CN220260869U - Disassembling device - Google Patents

Abstract

The disassembly device comprises a bottom plate, a first separation mechanism and a second separation mechanism, wherein the first separation mechanism comprises a sliding piece, a first supporting piece and a first absorption piece, the sliding piece is connected to the bottom plate in a sliding manner, the first supporting piece is connected to the sliding piece in a rotating manner, and the first absorption piece is connected to the first supporting piece and is used for absorbing electronic equipment; the second separation mechanism comprises a bearing plate, a turnover part, a second supporting part and a second absorption part, wherein the bearing plate and the bottom plate are arranged at intervals, the turnover part is rotatably connected to the bearing plate, the second supporting part is slidably connected to the turnover part along the first direction, the second absorption part is telescopically connected to the second supporting part, and the second absorption part is used for absorbing a battery. In the disassembly device, the sliding piece drives the first absorption piece to incline along the first direction, the second supporting piece drives the second absorption piece to move along the first direction, and the second absorption piece is connected with the second supporting piece in a telescopic manner, so that dislocation separation occurs between the electronic equipment and the battery, and the disassembly efficiency is improved.

Description

Disassembling device

Technical Field

The application relates to the field of processing, in particular to a disassembling device.

Background

In the prior art, in the process of disassembling a battery from an electronic product, the battery is usually required to be manually pried away from the electronic product, the battery or the electronic product is easy to damage by the mode, and the disassembling efficiency is low.

Disclosure of Invention

In view of the foregoing, it is necessary to provide a disassembling device that improves the disassembling efficiency.

The embodiment of the application provides a disassembling device which is used for disassembling a battery in electronic equipment and comprises a bottom plate, a first separating mechanism and a second separating mechanism;

the first separating mechanism comprises a sliding piece, a first supporting piece and a first absorbing piece, wherein the sliding piece is slidably connected to the bottom plate along a first direction, the first supporting piece is rotatably connected to the sliding piece, and the first absorbing piece is arranged on one side, away from the sliding piece, of the first supporting piece and is used for absorbing the electronic equipment;

the second separation mechanism comprises a bearing plate, a turnover part, a second supporting part and a second absorbing part, wherein the bearing plate is arranged at intervals with the bottom plate, the turnover part is rotatably connected with the bearing plate, the second supporting part is slidably connected with the turnover part along the first direction, the second absorbing part is telescopically connected with the second supporting part, and the second absorbing part is used for absorbing the battery.

The embodiment of the application comprises the following technical effects: in the above-mentioned disassembling device, disassemble the in-process of battery from electronic equipment, first adsorption piece adsorbs electronic equipment, and the upset piece rotates relative to the loading board, makes the second adsorb the piece and is close to first adsorption piece, and the second adsorbs the piece and remove in order to adsorb the battery on the electronic equipment towards first adsorption piece relative second support piece, and the slider drives first support piece and rotationally removes along first direction to make the plane that first adsorption piece is located with produce the contained angle between the plane that second adsorption piece is located. Meanwhile, the second supporting piece drives the second absorbing piece to move along the first direction, and the second absorbing piece moves towards the direction deviating from the first absorbing piece after dislocation occurs between the electronic equipment and the battery, so that the battery and the electronic equipment are completely separated, and the disassembly efficiency is improved.

In some embodiments of the present application, the first separating mechanism further includes a connecting rod and a rotating member, two ends of the connecting rod are respectively hinged to the sliding member and the first supporting member, the rotating member is connected to the bearing plate, the first supporting member is further rotatably connected to the rotating member, and the sliding member is used for driving the first supporting member to rotate by using the rotating member as a fulcrum through the connecting rod.

The embodiment of the application comprises the following technical effects: through setting up connecting rod and rotating member for when the slider drove the first support piece pivoted that connecting rod and connecting rod are connected, first support piece uses the rotating member to incline and remove as the fulcrum, with the contained angle that increases between first suction member and the horizontal plane, make electronic equipment and battery start the separation from the tip, reduce the risk that causes battery or electronic equipment damage because of electronic equipment and battery direct separation in vertical direction.

