CN218311863U - Assembling device - Google Patents

Abstract

An assembly device is used for installing a magnet on a product and comprises a support plate, an adsorption mechanism, a separation mechanism and a pressing mechanism, wherein the support plate is provided with a positioning hole; the adsorption mechanism comprises a sliding part and an adsorption part, the sliding part is slidably limited and connected to the positioning hole, and the adsorption part is slidably connected to the sliding part; one end of the separating mechanism is rotatably connected with the carrier plate, and the other end of the separating mechanism penetrates through the sliding part and is in transmission connection with the adsorption part; the pressing mechanism comprises a first pressing plate, a second pressing plate and a pressing piece, the first pressing plate and the second pressing plate are arranged oppositely, and the pressing piece is connected with the second pressing plate and can penetrate through the first pressing plate. In the assembling device, the magnet to be installed is adsorbed on the adsorption piece, the first lower pressing plate abuts against the sliding piece and the adsorption piece to press the magnet onto the product when moving towards the support plate, and then the second lower pressing plate drives the lower pressing piece to enable the separation mechanism to separate the adsorption piece from the magnet installed on the product, so that the magnet is automatically separated from the assembling device.

Description

Assembling device

Technical Field

The application relates to tool processing field especially relates to an assembly quality.

Background

The existing equipment fixes the magnet pressfitting at the in-process of product, and magnet attracts mutually with the carrier easily, leads to installing magnet and carrier difficult separation on the product, and the course of separation makes the product warp easily, influences the pressfitting effect, and the yields is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide an assembling apparatus for improving the yield.

The embodiment of the application provides an assembling device, which is used for installing a magnet on a product and comprises a support plate, an adsorption mechanism, a separation mechanism and a pressing mechanism, wherein the support plate is provided with a positioning hole, and the positioning hole is used for installing the magnet;

the adsorption mechanism comprises a sliding part and an adsorption part, the sliding part is slidably limited and connected to the positioning hole, and the adsorption part is slidably connected to the sliding part;

one end of the separation mechanism is rotatably connected with the carrier plate, and the other end of the separation mechanism penetrates through the sliding part and is in transmission connection with the adsorption part;

the pressing mechanism comprises a first pressing plate, a second pressing plate and a pressing piece, the first pressing plate and the second pressing plate are arranged oppositely, and the pressing piece is connected with the second pressing plate and can penetrate through the first pressing plate;

the sliding part and the adsorption part can protrude towards the first lower pressing plate to form the support plate, the first lower pressing plate is used for abutting against the sliding part and enabling the magnet to move towards the product, the second lower pressing plate is used for moving relative to the first lower pressing plate and driving the lower pressing plate to abut against one end, far away from the sliding part, of the separation mechanism, so that the separation mechanism rotates to drive the adsorption part to move relative to the sliding part and towards the direction, far away from the magnet, of the sliding part.

The embodiment of the application comprises the following technical effects: among the above-mentioned assembly device, through on will waiting the magnet absorption piece of installation, first holding down plate supports when moving towards the support plate and pushes up slider and absorption piece and press magnet to the product on the back, and the second holding down plate drives the holding down piece so that separating mechanism will adsorb the piece and install the magnet separation to the product, realizes magnet and assembly device's autosegregation, improves the yields.

In some embodiments of the application, the adsorption piece includes slider and first magnetic part, slider slidable ground is located in the slider, first magnetic part is connected the slider just is used for with magnet adsorption is fixed in slider one side, the slider is close to be equipped with the control hole on separating mechanism's the one end lateral wall, separating mechanism one end stretches into in the control hole.

The embodiment of the application comprises the following technical effects: the first magnetic part is used for adsorbing a magnet to be installed, and the floating block drives the first magnetic part to move towards a product under the driving of the separating mechanism so as to install the magnet on the product.

In some embodiments of this application, the support plate still is equipped with the mounting hole, the mounting hole intercommunication the locating hole, separating mechanism locates in the mounting hole, separating mechanism includes support piece and separator, support piece orientation one side of pushing down the piece is equipped with the mounting groove, the separator rotationally connects support piece, the one end of separator stretches into in the control hole, the separator is kept away from the one end of control hole is located in the mounting groove, it is used for stretching into to push down the piece drive in the mounting groove the separator rotates.

The embodiment of the application comprises the following technical effects: one end of the separating piece extends into the control hole, and when the lower pressing piece abuts against and is connected with the separating piece, the separating piece drives the adsorption piece to be far away from the product by taking the supporting piece as a fulcrum, so that the magnet mounted on the product is separated from the adsorption piece.

