CN219380547U - Electronic equipment maintenance frock - Google Patents

Abstract

The application provides an electronic equipment maintenance frock, this electronic equipment maintenance frock includes base, first clamping piece, rotates piece, sucking disc, first locating part and second clamping piece. The first clamping piece is connected with the base, and first clamping piece is used for pressing from both sides electronic equipment to the base, rotates the piece and rotates the connection with the base, and the sucking disc is connected with rotating the piece, and the sucking disc is used for adsorbing in electronic equipment's at least part (for example cell cover, screen or decoration of cell-phone). The first limiting piece can be connected with the base and the rotating piece to limit the rotating piece to rotate relative to the base, the second clamping piece is connected with the base, and the second clamping piece is used for clamping the electronic equipment to the rotating piece. The electronic equipment maintenance tool integrates the disassembling function and the pressing assembly function, so that the maintenance process of the electronic equipment and the operation difficulty of a user are simplified, and the use experience of the user is improved.

Description

Electronic equipment maintenance frock

Technical Field

The application relates to the technical field of electronic equipment maintenance equipment, in particular to an electronic equipment maintenance tool.

Background

In the process of maintaining the electronic equipment by a user, the electronic equipment maintenance tool is used for assisting the user in disassembling or pressing the electronic equipment. According to the difference of maintenance operation, electronic maintenance frock can divide into dismantlement frock or pressfitting frock. Usually, the user only needs to detach the tool and press fit the tool to finish the operation of maintaining the mobile phone. Therefore, the whole maintenance process is complicated, and the user experience is poor.

Disclosure of Invention

An object of the application is to provide an electronic equipment maintenance frock, integrated dismantlement function and pressfitting equipment function simplify electronic equipment's maintenance process, reduce user's the operation degree of difficulty, improve user's use experience.

The application provides an electronic equipment maintenance frock, this electronic equipment maintenance frock includes base, first clamping piece, rotates piece, sucking disc, first locating part and second clamping piece. The first clamping piece is connected with the base, and first clamping piece is used for pressing from both sides electronic equipment to the base, rotates the piece and rotates the connection with the base, and the sucking disc is connected with rotating the piece, and the sucking disc is used for adsorbing in electronic equipment's at least part (for example cell cover, screen or decoration of cell-phone). The first limiting piece can be connected with the base and the rotating piece to limit the rotating piece to rotate relative to the base, the second clamping piece is connected with the base, and the second clamping piece is used for clamping the electronic equipment to the rotating piece.

In the process of maintaining the electronic device, a user can clamp the electronic device onto the base by using the first clamping piece to limit the movement of the electronic device relative to the base, then the user can adsorb the sucker onto at least part of the electronic device (such as a battery cover, a screen or a decoration of a mobile phone), then the user can operate the rotating piece to rotate relative to the base, and the sucker connected with the rotating piece can drive at least part of the electronic device to be separated from the body of the electronic device clamped and fixed by the first clamping piece, so that the step of disassembling the electronic device is completed. When the user reassembles the disassembled electronic device, the electronic device needs to be integrally pressed to maintain the connection reliability in the electronic device. The user may connect the first limiting member with the base and the rotating member to limit the degree of freedom of rotation of the rotating member relative to the base. The user then places the electronic device to be pressed in the space between the second clamping member and the rotating member, and the user clamps the electronic device to the rotating member by operating the second clamping member so as to keep the electronic device in a pressed state. And after the compression process of the set time length, completing the step of assembling the electronic equipment. Compared with the prior art, the electronic equipment maintenance tool has the advantages that the electronic equipment maintenance tool has the function of disassembling and the function of assembling, the maintenance process of the electronic equipment and the operation difficulty of a user can be simplified, the maintenance efficiency of the user is high, and the use experience of the user is also high.

In one possible design, the first clamping member includes a first transmission member and a first clamping block connected to each other, the first transmission member being connected to the base, the first transmission member being driven to move the first clamping block for clamping the electronic device to the base.

The user can drive the first clamping block to move through operating the first transmission piece, and the position of the first clamping block relative to the base is changed, so that the size of a space between the first clamping block and the base (such as the second clamping part) is adjusted, and electronic equipment with different sizes (such as length sizes) can be clamped. In this application, first driving medium can play the effect of the size and the direction of change driving force to make first clamp block can be according to the direction of motion that the user preset for the base removes and according to the clamp force clamp electronic equipment of predetermineeing the numerical value, so that clamp electronic equipment's process is controllable, and the user's the operation degree of difficulty is lower.

In one possible design, the first transmission member includes a first screw, the first screw is in threaded connection with the base, the first screw is in rotational connection with the first clamping block, and the rotated first screw can drive the first clamping block to move for clamping the electronic device to the base.

The user can operate first screw rod and rotate for the base spiral, and first screw rod and first clamp block rotate to be connected, have the degree of freedom of rotation between first screw rod and the first clamp block promptly, consequently, first screw rod can drive first clamp block reciprocating motion, but first clamp block can not receive first screw rod pivoted influence. In this application, first screw rod and base threaded connection to make first screw rod can be as the speed reduction driving medium, the user can utilize first screw rod to finely tune the position of first clamp block, thereby can adapt to the electronic equipment of equidimension not accurately, the user also can utilize first screw rod to finely tune the clamping force of first clamp block, thereby can adapt to the electronic equipment of different extrusion limits accurately. In addition, first screw rod and base threaded connection to make first screw rod can regard as the auto-lock driving medium, when the user does not continue to exert the driving force to first screw rod, first screw rod can be for the base auto-lock, so that the relative base of first clamp block's position is fixed, and electronic equipment can be tightly fixed at the base with invariable clamp force by first clamp block, therefore, the operational reliability of the electronic equipment maintenance frock of this application is higher.

In one possible design, the first clamping block is slidingly connected to the base.

The first clamping block is in sliding connection with the base, the first clamping block can reciprocate according to the preset direction, namely, the first clamping block can repeatedly and accurately clamp electronic equipment to the preset position of the base, and therefore, the working reliability of the electronic equipment maintenance tool is higher.

In one possible design, the rotating member includes a rotating body and a second driving member, the rotating body and the second driving member are connected, the sucking disc can be detachably connected (directly connected or indirectly connected through other parts) with the rotating body, the rotating body is rotationally connected with the base, and the driven second driving member can be abutted with the base and can drive the rotating body to rotate relative to the base.

After the user clamps and fixes the electronic equipment, the user adsorbs the sucker to the part to be disassembled of the electronic equipment. The user operates the second transmission piece to be abutted to the base, the base is used as a supporting part of the second transmission piece, the rotating body is driven to rotate relative to the base, and then the sucking disc is driven to move by the rotating body, so that the part to be disassembled of the electronic equipment can be separated from the body of the electronic equipment. The second transmission piece can play a role in changing the size and the direction of the driving force, so that the rotating body can rotate relative to the base according to the preset moving direction of a user, and the sucking disc can detach the electronic equipment according to the preset tensile force, so that the process of detaching the electronic equipment is controllable, and the operation difficulty of the user is lower.

