CN114522956B

CN114522956B - Ampoule bottle recycling box

Info

Publication number: CN114522956B
Application number: CN202210149560.8A
Authority: CN
Inventors: 张振越
Original assignee: Nanjing Maoshengde Technology Co ltd
Current assignee: Nanjing Maoshengde Technology Co ltd
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2023-08-11
Anticipated expiration: 2042-02-18
Also published as: CN114522956A

Abstract

The invention belongs to the field of medical consumable treatment, and particularly relates to an ampoule bottle recycling treatment box which comprises a treatment box, wherein one end of the treatment box is in a horn shape, an open disinfectant cavity is arranged on the side, far away from the horn shape, of the treatment box, the opening of the disinfectant cavity is positioned on the adjacent surface of the horn-shaped end of the treatment box, a disinfection mechanism for storing disinfectant is arranged in the disinfectant cavity, a temporary storage cavity with an opening facing the horn side is arranged in the horn shape in the treatment box, a crushing cavity with an opening facing the temporary storage cavity is arranged on the side, close to the temporary storage cavity, of the treatment box, the crushing cavity is communicated with the disinfectant cavity, the crushing cavity is separated from the disinfectant cavity by a screen, a crushing mechanism for crushing ampoule bottles is arranged in the crushing cavity, the temporary storage mechanism is arranged at the opening of the crushing cavity, and when the ampoule bottles in the temporary storage cavity are stored to a certain amount, the ampoule bottles are poured into the crushing cavity by the crushing mechanism, and a cover plate is arranged on one side of the opening of the temporary storage cavity in a rotating manner.

Description

Ampoule bottle recycling box

Technical Field

The invention belongs to the field of medical consumable treatment, and particularly relates to an ampoule bottle recycling treatment box.

Background

The ampoule bottle is a small glass container for containing liquid medicine, is commonly used for storing medicines for injection, vaccines, serum and the like, medical waste classification opinion is included in ward nursing requirements, the ampoule bottle can not be reused because of different medicines stored in the ampoule bottle, and the used ampoule bottle is usually crushed, but a device for crushing the ampoule bottle is almost provided with a sterilizing mechanism, and the ampoule bottle is directly crushed to cause the residual medicines or vaccine serum in the ampoule bottle to cause potential danger of infection to staff.

Disclosure of Invention

The invention aims at solving the problems in the prior art and provides an ampoule bottle recycling treatment box which can replace the existing ampoule bottle dustbin, can be used for manually crushing when ampoule bottles are stored for a certain amount and can be used for soaking and sterilizing crushed ampoule bottles.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a processing case is retrieved to ampoule, includes the processing case, the one end of processing case is loudspeaker form, the processing case is kept away from loudspeaker form side is equipped with open-ended antiseptic solution chamber, the opening in antiseptic solution chamber is located the face of closing on the loudspeaker form end of processing case, be equipped with the disinfection mechanism that is used for storing the antiseptic solution in the antiseptic solution chamber, be equipped with the opening in the loudspeaker form of processing incasement towards loudspeaker side and store the chamber, be close to in the processing case store the chamber side and be equipped with the opening towards the crushing chamber that stores the chamber, the crushing chamber with antiseptic solution chamber intercommunication, just smash the chamber with the antiseptic solution chamber is separated by the screen cloth, smash the intracavity and be equipped with the crushing mechanism that is used for smashing the ampoule, the opening part in crushing chamber is equipped with temporary storage mechanism, the opening part one side rotation in temporary storage chamber is equipped with the apron, smash the chamber and be close to temporary storage chamber department is equipped with a crossbeam, temporary storage mechanism is located smash on the crossbeam in the intracavity.

Preferably, the crushing mechanism comprises a rotating shaft which is rotatably arranged on two side walls of the crushing cavity along the opening direction of the sterilizing liquid cavity, a rotating handle is arranged on the rotating shaft, which is close to the opening direction of the sterilizing liquid cavity, a grinding roller is fixedly arranged on the rotating shaft, the crushing cavity is provided with vibrating sliding grooves with openings facing the crushing cavity on the two side walls of the rotating shaft, the screen is slidably arranged in the two vibrating sliding grooves, two sides of the screen are connected on the inner wall corresponding to the vibrating sliding grooves through vibrating springs, and the screen is arc-shaped, so that the grinding surface of the grinding roller is increased.

