CN113183105B - Quick-release maintenance platform for computer hardware - Google Patents

Abstract

The invention discloses a quick-release maintenance platform for computer hardware, which comprises a maintenance pedestal, an upper fixing support, a positioning and clamping assembly, a rotary adjusting assembly and an auxiliary lighting device, wherein the upper fixing support is vertically arranged on one side of the upper end surface of the maintenance pedestal, and the cross section of the upper fixing support is of an inverted L-shaped structure; a built-in concave position for installing the auxiliary lighting device is arranged in the upper fixing support, and the auxiliary lighting device can be limited to rotate relatively and is arranged on the upper fixing support; a positioning and clamping assembly is embedded into one side of the overhauling pedestal, which is far away from the upper fixed support, and the positioning and clamping assembly stably clamps the edge positions of two sides of the computer hardware through clamping arms on two sides of the positioning and clamping assembly; still install in the maintenance pedestal and transfer the subassembly soon, it cup joints to transfer the subassembly soon outside the location centre gripping subassembly.

Description

Quick-release maintenance platform for computer hardware

Technical Field

The invention relates to the technical field of computer hardware maintenance equipment, in particular to a quick-release maintenance platform for computer hardware.

Background

The computer hardware is used as a general name of various physical devices composed of electronic, mechanical and photoelectric elements in a computer system, the physical devices form an organic whole according to the requirements of the system structure to provide a material basis for the operation of computer software, the whole hardware is frequently required to be disassembled and assembled in the maintenance process of the computer hardware, and a computer hardware maintenance platform is required to be used for operation in the maintenance process. The existing computer hardware maintenance platform has single function and simple structure, cannot provide great help for hardware maintenance, only provides an operation platform, cannot perform positioning processing on hardware, and meanwhile, in the process of disassembling and maintaining some special hardware, the tightness of relevant parts needs to be adjusted from the inclined position of the hardware, so that damage such as hardware disconnection is easily caused carelessly, the maintenance and disassembly process is relatively difficult, and therefore, a quick-disassembly maintenance platform for computer hardware is needed to be provided to solve the problems.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a quick-release maintenance platform for computer hardware comprises a maintenance pedestal, an upper fixing support, a positioning and clamping assembly, a rotary adjusting assembly and an auxiliary lighting device, wherein the upper fixing support is vertically arranged on one side of the upper end face of the maintenance pedestal, the upper fixing support is fixed on the maintenance pedestal through an external screw piece, and the cross section of the upper fixing support is of an inverted L-shaped structure;

a built-in concave position for installing the auxiliary lighting device is arranged in the upper fixing support, and the auxiliary lighting device can be limited to rotate relatively and is arranged on the upper fixing support;

a positioning and clamping assembly is embedded into one side of the overhauling pedestal, which is far away from the upper fixed support, and the positioning and clamping assembly stably clamps the edge positions of two sides of the computer hardware through clamping arms on two sides of the positioning and clamping assembly;

a rotary adjusting component is further installed in the overhaul pedestal, is sleeved outside the positioning clamping component and performs spatial rotation and offset adjustment on the positioning clamping component, so that computer hardware is erected on the overhaul pedestal in a multi-angle suspension manner;

the lower terminal surface of maintenance pedestal still the symmetry is equipped with a plurality of drive wheels.

As a preferred technical scheme of the invention, the rotary adjusting component comprises an outer support frame, a built-in rotor, a rotating frame piece, a driving motor, a main transmission gear piece and an inner shaft frame body; an outer support frame is embedded and fixed in the inner part of the upper end face of the maintenance pedestal, and the cross section of the outer support frame is in a semi-annular structure;

a rotating frame piece is coaxially arranged in the outer support frame, a plurality of built-in rotors are arranged between the rotating frame piece and the outer support frame in a circumferential array mode, and the rotating frame piece is arranged in the outer support frame through a limiting mode that the built-in rotors can rotate relatively;

a connecting shaft piece is vertically fixed in the overhaul pedestal under the outer support frame, a main shaft body is rotatably connected in the connecting shaft piece, and one end of the main shaft body penetrates through the outer support frame and is connected and fixed with the rotating frame piece;

a driving motor is installed in the maintenance pedestal, and the output end of the driving motor is connected with the main shaft body for transmission through a gear meshing effect;

an inner shaft frame body is coaxially arranged in the rotating frame piece, and the inner shaft frame body is arranged in the rotating frame piece in a limiting way, wherein the inner shaft frame body can deflect relatively under the gear meshing transmission action of a main transmission gear piece fixed on the rotating frame piece.