In some embodiments of this application, the separator orientation one side of pushing down the piece is equipped with the arcwall face, push down the piece be equipped with the confession face of arcwall face looks adaptation, the confession face with the arcwall face contacts and is used for the drive the separator is relative support piece rotates.

The embodiment of the application comprises the following technical effects: when the second lower pressing plate drives the lower pressing piece to move towards the support plate, the matching surface and the arc-shaped surface are mutually abutted and connected, so that the separating piece drives the adsorption piece to slide in the sliding piece, and the adsorption piece is separated from the magnet.

In some embodiments of the application, the sliding part includes main part and two sliding parts, the main part is equipped with the slip hole and communicates the groove of dodging of slip hole, the slider is located in the slip hole slidable, the one end of separator is passed dodge the groove and stretch into in the control hole, two the sliding part is located respectively the both sides of main part, sliding part slidable spacing connect in the locating hole.

In some embodiments of this application, assembly quality still includes two spacing subassemblies, spacing subassembly is located in the locating hole and with the sliding part one-to-one sets up, spacing subassembly includes first stopper and second stopper, first stopper with the second stopper is followed the axial interval of locating hole is located the both ends of the pore wall of locating hole, slidable ground spacing connect in first stopper with between the second stopper.

The embodiment of the application comprises the following technical effects: through set up spacing subassembly in the locating hole for the sliding part moves between first stopper and second stopper, has restricted the slip range of slider, reduces the slider and breaks away from the emergence of the condition of locating hole under separating mechanism's drive.

In some embodiments of the present application, the sliding portion is close to the first stopper with the tip of second stopper all is equipped with the second magnetic part, the first stopper with the second stopper is close to the position department of sliding portion tip is equipped with the third magnetic part, the second magnetic part with the third magnetic part is adsorbable to be connected.

The embodiment of the application comprises the following technical effects: through set up the second magnetic part on the sliding part, set up the third magnetic part with second magnetic part looks adaptation on first stopper, second stopper, when the sliding part contacts first stopper or second stopper, the second magnetic part cooperates with the third magnetic part in order to improve the stability of being connected of sliding part and first stopper, sliding part and second stopper.

In some embodiments of the present application, the separator is kept away from the one end in control hole is equipped with fourth magnetic part, just fourth magnetic part is located the separator deviates from one side of arcwall face, support piece is close to one side of fourth magnetic part is equipped with fifth magnetic part, fourth magnetic part with fifth magnetic part adsorbable connection.

The embodiment of the application comprises the following technical effects: through set up fourth magnetic part in the separator, set up on the support piece with the fifth magnetic part of fourth magnetic part looks adaptation, when the separator drives the slider and presses to the support piece on, fourth magnetic part and fifth magnetic part attract mutually, reduce the emergence of the condition of adsorbing piece and magnet attraction mutually.

In some embodiments of the present application, the pressing mechanism further includes at least one buffer component, the buffer component is disposed between the first pressing plate and the second pressing plate, and when the second pressing plate moves towards the first pressing plate, the buffer component is used for buffering the pressure applied by the first pressing plate and applied by the second pressing plate.

In some embodiments of this application, the bolster includes connecting rod, stopper and elastic component, the one end of connecting rod is connected first holding down plate, the other end of connecting rod runs through the second holding down plate with the stopper is connected, the elastic component cover is located on the connecting rod, just the both ends of elastic component support respectively hold in first holding down plate with between the second holding down plate.

The embodiment of the application comprises the following technical effects: by providing the buffer member between the first lower platen and the second lower platen, the buffer member can buffer the impact force between the first lower platen and the second lower platen when the second lower platen moves toward the first lower platen.

Among the above-mentioned assembly device, through on will waiting the magnet absorption piece of installation, first holding down plate supports when moving towards the support plate and pushes up slider and absorption piece and press magnet to the product on the back, and the second holding down plate drives the holding down piece so that separating mechanism will adsorb the piece and install the magnet separation to the product, realizes magnet and assembly device's autosegregation, improves the yields.

Drawings

Fig. 1 is a schematic structural diagram of an assembling apparatus according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a positioning hole and a mounting hole according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of an adsorption mechanism according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a limiting assembly according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a separation mechanism according to an embodiment of the present application.

Fig. 6 is a schematic structural diagram of a pressing mechanism according to an embodiment of the present application.

Fig. 7 is a schematic structural diagram of the sliding member shown in fig. 3.