In one possible design, the second transmission member includes a second screw, which is screwed to the rotor, and the rotated second screw is capable of abutting against the base and of driving the rotor to rotate relative to the base.

The user can operate the second screw to screw with respect to the rotator. When the second screw rod is abutted with the base, the base serves as a supporting part of the second screw rod, the second screw rod moves approximately in-situ rotation relative to the base, the rotating body in threaded connection with the second screw rod rotates relative to the base, for example, the rotating body can be changed from a horizontal state to an inclined state, the position of the sucker is changed along with the horizontal state, and the sucker can separate a part to be detached of the electronic equipment from the body of the electronic equipment through adsorption force. In this application, second screw rod and base threaded connection to make the second screw rod can be as the speed reduction driving medium, the user can utilize the second screw rod to finely tune the position of rotor, thereby can dismantle electronic equipment treat the dismantlement position from electronic equipment's body gradually, and utilize the second screw rod to finely tune the adsorption affinity of sucking disc to electronic equipment, reduce electronic equipment because of dismantling the risk that the operation damaged. Therefore, the electronic equipment maintenance tool in the application is higher in working reliability. The second screw rod is in threaded connection with the base, so that the second screw rod can be used as a self-locking transmission piece, when a user does not continue to apply driving force to the second screw rod, the second screw rod can be self-locked relative to the rotating body, so that the rotating body and the base keep a constant opening and closing angle, namely the sucking disc is constant, the part to be detached of the electronic equipment can be provided with constant pulling force, the user can select to pause detachment or continue detachment, and the operation flexibility is high.

In one possible design, the surface of the second screw that can abut the base is a cambered surface.

Since the rotator rotates relative to the base, the second screw connected to the rotator swings relative to the base, and in addition, the second screw needs to be abutted to the base to drive the rotator to rotate relative to the base. When one surface of the second screw rod, which can be abutted with the base, is an arc surface, the second screw rod can be always self-adaptively attached to the surface of the base, so that the rotation and swing of the second screw rod are smooth, and the difficulty of operating the second screw rod by a user is reduced. In addition, the contact area of the cambered surface and the base is smaller, the abrasion degree of the second screw rod and the base can be reduced, and the service life of the second screw rod and the base can be prolonged.

In one possible design, the base includes a first elastic member, and the second transmission member is capable of abutting against the first elastic member.

When second driving medium (for example second screw rod) and first elastic component butt, first elastic component can play the cushioning effect to the second driving medium, reduces base and second driving medium promptly and leads to the risk of damage because of the extrusion force is too big, consequently, this setting can improve the life of base and second driving medium.

In one possible design, the rotating member includes a rotating body, a sliding body and a first connecting member, the rotating body is rotationally connected with the base, the sliding body is detachably connected with the suction cup, the rotating body is provided with a first sliding groove, the sliding body can slide in the first sliding groove along the length direction and/or the width direction of the rotating body, and the sliding body can be fixedly connected with the rotating body through the first connecting member.

The user can operate the sliding body to slide along the length direction and/or the width direction of the rotating body relative to the first sliding groove so as to change the position of the sucker connected with the sliding body, so that the sucker can accurately correspond to a part to be disassembled of the electronic equipment. When the user adjusts the sucker to a preset position, the user utilizes the first connecting piece to fixedly connect the sliding body to the rotating body so as to fix the position of the sucker relative to the rotating body. The sliding body is detachably connected with the sucker, and a user can replace the sucker with different size types and different material types so as to meet the operation requirements of disassembling parts with different types.

In one possible design, the second clamping member includes a third transmission member and a second clamping block, the third transmission member being connected to the base, the third transmission member being driven to move the second clamping block for clamping the electronic device to the rotating member.

When the user utilizes the electronic equipment maintenance tool to carry out pressing operation on the electronic equipment, according to the content, the user firstly utilizes the first limiting piece to limit the rotation of the rotating piece relative to the base. The user can then operate the third transmission member to drive the second clamping block to move, so as to change the position of the second clamping block relative to the rotating member, thereby adjusting the size of the space between the second clamping block and at least part (such as the third clamping portion) of the rotating member, and adapting to electronic devices with different sizes (thickness sizes). In this application, the third driving medium can play the effect of the size and the direction of change driving force to make the second clamp block can be according to the direction of motion that the user preset for the rotor removes and press from both sides tight electronic equipment according to the clamp force of predetermineeing numerical value, so that the process of pressing from both sides tight electronic equipment is controllable, and the user's the operation degree of difficulty is lower.

In one possible embodiment, the third transmission element comprises a third screw which is screwed to the base and which is rotated to bring the second clamping block into proximity with the rotation element.

The user can operate the third screw to rotate helically with respect to the base. The third screw rod is in threaded connection with the base, so that the third screw rod can be used as a speed reduction transmission piece, and a user can utilize the third screw rod to finely adjust the position of the second clamping block, so that the electronic equipment with different sizes can be accurately adapted. The user can also utilize the third screw rod to finely tune the clamping force of the second clamping block, so that the electronic equipment with different extrusion limits can be accurately adapted. In addition, the third screw rod is in threaded connection with the base, so that the third screw rod can serve as a self-locking transmission piece, when a user does not continuously apply driving force to the third screw rod, the third screw rod can be self-locked relative to the base, the second clamping block can be always at a preset position, and the electronic equipment can be clamped and fixed on the rotating piece by the second clamping block under constant clamping force. Therefore, the electronic equipment maintenance tool has higher working reliability.

In one possible design, the third transmission element has a first bevel, which can be brought into abutment with the second clamping block, and/or the second clamping block has a second bevel, which can be brought into abutment with the third transmission element.

When the third transmission piece is provided with a first inclined surface, the first inclined surface can be abutted with the second clamping block, and the first inclined surface has the function of changing the driving force direction so that the second clamping block can move along another preset direction. When the second clamping block is provided with a second inclined plane, the second inclined plane can be abutted with the third transmission piece. The second inclined surface has the function of changing the direction of the driving force so that the second clamping block can move in another preset direction. When the third transmission piece is provided with a first inclined plane, the second clamping block is provided with a second inclined plane, and the first inclined plane can be abutted with the second inclined plane to realize the effect of changing the driving force direction so that the second clamping block can move along another preset direction. The three settings enable a user to press fit the electronic equipment from the side part of the base, accords with the hand operation habit of the user, and has higher use experience.

In one possible design, the third transmission member comprises a first wedge portion having a first inclined surface, the second clamping block comprises a second wedge portion having a second inclined surface, and the first inclined surface is capable of abutting against the second inclined surface.

The first inclined surface of the first wedge-shaped part can be abutted with the second inclined surface of the second wedge-shaped part, and when the third transmission piece or the first wedge-shaped part moves in a preset direction, the second clamping block or the second wedge-shaped part can move in another preset direction, so that the second clamping block approaches the rotating piece, and the electronic equipment is clamped to the rotating piece. Under the setting, the user can carry out pressing operation on the electronic equipment from the side part of the base, accords with the hand operation habit of the user, and has higher use experience.

