CN110820409A

CN110820409A - Vertical driven paper drying device that anhydrates

Info

Publication number: CN110820409A
Application number: CN201911131071.4A
Authority: CN
Inventors: 徐园
Original assignee: Individual
Current assignee: Chen Yujian
Priority date: 2019-11-19
Filing date: 2019-11-19
Publication date: 2020-02-21
Anticipated expiration: 2039-11-19
Also published as: CN110820409B

Abstract

The invention discloses a vertically-driven paper dewatering and drying device.A rectangular drying working hole which penetrates through the drying groove from top to bottom is formed in the center of the upper side wall of a drying groove, and a rectangular dewatering working hole which penetrates through the drying groove from top to bottom is formed in the center of the lower side wall of the drying groove; rectangular groove-shaped lifting grooves are formed in the end faces, close to the pair of upper supporting plates, respectively, and the lower ends of the lifting grooves extend to the front side wall and the rear side wall of the water removal groove; the vertical transmission device comprises a U-shaped clamping seat which is arranged between a pair of lifting grooves in a lifting way and provided with an opening downwards; a clamping unit is arranged in the opening of the clamping seat; the drying device comprises a pair of drying upper supports which are arranged in the drying working hole in a left-right moving mode; the drying upper support is provided with an air suction device, and the lower end of the drying upper support is provided with a hot drying plate; the dewatering device comprises a pair of dewatering supporting seats which move left and right and are arranged in the dewatering working holes; the dewatering supporting seat is pivoted with a dewatering roller arranged in the front-back direction.

Description

Vertical driven paper drying device that anhydrates

Technical Field

The invention relates to the field of paper drying equipment, in particular to a vertically-driven paper dewatering and drying device.

Background

The paper making is an important invention of ancient Chinese workers, and is divided into a mechanism and a manual mode, wherein the mechanism is continuously carried out on a paper machine, paper pulp suitable for the quality of paper is diluted to a certain concentration by water, the paper pulp is preliminarily dehydrated in a net part of the paper machine to form wet paper sheets, the wet paper sheets are pressed and dehydrated and then dried to form the paper, the paper drying is also one of important links in the processing of the paper making, and the quality of the dried paper directly influences the quality of the paper.

Present drying device for papermaking equipment rolls on the paper through the warming mill and dries the paper, and the warming mill makes with the paper contact, remaining moisture can not be mummified immediately on the warming mill, the moisture of participation can return to on the paper, lead to the drying efficiency of paper low, and pass the paper from drying device than difficult tentatively, because the paper makes moist, the in-process that passes is easy to be split, and simultaneously, the in-process of drying, moisture is heated and becomes steam, and steam can remain in drying device's inside, will become moisture after the cooling and waft on the paper, influence the drying efficiency of paper.

Disclosure of Invention

The invention aims to solve the technical problem of low drying efficiency of the existing drying device for the papermaking machinery, and provides a vertically-driven paper dewatering and drying device.

The technical scheme for solving the technical problems is as follows: a vertically-driven paper dewatering and drying device comprises a rack, a vertical transmission device, a drying device and a dewatering device; the frame comprises a rectangular dewatering and drying box body; a plurality of supporting legs are formed on the lower end surface of the dewatering and drying box body; a drying groove in a rectangular groove shape is formed at the upper part of the dewatering and drying box body, and a dewatering groove in a rectangular groove shape is formed at the lower part of the dewatering and drying box body; the lower end of the water removing tank is not sealed; a rectangular drying working hole which penetrates through the drying groove from top to bottom is formed in the center of the upper side wall of the drying groove, and a rectangular dewatering working hole which penetrates through the drying groove from top to bottom is formed in the center of the lower side wall of the drying groove; a pair of upper supporting plates which are symmetrically arranged front and back are formed on the upper end surface of the frame; the end surfaces close to the pair of upper supporting plates, the front and rear side walls of the drying working hole, the front and rear side walls of the drying groove, the front and rear side walls of the dewatering working hole and the front and rear side walls of the dewatering groove are respectively and correspondingly positioned on the same vertical surface; rectangular groove-shaped lifting grooves are formed in the end faces, close to the pair of upper supporting plates, respectively, and the lower ends of the lifting grooves extend to the front side wall and the rear side wall of the water removal groove; the vertical transmission device comprises a U-shaped clamping seat which is arranged between a pair of lifting grooves in a lifting way and provided with an opening downwards; a clamping unit is arranged in the opening of the clamping seat; the drying device comprises a pair of drying upper supports which are arranged in the drying working hole in a left-right moving mode; the drying upper support is provided with an air suction device, and the lower end of the drying upper support is provided with a hot drying plate; the dewatering device comprises a pair of dewatering supporting seats which move left and right and are arranged in the dewatering working holes; the dewatering supporting seat is pivoted with a dewatering roller arranged in the front-back direction.