In some embodiments of the present application, the first separating mechanism further includes a first driving member, the first driving member includes a first driving portion, a screw rod and a sliding sleeve, the first driving portion is connected to the bottom plate, the first driving portion is in transmission connection with the screw rod to drive the screw rod to rotate, the sliding sleeve is sleeved on the screw rod and can move along the axial direction of the screw rod when the screw rod rotates, and the sliding member is connected to the sliding sleeve.

The embodiment of the application comprises the following technical effects: through above-mentioned setting, the connecting rod drives first support piece and rotates around the rotating member and the one end that the rotating member was kept away from to first support piece inclines towards the direction of first driving piece gradually for contained angle between the plane that first absorption piece is located and the plane that the second absorption piece is located increases gradually, and battery and electronic equipment separate gradually, realize preliminary separation of battery and electronic equipment.

In some embodiments of the present application, the carrier plate is provided with a first through hole, the first adsorption piece is exposed in the first through hole, the second separation mechanism further comprises two shaft seats, the two shaft seats are connected to the carrier plate and are relatively arranged on two sides of the first through hole, two ends of the turnover piece are respectively provided with a rotating shaft, and the rotating shafts are rotatably connected to the shaft seats.

The embodiment of the application comprises the following technical effects: through setting up the axle bed for the upset piece can rotate around the loading board, with the second absorption piece that drives on the upset piece changes to exposing the first absorption piece department in first through-hole, adsorbs the battery on the electronic equipment.

In some embodiments of the present application, the turnover member is provided with a second through hole, the second separation mechanism further includes a second driving member and a third driving member, the second driving member is connected to the turnover member and the driving end of the second driving member is connected to the second supporting member, so as to drive the second supporting member to slidably connect to the turnover member along the first direction, and the driving end of the third driving member passes through the second supporting member to connect to the second absorption member, so as to drive the second absorption member to telescopically connect to the second through hole along the second direction, and the second direction and the first direction are alternately arranged.

The embodiment of the application comprises the following technical effects: through set up the second through-hole on the upset piece to make the second driving piece can drive the second support piece and the second absorption piece that the second support piece is connected removes along first direction, so that the battery that the second absorption piece adsorbs takes place the dislocation with the electronic equipment that first absorption piece adsorbs and separates in first direction, the third driving piece passes the second through-hole and drives the second absorption piece and remove along the second direction, so that the battery that the second absorption piece adsorbs and the electronic equipment that first absorption piece adsorbs completely separate in the second direction.

In some embodiments of the present application, the disassembling device further comprises a first guide member, the first guide member comprises a first guide sliding rail and a first guide sliding block, the first guide sliding rail is connected to one side of the turning member facing the second driving member, the first guide sliding block is slidably connected to the first guide sliding rail along the first direction, and one side of the first guide sliding block facing away from the turning member is connected to the second supporting member.

The embodiment of the application comprises the following technical effects: through setting up first direction slide rail and first direction slider to make the second driving piece drive the second support piece steadily and remove in first direction, improve the stability when battery and electronic equipment separate.

In some embodiments of the present application, the disassembling device further comprises a second guiding piece, the second guiding piece comprises a second guiding sliding rail and a second guiding sliding block, one end of the second guiding sliding rail penetrates through the second supporting piece to be connected to the second absorbing piece, the other end of the second guiding sliding rail extends along the second direction towards the direction away from the second absorbing piece, and the second guiding sliding block is fixedly connected to the second supporting piece and is slidably connected to the second guiding sliding rail.

The embodiment of the application comprises the following technical effects: through setting up second direction slide rail and second direction slider to make the third driving piece drive the second absorption piece steadily and remove in the second direction, improve the stability when battery and electronic equipment separate.

In some embodiments of the present application, the second separating mechanism further includes a fourth driving member, where the fourth driving member is connected to the carrier plate, and the fourth driving member is in transmission connection with one of the rotating shafts on the turnover member, and is used to drive the turnover member to rotate relative to the carrier plate.

The embodiment of the application comprises the following technical effects: the turnover piece and the second adsorption piece on the turnover piece are driven to rotate relative to the bearing plate by the fourth driving piece, so that the turnover piece rotates to be close to the first adsorption piece to adsorb the battery or away from the first adsorption piece to separate the battery from the electronic equipment.