In one possible design, the second clamping block is slidingly connected to the base.

The second clamping block is slidably connected to the base, the arrangement being such that the second clamping block can slide in a predetermined direction, i.e. the second clamping block can repeatedly and accurately clamp the electronic device to the rotating member. Therefore, the electronic equipment maintenance tool has higher working reliability.

In one possible design, the second clamping member further includes a second elastic member, one end of the second elastic member can abut against the base, and the other end can abut against the second clamping block, and when the second clamping block approaches the rotating member, the second elastic member can be in a compressed state, so that the second clamping block has a tendency to be away from the rotating member.

When the user operates the third transmission part to drive the second clamping block to clamp the electronic equipment to the rotating part, the second elastic part is pressed to the base by the second clamping block, the second elastic part is in a compressed state, and the second elastic part has certain elastic potential energy. When the user operates the third transmission piece to be separated from the second clamping piece, the second clamping piece is not driven by the third transmission piece any more, the second elastic piece can release elastic potential energy to drive the second clamping piece to move in a direction away from the rotating piece, and the electronic equipment is not clamped to the rotating piece by the second clamping piece any more, so that the operation of pressing the electronic equipment is canceled.

In one possible design, the first limiting member is rotatably connected with the base, and the first limiting member can abut against the rotating member to limit the rotating member to rotate relative to the base.

When the user performs pressing operation on the electronic equipment, the user rotates the first limiting piece to a position which can be abutted against the rotating piece relative to the base, so that the first limiting piece forms a limiting effect on the rotating piece, the rotating piece is limited to rotate relative to the base, the rotating piece can serve as a reliable supporting piece of the electronic equipment, and the second clamping piece can reliably clamp the electronic equipment to the rotating piece. When the user does not press the electronic equipment, the user rotates the first limiting piece to a position separated from the rotating piece relative to the base, and the rotating piece can rotate freely relative to the base.

In one possible design, the electronic device maintenance tool further includes a positioning guide disposed on a side of the rotating member facing away from the base, where the positioning guide is used to position the adhesive (e.g., a back adhesive of the electronic device).

The user can bond one side of the adhesive to the positioning guide member, and the positioning guide member can be correspondingly bonded with the characteristic part on the adhesive, so that a positioning effect is formed on the adhesive, then the user can bond a part (such as a battery cover) in the electronic equipment with the adhesive, and then the adhesive and the part in the electronic equipment are taken down from the positioning guide member together. Under this setting, the location guide spare can assist the user to install the bonding thing on electronic equipment's part accurately, can reduce user's the operation degree of difficulty, and user's use experience is higher.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

FIG. 1 is a schematic view of an electronic equipment repair tool according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of the electronic equipment maintenance tool in fig. 1 under another view angle;

FIG. 3 is a cross-sectional view of the electronic equipment maintenance tool of FIG. 1 along direction A, wherein the rotating member is in a horizontal state;

FIG. 4 is a cross-sectional view of the electronic equipment maintenance tool of FIG. 1 along direction A, wherein the rotating member is in an inclined state;

FIG. 5 is a schematic view illustrating the assembly of the first clamping member, the second connecting member and the first nut in FIG. 3;

FIG. 6 is a schematic diagram illustrating the assembly of the first limiting member, the body, the second clamping portion, the first elastic member, the rotor and the second screw;

FIG. 7 is a schematic view of an exploded view of the base, second clamp member and first clamp block of FIG. 1;

FIG. 8 is a schematic view of an exploded view of the rotor and suction cup of FIG. 3;

fig. 9 is an assembly schematic diagram of the suction cup, the sliding body and the first connecting piece in fig. 3.

Reference numerals:

10-an electronic equipment maintenance tool;

1-a base;

11-a body;

111-a receiving cavity;

112-a fourth chute;

12-a second clamping portion;

13-a second connector;

14-a bottom plate;

15-a first elastic member;

16-a first nut;

17-a second nut;

2-a first clamping member;

21-a first transmission member;

211-a first screw;

212-a first knob;

22-a first clamping block;

221-a first sliding part;

221 a-a sliding projection;

222-a first clamping portion;

3-a rotating member;

31-a rotor;

311-a first chute;

312-a first hollowed-out part;

313-a third nut;

32-a second transmission member;

321-a second screw;

321 a-arc surface;

322-a second knob;

33-a slider;

331-quick release plate;

331 a-a socket;

331 b-a second runner;

332-quick-release head;

332 a-third runner;

34-a first connector;

35-positioning a guide;

36-a third clamping portion;

361-a second hollowed-out part;

4-sucking discs;

5-a first limiting piece;

6-a second clamping member;

61-a third transmission member;

611-a third screw;

611 a-T-shaped cylinder;

612—a first wedge;

612 a-a first ramp;

612b-T shaped groove;

613-a third knob;

62-a second clamping block;

621-a second wedge;

621 a-a second bevel;

622-fourth clamping portion;

63-a second elastic member;

7-supporting legs.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

In the description of the present application, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance unless explicitly specified or limited otherwise; the term "plurality" means two or more, unless specified or indicated otherwise; the terms "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, integrally connected, or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In the description of the present application, it should be understood that the terms "upper," "lower," and the like in the embodiments of the present application are described in terms of angles shown in the accompanying drawings, and should not be construed as limiting the embodiments of the present application. In the context of this document, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on the other element or be indirectly on the other element through intervening elements.

The embodiment of the application provides an electronic equipment maintenance tool which is used for assisting a user in maintaining electronic equipment. The electronic device may be a mobile terminal device such as a mobile phone, a tablet computer, a notebook computer, etc., and the subsequent embodiments herein mainly take the mobile phone as an example. Referring to fig. 1-3, an electronic equipment maintenance tool 10 according to an embodiment of the present application includes a base 1, a first clamping member 2, a rotating member 3, a suction cup 4, a first limiting member 5, and a second clamping member 6. Referring to fig. 3, a first clamping member 2 is connected to a base 1, the first clamping member 2 is used for clamping an electronic device (not shown in the drawings) to the base 1 (e.g., a left portion of the base 1 shown in fig. 3), a rotating member 3 is rotatably connected to the base 1, a suction cup 4 is connected to the rotating member 3, and the suction cup 4 is used for being attached to at least a portion of the electronic device (e.g., a battery cover, a screen, or a decoration of a mobile phone). Referring to fig. 2-3, a first limiting member 5 can be connected to the base 1 and the rotating member 3 to limit the rotating member 3 to rotate relative to the base 1, a second clamping member 6 is connected to the base 1, and the second clamping member 6 is used for clamping the electronic device to the rotating member 3.