Preferably, a lifting threaded rod is pivoted between the upper side wall and the lower side wall of the lifting groove; a lifting driving motor is fixed on the upper side wall of the lifting groove; the upper end of the lifting threaded rod is fixedly connected with the lower end of an output shaft of the lifting driving motor; the front end and the rear end of the clamping seat are vertically movably arranged in the pair of lifting grooves and are in screwed connection with the lifting threaded rods on the corresponding sides.

Preferably, the left and right side walls of the drying working hole are respectively formed with rectangular groove-shaped upper telescopic grooves; the side walls far away from the pair of upper telescopic grooves are respectively fixed with a drying adjusting cylinder; the end surfaces of the pair of drying upper supports far away are respectively formed with a drying movable guide block matched with the upper telescopic groove; the drying movable guide block is inserted into the upper telescopic groove of the corresponding side and is fixed on the piston rod of the drying adjusting cylinder of the corresponding side.

Preferably, the upper ends of the pair of drying upper supports are formed into upper stop blocks which are arranged from inside to left and are inclined downwards; the lower end surface of the upper stop block is provided with a wind gathering groove; the upper side wall of the wind gathering groove is provided with a through air suction hole; exhaust fans are respectively fixed on the end surfaces far away from the upper ends of the pair of drying upper supports; the exhaust fan is connected with the air suction hole; the outer end of the exhaust fan is connected with an external cooling device.

Preferably, the left side wall and the right side wall of the dewatering working hole are respectively provided with a lower telescopic groove in a rectangular groove shape; the side walls far away from the pair of lower telescopic grooves are respectively fixed with a dewatering adjusting cylinder; the end surfaces of the pair of dewatering support seats far away from each other are respectively formed with a dewatering movable guide block matched with the lower telescopic groove; the dewatering movable guide block is inserted into the lower telescopic groove of the corresponding side and fixed on the piston rod of the dewatering adjusting cylinder of the corresponding side.

Preferably, a rectangular groove-shaped rotating groove is formed at the lower part of the close end surface of the pair of dewatering support seats; the dewatering roller is pivoted between the front side wall and the rear side wall of the rotating groove; the vertical tangent plane of one end of the pair of dewatering rollers close to the pair of dewatering supporting seats is positioned between the end faces of the pair of dewatering supporting seats close to the pair of dewatering supporting seats; the far side walls of the pair of rotary grooves are respectively provided with a water scraping blade; gaps are respectively arranged between the front end surface and the rear end surface of the water scraping blade and the front side wall and the rear side wall of the rotary groove; the wiper blade is in contact with the surface of the corresponding side of the dewatering roll.

Preferably, the dewatering device comprises a water receiving unit; the water receiving unit comprises a water receiving cylinder; a pair of water receiving cylinders are respectively fixed on the lower parts of the left and right side walls of the water removing tank; a pair of water receiving cylinders is horizontally arranged; one ends of the piston rods of the pair of water receiving cylinders, which are close to each other, are respectively fixed with a water receiving basket; a water receiving groove is formed on the upper end surface of the water receiving frame; a triangular water receiving block which is obliquely arranged from inside to outside is formed between the front side wall and the rear side wall of the water receiving tank; the lower end of the water receiving block is positioned between the left side wall and the right side wall of the water receiving tank; a gap is arranged between the lower end surface of the water receiving block and the bottom surface of the water receiving tank.

Preferably, the bottom surface of the water receiving tank is formed with an inclined surface which is inclined from inside to outside; a water falling hole vertically penetrating is formed at the lowest end of the water receiving tank; a water falling hose is fixed on the lower end surface of the water receiving basket; one end of the water falling hose is connected with the water falling hole, and the other end of the water falling hose is connected with an external water recovery device.