Preferably, the crushing mechanism further comprises separation shells fixedly arranged on two side walls of the crushing cavity along the axial side of the rotating shaft, a fixing shaft is rotatably arranged on the inner cavity wall of the temporary storage cavity along the axial direction of the rotating shaft and arranged in each separation shell, a cam and a small belt wheel are fixedly arranged on each fixing shaft, the cams are closer to the crushing cavity than the small belt wheels, large belt wheels are fixedly arranged at two ends of the rotating shaft and connected with the small belt wheels through belts, and the convex surfaces of the cams can press the screen mesh when the fixing shafts rotate.

Preferably, the crushing mechanism further comprises a mounting block arranged at the screen in the separation shell, a bolt sliding groove with an opening facing the screen is arranged in the mounting block of the separation shell, a bolt is slidably arranged in the bolt sliding groove, the bolt is connected to the inner wall of the bolt sliding groove through a bolt spring, and a clamping groove with the opening facing the bolt is arranged at the position, corresponding to the bolt, of the screen.

Preferably, the disinfection mechanism comprises two slipsheets which are positioned on the inner wall of the opening and symmetrically and fixedly arranged on the grinding roller, two slipsheets are arranged on the slipsheets and are close to the rotating shafts, rotating wheels are arranged on the slipsheets in a uniform rotating mode, a slag box is arranged on the slipsheets in a sliding mode, the slag box is close to the opening of the disinfection mechanism, a sealing gasket is arranged on the opening of the disinfection mechanism, a baffle plate of the slag box, which is far away from the opening of the disinfection mechanism, is meshed, a top block sliding groove with an opening facing the rotating wheels is formed in the corresponding position of the slag box and each rotating wheel, arc top blocks are arranged in the rotating wheels in a sliding mode and are connected to the inner wall of the corresponding top block sliding groove through top block springs, and each arc top block is abutted to the corresponding rotating wheel.

Preferably, the disinfection mechanism further comprises a water pushing plate arranged between the two slip supporting plates in the disinfection solution cavity in a sealing sliding manner, and the water pushing plate is far away from the temporary storage cavity side and is in sealing sliding connection with the inner wall of the disinfection solution cavity, so that the water pushing plate can push disinfection solution in the disinfection solution cavity, and the disinfection solution is extruded into the slag crushing box.

Preferably, the temporary storage mechanism comprises an automatic reset telescopic rod fixedly arranged on a cross beam in the crushing cavity, and a carrying plate is connected to the inner shaft of the automatic reset telescopic rod through a shaft, so that the carrying plate can rotate on the automatic reset telescopic rod, a stop block is fixedly arranged on one side of an opening of the crushing cavity, the carrying plate slides to the stop block, and the stop block can enable the carrying plate to rotate around the automatic reset telescopic rod.

Preferably, a torsion spring is arranged on the connecting shaft of the automatic resetting telescopic rod and the carrying plate, so that the automatic resetting telescopic rod can be reset through the torsion spring after being reset.

The beneficial effects are that: because the screen cloth is the arcwall face, can make more ampoule and roller contact, when the roller pulverizes the ampoule, can be more quick, make crushing efficiency higher, and the screen cloth is great with the contact surface of roller, can make the ampoule piece pass through the screen cloth of bigger area, can prevent the mesh local blocking of screen cloth.

When the screen mesh is sprung to the inner wall of the vibrating chute close to the rotating shaft side, the screen mesh is vibrated due to collision, so that smaller ampoule glass fragments pass through the screen mesh and fall into the slag crushing box, and glass fragments clamped in the mesh holes of the screen mesh can be vibrated, so that the mesh holes of the screen mesh are always in a communicated state.

The disinfection solution can be extruded into the slag box through the meshes of the slag box through the extrusion of the water pushing plate to soak and disinfect glass fragments in the slag box, so that the disinfection is more thorough.

