device for corrugated pipe production in the market provided by the background art has a plurality of defects, does not have the automatic stacking function, is inconvenient to adjust, is inconvenient to assemble, is inconvenient to position and is inconvenient to take.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a bellows production is with receiving device that has automatic stacking function, includes:

the corrugated pipe is supported by the first support frame, and the top of the first support frame is connected with a hinge;

the holding frame is connected to the side face of the hinge, and a turnover structure is formed between the holding frame and the first support frame through the hinge;

the bearing is connected to the inside of the containing frame;

one end of the rolling wheel is connected to the inside of the bearing, and a rotating structure is formed between the rolling wheel and the bearing.

Preferably, the first connecting shaft is connected to the bottom of the holding frame, the side surface of the first connecting shaft is connected to the second connecting shaft, a first air cylinder is installed between the second connecting shaft and the first supporting frame, the first supporting frame and the second connecting shaft form a telescopic structure through the first air cylinder, the first air cylinder and the first connecting shaft form a rotating structure through the second connecting shaft, and the second supporting frame is arranged on the side surface of the first supporting frame.

Preferably, the first support frame is further provided with a first guide plate, a rotating groove, a rotating rod and a second guide plate;

the first guide plate is fixedly connected to the top of the first support frame;

the rotating groove is formed in the side face of the first guide plate;

the rotating rod is connected inside the rotating groove, and a rotating structure is formed between the rotating groove and the rotating rod;

the second deflector is connected to the outer side of the rotating rod, the second deflector and the rotating rod are of an integrated structure, and the width of the second deflector is the same as the width of the first deflector.

Preferably, the first chute is provided at the bottom of the second guide plate, the first chute is internally connected with a first sliding block, one side of the first sliding block is connected with a third connecting shaft, a second cylinder is connected between the first sliding block and the second supporting frame, and a connecting groove is provided at one side of the second guide plate far away from the rotating rod.

Preferably, the first sliding block is in sliding connection with the first sliding groove, a rotating structure is formed between the third connecting shaft and the first sliding block, and a telescopic structure is formed between the second air cylinder and the third connecting shaft.

Preferably, the connecting groove is further provided with a clamping groove, a connecting block, a first extrusion groove, a first spring, a clamping block and a flow guiding frame;

the clamping groove is formed in the connecting groove;

the connecting block is embedded in the connecting groove, the size of the connecting block is matched with that of the connecting groove, and the connecting block is in sliding connection with the connecting groove;

the first extrusion groove is formed in the side face of the connecting block, and the width of the first extrusion groove and the minimum width of the clamping groove are equal;

the first spring is connected inside the first extrusion groove;

the clamping block is connected to one end of the first spring;

the flow guiding frame is connected to the side face of the connecting block, three layers of flow guiding frames are arranged, and the sizes of the three layers of flow guiding frames are distributed in a descending mode.

Preferably, the first extrusion groove is in sliding connection with the clamping block, a telescopic structure is formed between the first extrusion groove and the clamping block through a first spring, and a clamping structure is formed between the clamping block and the clamping groove.

Preferably, a third support frame is arranged on one side of the second support frame, a second sliding groove is formed in the side face of the third support frame, a second sliding block is embedded in the second sliding groove, the second sliding block is in sliding connection with the second sliding groove, a blocking plate is connected between the second sliding blocks, and a containing plate is connected between the second support frames.

Preferably, the holding plate is further provided with a second extrusion groove, a second spring and a positioning block;

the second extrusion groove is formed in the top of the containing plate;

the second spring is connected inside the second extrusion groove;

the positioning block is connected with one end of the second spring, the positioning block is in sliding connection with the second extrusion groove, and a telescopic structure is formed between the positioning block and the second extrusion groove through the second spring.

Compared with the prior art, the invention has the beneficial effects that: this bellows production is with receiving device that has automatic function of stacking up:

1. the first air cylinder is arranged to work so as to push the second connecting shaft to move, the second connecting shaft can be driven to move when moving, the second connecting shaft can be rotated when moving with the first connecting shaft, the first connecting shaft can be driven to rotate the containing frame when rotating, the containing frame can be turned over through the hinge when rotating, the corrugated pipe can roll onto the first guide plate through the rolling wheel when the containing frame is turned over, the first guide plate and the second guide plate can roll the corrugated pipe onto the guide frame through the inclined plane of the first guide plate and the second guide plate, the guide frame can be conveyed onto the containing plate through the three layers of guide plates of the second guide plate to be stacked, and the convenient receiving device can have a stacking function;