Description of the main elements

Assembling device 100

Magnet 10

Carrier plate 20

Positioning hole 201

Mounting hole 202

Adsorption mechanism 30

Sliding member 31

Main body 311

Sliding hole 3111

Dodging groove 3112

Sliding part 312

Second magnetic member 3121

Adsorption member 32

Slider 321

Control hole 3211

First magnetic element 322

Separating mechanism 40

Support 41

Mounting groove 411

Fifth magnetic element 412

Side plate 413

Through-hole 414

Separating element 42

Arc surface 421

Fourth magnetic element 422

Rotating shaft 423

Pressing mechanism 50

First lower pressing plate 51

Guiding hole 511

Second lower press plate 52

Down press 53

Fitting surface 531

Buffer 54

Connecting rod 541

Limiting block 542

Elastic piece 543

Limit assembly 60

First stopper 61

First position-limiting part 611

Second limiting portion 612

Accommodating groove 613

Second stopper 62

Third magnetic member 63

Fixing member 64

Direction of motion Z

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

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components 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 in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" 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 as used herein are for illustrative purposes only and are not intended to limit the present application.

It will be appreciated that when describing the parallel/perpendicular arrangement of two components, the angle between the two components is allowed to have a tolerance of + -10% with respect to standard parallel/perpendicular.

The embodiment of the application provides an assembly device for installing a magnet on a product. The assembling device comprises a support plate, an adsorption mechanism, a separation mechanism and a pressing mechanism, wherein the support plate is provided with a positioning hole used for mounting a magnet.

The adsorption mechanism comprises a sliding part and an adsorption part, the sliding part is slidably limited and connected to the positioning hole, and the adsorption part is slidably connected to the sliding part.

One end of the separating mechanism is rotatably connected with the carrier plate, and the other end of the separating mechanism penetrates through the sliding part and is in transmission connection with the adsorption part.

The pressing mechanism comprises a first pressing plate, a second pressing plate and a pressing piece, the first pressing plate and the second pressing plate are arranged oppositely, and the pressing piece is connected with the second pressing plate and can penetrate through the first pressing plate.

The sliding part and the adsorption part can protrude the support plate towards the first lower pressing plate, the first lower pressing plate is used for abutting against the sliding part and the adsorption part to enable the magnet to move towards the product, and the second lower pressing plate is used for moving relative to the first lower pressing plate and driving the lower pressing plate to abut against one end, far away from the sliding part, of the separation mechanism so that the separation mechanism rotates to drive the adsorption part to move relative to the sliding part and towards the direction far away from the magnet.

In the assembling device, the magnet to be installed is adsorbed on the adsorption piece, the first lower pressing plate abuts against the sliding piece and the adsorption piece to press the magnet onto the product when moving towards the support plate, and the second lower pressing plate drives the lower pressing piece to enable the separation mechanism to separate the adsorption piece from the magnet installed on the product, so that the magnet is automatically separated from the assembling device, and the yield is improved.

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

Referring to fig. 1 and 2 together, an assembling apparatus 100 for mounting a magnet 10 on a product (not shown) is provided according to an embodiment of the present application. The assembling device 100 comprises a carrier plate 20, an adsorption mechanism 30, a separation mechanism 40 and a pressing mechanism 50, wherein the carrier plate 20 is provided with a positioning hole 201, and the positioning hole 201 is used for installing the magnet 10.

The adsorption mechanism 30 includes a sliding member 31 and an adsorption member 32, the sliding member 31 is slidably connected to the positioning hole 201 in a limited manner, and the adsorption member 32 is slidably connected to the sliding member 31.

One end of the separating mechanism 40 is rotatably connected to the carrier plate 20, and the other end of the separating mechanism 40 passes through the sliding member 31 and is drivingly connected to the suction member 32.

The pressing mechanism 50 includes a first pressing plate 51, a second pressing plate 52 and a pressing member 53, the first pressing plate 51 and the second pressing plate 52 are oppositely disposed, and the pressing member 53 is connected to the second pressing plate 52 and can pass through the first pressing plate 51.

The sliding element 31 and the adsorbing element 32 can protrude out of the carrier plate 20 toward the first lower pressing plate 51, the first lower pressing plate 51 is used for abutting against the sliding element 31 and the adsorbing element 32 to move the magnet 10 toward the product, and the second lower pressing plate 52 is used for moving relative to the first lower pressing plate 51 and driving the lower pressing element 53 to abut against one end of the separating mechanism 40 away from the sliding element 31, so that the separating mechanism 40 rotates to drive the adsorbing element 32 to move relative to the sliding element 31 toward a direction away from the magnet 10.