In some embodiments of the present application, the disassembling device further comprises a clamping mechanism, the clamping mechanism comprises at least four clamping pieces, the four clamping pieces are respectively enclosed on the peripheral sides of the first supporting pieces, and each clamping piece is slidably connected to the first supporting pieces and is used for moving towards or away from the first adsorbing piece on the first supporting pieces.

The embodiment of the application comprises the following technical effects: through setting up four clamping pieces and supporting in the week side of first support piece, when electronic equipment places on first suction attachment, four clamping pieces support on electronic equipment, improve the stability of electronic equipment on the first suction attachment.

In some embodiments of the present application, a side of each of the clamping members facing the first absorbing member is provided with a groove for holding and pressing the electronic device on the first absorbing member.

The embodiment of the application comprises the following technical effects: the clamping piece is provided with the imitation groove so as to adapt to the edge shape of the electronic equipment, thereby improving the stability of the clamping piece when the clamping piece abuts against the electronic equipment.

In the above-mentioned disassembling device, disassemble the in-process of battery from electronic equipment, first adsorption piece adsorbs electronic equipment, and the upset piece rotates relative to the loading board, makes the second adsorb the piece and is close to first adsorption piece, and the second adsorbs the piece and remove in order to adsorb the battery on the electronic equipment towards first adsorption piece relative second support piece, and the slider drives first support piece and rotationally removes along first direction to make the plane that first adsorption piece is located with produce the contained angle between the plane that second adsorption piece is located. Meanwhile, the second supporting piece drives the second absorbing piece to move along the first direction, and the second absorbing piece moves towards the direction deviating from the first absorbing piece after dislocation occurs between the electronic equipment and the battery, so that the battery and the electronic equipment are completely separated, and the disassembly efficiency is improved.

Drawings

Fig. 1 is a schematic overall structure of a disassembling device according to an embodiment of the disclosure.

Fig. 2 is a schematic view showing a structure in which a first separation mechanism and a second separation mechanism of the disassembling device in fig. 1 are separated.

Fig. 3 is a schematic structural view of a first separating mechanism of the disassembling device in fig. 1.

Fig. 4 is a schematic view showing a structure of the first separating mechanism and the second separating mechanism approaching to each other according to an embodiment of the present application.

Fig. 5 is a schematic structural view of a second separating mechanism of the disassembling device in fig. 1.

Fig. 6 is a schematic structural diagram of a fourth driving member according to an embodiment of the present application.

Description of the main reference signs

Disassembling device 100

Protective housing 10

Bottom plate 20

First separating mechanism 30

Slider 31

First support 32

First absorbent member 33

Connecting rod 34

Rotating member 35

First driving member 36

First driving part 361

Screw rod 362

Sliding sleeve 363

Limiting piece 37

Second separating mechanism 40

Bearing plate 41

First through hole 411

Turnover piece 42

Rotating shaft 421

Second through hole 422

Second support 43

Second absorbent member 44

Axle seat 45

Second driving member 46

Third driving member 47

Fourth driving member 48

Second driving part 481

Transmission shaft 482

Transmission belt 483

First guide 50

First guide slide rail 51

First guide slider 52

Second guide 60

Second guide slide 61

Second guide slider 62

Clamping mechanism 70

Clamping member 71

Imitation groove 711

Third guide 80

Third guide rail 81

Third guide slide 82

First direction X

Second direction Z

Third direction Y

The following detailed description will further illustrate the application in conjunction with the above-described figures.

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments.

It will be understood that when an element is referred to as being "mounted" to another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items. The terms "vertical," "horizontal," "left," "right," "top," "bottom," and the like are used herein for illustrative purposes only and are not intended to limit the present application.

It will be appreciated that when describing a parallel/perpendicular arrangement of two components, the angle between the two components allows for a tolerance of + -10% relative to standard parallel/perpendicular.