In this embodiment, referring to fig. 1-3, during the maintenance of the electronic device, a user may clamp the electronic device (not shown) onto the base 1 by using the first clamping member 2 to limit the movement of the electronic device relative to the base 1, then the user may attach the suction cup 4 to at least a portion of the electronic device (such as a battery cover, a screen or a decoration of a mobile phone), then the user may operate the rotating member 3 to rotate relative to the base 1, the position of the rotating member shown in fig. 3 is rotated to the position of the rotating member shown in fig. 4, and the suction cup 4 connected to the rotating member 3 may drive at least a portion of the electronic device to separate from the body of the electronic device clamped and fixed by the first clamping member 2, thereby completing the step of disassembling the electronic device. When the user reassembles the disassembled electronic device, the electronic device needs to be integrally pressed to maintain the connection reliability in the electronic device. The user can connect the first stopper 5 with the base 1 and the rotator 3 to restrict the degree of freedom of rotation of the rotator 3 with respect to the base 1. The user then places the electronic device to be pressed in the space between the second clamping member 6 and the rotating member 3, and the user clamps the electronic device to the rotating member 3 by operating the second clamping member 6 so that the electronic device is kept in a pressed state. And after the compression process of the set time length, completing the step of assembling the electronic equipment. Compared with the prior art, which needs to independently disassemble and repair the tool and independently press fit and repair the tool, the electronic equipment repair tool 10 of the embodiment of the application has the disassembling function and the press fit assembling function, can simplify the repair process of the electronic equipment and the operation difficulty of a user, has higher repair efficiency of the user and has higher use experience of the user.

The material of the sucker 4 can be polyvinyl chloride PVC, and the polyvinyl chloride PVC has larger deformability and can be tightly and reliably adsorbed to the electronic equipment, so that the success rate of the disassembly operation of the electronic equipment maintenance tool 10 in the embodiment of the application is higher. When a user needs to detach the skin cell cover of the electronic equipment, glue can be coated on the sucker 4, and the sucker 4 is connected to the skin cell cover through the glue, so that the detachment success rate is improved. Of course, the suction cup 4 of the embodiment of the present application may also be used for adsorbing and removing battery covers made of ceramic materials, glass materials, composite boards, and the like.

Specifically, referring to fig. 5, the first clamping member 2 may include a first transmission member 21 and a first clamping block 22 that are connected, where the first transmission member 21 is connected to the base 1, and the driven first transmission member 21 can drive the first clamping block 22 to move for clamping the electronic device to the base 1.

In this embodiment, referring to fig. 5, a user can operate the first transmission member 21 to drive the first clamping block 22 to move, so as to change the position of the first clamping block 22 relative to the base 1, thereby adjusting the size of the space between the first clamping block 22 and at least a portion (the second clamping portion 12 shown in fig. 6) of the base 1, and clamping electronic devices with different sizes (for example, length sizes). In this embodiment, the first transmission member 21 may play a role in changing the magnitude and direction of the driving force, so that the first clamping block 22 may move relative to the base 1 according to the movement direction preset by the user and clamp the electronic device according to the clamping force of the preset value, so that the process of clamping the electronic device is controllable, and the operation difficulty of the user is low.

More specifically, referring to fig. 5, the first transmission member 21 may include a first screw 211, the first screw 211 is in threaded connection with the base 1, the first screw 211 is rotatably connected with the first clamping block 22, and the first screw 211 being rotated can drive the first clamping block 22 to move for clamping the electronic device to the base 1. The direction X is a length direction of the electronic equipment maintenance tool 10 in the embodiment of the present application.

In this embodiment, referring to fig. 5, a user may operate the first screw 211 to rotate helically with respect to the base 1 (i.e. the movement of the first screw 211 may be a reciprocating movement along the direction X and accompanied by a rotation about the direction X). The first screw rod 211 is rotatably connected with the first clamping block 22, that is, a rotational degree of freedom exists between the first screw rod 211 and the first clamping block 22 in the rotation direction X, so that the first screw rod 211 can drive the first clamping block 22 to reciprocate in the direction X, but the first clamping block 22 can not be influenced by the rotation of the first screw rod 211. In this embodiment, the first screw 211 is in threaded connection with the base 1, so that the first screw 211 can be used as a speed reduction transmission member, a user can use the first screw 211 to finely adjust the position of the first clamping block 22, so as to accurately adapt to electronic devices with different sizes, and the user can also use the first screw 211 to finely adjust the clamping force of the first clamping block 22, so as to accurately adapt to electronic devices with different extrusion limits. In addition, the first screw rod 211 is in threaded connection with the base 1, so that the first screw rod 211 can serve as a self-locking transmission piece, when a user does not continue to apply driving force to the first screw rod 211, the first screw rod 211 can be self-locked relative to the base 1, so that the first clamping block 22 is fixed relative to the base 1, and electronic equipment can be clamped and fixed on the base 1 by the first clamping block 22 with constant clamping force, so that the electronic equipment maintenance tool 10 is higher in working reliability.

The first transmission member 21 may be driven manually or electrically. In this embodiment, manual driving is mainly used as an example, for example, referring to fig. 5, the first transmission member 21 may further include a first knob 212, where the first knob 212 is connected to one end of the first screw 211, which is opposite to the first clamping block 22, and a user may manually rotate the first knob 212, so as to drive the first screw 211 to move helically relative to the base 1.

In addition, referring to fig. 4 to 5, the base 1 may include a body 11, a second connecting member 13, and a first nut 16, where the second connecting member 13 is mounted on the body 11, the first nut 16 is mounted on the second connecting member 13, and the first screw 211 is screwed with the first nut 16. With this arrangement, the first nut 16 and the first screw 211 having different pitches can be replaced to meet the use requirements of different fine adjustment accuracy. Referring to fig. 3, the rotating member 3 is rotatably connected to the second connecting member 13.

In other embodiments (not shown in the figures), the first clamping member 2 may be a cam, which is rotatably connected to the base 1, the rim of the cam being rotatable to abut against the electronic device to clamp the electronic device to the base 1, the rim of the cam being self-locking with the surface of the electronic device to maintain the electronic device in a relatively fixed state.

In other embodiments (not shown in the figures), the first transmission member 21 may be a cam, the cam is rotatably connected to the base 1, the rim of the cam being rotated can abut against the first clamping block 22, the cam can drive the first clamping block 22 to clamp the electronic device to the base 1, and the rim of the cam and the surface of the first clamping block 22 can be self-locked to maintain the electronic device in a relatively fixed state.

Referring to fig. 3-5, the first clamping block 22 is slidably connected to the base 1, so that the first clamping block 22 can reciprocate along a predetermined direction (e.g. along the direction X), that is, the first clamping block 22 can repeatedly and accurately clamp the electronic device to a predetermined position (e.g. the second clamping portion 12 shown in fig. 6) of the base 1, so that the operation reliability of the electronic device maintenance tool 10 in the embodiment of the present application is high.

Referring to fig. 7, a fourth sliding groove 112 is provided on the body 11 of the base 1, a sliding protrusion 221a is provided on the first sliding portion 221 of the first clamping block 22, and the sliding protrusion 221a is slidably matched with the fourth sliding groove 112, so as to realize sliding connection between the first clamping block 22 and the base 1.