2. the second air cylinder is arranged, the third connecting shaft can be driven to move when working, so that the first sliding block can be driven to move when the third connecting shaft moves, the first sliding block can rotate with the second air cylinder through the third connecting shaft when moving, the first sliding block can slide through the first sliding groove when moving, the second guide plate can be pushed to rotate when sliding, the second guide plate can rotate through the rotating rod and the rotating groove when rotating, the second guide plate can be adjusted according to the height of the guide frame when rotating, and the second guide plate can be adjusted according to needs conveniently;

3. the connecting block is arranged and can be abutted with the connecting groove by pulling the flow guide frame so as to push the flow guide frame to drive the connecting block to slide with the connecting groove, the clamping block can be driven to extrude the connecting groove when the connecting block slides, the clamping block can slide through the first extrusion groove when extruding, the first spring can be extruded when the clamping block slides, the connecting block can drive the clamping block to move to one side of the clamping groove when extruding into the first extrusion groove, the clamping block can reset through the self elastic force of the first spring, and after the clamping block resets, the clamping block can be clamped and connected through the clamping groove, so that the second support frame and the flow guide frame can be assembled quickly;

4. when the corrugated pipe rolls to the surface of the containing plate, the positioning block can be extruded by the self impact force, when the positioning block is extruded, the second extrusion groove can be used for sliding, when the positioning block slides, the second spring can be extruded, when the positioning block is extruded to the inside of the second extrusion groove, the corrugated pipe rolls out of the positioning block, the positioning block can reset by the self elastic force of the second spring, the positioning block can block and position the corrugated pipe after reset, and the corrugated pipe can conveniently roll to the upper part of the containing plate and can be positioned;

5. be provided with the second slider and can remove through pulling the barrier plate to can slide through the second spout when the second slider removes, can dismantle the barrier plate when the second slider roll-off second spout is inside, can take the bellows after the barrier plate is dismantled, make things convenient for the bellows to take fast.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present invention;

FIG. 2 is a schematic diagram of a front view of a second support frame according to the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic view of a front view of a third support frame according to the present invention;

FIG. 5 is a schematic top view of the present invention;

FIG. 6 is a schematic diagram of a front view of a deflector frame according to the present invention;

fig. 7 is a schematic front view of the first support frame according to the present invention.

In the figure: 1. a first support frame; 2. a hinge; 3. a holding rack; 4. a bearing; 5. a rolling wheel; 6. a first connecting shaft; 7. a second connecting shaft; 8. a first cylinder; 9. a second support frame; 10. a first guide plate; 11. a rotary groove; 12. a rotating rod; 13. a second guide plate; 14. a first chute; 15. a first slider; 16. a third connecting shaft; 17. a second cylinder; 18. a connecting groove; 19. a clamping groove; 20. a connecting block; 21. a first pressing groove; 22. a first spring; 23. a clamping block; 24. a flow guiding frame; 25. a third support frame; 26. a second chute; 27. a second slider; 28. a blocking plate; 29. a holding plate; 30. a second pressing groove; 31. a second spring; 32. and (5) positioning blocks.

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.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a bellows production is with receiving device that has automatic stacking function, includes:

the corrugated pipe can be supported by the first support frame 1, and the top of the first support frame 1 is connected with a hinge 2;

the holding frame 3 is connected to the side face of the hinge 2, and a turnover structure is formed between the holding frame 3 and the first support frame 1 through the hinge 2;

a bearing 4 connected to the inside of the housing frame 3;

one end of the rolling wheel 5 is connected inside the bearing 4, and a rotating structure is formed between the rolling wheel 5 and the bearing 4.

Referring to fig. 1, it can be known that the first cylinder 8 works to push the second connecting shaft 7 to move, the second connecting shaft 7 can drive the first connecting shaft 6 to move when moving, the second connecting shaft 7 and the first connecting shaft 6 can rotate when moving, the first connecting shaft 6 can drive the containing frame 3 to rotate, the containing frame 3 can turn over through the hinge 2 when rotating, the corrugated pipe can roll onto the first guide plate 10 through the rolling wheel 5 when the containing frame 3 turns over, the first guide plate 10 and the second guide plate 13 can roll the corrugated pipe onto the guide frame 24 through their own inclined surfaces, and the guide frame 24 can be transferred onto the containing plate 29 through their own three-layer guide plates for stacking;