The embodiment of the application provides a dismounting device for disassemble battery among the electronic equipment, dismounting device includes bottom plate, first separating mechanism and second separating mechanism. The first separating mechanism comprises a sliding piece, a first supporting piece and a first absorbing piece, wherein the sliding piece is slidably connected to the bottom plate along a first direction, and the first supporting piece is rotatably connected to the sliding piece. The first adsorption piece is arranged on one side of the first support piece, which is away from the sliding piece, and is used for adsorbing the electronic equipment. The second separation mechanism comprises a bearing plate, a turnover part, a second supporting part and a second absorption part, wherein the bearing plate and the bottom plate are arranged at intervals, the turnover part is rotatably connected to the bearing plate, the second supporting part is slidably connected to the turnover part along the first direction, the second absorption part is telescopically connected to the second supporting part, and the second absorption part is used for absorbing a battery.

In the above-mentioned disassembling device, disassemble the in-process of battery from electronic equipment, first adsorption piece adsorbs electronic equipment, and the upset piece rotates relative to the loading board, makes the second adsorb the piece and is close to first adsorption piece, and the second adsorbs the piece and remove in order to adsorb the battery on the electronic equipment towards first adsorption piece relative second support piece, and the slider drives first support piece and rotationally removes along first direction to make the plane that first adsorption piece is located and the plane that second adsorption piece is located produce the contained angle between. Meanwhile, the second supporting piece drives the second absorbing piece to move along the first direction, and the second absorbing piece moves towards the direction deviating from the first absorbing piece after dislocation occurs between the electronic equipment and the battery, so that the battery and the electronic equipment are completely separated, and the disassembly efficiency is improved.

Some embodiments of the present application are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and fig. 2 together, the disassembling device 100 provided in the embodiment of the present application is used for disassembling a battery (not shown in the drawings) in an electronic device, and it is understood that the electronic device may be, but not limited to, a mobile phone, and the disassembling device 100 may also be used for separating other interconnected elements.

The dismantling device 100 comprises a protective housing 10, a base plate 20, a first separation mechanism 30 and a second separation mechanism 40.

The base plate 20, the first separating mechanism 30 and the second separating mechanism 40 are all disposed in the protective housing 10, and the protective housing 10 is used for protecting internal components.

The first separating mechanism 30 includes a slider 31, a first support 32, and a first suction member 33, the slider 31 being slidably connected to the base plate 20 along the first direction X, the first support 32 being rotatably connected to the slider 31. The first absorbing member 33 is disposed on a side of the first supporting member 32 facing away from the sliding member 31, and is used for absorbing the electronic device.

The second separating mechanism 40 includes a carrying plate 41, a turnover member 42, a second supporting member 43 and a second adsorbing member 44, where the carrying plate 41 is spaced from the bottom plate 20, and the turnover member 42 is rotatably connected to the carrying plate 41. The second support 43 is slidably connected to the turnover member 42 along the first direction X, the second adsorption member 44 is telescopically connected to the second support 43, and the second adsorption member 44 is used for adsorbing the battery.

In the above disassembling device 100, in the process of disassembling the battery from the electronic device, the first absorbing member 33 absorbs the electronic device, the turning member 42 rotates relative to the carrying plate 41, so that the second absorbing member 44 approaches the first absorbing member 33, the second absorbing member 44 moves towards the first absorbing member 33 relative to the second supporting member 43 to absorb the battery on the electronic device, and the sliding member 31 drives the first supporting member 32 to rotatably move along the first direction X, so that an included angle is formed between the plane of the first absorbing member 33 and the plane of the second absorbing member 44. Meanwhile, the second supporting piece 43 drives the second adsorbing piece 44 to move along the first direction X, and after the electronic equipment and the battery are dislocated, the second adsorbing piece 44 moves towards the direction deviating from the first adsorbing piece 33, so that the battery and the electronic equipment are completely separated, and the disassembly efficiency is improved.

In the present embodiment, the first absorbent member 33 and the second absorbent member 44 have a substantially rectangular structure to accommodate elements having a rectangular, square or circular shape, etc., thereby improving versatility of the first absorbent member 33 and the second absorbent member 44. Alternatively, the first absorbent member 33 and the second absorbent member 44 may be custom-formed into a specific shape according to the shape of the element.

Optionally, the first absorbent member 33 and the second absorbent member 44 are both of a suction cup configuration.