As a preferable technical scheme of the invention, the outer support frame is also provided with a scale metering plate.

As a preferred technical scheme of the invention, the positioning and clamping assemblies are symmetrically and rotatably arranged on the inner shaft frame body, connecting supports are transversely and symmetrically fixed at two ends of the inner shaft frame body, the positioning and clamping assemblies are limited and arranged on the connecting supports in a manner that the positioning and clamping assemblies can relatively slide through guide connecting rods, inner clamping plates are fixed on the guide connecting rods, and side supporting pieces are hinged on the inner clamping plates;

a telescopic cylinder piece is vertically fixed on the middle side in the inner shaft frame body, the output end of the telescopic cylinder piece is hinged with the side support piece, and the horizontal clamping distance of the positioning and clamping assembly is regulated and controlled by the vertical telescopic action of the telescopic cylinder piece;

and the inner shaft frame body is also provided with a rotating motor, and the output end of the rotating motor is fixedly connected with one of the positioning and clamping assemblies and drives the positioning and clamping assemblies to do directional circular rotating motion.

As a preferred technical scheme of the invention, the positioning and clamping assembly comprises a shell body, an inner transmission rod, an electric telescopic rod, an inner clamping piece and a connecting spring; the cross section of the shell body part is of a concave structure, and inner clamping pieces are vertically and symmetrically arranged in the shell body part and can slide in a limited mode relatively;

an electric telescopic rod is transversely fixed on the inner side of the shell body, and inner transmission supporting rods are hinged to the output end of the electric telescopic rod in an up-and-down symmetrical mode;

one end of the inner transmission connecting support rod is hinged with a guide piece which is symmetrically limited and slides on the inner wall of the shell body piece;

the inner clamping pieces are hinged with connecting rod pieces, and one ends of the connecting rod pieces are connected with the inner transmission connecting support rods;

and a connecting spring is further connected between the guide piece and the shell body piece.

As a preferable technical scheme of the invention, the output end of the electric telescopic rod is also provided with a side clamping piece, and an auxiliary spring is connected between the side clamping piece and the electric telescopic rod.

As a preferred technical scheme of the invention, the auxiliary lighting device also comprises an offset adjusting motor, a mounting bracket, a bearing support and a lighting lamp piece; the upper fixing support is internally embedded and fixed with a guide ring piece, and one end of the mounting support is limited and arranged in the guide ring piece in a relatively sliding manner;

an offset motor is installed in the upper fixing support, and the output end of the offset motor is connected with one end of the mounting support and drives the mounting support to directionally slide along the guide ring piece;

and a bearing support is fixed on the lower end face of the mounting bracket, and a lighting lamp piece is mounted on the bearing support.

As a preferred technical scheme of the invention, the lighting lamp component further comprises a fixed disk component, an outer guard plate, a transmission gear and a high-brightness lamp holder; an outer guard plate is coaxially and relatively rotatably arranged outside the fixed disc part and is fixedly connected with a built-in rack arranged in the fixed disc part through a fixing part;

a transmission gear is rotationally arranged in the fixed disc part, and is meshed with the built-in rack for transmission and drives the outer guard plate to deflect locally;

and a plurality of high-brightness lamp holders are uniformly distributed on the outer guard plate.

Compared with the prior art, the invention provides a quick-release maintenance platform for computer hardware, which has the following beneficial effects:

according to the invention, a positioning and clamping assembly is arranged on one side of the upper end surface of the maintenance pedestal, and the positioning and clamping assembly is used for stably clamping the edge positions of two sides of computer hardware, so that the maintenance and the disassembly of computer mainboard hardware are facilitated; the rotary adjusting component is embedded in the overhaul pedestal and drives the rotary frame piece to rotate circumferentially through the driving motor, so that multi-angle positioning and clamping of computer hardware are realized, an inner shaft frame body is coaxially arranged on the rotary frame piece, and the inner shaft frame body is rotatably adjusted through a main transmission gear piece under the action of gear meshing transmission, so that the computer hardware can be inclined or vertically suspended, and maintenance personnel can conveniently and quickly disassemble parts at special positions; still be equipped with auxiliary lighting device on overhauing the pedestal and be used for carrying out local illumination to computer hardware maintenance vision blind spot to the going on of maintenance work of convenience.