the first connecting shaft 6 is connected to the bottom of the containing frame 3, the side surface of the first connecting shaft 6 is connected to the second connecting shaft 7, a first air cylinder 8 is arranged between the second connecting shaft 7 and the first supporting frame 1, a telescopic structure is formed between the first supporting frame 1 and the second connecting shaft 7 through the first air cylinder 8, a rotary structure is formed between the first air cylinder 8 and the first connecting shaft 6 through the second connecting shaft 7, and the second supporting frame 9 is arranged on the side surface of the first supporting frame 1;

referring to fig. 2, when the second air cylinder 17 works, the third connecting shaft 16 can be driven to move, when the third connecting shaft 16 moves, the first sliding block 15 can be driven to move, when the first sliding block 15 moves, the first sliding block 15 can rotate with the second air cylinder 17 through the third connecting shaft 16, when the first sliding block 15 moves, the first sliding block 15 can slide through the first sliding groove 14, when the first sliding block 15 slides, the second guiding plate 13 can be pushed to rotate, when the second guiding plate 13 rotates, the second guiding plate 13 can rotate through the rotating rod 12 and the rotating groove 11, and when the second guiding plate 13 rotates, the second guiding plate can be adjusted according to the height of the guiding frame 24;

the first support frame 1 is also provided with a first guide plate 10, a rotary groove 11, a rotary rod 12 and a second guide plate 13;

the first guide plate 10 is fixedly connected to the top of the first support frame 1;

a rotation groove 11 formed in a side surface of the first guide plate 10;

a rotating rod 12 connected to the inside of the rotating groove 11, and a rotating structure is formed between the rotating groove 11 and the rotating rod 12;

a second guide plate 13 connected to the outside of the rotating rod 12, the second guide plate 13 and the rotating rod 12 being of an integral structure, and the width of the second guide plate 13 being the same as the width of the first guide plate 10;

a first sliding groove 14 is formed in the bottom of the second guide plate 13, a first sliding block 15 is connected inside the first sliding groove 14, a third connecting shaft 16 is connected to one side of the first sliding block 15, a second air cylinder 17 is connected between the first sliding block 15 and the second supporting frame 9, and a connecting groove 18 is formed in one side of the second guide plate 13 far away from the rotating rod 12;

the first sliding block 15 is in sliding connection with the first sliding groove 14, a rotary structure is formed between the third connecting shaft 16 and the first sliding block 15, and a telescopic structure is formed between the second air cylinder 17 and the third connecting shaft 16;

referring to fig. 3, it can be seen that, when the connecting block 20 is pushed to move to one side of the engaging groove 19, the engaging block 23 can be reset by the elastic force of the first spring 22, and the engaging block 23 can be connected by the engaging groove 19 after being reset, when the engaging block 23 is pushed to the inside of the first extruding groove 21, the connecting block 20 can be driven to move to one side of the engaging groove 19 by pulling the guiding frame 24 to drive the connecting block 20 to engage with the connecting groove 18, and the connecting block 20 can be driven to slide with the connecting groove 18 by pushing the guiding frame 24;

the connecting groove 18 is also provided with a clamping groove 19, a connecting block 20, a first extrusion groove 21, a first spring 22, a clamping block 23 and a flow guiding frame 24;

an engaging groove 19 formed in the connecting groove 18;

the connecting block 20 is embedded in the connecting groove 18, the size of the connecting block 20 is matched with that of the connecting groove 18, and the connecting block 20 is in sliding connection with the connecting groove 18;

the first extrusion groove 21 is formed on the side surface of the connecting block 20, and the width of the first extrusion groove 21 and the minimum width of the clamping groove 19;

a first spring 22 connected to the inside of the first pressing groove 21;

the clamping block 23 is connected to one end of the first spring 22;

the flow guiding frames 24 are connected to the side surfaces of the connecting blocks 20, the flow guiding frames 24 are three layers, and the sizes of the three layers of flow guiding frames 24 are distributed in a decreasing mode;

the first extrusion groove 21 is in sliding connection with the clamping block 23, a telescopic structure is formed between the first extrusion groove 21 and the clamping block 23 through a first spring 22, and a clamping structure is formed between the clamping block 23 and the clamping groove 19;

referring to fig. 4, when the bellows rolls on the surface of the accommodating plate 29, the positioning block 32 can be extruded by the impact force of the bellows, the positioning block 32 can slide through the second extrusion groove 30 when being extruded, the second spring 31 can be extruded when the positioning block 32 slides, when the positioning block 32 is extruded inside the second extrusion groove 30, the bellows rolls out of the positioning block 32, the positioning block 32 can reset by the self elastic force of the second spring 31, and the bellows can be blocked and positioned after the positioning block 32 resets;