Referring to fig. 1, 2 and 3, in some embodiments, the first separating mechanism 30 further includes a connecting rod 34 and a rotating member 35, and two ends of the connecting rod 34 are hinged to the sliding member 31 and the first supporting member 32, respectively. The rotating member 35 is connected to the carrying plate 41, the first supporting member 32 is further rotatably connected to the rotating member 35, and the sliding member 31 is configured to drive the first supporting member 32 to rotate about the rotating member 35 through the connecting rod 34, so as to increase an included angle between the first absorbing member 33 and a horizontal plane, so that the electronic device and the battery are separated from each other from the end, and a risk of damage to the battery or the electronic device caused by direct separation of the electronic device and the battery in a vertical direction is reduced. Alternatively, the connecting rod 34 may drive the first supporting member 32 to rotate 3-5 ° relative to the bearing plate 41 under the driving of the sliding member 31.

In the present embodiment, two rotating members 35 are included, and the two rotating members 35 are connected to the shield case 10 at intervals in the third direction Y. The two rotating members 35 are coaxially disposed to enhance the stability of the first supporting member 32 when rotated. In this embodiment, the third direction Y is perpendicular to the first direction X.

The first separation mechanism 30 further includes a first drive 36, the first drive 36 including a first drive 361, a lead screw 362, and a slip sleeve 363. The first driving part 361 is connected to the bottom plate 20, the first driving part 361 is connected to the screw rod 362 to drive the screw rod 362 to rotate, the sliding sleeve 363 is sleeved on the screw rod 362 and can move along the axial direction of the screw rod 362 when the screw rod 362 rotates, and the sliding piece 31 is connected to the sliding sleeve 363. When the first driving portion 361 drives the screw rod 362 to rotate, the sliding sleeve 363 on the screw rod 362 drives the connecting rod 34 to move along the first direction X, the connecting rod 34 drives the first supporting member 32 to rotate around the rotating member 35, and one end of the first supporting member 32 away from the rotating member 35 gradually inclines towards the direction of the first driving member 36, so that an included angle between a plane where the first absorbing member 33 is located and a plane where the second absorbing member 44 is located is gradually increased, the battery and the electronic device are gradually separated, and the risk of damage to the battery or the electronic device caused by direct vertical separation of the electronic device and the battery is reduced.

Alternatively, the first driving part 361 is a hybrid servo motor.

The first separating mechanism 30 further includes two stoppers 37, and the two stoppers 37 are connected to the side of the bottom plate 20 facing the first support 32 at intervals along the first direction X. The two limiting members 37 limit the travel of the first support 32 in the first direction X while reducing the risk of the sliding sleeve 363 coming out of the screw 362 when sliding along the screw 362.

The carrier 41 has a first through hole 411, and the first absorbing member 33 is exposed in the first through hole 411. The second separating mechanism 40 further includes two shaft seats 45, the two shaft seats 45 are connected to the bearing plate 41 and are disposed on two sides of the first through hole 411, two ends of the turning member 42 are respectively provided with a rotating shaft 421, and the rotating shafts 421 are rotatably connected to the shaft seats 45. By arranging the shaft seat 45, the turnover piece 42 can rotate around the bearing plate 41, so as to drive the second adsorption piece 44 on the turnover piece 42 to rotate to the first adsorption piece 33 exposed in the first through hole 411 for adsorbing the battery on the electronic device.

The turning member 42 is provided with a second through hole 422, and the second separating mechanism 40 further includes a second driving member 46 and a third driving member 47, where the second driving member 46 is connected to the turning member 42 and a driving end of the second driving member 46 is connected to the second supporting member 43, so as to drive the second supporting member 43 to be slidably connected to the turning member 42 along the first direction X. The second driving member 46 can drive the second supporting member 43 and the second adsorbing member 44 connected to the second supporting member 43 to move along the first direction X, so that the battery adsorbed by the second adsorbing member 44 and the electronic device adsorbed by the first adsorbing member 33 are separated in a dislocation manner in the first direction X. Alternatively, the second driving member 46 may drive the second supporting member 43 and the second adsorbing member 44 connected to the second supporting member 43 to move 4mm in the first direction X.