Drawings

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

FIG. 2 is a schematic view of a rotary adjustment assembly of the present invention;

FIG. 3 is a schematic structural view of the connecting support of the present invention;

FIG. 4 is a schematic view of a positioning and clamping assembly of the present invention;

FIG. 5 is a schematic view of an auxiliary lighting device according to the present invention;

FIG. 6 is a schematic view of the structure of the lighting device of the present invention;

in the figure: the device comprises a maintenance pedestal 1, an upper fixing support 2, a driving wheel 3, a 4-rotation adjusting assembly, an outer support frame 401, a 402-rotation frame member, an inner shaft frame 403, an inner rotor 404, a main shaft 405, a 406-driving motor, a 407-main driving gear member, a 408-scale metering plate, a 5-positioning clamping assembly, a 501-shell body member, an electric telescopic rod 502, an inner transmission rod 503, an inner clamping member 504, a 505-connection spring, a 506-side clamping member, an auxiliary lighting device 6, a 601-installation support, a 602-bearing support, a 603-offset adjusting motor, a 7-connection support, a 701-rotation motor, a 702-side support member, a 703-expansion cylinder member, an 8-lighting lamp member, an 801-fixing disk member, an 802-outer protection plate, a 803-built-in rack 805, a transmission gear 804 and a high-brightness lamp holder.

Detailed Description

Referring to fig. 1, the present invention provides a technical solution: a quick-release maintenance platform for computer hardware comprises an overhaul pedestal 1, an upper fixing support 2, a positioning clamping assembly 5, a rotary adjusting assembly 4 and an auxiliary lighting device 6, wherein the upper fixing support 2 is vertically installed on one side of the upper end face of the overhaul pedestal 1, the upper fixing support 2 is fixed on the overhaul pedestal 1 through an external screw, and the cross section of the upper fixing support 2 is of an inverted L-shaped structure;

a built-in concave position for installing the auxiliary lighting device 6 is arranged in the upper fixing support 2, and the auxiliary lighting device 6 is limited on the upper fixing support 2 in a way of relative rotation; the computer hardware maintenance visual blind spot irradiation device is used for locally irradiating the computer hardware maintenance visual blind spot, so that a maintainer can clearly master a disassembly maintenance path;

a positioning and clamping assembly 5 is embedded into one side of the overhauling pedestal 1, which is far away from the upper fixed support 2, and the positioning and clamping assembly 5 stably clamps the edge positions of two sides of the computer hardware through clamping arms on the two sides of the positioning and clamping assembly 5;

a rotary adjusting component 4 is further installed in the overhaul pedestal 1, the rotary adjusting component 4 is sleeved outside the positioning clamping component 5, and spatial rotary offset adjustment is performed on the positioning clamping component 5, so that computer hardware is erected on the overhaul pedestal 1 in a multi-angle suspension manner; particularly, in the case of some motherboard hardware with built-in chips, the insertion and maintenance port of the motherboard hardware has a complex circuit, so that in order to prevent the overall deviation caused by overlarge external torque force during the horizontal placement process, an indelible scratch or bending is generated outside the hardware, and the main body clamping angle of the computer hardware is changed by the screwing component, so that the hardware can be disassembled from a proper direction; the disassembly operation difficulty is reduced;

the lower terminal surface of maintenance pedestal 1 still the symmetry be equipped with a plurality of drive wheels 3.