a third support frame 25 is arranged on one side of the second support frame 9, a second sliding groove 26 is formed in the side face of the third support frame 25, a second sliding block 27 is embedded in the second sliding groove 26, the second sliding block 27 is in sliding connection with the second sliding groove 26, a blocking plate 28 is connected between the second sliding blocks 27, and a containing plate 29 is connected between the second support frames 9;

referring to fig. 5, the second slider 27 can move by pulling the blocking plate 28, the second slider 27 can slide through the second chute 26 when moving, the blocking plate 28 can be disassembled when the second slider 27 slides out of the second chute 26, and the bellows can be taken after the blocking plate 28 is disassembled;

the holding plate 29 is also provided with a second extrusion groove 30, a second spring 31 and a positioning block 32;

a second pressing groove 30 provided at the top of the accommodating plate 29;

a second spring 31 connected to the inside of the second pressing groove 30;

the positioning block 32 is connected to one end of the second spring 31, the positioning block 32 is in sliding connection with the second extrusion groove 30, and the positioning block 32 and the second extrusion groove 30 form a telescopic structure through the second spring 31.

Working principle: when the material receiving device with the automatic stacking function for the corrugated pipe production is used, firstly, the material receiving device with the automatic stacking function for the corrugated pipe production needs to be simply understood, before the material receiving device is used, the connecting block 20 can be driven to be in butt joint with the connecting groove 18 by pulling the flow guide frame 24, the connecting block 20 can be driven to slide with the connecting groove 18 by pushing the flow guide frame 24, the connecting groove 18 can be extruded by the clamping block 23 when the connecting block 20 slides, the clamping block 23 can slide through the first extrusion groove 21 when the clamping block 23 receives extrusion, the first spring 22 can be extruded when the clamping block 23 slides, the connecting block 20 can drive the clamping block 23 to move to one side of the clamping groove 19 when the clamping block 23 extrudes into the first extrusion groove 21, the clamping block 23 can reset through the self elasticity of the first spring 22, the clamping block 23 can be connected in a clamping way through the clamping groove 19 after being reset, when the diversion frame 24 and the second supporting frame 9 are assembled, the corrugated pipe can work, when the corrugated pipe moves to the rolling wheel 5, the first air cylinder 8 works to push the second connecting shaft 7 to move, the second connecting shaft 7 can drive the first connecting shaft 6 to move, the second connecting shaft 7 and the first connecting shaft 6 can rotate when moving, the first connecting shaft 6 can drive the containing frame 3 to rotate when rotating, the containing frame 3 can turn over through the hinge 2 when rotating, when the containing frame 3 turns over, the corrugated pipe can roll to the first guide plate 10 through the rolling wheel 5, the first guide plate 10 and the second guide plate 13 can roll the corrugated pipe to the diversion frame 24 through the inclined plane of the first guide plate and the second guide plate, the diversion frame 24 can be transferred to the containing plate 29 through the three-layer diversion plates of the second guide plate to be stacked, when the bellows rolls to the surface of holding the board 29, can extrude locating piece 32 through self impact force, can extrude the locating piece 32 through second extrusion groove 30 when receiving the extrusion, can extrude second spring 31 when locating piece 32 slides, can roll out locating piece 32 when locating piece 32 extrudes to the inside of second extrusion groove 30, the locating piece 32 can reset through second spring 31 self elasticity, can block the location to the bellows after locating piece 32 resets, can also drive the third connecting axle 16 through the during operation of second cylinder 17 and remove, can drive first slider 15 when the third connecting axle 16 removes and remove, can rotate through third connecting axle 16 and second cylinder 17 when first slider 15 removes, can slide through first spout 14 when first slider 15 removes, can promote second deflector 13 and rotate when first slider 15 slides, can rotate through rotary rod 12 and rotary groove 11 when second deflector 13 rotates, can adjust according to the height of water conservancy diversion frame 24 when second deflector 13 rotates, can also drive the second slider 28 when holding the stop plate 29 and can drive the second slider 26 and can fully move to the second slider 27 when second slider 28 and can take out of the second spout 27 when the second slider 28 and remove the second slider 28 and can fully slide to the second slider 27 when the second slider 28 and the second slider 28 in the prior art and the technical field is removed.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (4)