Drawings

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

FIG. 2 is a schematic diagram of a structural implementation of the present invention;

FIG. 3 is a schematic view of the direction A-A in FIG. 2;

FIG. 4 is an enlarged schematic view of FIG. 2B;

FIG. 5 is an enlarged schematic view of FIG. 2 at C;

FIG. 6 is an enlarged schematic view of FIG. 3 at D;

FIG. 7 is an enlarged schematic view of FIG. 3 at E;

FIG. 8 is a schematic view of the F-F direction of FIG. 4;

FIG. 9 is a schematic diagram of the G-G direction in FIG. 7.

In the figure, a treatment tank 10; a sterilizing liquid chamber 11; a water pushing plate 12; a slag box 13; a filter chamber 14; a screen 15; a rotating shaft 16; a roller 17; a partition case 18; a temporary storage chamber 19; a cover plate 20; a pulverizing chamber 21; a carrier plate 22; a vibrating chute 23; a vibration spring 24; a cam 25; a small pulley 26; a belt 27; a large pulley 28; a fixed shaft 29; automatically resetting the telescopic rod 30; a torsion spring 31; a slipsheet 32; a rotating wheel 33; an arc-shaped top block 34; a top block chute 35; a top block spring 36; a plug sliding slot 37; a latch 38; a latch spring 39; a water pushing plate spring 40; a pulverizing mechanism 90; a sterilizing mechanism 91; temporary storage mechanism 92.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that the inventive product is conventionally put in use, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

Referring to fig. 2, an ampoule recycling treatment box comprises a treatment box 10, one end of the treatment box 10 is in a horn shape, an open-ended disinfectant cavity 11 is arranged on the side, far away from the horn shape, of the treatment box 10, an opening of the disinfectant cavity 11 is located on the adjacent surface of the horn-shaped end of the treatment box 10, a disinfection mechanism 91 for storing disinfectant is arranged in the disinfectant cavity 11, a temporary storage cavity 19 with an opening towards the horn side is arranged in the horn shape in the treatment box 10, a crushing cavity 21 with an opening towards the temporary storage cavity 19 is arranged on the side, close to the temporary storage cavity 19, in the treatment box 10, of the treatment box 10, the crushing cavity 21 is communicated with the disinfectant cavity 11, the crushing cavity 21 is separated from the disinfectant cavity 11 through a screen 15, a crushing mechanism 90 for crushing the ampoule is arranged in the crushing cavity 21, a temporary storage mechanism 92 is arranged at the opening of the crushing cavity 21, a cover plate 20 is rotatably arranged on one side, close to the opening of the temporary storage cavity 19, a cross beam is arranged on the temporary storage mechanism 92 in the crushing cavity 21.

Further, referring to fig. 2 and 4, the crushing mechanism 90 includes a rotating shaft 16 rotatably disposed on two sidewalls of the crushing cavity 21 along an opening direction of the sterilizing liquid cavity 11, a rotating grip disposed on the rotating shaft 16 and close to the opening direction of the sterilizing liquid cavity 11, a grinding roller 17 fixedly disposed on the rotating shaft 16, vibrating sliding grooves 23 with openings facing the crushing cavity 21 disposed on two sidewalls of the crushing cavity 21, a screen 15 slidably disposed in the two vibrating sliding grooves 23, two sides of the screen 15 connected to inner walls of the corresponding vibrating sliding grooves 23 via vibrating springs 24, and an arc-shaped screen 15 for increasing a grinding surface of the grinding roller 17.

Further, referring to fig. 4, the crushing mechanism 90 further includes separation shells 18 fixedly provided on both side walls of the crushing cavity 21 along the axial direction of the rotating shaft 16, fixing shafts 29 are rotatably provided on inner cavity walls of the side far away from the temporary storage cavity 19 in each separation shell 18 along the axial direction of the rotating shaft 16, cams 25 and small belt pulleys 26 are fixedly provided on each fixing shaft 29, the cams 25 are closer to the crushing cavity 21 than the small belt pulleys 26, large belt pulleys 28 are fixedly provided on both ends of the rotating shaft 16, the large belt pulleys 28 are connected with the small belt pulleys 26 through belts 27, and the convex surfaces of the cams 25 can press the screen 15 when the fixing shafts 29 rotate.