In the assembling apparatus 100, the magnet 10 to be mounted is adsorbed on the adsorbing member 32, when the first lower pressing plate 51 moves toward the carrier 20, the first lower pressing plate abuts against the sliding member 31 and the adsorbing member 32 to press the magnet 10 onto the product, and then the second lower pressing plate 52 drives the lower pressing member 53 to separate the adsorbing member 32 from the magnet 10 mounted on the product by the separating mechanism 40, so that the magnet 10 is automatically separated from the assembling apparatus 100, and the yield is improved.

Referring to fig. 1 and fig. 2, in some embodiments, the carrier 20 is provided with a plurality of positioning holes 201, and the positioning holes 201 are spaced apart from the positioning holes 201. The positioning holes 201 arranged at intervals enable a certain distance to be reserved between the magnet 10 installed in the positioning holes and the magnet 10, and the risk of mutual attraction between the magnet 10 and the magnet 10 is reduced.

Referring to fig. 3 and 4, in some embodiments, the absorption element 32 includes a slider 321 and a first magnetic element 322. The slider 321 is slidably provided in the slider 31, and the first magnetic member 322 is connected to the slider 321 and is used for fixing the magnet 10 to the slider 31 by attraction. A control hole 3211 is formed in a side wall of the slider 321 near one end of the separation mechanism 40, and one end of the separation mechanism 40 extends into the control hole 3211. The first magnetic member 322 is used for adsorbing the magnet 10 to be mounted, and the slider 321 is driven by the separating mechanism 40 to drive the first magnetic member 322 to move towards the product, so as to mount the magnet 10 on the product. Alternatively, the first magnetic member 322 may be a magnet, and the polarity of the side of the first magnetic member 322 facing the magnet 10 is opposite to the polarity of the side of the magnet 10 facing the first magnetic member 322, so that the first magnetic member 322 attracts the magnet 10 to be mounted on the product and can detect whether the polarity of the magnet 10 to be mounted on the product is opposite.

Referring to fig. 1, fig. 2 and fig. 5, in some embodiments, the carrier plate 20 further has a mounting hole 202, and the mounting hole 202 is communicated with the positioning hole 201. The separating mechanism 40 is disposed in the mounting hole 202, the separating mechanism 40 includes a supporting member 41 and a separating member 42, a mounting groove 411 (see fig. 5) is disposed on a side of the supporting member 41 facing the pressing member 53, so that two side plates 413 are formed at one end of the supporting member 41, and a through hole 414 is opened on each side plate 413. The separating member 42 is rotatably connected to the supporting member 41, and a rotating shaft 423 is provided on the separating member 42, and the rotating shaft 423 passes through the through hole 414. One end of the separating element 42 extends into the control hole 3211, one end of the separating element 42, which is far away from the control hole 3211, is located in the mounting groove 411, and the pressing element 53 is used for extending into the mounting groove 411 to drive the separating element 42 to rotate. By extending one end of the separating element 42 into the control hole 3211, when the lower pressing element 53 abuts against and connects with the separating element 42, the separating element 42 drives the adsorbing element 32 to be far away from the product by the cooperation of the rotating shaft 423 and the through hole 414 with the supporting element 41 as a fulcrum, so that the magnet 10 mounted on the product is separated from the adsorbing element 32.

Referring to fig. 2, 5 and 6, in some embodiments, an arc surface 421 is disposed on a side of the separating member 42 facing the lower pressing member 53, the lower pressing member 53 is disposed with a matching surface 531 matching with the arc surface 421, and the matching surface 531 contacts with the arc surface 421 along the moving direction Z to drive the separating member 42 to rotate relative to the supporting member 41. The first lower pressing plate 51 has a guiding hole 511 adapted to the lower pressing member 53, so that when the second lower pressing plate 52 drives the lower pressing member 53 to move towards the carrier 20 (see fig. 2) through the guiding hole 511 along the moving direction Z, the engaging surface 531 and the arc surface 421 are connected to each other in an abutting manner, and the separating member 42 drives the adsorbing member 32 to slide in the sliding member 31, so as to separate the adsorbing member 32 from the magnet 10.