Referring to fig. 2, in the present embodiment, the rotary adjusting assembly 4 includes an outer bracket 401, an inner rotor 404, a rotating bracket 402, a driving motor 406, a main transmission gear 407, and an inner shaft bracket body 403; an outer support frame 401 is embedded and fixed in the upper end face of the overhaul pedestal 1, and the cross section of the outer support frame 401 is of a semi-annular structure;

a rotating frame part 402 is coaxially installed in the outer support frame 401, a plurality of built-in rotors 404 are arranged between the rotating frame part 402 and the outer support frame 401 in a circumferential array mode, and the rotating frame part 402 is arranged in the outer support frame 401 through the limiting position of the built-in rotors 404 capable of rotating relatively;

a connecting shaft piece is vertically fixed in the overhaul pedestal 1 under the outer support frame 401, a main shaft body 405 is rotatably connected in the connecting shaft piece, and one end of the main shaft body 405 penetrates through the outer support frame 401 and is connected and fixed with the rotating frame piece 402;

a driving motor 406 is installed in the maintenance pedestal 1, and the output end of the driving motor 406 is connected with the spindle body 405 for transmission through a gear meshing effect;

an inner shaft frame body 403 is further coaxially installed in the rotating frame piece 402, the inner shaft frame body 403 is arranged in the rotating frame piece 402 in a limiting manner capable of deflecting relatively through the gear meshing transmission effect of a main transmission gear piece 407 fixed on the rotating frame piece 402, and under a general condition, a driving motor drives the rotating frame piece to perform circumferential rotation deflection firstly, and then the main transmission gear piece drives the inner shaft frame body to deflect along the rotating frame piece, so that space positioning and clamping of computer hardware are achieved.

In this embodiment, the outer bracket 401 is further provided with a scale measuring plate 408, which facilitates calculation of the handle-controlled rotational positioning angle.

Referring to fig. 3, in this embodiment, the positioning and clamping assemblies 5 are symmetrically and rotatably disposed on the inner shaft frame body 403, connecting supports 7 are transversely and symmetrically fixed at two ends of the inner shaft frame body 403, the positioning and clamping assemblies 5 are disposed on the connecting supports 7 in a limiting manner that the positioning and clamping assemblies can relatively slide through guide rods, inner clamping plates are fixed on the guide rods, and side support members 702 are hinged to the inner clamping plates;

a telescopic cylinder part 703 is vertically fixed on the middle side inside the inner spindle frame body 403, the output end of the telescopic cylinder part 703 is hinged with the side support part 702, and the horizontal clamping distance of the positioning and clamping assembly 5 is regulated and controlled by the vertical telescopic action of the telescopic cylinder part 703;

the inner shaft frame body 403 is also provided with a rotating motor 701, the output end of the rotating motor 701 is connected and fixed with one of the positioning and clamping assemblies 5 and drives the positioning and clamping assembly 5 to do directional circular rotation motion, and the rotating motor drives the positioning and clamping assembly to partially deflect, so that the fine adjustment of the angle of the computer hardware suspension can be effectively realized, and the disassembly work of maintenance personnel can be maximally adapted.

Referring to fig. 4, in the present embodiment, the positioning and clamping assembly 5 includes a housing body 501, an inner joint rod 503, an electric telescopic rod 502, an inner clamping member 504, and a connecting spring 505; the cross section of the shell body 501 is of a concave structure, and the inner clamping pieces 504 are vertically and symmetrically arranged in the shell body 501 and can slide in a limited manner relatively;

an electric telescopic rod 502 is transversely fixed on the middle side inside the shell body 501, and inner transmission support rods 503 are hinged to the output end of the electric telescopic rod 502 in an up-and-down symmetrical manner;

one end of the inner joint support rod 503 is hinged with a guide piece which is symmetrically limited and slides on the inner wall of the shell body part 501;

a connecting rod piece is hinged on each inner clamping piece 504, and one end of each connecting rod piece is connected with the inner connecting support rod 503; in this case, the clamping end face of the inner clamping piece should be a rubber grinding piece to achieve a high-stability clamping effect.

A connecting spring 505 is connected between the guide and the housing body 501.

In this embodiment, the output end of the electric telescopic rod 502 is further provided with a side clamping piece 506, and an auxiliary spring is connected between the side clamping piece 506 and the electric telescopic rod 502.

Referring to fig. 5, in this embodiment, the auxiliary lighting device 6 further includes an offset adjustment motor 603, a mounting bracket 601, a receiving support 602, and a lighting lamp 8; a guide ring piece is embedded and fixed in the upper fixing support 2, and one end of the mounting support 601 is limited and arranged in the guide ring piece in a relatively sliding manner;

an offset motor 603 is installed in the upper fixed support 2, and the output end of the offset motor 603 is connected with one end of the mounting support 601 and drives the mounting support 601 to directionally slide along the guide ring piece;

a receiving support 602 is fixed on the lower end surface of the mounting bracket 601, and a lighting lamp 8 is mounted on the receiving support 602.