1. The utility model provides a bellows production is with receiving device that has automatic stacking function which characterized in that includes:

the corrugated pipe support comprises a first support frame (1) which can support a corrugated pipe, wherein the top of the first support frame (1) is connected with a hinge (2);

the holding frame (3) is connected to the side face of the hinge (2), and a turnover structure is formed between the holding frame (3) and the first supporting frame (1) through the hinge (2);

a bearing (4) connected to the inside of the holding frame (3);

one end of the rolling wheel (5) is connected inside the bearing (4), and a rotating structure is formed between the rolling wheel (5) and the bearing (4);

the first support frame (1) is also provided with a first guide plate (10), a rotary groove (11), a rotary rod (12) and a second guide plate (13);

the first guide plate (10) is fixedly connected to the top of the first support frame (1);

a rotary groove (11) formed in the side surface of the first guide plate (10);

a rotating rod (12) connected to the inside of the rotating groove (11), wherein a rotating structure is formed between the rotating groove (11) and the rotating rod (12);

the second guide plate (13) is connected to the outer side of the rotary rod (12), the second guide plate (13) and the rotary rod (12) are of an integrated structure, and the width of the second guide plate (13) is the same as the width of the first guide plate (10);

a first sliding groove (14) is formed in the bottom of the second guide plate (13), a first sliding block (15) is connected to the first sliding groove (14), a third connecting shaft (16) is connected to one side of the first sliding block (15), a second air cylinder (17) is connected between the first sliding block (15) and the second supporting frame (9), and a connecting groove (18) is formed in one side of the second guide plate (13) far away from the rotating rod (12);

the first sliding block (15) is in sliding connection with the first sliding groove (14), a rotary structure is formed between the third connecting shaft (16) and the first sliding block (15), and a telescopic structure is formed between the second air cylinder (17) and the third connecting shaft (16);

the connecting groove (18) is also provided with a clamping groove (19), a connecting block (20), a first extrusion groove (21), a first spring (22), a clamping block (23) and a flow guiding frame (24);

a locking groove (19) which is formed in the connecting groove (18);

the connecting block (20) is embedded in the connecting groove (18), the size of the connecting block (20) is matched with that of the connecting groove (18), and the connecting block (20) is in sliding connection with the connecting groove (18);

the first extrusion groove (21) is formed in the side face of the connecting block (20), and the width of the first extrusion groove (21) and the minimum width of the clamping groove (19) are the same;

a first spring (22) connected to the inside of the first pressing groove (21);

a locking block (23) connected to one end of the first spring (22);

the flow guide frames (24) are connected to the side surfaces of the connecting blocks (20), the flow guide frames (24) are three layers, and the sizes of the three layers of flow guide frames (24) are distributed in a decreasing mode;

the first extrusion groove (21) is in sliding connection with the clamping block (23), a telescopic structure is formed between the first extrusion groove (21) and the clamping block (23) through a first spring (22), and a clamping structure is formed between the clamping block (23) and the clamping groove (19).

2. The receiving device with an automatic stacking function for corrugated pipe production according to claim 1, wherein: the first connecting shaft (6) is connected to the bottom of the containing frame (3), the side face of the first connecting shaft (6) is connected to the second connecting shaft (7), a first air cylinder (8) is installed between the second connecting shaft (7) and the first supporting frame (1), a telescopic structure is formed between the first supporting frame (1) and the second connecting shaft (7) through the first air cylinder (8), a rotary structure is formed between the first air cylinder (8) and the first connecting shaft (6) through the second connecting shaft (7), and the second supporting frame (9) is arranged on the side face of the first supporting frame (1).

3. The receiving device with an automatic stacking function for corrugated pipe production according to claim 2, wherein: the novel sliding type solar cell is characterized in that a third supporting frame (25) is arranged on one side of the second supporting frame (9), a second sliding groove (26) is formed in the side face of the third supporting frame (25), a second sliding block (27) is embedded in the second sliding groove (26), the second sliding block (27) is in sliding connection with the second sliding groove (26), a blocking plate (28) is connected between the second sliding blocks (27), and a containing plate (29) is connected between the second supporting frames (9).

4. A bellows production is with receiving device that has automatic stacking function according to claim 3, characterized in that: the containing plate (29) is also provided with a second extrusion groove (30), a second spring (31) and a positioning block (32);

a second extrusion groove (30) which is arranged at the top of the containing plate (29);

a second spring (31) connected to the inside of the second pressing groove (30);

the positioning block (32) is connected to one end of the second spring (31), the positioning block (32) is in sliding connection with the second extrusion groove (30), and a telescopic structure is formed between the positioning block (32) and the second extrusion groove (30) through the second spring (31).