Further, referring to fig. 8, the crushing mechanism 90 further includes a mounting block provided in the partition shell 18 at the screen 15, a latch chute 37 with an opening facing the screen 15 is provided in the mounting block of the partition shell 18, a latch 38 is slidably provided in the latch chute 37, the latch 38 is connected to an inner wall of the latch chute 37 by a latch spring 39, and a slot with an opening facing the latch 38 is provided in a position of the screen 15 corresponding to the latch 38.

Further, referring to fig. 2 and 9, the sterilizing mechanism 91 includes two slipsheets 32 disposed on the inner wall of the opening at the inner wall of the sterilizing chamber 11 and symmetrically and fixedly disposed about the grinding roller 17, rotating wheels 33 are disposed on the two slipsheets 32 and close to the rotating shaft 16, the two slipsheets 32 are slidably provided with a slag box 13, the slag box 13 is disposed near the opening of the sterilizing chamber 11 and is provided with a sealing gasket, a baffle plate at the opening of the sterilizing chamber 11, the slag box 13 is disposed in a mesh shape, an opening of the slag box 13 faces to the top block chute 35 of the rotating wheel 33 at the corresponding position of each rotating wheel 33, arc-shaped top blocks 34 are slidably disposed in each rotating wheel 33, each arc-shaped top block 34 is connected to the inner wall of the corresponding top block chute 35 through a top block spring 36, and each arc-shaped top block 34 is abutted to the corresponding rotating wheel 33.

Further, referring to fig. 2, the disinfection mechanism 91 further includes a water pushing plate 12 provided between the two slipsheets 32 in the disinfection solution chamber 11 in a sealing sliding manner, and the side of the water pushing plate 12 away from the temporary storage chamber 19 is in sealing sliding connection with the inner wall of the disinfection solution chamber 11, so that the water pushing plate 12 can push the disinfection solution in the disinfection solution chamber 11, and the disinfection solution is extruded into the slag box 13.

Further, referring to fig. 5, the temporary storage mechanism 92 includes an automatic reset telescopic rod 30 fixedly arranged on an inner cross beam of the crushing cavity 21, and the inner shaft of the automatic reset telescopic rod 30 is connected with a carrying plate 22 through a shaft, so that the carrying plate 22 can rotate on the automatic reset telescopic rod 30, a stop block is fixedly arranged on one side of an opening of the crushing cavity 21, the carrying plate 22 slides to the stop block, and the stop block can enable the carrying plate 22 to rotate around the automatic reset telescopic rod 30.

Further, referring to fig. 6, a torsion spring 31 is provided on the connecting shaft between the automatic return telescopic rod 30 and the carrying plate 22, so that the automatic return telescopic rod 30 can be returned through the torsion spring 31 after being returned.

Initial state: the water pushing plate spring 40 is in a tensile state, the vibration spring 24 is in a normal state, the automatic return telescopic rod 30 is in an elongation state, the torsion spring 31 is in a normal state, the top block spring 36 is in a compression state, and the bolt spring 39 is in a normal state.

Working principle: the cover plate 20 is manually opened, the abandoned ampoule bottles are thrown into the temporary storage cavity 19, after the ampoule bottles in the temporary storage cavity 19 are accumulated too much, the carrying plate 22 is driven by the compression of the inner shaft of the automatic reset telescopic rod 30, so that the carrying plate 22 slides towards the crushing cavity 21, when the carrying plate 22 slides to the stop block position of the opening of the crushing cavity 21, the carrying plate 22 close to the stop block side is blocked and cannot slide towards the carrying plate 22 continuously, the carrying plate 22 rotates around the automatic reset telescopic rod 30 under the action of the stop block, the torsion spring 31 is compressed, the ampoule bottles accumulated on the carrying plate 22 are poured into the crushing cavity 21, the ampoule bottles fall onto the screen 15 after poured into the crushing cavity 21, and because the screen 15 is arc-shaped, the ampoule bottles in the crushing cavity 21 are all accumulated at the position close to the side of the crushing roller 17, and because the screen 15 is arc-shaped, more ampoule bottles can be contacted with the crushing roller 17, when the ampoule bottles are crushed by the crushing roller 17, the crushing efficiency is higher, the screen 15 can be blocked by the screen 15, and the screen 15 can be prevented from being partially blocked by the screen 15.