Referring to fig. 2 and 7, in some embodiments, the sliding member 31 includes a main body portion 311 and two sliding portions 312. The main body 311 is provided with a sliding hole 3111 and an escape groove 3112 communicating with the sliding hole 3111, the slider 321 is slidably disposed in the sliding hole 3111, one end of the separating member 42 passes through the escape groove 3112 and extends into the control hole 3211, the two sliding portions 312 are respectively disposed on two sides of the main body 311, and the sliding portions 312 are slidably connected to the positioning hole 201 in a limited manner.

Referring to fig. 1, fig. 2 and fig. 3, in some embodiments, the assembling device 100 further includes two limiting assemblies 60 (fig. 3), the limiting assemblies 60 are disposed in the positioning hole 201 and are disposed in one-to-one correspondence with the sliding portions 312, each limiting assembly 60 includes a first limiting block 61 and a second limiting block 62, the first limiting block 61 and the second limiting block 62 are disposed at two ends of the hole wall of the positioning hole 201 at intervals along the axial direction of the positioning hole 201, and the sliding portions 312 are slidably connected between the first limiting block 61 and the second limiting block 62 in a limiting manner along the moving direction Z. By arranging the limiting component 60 in the positioning hole 201, the sliding part 312 moves between the first limiting block 61 and the second limiting block 62, the sliding range of the sliding part 31 is limited, and the sliding part 31 is prevented from being separated from the positioning hole 201 under the driving of the separating mechanism 40.

Referring to fig. 3, in some embodiments, the sliding portion 312 is provided with a second magnetic member 3121 at an end portion close to the first stopper 61 and the second stopper 62. The third magnetic member 63 is disposed at the positions of the first and second stoppers 61 and 62 near the ends of the sliding portion 312, and the second and third magnetic members 3121 and 63 are attachably connected. By providing the second magnetic member 3121 on the sliding portion 312 and providing the third magnetic member 63 adapted to the second magnetic member 3121 on the first stopper 61 and the second stopper 62, when the sliding portion 312 contacts the first stopper 61 or the second stopper 62, the second magnetic member 3121 cooperates with the third magnetic member 63 to improve the connection stability of the sliding portion 312 and the first stopper 61 and the sliding portion 312 and the second stopper 62.

Referring to fig. 2 and fig. 4, in some embodiments, the first limiting block 61 includes a first limiting portion 611 and a second limiting portion 612, the first limiting portion 611 is fixed in the positioning hole 201 through the fixing member 64, and the second limiting portion 612 is disposed on a side of the first limiting portion 611 facing the sliding member 31. An accommodating groove 613 is formed between one side of the first limiting portion 611 facing the sliding member 31 and one side of the second limiting portion 612 facing the product. When the product is attracted to the first magnetic member 322, the magnet 10 moves toward the separating mechanism 40 under the action of the external force, and when the magnet 10 moves between the two first stoppers 61, two ends of the magnet 10 are received in the receiving grooves 613 of the two first stoppers 61. Meanwhile, the magnet 10 can attract the third magnetic member 63 in the first stopper 61, so that the magnet 10 is positioned in the positioning hole 201, and the stability of the magnet 10 mounted in the positioning hole 201 is improved.

Referring to fig. 3 and fig. 5, in some embodiments, an end of the separating element 42 away from the control hole 3211 is provided with a fourth magnetic element 422, and the fourth magnetic element 422 is disposed on a side of the separating element 42 away from the arc-shaped surface 421. The supporting member 41 is provided with a fifth magnetic member 412 on a side close to the fourth magnetic member 422, and the fourth magnetic member 422 and the fifth magnetic member 412 can be attached by adsorption. By arranging the fourth magnetic element 422 in the separating element 42 and arranging the fifth magnetic element 412 matched with the fourth magnetic element 422 on the supporting element 41, when the separating element 42 drives the slider 321 to press the supporting element 41, the fourth magnetic element 422 and the fifth magnetic element 412 attract each other, so that the attraction between the adsorbing element 32 and the magnet 10 is reduced.

Referring to fig. 1, in some embodiments, the pressing mechanism 50 further includes at least one buffer 54, and the buffer 54 is disposed between the first pressing plate 51 and the second pressing plate 52. When the second lower pressing plate 52 moves toward the first lower pressing plate 51, the buffer 54 is used to buffer the pressure applied by the second lower pressing plate 52 to the first lower pressing plate 51.