The driving end of the third driving member 47 passes through the second supporting member 43 and is connected to the second absorbing member 44, so as to drive the second absorbing member 44 to be telescopically connected to the second through hole 422 along a second direction Z, which is disposed intersecting the first direction X, and in this embodiment, is perpendicular to the first direction X. The third driving member 47 passes through the second through hole 422 to drive the second adsorption member 44 to move along the second direction Z, so that the battery adsorbed by the second adsorption member 44 is completely separated from the electronic device adsorbed by the first adsorption member 33 in the second direction Z. Alternatively, the third driving member 47 may drive the second adsorbing member 44 to move 4mm in the second direction Z.

Alternatively, the second driving member 46 is a transverse motor and the third driving member 47 is a linear screw stepper motor.

It will be appreciated that the third driving member 47 is also used to drive the second absorbing member 44 to approach and absorb the battery on the electronic device before the second absorbing member 44 absorbs the battery.

Referring to fig. 1, fig. 4 and fig. 5 together, in some embodiments, the disassembling device 100 further includes a first guide member 50, where the first guide member 50 includes a first guide rail 51 and a first guide slider 52, the first guide rail 51 is connected to a side of the turning member 42 facing the second driving member 46, the first guide slider 52 is slidably connected to the first guide rail 51 along a first direction X, and a side of the first guide slider 52 facing away from the turning member 42 is connected to the second supporting member 43, so that the second driving member 46 stably drives the second supporting member 43 to move in the first direction X, thereby improving stability when the battery and the electronic device are separated.

In this embodiment, four sets of first guiding elements 50 are connected to the turning element 42, and every two sets of first guiding elements 50 are disposed at the edges of the same side of the second supporting element 43, so that the second supporting element 43 moves more stably in the first direction X.

The disassembling device 100 further includes a second guide member 60, where the second guide member 60 includes a second guide sliding rail 61 and a second guide sliding block 62, one end of the second guide sliding rail 61 passes through the second support member 43 and is connected to the second absorbing member 44, the other end of the second guide sliding rail 61 extends along the second direction Z toward a direction away from the second absorbing member 44, and the second guide sliding block 62 is fixedly connected to the second support member 43 and slidably connected to the second guide sliding rail 61, so that the third driving member 47 stably drives the second absorbing member 44 to move in the second direction Z, thereby improving stability when the battery is separated from the electronic device.

Referring to fig. 1, 2 and 6, in some embodiments, the second separating mechanism 40 further includes a fourth driving member 48, the fourth driving member 48 is connected to the carrier 41, and the fourth driving member 48 is in transmission connection with one of the rotating shafts 421 on the turning member 42, so as to drive the turning member 42 to rotate relative to the carrier 41, so that the turning member 42 drives the second adsorbing member 44 to rotate close to the first adsorbing member 33 to adsorb the battery or away from the first adsorbing member 33 to separate the battery from the electronic device. Alternatively, the fourth driving member 48 may rotate the flipping member 42 and the second absorbing member 44 connected to the flipping member 42 by 75 ° relative to the supporting plate 41.

The fourth driving member 48 includes a second driving portion 481, a driving shaft 482 and a driving belt 483, the second driving portion 481 and the driving shaft 482 are disposed on the protective housing 10 at intervals along the third direction Y, and the rotating shaft 421 of the tilting member 42 is connected to the driving shaft 482. The driving belt 483 is sleeved on the driving end of the second driving part 481 and the driving shaft 482, the second driving part 481 drives the driving shaft 482 to rotate through the driving belt 483, the driving shaft 482 drives the turning piece 42 to rotate, and the turning piece 42 drives the second absorbing piece 44 to rotate by taking the rotating shaft 421 as a pivot, so that the plane of the second absorbing piece 44 is turned relative to the plane of the first absorbing piece 33, and the electronic device and the battery are thoroughly separated.

It will be appreciated that when the next electronic device and battery need to be disassembled, the first adsorbing member 33 adsorbs the electronic device, and the fourth driving member 48 drives the second adsorbing member 44 on the turning member 42 to rotate towards the first adsorbing member 33, so that the second adsorbing member 44 rotates to the position of the electronic device to adsorb the battery for separation.