Referring to fig. 6, in this embodiment, the lighting lamp unit 8 further includes a fixing disk 801, an outer shield 802, a transmission gear 804, and a high-brightness lamp holder 805; an outer guard plate 802 is coaxially and relatively rotatably arranged outside the fixed disk 801, and the outer guard plate 802 is fixedly connected with a built-in rack 803 arranged in the fixed disk 801 through a fixing piece;

a transmission gear 804 is rotatably arranged in the fixed disc 801, and the transmission gear 804 is meshed with the built-in rack 803 for transmission and drives the outer guard plate 801 to partially deflect;

a plurality of high-brightness lamp holders 805 are uniformly distributed on the outer protective plate 801, and external illumination can be effectively provided for maintenance and disassembly of computer hardware.

Specifically, in the process of maintaining and disassembling the computer hardware, two sides of the computer main board hardware are placed at an inner clamping piece on a shell body, the horizontal clamping distance of positioning and clamping assemblies on the two sides is regulated and controlled preferentially through the vertical telescopic action of a telescopic cylinder piece, so that the side clamping piece can be partially abutted against the side edge of the computer hardware and is transversely telescopic by an electric telescopic rod, the inner clamping piece is clamped from the upper side and the lower side at the moment, and meanwhile, the side clamping piece can provide relative elastic jacking force through the elastic action of an auxiliary spring so as to keep the overall clamping stability of the computer hardware; the driving motor drives the rotating frame piece to rotate, and the main transmission gear piece drives the inner shaft frame body to deflect through gear meshing, so that the computer hardware is suspended and erected on the maintenance pedestal at a certain angle, the disassembly work of special parts is facilitated, scratches generated by external contact of the computer hardware can be avoided, and the maintenance and disassembly engineering quality is provided; meanwhile, the illuminating lamp can provide illumination brightness for the visual blind spot from a plurality of angles during disassembly, so that the disassembly is convenient.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (3)

1. The utility model provides a quick detach maintenance platform for computer hardware, its includes overhauls pedestal (1), goes up fixed bolster (2), location centre gripping subassembly (5), transfers subassembly (4) and auxiliary lighting device (6) soon, wherein, the vertical fixed bolster (2) of installing in up end one side of overhauing pedestal (1), it fixes on overhauing pedestal (1) through the peripheral hardware spiral shell spare to go up fixed bolster (2), its characterized in that: the cross section of the upper fixing bracket (2) is of an inverted L-shaped structure;

a built-in concave position for installing the auxiliary lighting device (6) is arranged in the upper fixing support (2), and the auxiliary lighting device (6) can be limited on the upper fixing support (2) in a relative rotating manner;

a positioning and clamping assembly (5) is embedded into one side, far away from the upper fixing support (2), of the overhauling pedestal (1), and the positioning and clamping assembly (5) clamps the edge positions of two sides of the computer hardware stably through clamping arms on the two sides of the positioning and clamping assembly;

a rotary adjusting component (4) is further installed in the overhaul pedestal (1), the rotary adjusting component (4) is sleeved outside the positioning clamping component (5), and spatial rotary offset adjustment is performed on the positioning clamping component (5), so that computer hardware is erected on the overhaul pedestal (1) in a multi-angle suspension manner;

the lower end surface of the maintenance pedestal (1) is also symmetrically provided with a plurality of driving wheels (3);

the rotary adjusting assembly (4) comprises an outer support frame (401), a built-in rotor (404), a rotating frame piece (402), a driving motor (406), a main transmission gear piece (407) and an inner shaft frame body (403); an outer support frame (401) is embedded and fixed in the upper end face of the overhauling pedestal (1), and the cross section of the outer support frame (401) is of a semi-annular structure;

a rotating frame piece (402) is coaxially mounted in the outer support frame (401), a plurality of built-in rotors (404) are arranged between the rotating frame piece (402) and the outer support frame (401) in a circumferential array mode, and the rotating frame piece (402) is arranged in the outer support frame (401) in a limiting mode through the built-in rotors (404) in a relatively rotatable mode;