Preferably, the clamping unit includes a pair of cylindrical clamping columns; arc-shaped clamping moving grooves are respectively formed on the end surfaces of the clamping seat close to the pair of vertical parts; a clamping guide rod which is coaxial with the clamping moving groove and has a circular arc-shaped cross section is formed between the left side wall and the right side wall of the clamping moving groove; the pair of clamping columns move along the arc of the clamping moving groove and are sleeved on the clamping guide rod; a tension spring is sleeved on the clamping guide rod; two ends of the tension spring are respectively fixed on the pair of clamping columns.

The invention has the beneficial effects that: simple structure, the paper drying effect that anhydrates is good.

Drawings

Fig. 1 is a schematic structural view of a cross section of the present invention.

In the figure, 10, a frame; 100. a drying tank; 101. drying the working hole; 1010. an upper telescopic groove; 102. a dewatering working hole; 1020. a lower telescopic slot; 103. a water removal tank; 104. a lifting groove; 11. supporting legs; 12. an upper support plate; 20. a vertical transmission; 21. lifting a threaded rod; 22. a clamping seat; 220. clamping the moving groove; 221. clamping the guide rod; 23. clamping the column; 24. a tension spring; 30. a drying device; 31. drying the adjusting cylinder; 32. drying the upper support; 320. a wind gathering groove; 3200. a suction hole; 321. drying the movable guide block; 33. an exhaust fan; 34. hot baking the board; 50. a dewatering device; 51. a dewatering adjusting cylinder; 52. a water removal supporting seat; 520. a rotating tank; 521. removing water and moving the guide block; 522. a wiper blade; 53. a dewatering roll; 54. a water receiving cylinder; 55. a water receiving basket; 550. a water receiving tank; 551. a water falling hole; 56. a water falling hose.

Detailed Description

As shown in fig. 1, a vertically-driven paper dewatering and drying device includes a frame 10, a vertical driving device 20, a drying device 30 and a dewatering device 50; the frame 10 comprises a rectangular dewatering and drying box body; a plurality of supporting legs 11 are formed on the lower end surface of the dewatering and drying box body; a drying groove 100 in a rectangular groove shape is formed at the upper part of the dewatering and drying box body, and a dewatering groove 103 in a rectangular groove shape is formed at the lower part of the dewatering and drying box body; the lower end of the water removal tank 103 is not sealed; a rectangular drying working hole 101 which penetrates through the drying groove 100 from top to bottom is formed in the center of the upper side wall of the drying groove, and a rectangular dewatering working hole 102 which penetrates through the drying groove from top to bottom is formed in the center of the lower side wall of the drying groove; a pair of upper supporting plates 12 which are symmetrically arranged front and back are formed on the upper end surface of the frame; the end surfaces close to the pair of upper supporting plates 12, the front and rear side walls of the drying working hole, the front and rear side walls of the drying groove, the front and rear side walls of the dewatering working hole and the front and rear side walls of the dewatering groove are respectively and correspondingly positioned on the same vertical surface; rectangular groove-shaped lifting grooves 104 are respectively formed on the end surfaces close to the pair of upper supporting plates 12, and the lower ends of the lifting grooves 104 extend to the front side wall and the rear side wall of the water removal groove 103; the vertical driving device 20 comprises a U-shaped clamping seat 22 which is arranged between a pair of lifting grooves 104 in a lifting way and is provided with a downward opening; a clamping unit is arranged in the opening of the clamping seat 22; the drying device 30 comprises a pair of upper drying supports 32 which are arranged in the drying working hole 101 in a left-right moving manner; the drying upper support 32 is provided with an air suction device, and the lower end is provided with a hot baking plate 34; the dewatering device 50 comprises a pair of dewatering supporting seats 52 which are arranged in the dewatering working holes 102 in a left-right moving mode; the dewatering support 52 is pivoted with a dewatering roller 53 arranged in the front-back direction.

As shown in fig. 1, a lifting screw rod 21 is pivoted between the upper and lower side walls of the lifting groove 104; a lifting driving motor is fixed on the upper side wall of the lifting groove 104; the upper end of the lifting threaded rod 21 is fixedly connected with the lower end of an output shaft of the lifting driving motor; the front and rear ends of the clamping base 22 are vertically movably disposed in a pair of lifting grooves 104 and are screwed on the lifting screw rods 21 on the corresponding sides.