In addition, referring to fig. 5, the first clamping block 22 includes a first sliding portion 221 and a first clamping portion 222 that are connected, the first sliding portion 221 is rotatably connected with the first screw 211, the first clamping portion 222 is used for clamping the electronic device to a predetermined position of the base 1 (the second clamping portion 12 shown in fig. 6), and the material of the first clamping portion 222 may have flexibility, so as to reduce the risk of the electronic device being damaged by extrusion. By changing the first clamping portions 222 with different degrees of flexibility, electronic devices with different compression limits can be accommodated.

Referring to fig. 3-4, the rotating member 3 may include a rotating body 31 and a second transmission member 32, where the rotating member 31 and the second transmission member 32 are connected, the suction cup 4 may be detachably connected (directly connected or indirectly connected through other parts) to the rotating body 31, the rotating body 31 is rotatably connected to the base 1, and the driven second transmission member 32 can abut against the base 1 and can drive the rotating body 31 to rotate relative to the base 1.

In this embodiment, referring to fig. 3-4, after the user clamps and fixes the electronic device, the user adsorbs the suction cup 4 to the part to be disassembled of the electronic device. The user operates the second transmission member 32 to abut against the base 1, and uses the base 1 as a supporting part of the second transmission member 32 to drive the rotating body 31 to rotate relative to the base 1, and then the rotating body 31 drives the sucker 4 to move, so that the part to be disassembled of the electronic equipment can be separated from the body of the electronic equipment. The second transmission member 32 can play a role in changing the magnitude and direction of the driving force, so that the rotating body 31 can rotate relative to the base 1 according to the movement direction preset by the user, and the sucking disc 4 can detach the electronic device according to the pulling force of the preset value, so that the process of detaching the electronic device is controllable, and the operation difficulty of the user is lower.

Referring to fig. 3 to 4, the second transmission member 32 may include a second screw 321, where the second screw 321 is in threaded connection with the rotating body 31, and the rotated second screw 321 can abut against the base 1 and can drive the rotating body 31 to rotate relative to the base 1.

In this embodiment, referring to fig. 3-4, a user can operate second screw 321 to rotate helically with respect to rotator 31. When the second screw 321 abuts against the base 1, the base 1 serves as a support portion of the second screw 321, the second screw 321 moves approximately in-situ rotationally with respect to the base 1, and the rotator 31 screwed with the second screw 321 rotates with respect to the base 1, for example, the rotator 31 may be shifted from a horizontal state as shown in fig. 3 to an inclined state as shown in fig. 4, and the position of the suction cup 4 may be changed accordingly, and the suction cup 4 may separate the part to be detached of the electronic apparatus from the body of the electronic apparatus by the suction force. In this embodiment, the second screw 321 is in threaded connection with the base 1, so that the second screw 321 can be used as a speed reduction transmission member, and a user can utilize the second screw 321 to finely adjust the position of the rotating body 31, so that the to-be-detached part of the electronic device can be gradually detached from the body of the electronic device, and the second screw 321 is utilized to finely adjust the adsorption force of the sucker 4 on the electronic device, so that the risk of damage of the electronic device due to the detachment operation is reduced. Therefore, the electronic equipment maintenance tool 10 of the embodiment of the application has higher working reliability. The second screw rod 321 is in threaded connection with the base 1, so that the second screw rod 321 can serve as a self-locking transmission piece, when a user does not continuously apply driving force to the second screw rod 321, the second screw rod 321 can be self-locked relative to the rotating body 31, so that the rotating body 31 and the base 1 keep a constant opening and closing angle, namely the sucking disc 4 is constant and can have constant pulling force on a part to be detached of the electronic equipment, the user can select to pause detachment or continue detachment, and the operation flexibility is high.

Referring to fig. 8, the rotating body 31 may further include a third nut 313, the third nut 313 is mounted on the body of the rotating body 31, the second screw 321 is in threaded connection with the third nut 313, and under this setting, the third nut 313 and the second screw 321 with different pitches may be replaced to meet the use requirements of different fine adjustment precision.

In addition, the second transmission member 32 may be driven manually or electrically. In this embodiment, manual driving is mainly used as an example, for example, referring to fig. 3, the second transmission member 32 may include a second knob 322, where the second knob 322 is connected to one end of the second screw 321 facing away from the base 1, and a user may manually rotate the second knob 322, so as to drive the second screw 321 to move helically relative to the rotator 31.

Referring to fig. 6, a surface of the second screw 321 that can abut against the base 1 may be a cambered surface 321a.

In this embodiment, as shown in fig. 6, since the rotator 31 rotates relative to the base 1, the second screw 321 connected to the rotator 31 also swings relative to the base 1, and the second screw 321 needs to be abutted to the base 1 to drive the rotator 31 to rotate relative to the base 1. When the surface of the second screw 321, which can be abutted against the base 1, is the cambered surface 321a, the second screw 321 can be always self-adaptively attached to the surface of the base 1, so that the rotation and swing of the second screw 321 are smooth, and the difficulty of operating the second screw 321 by a user is reduced. In addition, the contact area between the cambered surface 321a and the base 1 is smaller, so that the abrasion degree between the second screw 321 and the base 1 can be reduced, and the service life of the second screw 321 and the base 1 can be prolonged.

In other embodiments (not shown in the figures), the second transmission member 32 may comprise a cam, the cam is rotatably connected with the rotating body 31, the rim of the cam can abut against the base 1, under the support of the base 1, the user operates the cam to rotate relative to the rotating body 31 and drives the rotating body 31 to rotate relative to the base 1 by using the cam, and the position of the suction cup 4 is changed accordingly, so as to realize the above-mentioned operation of separating the to-be-detached part of the electronic device from the body of the electronic device.

Referring to fig. 6, the base 1 includes a first elastic member 15, and a second transmission member 32 can be abutted against the first elastic member 15.

In this embodiment, referring to fig. 6, when the second transmission member 32 (e.g. the second screw 321) abuts against the first elastic member 15, the first elastic member 15 can buffer the second transmission member 32, that is, reduce the risk of damage to the base 1 and the second transmission member 32 caused by excessive extrusion force, so that the service lives of the base 1 and the second transmission member 32 can be prolonged.

Wherein the first elastic member 15 may be an elastic pad or a spring.

In addition, referring to fig. 6, the base 1 may include a main body 11, a second clamping portion 12 and a first elastic member 15, wherein the second clamping portion 12 is mounted on the main body 11, and the first elastic member 15 is mounted on the second clamping portion 12. The second clamping portion 12 can be matched with the first clamping member 2 to clamp the electronic device, and the material of the second clamping portion 12 can be flexible, so that the risk of the electronic device being damaged by extrusion is reduced. By changing the second clamping portion 12 with a different degree of flexibility, electronic devices with different compression limits can be accommodated.

In other embodiments, at least a portion of the base 1 (e.g., the body 11) may have elasticity, which may abut the second transmission member 32.

Referring to fig. 8-9, the rotating member 3 may include a rotating body 31, a sliding body 33 and a first connecting member 34, wherein the rotating body 31 is rotatably connected with the base 1, the sliding body 33 is detachably connected with the suction cup 4, the rotating body 31 is provided with a first sliding slot 311, the sliding body 33 can slide in the first sliding slot 311 along a length direction (direction X) and/or a width direction (direction Y) of the rotating body 31, and the sliding body 33 can be fixedly connected with the rotating body 31 through the first connecting member 34.