Referring to fig. 1, 2 and 3 again, in some embodiments, the disassembling device 100 further includes a clamping mechanism 70, the clamping mechanism 70 includes at least four clamping members 71, the four clamping members 71 are respectively disposed around the circumference of the first supporting member 32, and each clamping member 71 is slidably connected to the first supporting member 32 and configured to move towards or away from the first absorbing member 33 on the first supporting member 32, and when the electronic device is placed on the first absorbing member 33, the four clamping members 71 abut against the electronic device, so as to improve the stability of the electronic device on the first absorbing member 33.

Each clamping member 71 is provided with a profiling groove 711 on a side facing the first absorbing member 33, and the profiling grooves are used for propping and pressing the electronic device on the first absorbing member 33, so that the clamping members 71 adapt to the edge shape of the electronic device, and the stability of the clamping members 71 when propping against the electronic device is improved.

The disassembling device 100 further comprises four third guiding elements 80, each third guiding element 80 is correspondingly connected between the clamping element 71 and the first supporting element 32, the third guiding element 80 comprises a third guiding sliding rail 81 and a third guiding sliding block 82, the third guiding sliding rail 81 is connected with the first supporting element 32, the third guiding sliding block 82 is slidably connected with the third guiding sliding rail 81, and the clamping element 71 is connected to one side, facing away from the third guiding sliding rail 81, of the third guiding sliding block 82, so that the clamping element 71 is stably abutted against the electronic equipment.

In this embodiment, the disassembling device 100 further includes a sensor (not shown in the figure) for sensing whether the electronic device on the first absorbing member 33 is placed in place, and reminding an operator of placing the electronic device in time when the electronic device to be separated is not sensed, so as to improve the disassembling efficiency.

In this embodiment, the disassembling step of the disassembling device 100 includes the following steps:

s1, placing the electronic equipment to be separated on a first adsorption member 33, and moving a clamping mechanism 70 to enable each clamping member 71 to clamp at the edge of the electronic equipment;

s2, the fourth driving piece 48 drives the turnover piece 42 to turn towards the first absorption piece 33 and turn to the electronic equipment, the third driving piece 47 drives the second absorption piece 44 to move towards the electronic equipment along the second direction Z until the second absorption piece moves to a safe position, the third driving piece 47 slowly moves and drives the second absorption piece 44 to absorb the battery on the electronic equipment, and meanwhile, whether the pressure value of the second absorption piece 44 on the battery meets the standard is detected;

s3, the first driving piece 36 drives the sliding piece 31 to move along the first direction X, the connecting rod 34 drives the first supporting piece 32 to rotate obliquely by 3-5 degrees around the rotating piece 35 relative to the bearing plate 41, the second driving piece 46 drives the second absorbing piece 44 to translate by 4mm along the first direction X, the third driving piece 47 drives the second absorbing piece 44 to translate by 4mm along the second direction Z towards a direction far away from the first absorbing piece 33, and then the fourth driving piece 48 drives the overturning piece 42 and the second absorbing piece 44 connected to the overturning piece 42 to rotate by 75 degrees relative to the bearing plate 41;

s4, the third driving piece 47 is reset to the initial position, the second absorbing piece 44 is opened to enable the second absorbing piece 44 to absorb the battery, the clamping piece 71 is loosened, meanwhile, the first absorbing piece 33 absorbs the electronic equipment, the fourth driving piece 48 is started, and the fourth driving piece 48 drives the second absorbing piece 44 to rotate relative to the first absorbing piece 33, so that the electronic equipment is completely separated from the battery.

It will be appreciated by those skilled in the art that the above embodiments are provided for illustration only and not as limitations of the present application, and that suitable modifications and variations of the above embodiments are within the scope of the disclosure of the present application as long as they are within the true spirit of the present application.