As shown in fig. 1, upper telescopic slots 1010 in the shape of a rectangular slot are respectively formed on the left and right side walls of the drying work hole 101; the side walls far away from the pair of upper telescopic slots 1010 are respectively fixed with a drying adjusting cylinder 31; the end surfaces of the pair of drying upper supports 32 far away are respectively formed with a drying movable guide block 321 matched with the upper telescopic groove 1010; the drying moving guide blocks 321 are inserted into the upper telescopic grooves 1010 of the respective sides and fixed on the piston rods of the drying adjusting cylinders 31 of the respective sides.

As shown in fig. 1, the upper ends of the pair of drying upper holders 32 are formed as upper stoppers inclined downward from the inside to the left; an air collecting groove 320 is formed on the lower end face of the upper stop block; an air suction hole 3200 is formed on the upper side wall of the air gathering groove 320 in a penetrating manner; exhaust fans 33 are respectively fixed on the end surfaces far away from the upper ends of the pair of drying upper supports 32; the exhaust fan 33 is connected with the air suction hole 3200; the outer end of the suction fan 33 is connected to an external cooling device.

As shown in fig. 1, lower telescopic slots 1020 in the shape of a rectangular slot are respectively formed on the left and right side walls of the dewatering work hole 102; the side walls of the pair of lower telescopic slots 1020 far away are respectively fixed with a dewatering adjusting cylinder 51; the end surfaces of the pair of dewatering support seats 52 far away are respectively formed with a dewatering movable guide block 521 matched with the lower telescopic groove 1020; the dehydrating moving guide 521 is inserted into the lower telescopic groove 1020 of the corresponding side and fixed on the piston rod of the dehydrating adjusting cylinder 51 of the corresponding side.

As shown in fig. 1, a rectangular groove-shaped rotary groove 520 is formed at the lower part of the adjacent end surfaces of the pair of dewatering support bases 52; the dewatering roll 53 is pivoted between the front and rear side walls of the rotary groove 520; the vertical section of one end of the pair of dewatering rollers 53 close to each other is positioned between the end surfaces of the pair of dewatering support seats 52 close to each other; wiper blades 522 are respectively mounted on the far side walls of the pair of rotary grooves 520; gaps are respectively arranged between the front end surface and the rear end surface of the wiper blade 522 and the front side wall and the rear side wall of the rotary groove 520; the wiper blade 522 is in surface contact with the dewatering roll 53 of the corresponding side.

As shown in fig. 1, the water removing device 50 includes a water receiving unit; the water receiving unit comprises a water receiving cylinder 54; a pair of water receiving cylinders 54 are respectively fixed on the lower parts of the left and right side walls of the water removing tank 103; a pair of water receiving air cylinders 54 is horizontally arranged; one ends of the piston rods of the pair of water receiving air cylinders 54 close to each other are respectively fixed with a water receiving basket 55; a water receiving groove 550 is formed on the upper end surface of the water receiving frame 55; a triangular water receiving block 552 which is obliquely arranged from inside to outside is formed between the front side wall and the rear side wall of the water receiving tank 550; the lower end of the water receiving block 552 is positioned between the left side wall and the right side wall of the water receiving tank 550; a gap is provided between the lower end surface of water receiving block 552 and the bottom surface of water receiving tank 550.

As shown in fig. 1, the bottom surface of the water receiving tank 550 is formed with an inclined surface inclined from the inside to the outside; a water falling hole 551 vertically penetrating is formed at the lowest end of the water receiving tank 550; a water falling hose 56 is fixed on the lower end surface of the water receiving basket 55; one end of the downpipe 56 is connected to the downpipe 551, and the other end is connected to an external water recovery device.

As shown in fig. 1, the clamping unit includes a pair of cylindrical clamping columns 23; arc-shaped clamping moving grooves 220 are respectively formed on the end surfaces of the clamping seat 22 close to the pair of vertical parts; a clamping guide rod 221 which is coaxial with the clamping moving groove 220 and has an arc-shaped cross section and a circular shape is formed between the left side wall and the right side wall of the clamping moving groove 220; the pair of clamping columns 23 move along the arc of the clamping moving groove 220 and are sleeved on the clamping guide rod 221; a tension spring 24 is sleeved on the clamping guide rod 221; the tension spring 24 has both ends fixed to the pair of clamping posts 23, respectively.