a connecting shaft piece is vertically fixed in the overhaul pedestal (1) under the outer support frame (401), a main shaft body (405) is rotationally connected in the connecting shaft piece, and one end of the main shaft body (405) penetrates through the outer support frame (401) and is connected and fixed with the rotating frame piece (402);

a driving motor (406) is installed in the maintenance pedestal (1), and the output end of the driving motor (406) is connected with the spindle body (405) for transmission through a gear meshing effect;

an inner shaft frame body (403) is further coaxially arranged in the rotating frame piece (402), and the inner shaft frame body (403) is arranged in the rotating frame piece (402) in a relatively-deflectable limiting way through the gear meshing transmission action of a main transmission gear piece (407) fixed on the rotating frame piece (402);

the positioning and clamping assembly (5) comprises a shell body part (501), an inner transmission and connection support rod (503), an electric telescopic rod (502), an inner clamping part (504) and a connecting spring (505); the cross section of the shell body piece (501) is of a concave structure, and inner clamping pieces (504) are vertically and symmetrically arranged in the shell body piece (501) in a manner of relatively limiting sliding;

an electric telescopic rod (502) is transversely fixed on the middle side in the shell body (501), and inner transmission support rods (503) are hinged to the output end of the electric telescopic rod (502) in an up-and-down symmetrical mode;

one end of the inner transfer connecting support rod (503) is hinged with a guide piece which is symmetrically limited and slides on the inner wall of the shell body piece (501);

the inner clamping pieces (504) are hinged with connecting rod pieces, and one ends of the connecting rod pieces are connected with the inner transmission connecting support rods (503);

a connecting spring (505) is also connected between the guide piece and the shell body piece (501);

the auxiliary lighting device (6) further comprises an offset adjusting motor (603), a mounting bracket (601), a bearing support (602) and a lighting lamp piece (8); a guide ring piece is embedded and fixed in the upper fixing support (2), and one end of the mounting support (601) is limited and arranged in the guide ring piece in a relatively sliding manner;

an offset adjusting motor (603) is installed in the upper fixing support (2), the output end of the offset adjusting motor (603) is connected with one end of the mounting support (601), and the mounting support (601) is driven to directionally slide along the guide ring piece;

a bearing support (602) is fixed on the lower end face of the mounting bracket (601), and a lighting lamp piece (8) is mounted on the bearing support (602);

the positioning and clamping assembly (5) is symmetrically and rotatably arranged on the inner shaft frame body (403), connecting supports (7) are transversely and symmetrically fixed at two ends of the inner shaft frame body (403), the positioning and clamping assembly (5) is limited on the connecting supports (7) in a relatively sliding manner through guide rods, inner clamping plates are fixed on the guide rods, and side supporting pieces (702) are hinged to the inner clamping plates;

a telescopic cylinder piece (703) is vertically fixed on the middle side in the inner shaft frame body (403), the output end of the telescopic cylinder piece (703) is hinged with the side support piece (702), and the horizontal clamping distance of the positioning and clamping assembly (5) is regulated and controlled by the vertical telescopic action of the telescopic cylinder piece (703);

the inner shaft frame body (403) is also provided with a rotating motor (701), the output end of the rotating motor (701) is connected and fixed with one of the positioning and clamping assemblies (5), and the positioning and clamping assemblies (5) are driven to do directional circular rotation motion;

the lighting lamp part (8) comprises a fixed disc part (801), an outer protective plate (802), a transmission gear (804) and a highlight lamp holder (805); an outer guard plate (802) is coaxially arranged outside the fixed disc piece (801) and can rotate relatively, and the outer guard plate (802) is connected and fixed with a built-in rack (803) arranged in the fixed disc piece (801) through a fixing piece;

a transmission gear (804) is rotationally arranged in the fixed disc piece (801), the transmission gear (804) is in meshed transmission with a built-in rack (803), and drives the outer guard plate (802) to partially deflect;

and a plurality of high-brightness lamp holders (805) are uniformly distributed on the outer guard plate (802).

2. The quick release maintenance platform for computer hardware of claim 1, wherein: and the outer support frame (401) is also provided with a scale metering plate (408).

3. The quick release maintenance platform for computer hardware of claim 1, wherein: the output end of the electric telescopic rod (502) is further provided with a side clamping piece (506), and an auxiliary spring is connected between the side clamping piece (506) and the electric telescopic rod (502).

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