In this embodiment, referring to fig. 8-9, the user can operate the sliding body 33 to slide along the length direction (direction X) and/or the width direction (direction Y) of the rotating body 31 relative to the first sliding slot 311, so as to change the position of the suction cup 4 connected to the sliding body 33, so that the suction cup 4 can accurately correspond to the part to be detached of the electronic device. When the user adjusts the suction cup 4 to a preset position, the user then uses the first connecting piece 34 to fixedly connect the sliding body 33 to the rotating body 31, so that the position of the suction cup 4 relative to the rotating body 31 is fixed. The sliding body 33 is detachably connected with the suction cup 4, and a user can replace the suction cup 4 with different size types and different material types so as to meet the operation requirements of disassembling different types of parts.

The dimensions of the first chute 311 along the length direction (direction X) and the width direction (direction Y) of the rotating body 31 may be set according to the use requirements of the user. For example, the slider 33 may slide in the first slide groove 311 by 0mm to 10mm in the longitudinal direction (direction X) of the rotor 31.

In addition, referring to fig. 8 to 9, the sliding body 33 may include a quick release plate 331 and a quick release head 332, the quick release plate 331 is provided with a second sliding slot 331b, and the first connecting piece 34 may be threaded with the rotator 31 after passing through the second sliding slot 331b, so as to fix the quick release plate 331 in the first sliding slot 311. The quick release plate 331 is provided with a socket 331a, the socket 331a being engageable with a side wall of the quick release head 332 and allowing at least a portion of the quick release plate 331 to slide into a third slide groove 332a of the quick release head 332. When the quick release plate 331 is fixed on the rotating body 31, the quick release head 332 is limited at a predetermined position of the rotating body 31 by the quick release plate 331. The rotator 31 is provided with a first hollow portion 312, so that the quick release head 332 can be inserted through the first hollow portion 312, and the suction cup 4 can be located on a side of the rotator 31 near the base 1. The quick-release head 332 can be detachably connected (in interference fit, clamping or pin connection) with the sucker 4, and the quick-release head 332 can be adapted to the sucker 4 with different size types and different material types so as to meet the operation requirements of disassembling different types of parts. For example, the removal head 332 may be adapted to a suction cup 4 having a diameter of 30mm-60 mm.

Referring to fig. 3 to 4, the second clamping member 6 may include a third transmission member 61 and a second clamping block 62, where the third transmission member 61 is connected to the base 1, and the driven third transmission member 61 can drive the second clamping block 62 to move for clamping the electronic device to the rotating member 3.

In this embodiment, referring to fig. 3 to 4, when a user performs a pressing operation on an electronic device by using the electronic device maintenance tool 10 according to the embodiment of the present application, according to the above embodiment, the user first uses the first limiting member 5 to limit the rotation of the rotating member 3 relative to the base 1. The user can then operate the third transmission member 61 to drive the second clamping block 62 to move, so as to change the position of the second clamping block 62 relative to the rotating member 3, thereby adjusting the size of the space between the second clamping block 62 and at least part (e.g. the third clamping portion 36) of the rotating member 3, and adapting to electronic devices with different sizes (thickness sizes). In this embodiment, the third transmission member 61 may play a role in changing the magnitude and direction of the driving force, so that the second clamping block 62 may move relative to the rotating member 3 according to the movement direction preset by the user and clamp the electronic device according to the clamping force of the preset value, so that the process of clamping the electronic device is controllable, and the operation difficulty of the user is low.

Referring to fig. 3 to 4, the third clamping portion 36 may be mounted on the rotating body 31, and the material of the third clamping portion 36 may have flexibility, so as to reduce the risk of the electronic device being damaged by extrusion. By changing the third clamping portion 36 with a different degree of flexibility, it is possible to adapt to electronic devices with different compression limits. Referring to fig. 8, the third clamping portion 36 may be provided with a second hollow portion 361, where the second hollow portion 361 is used for the suction cup 4 to pass through, so that the suction cup 4 is connected with the quick release head 332.

In addition, when the user uses the electronic equipment maintenance tool 10 of the embodiment of the application to perform pressing operation on the electronic equipment, the user can detach the suction cup 4 from the rotating member 3 first, so that the suction cup 4 does not interfere with the electronic equipment in a structure. When the user performs the pressing operation on the electronic device by using the electronic device maintenance tool 10 in the embodiment of the present application, the first clamping member 2 does not have a clamping effect on the electronic device.

Referring to fig. 3 to 4, the third transmission member 61 may include a third screw 611, where the third screw 611 is screwed with the base 1, and the third screw 611 being rotated can drive the second clamping block 62 to approach the rotating member 3.

In this embodiment, referring to fig. 3-4, a user can operate the third screw 611 to rotate helically relative to the base 1 (i.e. the movement of the third screw 611 may be a reciprocating movement along the direction X, and accompanied by a rotation about the direction X). The third screw 611 is in threaded connection with the base 1, so that the third screw 611 can be used as a speed reduction transmission member, and a user can use the third screw 611 to finely adjust the position of the second clamping block 62, so that electronic equipment with different sizes can be accurately adapted. The user can also use the third screw 611 to fine-tune the clamping force of the second clamping block 62, so that the electronic equipment with different extrusion limits can be accurately adapted. In addition, the third screw 611 is in threaded connection with the base 1, so that the third screw 611 can be used as a self-locking transmission member, when the user does not continue to apply the driving force to the third screw 611, the third screw 611 can be self-locked relative to the base 1, and the second clamping block 62 can be always at a preset position, that is, the electronic device can be clamped and fixed on the rotating member 3 by the second clamping block 62 with a constant clamping force. Therefore, the electronic equipment maintenance tool 10 of the embodiment of the application has higher working reliability.

The third transmission member 61 may be driven manually or electrically. In the embodiment of the present application, manual driving is mainly used as an example, for example, as shown in fig. 3 to 4, the third transmission member 61 may include a third knob 613, where the third knob 613 is connected to one end of the third screw 611, which is opposite to the second clamping block 62, and the user may manually rotate the third knob 613, so as to drive the third screw 611 to move helically relative to the base 1.

In addition, referring to fig. 7, the base 1 may include a body 11 and a second nut 17 connected to each other, and the third screw 611 is screwed with the second nut 17. With this arrangement, the second nut 17 and the third screw 611 having different pitches can be replaced to meet the use requirements of different fine adjustment accuracy.

In other embodiments (not shown in the figures), the third transmission member 61 may comprise a cam, which is rotatably connected to the base 1, the rim of which may abut against the second clamping block 62, the cam may drive the second clamping block 62 to clamp the electronic device to the rotating member 3, and the rim of which may be self-locking with the surface of the second clamping block 62 to keep the electronic device in a fixed state with respect to the rotating member.