The rotating shaft 16 is rotated clockwise manually, the rotating shaft 16 drives the grinding roller 17 to rotate, ampoule bottles are ground, in the rotating process of the rotating shaft 16, the rotating shaft 16 drives the small belt pulley 26 to rotate through the large belt pulley 28 and the belt 27, the small belt pulley 26 drives the cam 25 to rotate rapidly through the fixed shaft 29, the clamping groove on the screen 15 is clamped onto the bolt 38 after the convex surface presses the screen 15 in the rotating process of the cam 25, the vibrating chute 23 is compressed, the bolt 38 is pulled out of the clamping groove in the screen 15 after the convex surface of the cam 25 continues to rotate ninety degrees to press the bolt 38, the vibrating spring 24 is restored, the screen 15 is sprung up, when the screen 15 is sprung up to the inner wall of the vibrating chute 23 close to the rotating shaft 16, the screen 15 is vibrated due to collision, small ampoule glass fragments pass through the screen 15 to fall into the slag box 13 for soaking and disinfection, all ampoule glass fragments in the crushing cavity 21 are discharged into the slag box 13 through the screen 15, and when the screen 15 is reset and vibrated, the glass fragments clamped in the screen 15 can still be in the mesh openings of the screen 15, so that the screen 15 is always in a vibration state when the screen 15 is reset and vibrated.

The ampoule in the scrap box 13 is fully filled and then the scrap box 13 is drawn out, the rotating wheel 33 is driven by friction force to drive the rotating wheel 33 in the process of drawing out the scrap box 13, when the arc ejector block 34 is separated from the current rotating wheel 33, the ejector block spring 36 is restored to drive the arc ejector block 34 to slide, the arc ejector block 34 is made to beat onto the slip sheet 32, the scrap box 13 is vibrated through the reaction force, the scrap box 13 shakes the liquid in the scrap box 13 into the sterilizing liquid cavity 11 through the baffle plate on the opening side of the sterilizing liquid cavity 11, the water pushing plate spring 40 is contracted during barrel to drive the water pushing plate 12 to slide, the sterilizing liquid in the scrap box 13 is recovered into the sterilizing liquid cavity 11, when the scrap box 13 is installed, the scrap box 13 is pushed by the water pushing plate spring 12 to slide, the sterilizing liquid in the sterilizing liquid cavity 11 is extruded into the scrap box 13, the glass scraps can be thoroughly sterilized by extruding the liquid into the glass scrap box 13 through the mesh box 13, and the glass scraps can be thoroughly sterilized.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims

1. The utility model provides an ampoule recovery processing case, includes processing case (10), its characterized in that: the treatment box (10) is characterized in that one end of the treatment box (10) is in a horn shape, an opening of the treatment box (10) is far away from a disinfectant cavity (11) with an opening on the horn-shaped side, the opening of the disinfectant cavity (11) is positioned on the adjacent surface of the horn-shaped end of the treatment box (10), a disinfection mechanism (91) for storing disinfectant is arranged in the disinfectant cavity (11), a temporary storage cavity (19) with the opening facing the horn-shaped side is arranged in the horn-shaped part of the treatment box (10), a crushing cavity (21) with the opening facing the temporary storage cavity (19) is arranged on the side, close to the temporary storage cavity (19), of the treatment box (10), the crushing cavity (21) is communicated with the disinfectant cavity (11), the crushing cavity (21) is separated from the disinfectant cavity (11) through a screen (15), a crushing mechanism (90) for crushing an ampoule is arranged in the crushing cavity (21), a temporary storage mechanism (92) is arranged at the opening of the crushing cavity (21), a cover plate (20) is rotatably arranged on one side, close to the temporary storage cavity (21), and the crushing cavity (21) is arranged in the temporary storage mechanism (92). The crushing mechanism (90) comprises a crushing cavity (21), a rotating shaft (16) is rotatably arranged on two side walls of the crushing cavity (21) along the opening direction of the sterilizing liquid cavity (11), a rotating handle is arranged on the rotating shaft (16) close to the opening direction of the sterilizing liquid cavity (11), a grinding roller (17) is fixedly arranged on the rotating shaft (16), vibrating sliding grooves (23) with openings facing the crushing cavity (21) are formed in the two side walls of the crushing cavity (21), the screen (15) are slidably arranged in the two vibrating sliding grooves (23), two sides of the screen (15) are connected to the inner walls corresponding to the vibrating sliding grooves (23) through vibrating springs (24), the screen (15) is arc-shaped, and the grinding surface of the grinding roller (17) is enlarged; the crushing mechanism (90) further comprises separation shells (18) fixedly arranged on two side walls of the crushing cavity (21) along the axial side of the rotating shaft (16), a fixed shaft (29) is rotatably arranged on the inner cavity wall, far away from the temporary storage cavity (19), in each separation shell (18) along the axial direction of the rotating shaft (16), a cam (25) and a small belt wheel (26) are fixedly arranged on each fixed shaft (29), the cam (25) is closer to the crushing cavity (21) than the small belt wheel (26), large belt wheels (28) are fixedly arranged at two ends of the rotating shaft (16), the large belt wheels (28) are connected with the small belt wheels (26) through belts (27), and the convex surfaces of the cams (25) can press a screen (15) when the fixed shafts (29) rotate; the crushing mechanism (90) further comprises a mounting block arranged at the screen (15) in the separation shell (18), a bolt sliding groove (37) with an opening facing the screen (15) is arranged in the mounting block of the separation shell (18), a bolt (38) is arranged in the bolt sliding groove (37) in a sliding mode, the bolt (38) is connected to the inner wall of the bolt sliding groove (37) through a bolt spring (39), and a clamping groove with an opening facing the bolt (38) is arranged at the position, corresponding to the bolt (38), of the screen (15); the disinfection mechanism (91) comprises two slip plates (32) which are symmetrically and fixedly arranged on the inner wall of an opening part and are positioned on the inner wall of the opening part of the disinfection solution cavity (11) relative to the grinding roller (17), wherein the two slip plates (32) are uniformly rotated and provided with rotating wheels (33) close to the rotating shaft (16), the two slip plates (32) are jointly and slidably provided with a slag box (13), the slag box (13) is provided with a sealing gasket close to the opening part of the disinfection solution cavity (11), a baffle plate of the slag box (13) far away from the opening part of the disinfection solution cavity (11) is in a mesh shape, a top block sliding groove (35) with an opening facing the rotating wheels (33) is arranged at the corresponding position of the slag box (13), each rotating wheel (33) is internally and slidably provided with an arc-shaped top block (34), each arc-shaped top block (34) is connected onto the inner wall of the corresponding top block sliding groove (35) through a top block spring (36), and each arc-shaped top block (34) is abutted against the corresponding rotating wheel (33); the disinfection mechanism (91) further comprises a water pushing plate (12) which is arranged between the two slip plates (32) in the disinfection solution cavity (11) in a sealing sliding manner, the side, away from the temporary storage cavity (19), of the water pushing plate (12) is in sealing sliding connection with the inner wall of the disinfection solution cavity (11), so that the water pushing plate (12) can push disinfection solution in the disinfection solution cavity (11) to enable the disinfection solution to be extruded into the slag box (13); the temporary storage mechanism (92) comprises an automatic resetting telescopic rod (30) fixedly arranged on an inner cross beam of the crushing cavity (21), a carrying plate (22) is connected to an inner shaft of the automatic resetting telescopic rod (30) through a shaft, the carrying plate (22) can rotate on the automatic resetting telescopic rod (30), a stop block is fixedly arranged on one side of an opening of the crushing cavity (21), the carrying plate (22) slides to the stop block, and the stop block can enable the carrying plate (22) to rotate around the automatic resetting telescopic rod (30); the connecting shaft of the automatic resetting telescopic rod (30) and the carrying plate (22) is provided with a torsion spring (31), so that the automatic resetting telescopic rod (30) can be reset through the torsion spring (31) after being reset.