The working principle of the vertically-driven paper dewatering and drying device is as follows:

an initial state; the pair of drying upper supports 32 is farthest away, the pair of dewatering support seats 52 is farthest away, the pair of water receiving baskets 55 is farthest away, and the clamping seat 22 is positioned at the lowest end and is positioned at the upper side of the pair of water receiving baskets 55;

during drying, the upper end of the paper passes through the pair of water receiving baskets 55 and is fixed on the clamping seat 22, the pair of water receiving baskets 55 are close at the moment, then the clamping seat 22 rises to the upper sides of the pair of dewatering supporting seats 52, then the pair of dewatering supporting seats 52 are close to enable the pair of dewatering rollers 53 to abut against the two ends of the paper, then the clamping seat 22 continues to rise to the upper sides of the pair of drying upper supporting seats 32, in the process, the paper is gradually squeezed and dewatered by the pair of dewatering rollers 53, water remained on the pair of dewatering rollers 53 is scraped off by the wiper blade 522 to avoid re-staining on the paper, then the drying upper supporting seats 32 are close, so that the pair of hot drying plates 34 play a role in drying the paper, then the clamping seat 22 continues to rise, in the process, the paper is gradually squeezed and dewatered by the pair of dewatering rollers 53, and the pair of hot drying plates 34 are dried until the paper; in the process, the paper dewatering and drying effects are good.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims

1. The utility model provides a vertical driven paper drying device that anhydrates which characterized in that: comprises a frame (10), a vertical transmission device (20), a drying device (30) and a dewatering device (50); the frame (10) comprises a rectangular dewatering and drying box body; a plurality of supporting legs (11) are formed on the lower end surface of the dewatering and drying box body; a drying groove (100) in a rectangular groove shape is formed at the upper part of the dewatering and drying box body, and a dewatering groove (103) in a rectangular groove shape is formed at the lower part of the dewatering and drying box body; the lower end of the water removal tank (103) is not sealed; a rectangular drying working hole (101) which penetrates through the drying groove (100) from top to bottom is formed in the center of the upper side wall of the drying groove, and a rectangular dewatering working hole (102) which penetrates through the drying groove from top to bottom is formed in the center of the lower side wall of the drying groove; a pair of upper supporting plates (12) which are symmetrically arranged front and back are formed on the upper end surface of the frame; the end surfaces close to the pair of upper supporting plates (12), the front and rear side walls of the drying working hole, the front and rear side walls of the drying groove, the front and rear side walls of the dewatering working hole and the front and rear side walls of the dewatering groove are respectively and correspondingly positioned on the same vertical surface; rectangular groove-shaped lifting grooves (104) are respectively formed on the end surfaces of the pair of upper supporting plates (12) close to each other, and the lower ends of the lifting grooves (104) extend to the front side wall and the rear side wall of the water removing groove (103); the vertical transmission device (20) comprises a U-shaped clamping seat (22) which is arranged between a pair of lifting grooves (104) in a lifting way and is provided with a downward opening; a clamping unit is arranged in the opening of the clamping seat (22); the drying device (30) comprises a pair of drying upper supports (32) which are arranged in the drying working hole (101) in a left-right moving mode; the drying upper support (32) is provided with an air suction device, and the lower end of the drying upper support is provided with a hot drying plate (34); the dewatering device (50) comprises a pair of dewatering supporting seats (52) which are arranged in the dewatering working holes (102) in a left-right moving mode; the dewatering support seat (52) is pivoted with a dewatering roller (53) arranged in the front-back direction.

2. The vertically driven paper dewatering and drying device of claim 1, wherein: a lifting threaded rod (21) is pivoted between the upper side wall and the lower side wall of the lifting groove (104); a lifting driving motor is fixed on the upper side wall of the lifting groove (104); the upper end of the lifting threaded rod (21) is fixedly connected with the lower end of an output shaft of the lifting driving motor; the front end and the rear end of the clamping seat (22) are vertically movably arranged in a pair of lifting grooves (104) and are screwed on the lifting threaded rods (21) on the corresponding sides.

3. The vertically driven paper dewatering and drying device of claim 1, wherein: upper telescopic grooves (1010) in the shape of a rectangular groove are formed in the left side wall and the right side wall of the drying working hole (101) respectively; the side walls far away from the pair of upper telescopic grooves (1010) are respectively fixed with a drying adjusting cylinder (31); the far end surfaces of the pair of drying upper supports (32) are respectively formed with a drying movable guide block (321) matched with the upper telescopic groove (1010); the drying moving guide block (321) is inserted into the upper telescopic slot (1010) of the corresponding side and fixed on the piston rod of the drying adjusting cylinder (31) of the corresponding side.