Referring to fig. 7, the third transmission member 61 may have a first inclined surface 612a, the first inclined surface 612a may be abutted with the second clamping block 62, and/or the second clamping block 62 may have a second inclined surface 621a, and the second inclined surface 621a may be abutted with the third transmission member 61.

In one embodiment (not shown), only the third transmission member 61 has a first inclined surface 612a, the first inclined surface 612a being capable of abutting the second clamping block 62. The first inclined surface 612a has an effect of changing the direction of the driving force so that the second clamping block 62 can move in another preset direction. For example, the third transmission member 61 may be movable in the direction X, while the second clamping block 62 may be movable in the direction Z.

In another embodiment (not shown), only the second clamping block 62 has a second inclined surface 621a, the second inclined surface 621a being capable of abutting against the third transmission member 61. The second inclined surface 621a has an effect of changing the direction of the driving force so that the second clamping block 62 can move in another preset direction. For example, the third transmission member 61 may be movable in the direction X, while the second clamping block 62 may be movable in the direction Z.

In still another embodiment, as shown in fig. 7, the third transmission member 61 has a first inclined surface 612a, and the second clamping block 62 has a second inclined surface 621a, where the first inclined surface 612a can abut against the second inclined surface 621a to change the direction of the driving force, so that the second clamping block 62 can move along another predetermined direction. For example, the third transmission member 61 may be movable in the direction X, while the second clamping block 62 may be movable in the direction Z.

By the arrangement of the three embodiments, a user can press the electronic equipment from the side part of the base 1, so that the hand operation habit of the user is met, and the use experience of the user is higher.

The following embodiments will be mainly described by taking the example that the third transmission member 61 has the first inclined surface 612a and the second clamping block 62 has the second inclined surface 621 a.

Referring to fig. 3, 4 and 7, the third transmission member 61 may include a first wedge portion 612, the first wedge portion 612 has a first inclined surface 612a, the second clamping block 62 may include a second wedge portion 621, the second wedge portion 621 has a second inclined surface 621a, and the first inclined surface 612a can abut against the second inclined surface 621 a.

In this embodiment, referring to fig. 3, 4 and 7, the first inclined surface 612a of the first wedge portion 612 can abut against the second inclined surface 621a of the second wedge portion 621, and when the third transmission member 61 or the first wedge portion 612 moves along the direction X, the second clamping block 62 or the second wedge portion 621 can move along the direction Z, so as to achieve that the second clamping block 62 approaches the rotating member 3 along the direction Z, so as to clamp the electronic device to the rotating member 3. Under this setting, the user can follow the lateral part of base 1 and carry out pressfitting operation to electronic equipment, accords with user's hand operation habit, and user's use experience is higher.

As shown in fig. 3-4, the third screw 611 may be rotatably connected to the first wedge portion 612, that is, the third screw 611 only has a force acting on the first wedge portion 612 along the direction X. For example, an end of the third screw 611 facing away from the third knob 613 may be a T-shaped cylinder 611a, and the first wedge 612 may be provided with a T-shaped groove, and the T-shaped cylinder may be embedded in the T-shaped groove, thereby implementing a rotational connection of the third screw 611 and the first wedge 612.

In addition, referring to fig. 3 to 4, the base 1 includes a body 11 and a bottom plate 14 connected to each other, the first wedge portion 612 can slide relative to the bottom plate 14, and the bottom plate 14 serves as a support member for the first wedge portion 612.

In the above embodiment, the movable range of the second clamping block 62 in the direction Z is 5mm to 10mm.

Referring to fig. 3 to 4, the second clamping block 62 may be slidably connected to the base 1, so that the second clamping block 62 may slide in a predetermined direction (e.g., direction Z), that is, the second clamping block 62 may repeatedly and precisely clamp the electronic device to the rotating member 3. Therefore, the electronic equipment maintenance tool 10 of the embodiment of the application has higher working reliability.

Referring to fig. 3, 4 and 7, the body 11 of the base 1 is provided with a receiving cavity 111, the second clamping block 62 is located in the receiving cavity 111, and an outer wall of the second clamping block 62 is in limit fit with an inner wall of the body 11, so that the second clamping block 62 can be slidably connected with the body 11. In detail, the second clamping block 62 may include a fourth clamping portion 622 and a second wedge portion 621 connected. The outer wall of the fourth clamping portion 622 is in limit fit with the inner wall of the body 11, so that the fourth clamping portion 622 can be slidably connected with the body 11, and the fourth clamping portion 622 can be matched with the third clamping portion 36 of the rotating member 3 to clamp the electronic device. At least a portion of the fourth clamping portion 622 may be flexible to reduce the risk of the electronic device being damaged by compression. By changing the fourth clamping portion 622 with a different degree of flexibility to accommodate electronic devices with different compression limits.

Referring to fig. 3, 4 and 7, the second clamping member 6 may further include a second elastic member 63, where one end of the second elastic member 63 can abut against the base 1, and the other end can abut against the second clamping block 62, and when the second clamping block 62 approaches the rotating member 3, the second elastic member 63 can be in a compressed state, so that the second clamping block 62 has a tendency to be away from the rotating member 3.

In this embodiment, referring to fig. 3, 4 and 7, when the user operates the third transmission member 61 to drive the second clamping block 62 to clamp the electronic device to the rotating member 3, the second elastic member 63 is pressed to the base 1 by the second clamping block 62, the second elastic member 63 is in a compressed state, and the second elastic member 63 has a certain elastic potential energy. When the user operates the third transmission member 61 to separate from the second clamping block 62, the second clamping block 62 is no longer driven by the third transmission member 61, and the second elastic member 63 can release elastic potential energy to drive the second clamping block 62 to move away from the rotating member 3, so that the electronic device is no longer clamped to the rotating member 3 by the second clamping block 62, and the operation of pressing the electronic device is cancelled.

The second elastic member 63 may be a spring or other elastic member.

In the above embodiment, referring to fig. 3 to 4, the user can operate the third knob 613 to drive the third screw 611 to move helically relative to the base 1, the third screw 611 can drive the first wedge portion 612 to move along the direction X, the first wedge portion 612 can drive the second wedge portion 621 to move along the direction Z, and the second wedge portion 621 can drive the fourth clamping portion 622 to clamp the electronic device to the rotating member 3.

In the above embodiment, referring to fig. 2 and 6, the first limiting member 5 may be rotatably connected to the base 1, and the first limiting member 5 may abut against the rotating member 3 to limit the rotation of the rotating member 3 relative to the base 1.

In this embodiment, as shown in fig. 2 and 6, when the user performs the pressing operation on the electronic device, the user rotates the first limiting member 5 relative to the base 1 to a position where the first limiting member 5 can abut against the rotating member 3, so that the first limiting member 5 limits the rotating member 3 to rotate relative to the base 1, and the rotating member 3 can serve as a reliable support member of the electronic device, so that the second clamping member 6 can reliably clamp the electronic device to the rotating member 3. When the user does not press the electronic device, the user rotates the first limiting member 5 to a position separated from the rotating member 3 relative to the base 1, and the rotating member 3 can freely rotate relative to the base 1.