Claims (10)

1. A disassembling device for disassembling a battery in an electronic device, comprising:

a bottom plate;

the first separating mechanism comprises a sliding piece, a first supporting piece and a first absorbing piece, wherein the sliding piece is slidably connected to the bottom plate along a first direction, the first supporting piece is rotatably connected to the sliding piece, and the first absorbing piece is arranged on one side, away from the sliding piece, of the first supporting piece and is used for absorbing the electronic equipment;

the second separating mechanism comprises a bearing plate, a turnover part, a second supporting part and a second absorbing part, wherein the bearing plate is arranged at intervals with the bottom plate, the turnover part is rotatably connected with the bearing plate, the second supporting part is slidably connected with the turnover part along the first direction, the second absorbing part is telescopically connected with the second supporting part, and the second absorbing part is used for absorbing the battery.

2. The dismantling device as claimed in claim 1, wherein: the first separating mechanism further comprises a connecting rod and a rotating piece, two ends of the connecting rod are respectively hinged to the sliding piece and the first supporting piece, the rotating piece is connected to the bearing plate, the first supporting piece is further rotatably connected to the rotating piece, and the sliding piece is used for driving the first supporting piece to rotate by taking the rotating piece as a fulcrum through the connecting rod.

3. The dismantling device as claimed in claim 2, wherein: the first separating mechanism further comprises a first driving piece, the first driving piece comprises a first driving part, a screw rod and a sliding sleeve, the first driving part is connected to the bottom plate, the first driving part is in transmission connection with the screw rod to drive the screw rod to rotate, the sliding sleeve is sleeved on the screw rod and can move along the axial direction of the screw rod when the screw rod rotates, and the sliding piece is connected to the sliding sleeve.

4. The dismantling device as claimed in claim 1, wherein: the bearing plate is provided with a first through hole, the first adsorption piece is exposed in the first through hole, the second separation mechanism further comprises two shaft seats, the two shaft seats are connected to the bearing plate and are oppositely arranged on two sides of the first through hole, two ends of the turnover piece are respectively provided with a rotating shaft, and the rotating shafts are rotatably connected to the shaft seats.

5. The dismantling device as claimed in claim 1, wherein: the turnover piece is provided with a second through hole, the second separation mechanism further comprises a second driving piece and a third driving piece, the second driving piece is connected with the turnover piece, the transmission end of the second driving piece is connected with the second supporting piece and used for driving the second supporting piece to be connected with the turnover piece in a sliding mode along the first direction, the transmission end of the third driving piece penetrates through the second supporting piece and is connected with the second absorption piece and used for driving the second absorption piece to be connected with the second through hole in a telescopic mode along the second direction, and the second direction and the first direction are arranged in a crossing mode.

6. The dismantling device as set forth in claim 5, wherein: the disassembly device further comprises a first guide piece, the first guide piece comprises a first guide sliding rail and a first guide sliding block, the first guide sliding rail is connected to one side, facing the second driving piece, of the turnover piece, the first guide sliding block is slidably connected to the first guide sliding rail along the first direction, and one side, facing away from the turnover piece, of the first guide sliding block is connected to the second supporting piece.

7. The dismantling device as set forth in claim 5, wherein: the disassembling device further comprises a second guide piece, the second guide piece comprises a second guide sliding rail and a second guide sliding block, one end of the second guide sliding rail penetrates through the second support piece to be connected with the second absorption piece, the other end of the second guide sliding rail extends along the second direction towards the direction away from the second absorption piece, and the second guide sliding block is fixedly connected with the second support piece and slidably connected with the second guide sliding rail.

8. The dismantling device as set forth in claim 4, wherein: the second separating mechanism further comprises a fourth driving piece, the fourth driving piece is connected to the bearing plate, and the fourth driving piece is connected to one of the rotating shafts on the turnover piece in a transmission mode and is used for driving the turnover piece to rotate relative to the bearing plate.

9. The dismantling device as claimed in claim 1, wherein: the disassembling device further comprises a clamping mechanism, the clamping mechanism comprises at least four clamping pieces, the four clamping pieces are respectively arranged on the periphery of the first supporting piece in a surrounding mode, and each clamping piece is connected with the first supporting piece in a sliding mode and used for moving towards or away from the first adsorption piece on the first supporting piece.

10. The dismantling device as recited in claim 9, wherein: and one side of each clamping piece, facing the first absorption piece, is provided with an imitation groove for propping against and pressing the electronic equipment on the first absorption piece.