4. The vertically driven paper dewatering and drying device as claimed in claim 1 or 3, wherein: the upper ends of the pair of drying upper supports (32) are formed into upper stop blocks which are arranged from inside to left and are inclined downwards; a wind gathering groove (320) is formed on the lower end surface of the upper stop block; an air suction hole (3200) is formed in the upper side wall of the air gathering groove (320) in a penetrating mode; exhaust fans (33) are respectively fixed on the end surfaces of the pair of drying upper supports (32) far away from the upper ends; the exhaust fan (33) is connected with the air suction hole (3200); the outer end of the exhaust fan (33) is connected with an external cooling device.

5. The vertically driven paper dewatering and drying device of claim 1, wherein: the left side wall and the right side wall of the dewatering working hole (102) are respectively provided with a rectangular groove-shaped lower telescopic groove (1020); the side walls of the pair of lower telescopic grooves (1020) far away are respectively fixed with a dewatering adjusting cylinder (51); the end surfaces of the pair of dewatering support seats (52) far away are respectively formed with a dewatering movable guide block (521) matched with the lower telescopic groove (1020); the dewatering moving guide block (521) is inserted into the lower telescopic groove (1020) of the corresponding side and fixed on the piston rod of the dewatering adjusting cylinder (51) of the corresponding side.

6. The vertically driven paper dewatering and drying device as claimed in claim 1 or 5, wherein: a rectangular groove-shaped rotating groove (520) is formed at the lower part of the close end surface of the pair of dewatering supporting seats (52); the dewatering roll (53) is pivoted between the front side wall and the rear side wall of the rotating groove (520); the vertical tangent plane of one end of the pair of dewatering rollers (53) close to is positioned between the end surfaces of the pair of dewatering supporting seats (52) close to each other; the far side walls of the pair of rotating grooves (520) are respectively provided with a wiper blade (522); gaps are respectively arranged between the front end surface and the rear end surface of the water scraping blade (522) and the front side wall and the rear side wall of the rotating groove (520); the wiper blade (522) is in surface contact with the respective side of the dewatering roll (53).

7. The vertically driven paper dewatering and drying device of claim 1, wherein: the dewatering device (50) comprises a water receiving unit; the water receiving unit comprises a water receiving cylinder (54); a pair of water receiving cylinders (54) are respectively fixed on the lower parts of the left and right side walls of the water removing tank (103); a pair of water receiving air cylinders (54) is horizontally arranged; one ends of the piston rods of the pair of water receiving air cylinders (54) close to each other are respectively fixed with a water receiving basket (55); a water receiving groove (550) is formed on the upper end surface of the water receiving frame (55); a triangular water receiving block (552) which is obliquely arranged from inside to outside is formed between the front side wall and the rear side wall of the water receiving tank (550); the lower end of the water receiving block (552) is positioned between the left side wall and the right side wall of the water receiving tank (550); a gap is arranged between the lower end surface of the water receiving block (552) and the bottom surface of the water receiving tank (550).

8. The vertically driven paper dewatering and drying device of claim 7, wherein: the bottom surface of the water receiving tank (550) is formed with an inclined surface which is inclined from inside to outside; a water falling hole (551) which is vertically penetrated is formed at the lowest end of the water receiving tank (550); a water falling hose (56) is fixed on the lower end surface of the water receiving basket (55); one end of the water falling hose (56) is connected with the water falling hole (551), and the other end is connected with an external water recovery device.

9. The vertically driven paper dewatering and drying device of claim 1, wherein: the clamping unit comprises a pair of cylindrical clamping columns (23); arc-shaped clamping moving grooves (220) are respectively formed on the end surfaces of the clamping seat (22) close to the pair of vertical parts; a clamping guide rod (221) which is coaxial with the clamping moving groove (220) and has an arc-shaped cross section and a circular shape is formed between the left side wall and the right side wall of the clamping moving groove (220); the pair of clamping columns (23) move along the arc of the clamping moving groove (220) and are sleeved on the clamping guide rods (221); a tension spring (24) is sleeved on the clamping guide rod (221); two ends of the tension spring (24) are respectively fixed on the pair of clamping columns (23).