Referring to fig. 2 and 6, the first limiting member 5 can be clamped with the rotating body 31 of the rotating member 3, so that a user can easily change the usage state of the first limiting member 5, and the required operation difficulty is low.

In other embodiments (not shown in the drawings), the first limiting member 5 may be rotatably connected to the rotating member 3, and the first limiting member 5 may abut against the base 1 to limit the rotating member 3 to rotate relative to the base 1, which has the same effects as described above, and will not be described herein.

In the above embodiment, referring to fig. 3 to 4, the electronic equipment maintenance tool 10 may further include a positioning guide member 35, where the positioning guide member 35 may be disposed on a surface of the rotating member 3 facing away from the base 1, and the positioning guide member 35 is used for positioning an adhesive (for example, back glue of the electronic equipment).

In this embodiment, referring to fig. 3-4, a user may bond one side of the adhesive to the positioning guide 35, the positioning guide 35 may be bonded to the feature on the adhesive, so as to perform a positioning function on the adhesive, then the user may bond a part (e.g. a battery cover) in the electronic device to the adhesive, and then remove the adhesive and the part in the electronic device from the positioning guide 35. Under this setting, the positioning guide member 35 can assist the user to accurately install the adhesive on the part of the electronic device, can reduce the operation difficulty of the user, and the use experience of the user is higher.

Wherein the positioning guide 35 is arranged on the side of the rotor 31 facing away from the base 1.

In addition, the number of positioning guides 35 and the distribution position of the positioning guides 35 in the rotary member 3 may be set correspondingly according to different types of adhesives.

In the above embodiment, referring to fig. 1-2, the base 1 is provided with the legs 7, and the legs 7 are used to support the base 1 on a table.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (17)

1. An electronic equipment maintenance frock, its characterized in that includes:

a base (1);

a first clamping member (2) connected with the base (1), the first clamping member (2) being used for clamping an electronic device to the base (1);

the rotating piece (3) is rotationally connected with the base (1);

a sucker (4) connected with the rotating piece (3), wherein the sucker (4) is used for being adsorbed on at least part of the electronic equipment;

a first limiting piece (5) which can be connected with the base (1) and the rotating piece (3) so as to limit the rotating piece (3) to rotate relative to the base (1);

and a second clamping member (6) connected with the base (1), wherein the second clamping member (6) is used for clamping the electronic equipment to the rotating member (3).

2. The electronic equipment maintenance tool according to claim 1, wherein the first clamping member (2) comprises a first transmission member (21) and a first clamping block (22) which are connected, the first transmission member (21) is connected with the base (1), and the first transmission member (21) which is driven can drive the first clamping block (22) to move, so as to clamp the electronic equipment to the base (1).

3. The electronic equipment maintenance tool according to claim 2, wherein the first transmission piece (21) comprises a first screw rod (211), the first screw rod (211) is in threaded connection with the base (1), the first screw rod (211) is in rotary connection with the first clamping block (22), and the first screw rod (211) which is rotated can drive the first clamping block (22) to move so as to clamp the electronic equipment to the base (1).

4. A tool for repairing electronic equipment according to claim 3, wherein the first clamping block (22) is slidingly connected with the base (1).

5. The electronic equipment maintenance tool according to claim 1, wherein the rotating member (3) comprises a rotating body (31) and a second transmission member (32) which are connected, the suction cup (4) is detachably connected with the rotating body (31), the rotating body (31) is rotationally connected with the base (1), and the driven second transmission member (32) can be abutted with the base (1) and can drive the rotating body (31) to rotate relative to the base (1).

6. The electronic equipment maintenance tool according to claim 5, wherein the second transmission member (32) comprises a second screw rod (321), the second screw rod (321) is in threaded connection with the rotating body (31), and the rotated second screw rod (321) can be abutted with the base (1) and can drive the rotating body (31) to rotate relative to the base (1).

7. The electronic equipment maintenance tool according to claim 6, wherein a surface of the second screw (321) capable of abutting against the base (1) is an arc surface (321 a).

8. The electronic equipment maintenance tool according to claim 5, wherein the base (1) comprises a first elastic member (15), and the second transmission member (32) can be abutted with the first elastic member (15).

9. The electronic equipment maintenance tool according to claim 1, wherein the rotating member (3) comprises a rotating body (31), a sliding body (33) and a first connecting member (34), the rotating body (31) is rotationally connected with the base (1), the sliding body (33) is detachably connected with the suction cup (4), the rotating body (31) is provided with a first sliding groove (311), the sliding body (33) can slide in the first sliding groove (311) along the length direction and/or the width direction of the rotating body (31), and the sliding body (33) can be fixedly connected with the rotating body (31) through the first connecting member (34).

10. The electronic equipment maintenance tool according to claim 1, wherein the second clamping member (6) comprises a third transmission member (61) and a second clamping block (62), the third transmission member (61) is connected with the base (1), and the third transmission member (61) being driven can drive the second clamping block (62) to move for clamping the electronic equipment to the rotating member (3).

11. The electronic equipment maintenance tool according to claim 10, wherein the third transmission member (61) comprises a third screw rod (611), the third screw rod (611) is in threaded connection with the base (1), and the third screw rod (611) which is rotated can drive the second clamping block (62) to be close to the rotating member (3).

12. The electronic equipment repair fixture according to claim 10, characterized in that the third transmission member (61) has a first inclined surface (612 a), the first inclined surface (612 a) being abuttable against the second clamping block (62), and/or the second clamping block (62) has a second inclined surface (621 a), the second inclined surface (621 a) being abuttable against the third transmission member (61).

13. The electronic equipment repair fixture according to claim 12, wherein the third transmission member (61) comprises a first wedge portion (612), the first wedge portion (612) having the first inclined surface (612 a), the second clamping block (62) comprising a second wedge portion (621), the second wedge portion (621) having a second inclined surface (621 a), the first inclined surface (612 a) being abuttable against the second inclined surface (621 a).

14. The electronic equipment repair fixture according to claim 10, characterized in that the second clamping block (62) is slidingly connected with the base (1).

15. The electronic equipment maintenance tool according to claim 10, wherein the second clamping member (6) further comprises a second elastic member (63), one end of the second elastic member (63) can be abutted against the base (1), and the other end can be abutted against the second clamping block (62);

when the second clamping block (62) approaches the rotating member (3), the second elastic member (63) can be in a compressed state so that the second clamping block (62) has a tendency to move away from the rotating member (3).

16. The electronic equipment maintenance tool according to any one of claims 1-15, wherein the first limiting member (5) is rotatably connected with the base (1), and the first limiting member (5) can abut against the rotating member (3) to limit the rotation of the rotating member (3) relative to the base (1).

17. The electronic equipment maintenance tool according to any one of claims 1-15, wherein the electronic equipment maintenance tool (10) further comprises a positioning guide (35), the positioning guide (35) is arranged on a surface of the rotating member (3) facing away from the base (1), and the positioning guide (35) is used for positioning an adhesive.