Referring to fig. 6, in some embodiments, the buffer 54 includes a connection rod 541, a limiting block 542, and an elastic element 543. One end of the connecting rod 541 is connected to the first lower pressing plate 51, the other end of the connecting rod 541 penetrates through the second lower pressing plate 52 and is connected to the limiting block 542, the elastic member 543 is sleeved on the connecting rod 541, and two ends of the elastic member 543 respectively abut against between the first lower pressing plate 51 and the second lower pressing plate 52. By providing the buffer 54 between the first lower platen 51 and the second lower platen 52, the buffer 54 can buffer the impact between the first lower platen 51 and the second lower platen 52 when the second lower platen 52 moves toward the first lower platen 53.

In the using process, the magnet 10 to be mounted on the product is adsorbed on the adsorbing member 32, and the magnet 10 is slightly pressed downward, so that the magnet 10 moves into the accommodating grooves 613 on the two first limiting blocks 61, at this time, the two ends of the magnet 10 attract the third magnetic members 63 in the first limiting blocks 61, and the sliding member 31 protrudes out of the hole wall of the positioning hole 201 toward one end of the pressing mechanism 50.

When the magnet 10 needs to be mounted on a product, the first lower pressing plate 51 in the pressing mechanism 50 is first moved toward the carrier 20 along the moving direction Z, and the first lower pressing plate 51 drives the sliding member 31 protruding out of the hole wall of the positioning hole 201 to move the adsorbing member 32 toward the product. After the magnet 10 is mounted on a product, the second lower pressing plate 52 drives the lower pressing member 53 to pass through the guide hole 511 and move towards the carrier plate 20 along the movement direction Z, the lower pressing member 53 extends into the mounting hole 202 and contacts with the separating mechanism 40 in the mounting hole 202, the fitting surface 531 on the lower pressing member 53 abuts against the arc-shaped surface 421 on the separating member 42, when the second lower pressing plate 52 drives the lower pressing member 53 to continuously apply a force to the separating member 42, the separating member 42 rotates relative to the supporting member 41, and one end of the separating member 42 extending into the control hole 3211 drives the floating block 321 to move towards one end far away from the product, so that the floating block 321 is separated from the magnet 10, thereby realizing automatic separation of the magnet 10 from the mounting device 100 and improving the yield.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present application and are not to be taken as limiting the present application, and that suitable changes and modifications to the above embodiments are within the scope of the present disclosure as long as they are within the spirit and scope of the present application.

Claims (10)

1. An assembly device for installing a magnet on a product, the assembly device comprising a carrier plate, characterized in that: the assembling device also comprises an adsorption mechanism, a separation mechanism and a pressing mechanism, wherein the support plate is provided with a positioning hole for mounting the magnet;

the adsorption mechanism comprises a sliding part and an adsorption part, the sliding part is slidably limited and connected to the positioning hole, and the adsorption part is slidably connected to the sliding part;

one end of the separating mechanism is rotatably connected with the carrier plate, and the other end of the separating mechanism penetrates through the sliding piece and is in transmission connection with the adsorption piece;

the pressing mechanism comprises a first pressing plate, a second pressing plate and a pressing piece, the first pressing plate and the second pressing plate are arranged oppositely, and the pressing piece is connected with the second pressing plate and can penetrate through the first pressing plate;

the sliding part and the adsorption part can protrude towards the first lower pressing plate to form the support plate, the first lower pressing plate is used for abutting against the sliding part and enabling the magnet to move towards the product, the second lower pressing plate is used for moving relative to the first lower pressing plate and driving the lower pressing plate to abut against one end, far away from the sliding part, of the separation mechanism, so that the separation mechanism rotates to drive the adsorption part to move relative to the sliding part and towards the direction, far away from the magnet, of the sliding part.

2. The fitting apparatus of claim 1, wherein: the adsorption piece comprises a floating block and a first magnetic piece, the floating block is arranged in the sliding piece in a sliding mode, the first magnetic piece is connected with the floating block and used for fixing the magnet to one side of the sliding piece in an adsorption mode, the floating block is close to one end side wall of the separation mechanism, a control hole is formed in the side wall of the end of the separation mechanism, and one end of the separation mechanism extends into the control hole.

3. The fitting apparatus of claim 2, wherein: the carrier plate still is equipped with the mounting hole, the mounting hole intercommunication the locating hole, separating mechanism locates in the mounting hole, separating mechanism includes support piece and separator, support piece orientation one side of pushing down the piece is equipped with the mounting groove, the separator rotationally connects support piece, the one end of separator stretches into in the control hole, the separator is kept away from the one end of control hole is located in the mounting groove, it is used for stretching into to push down the piece drive in the mounting groove the separator rotates.

4. The fitting apparatus of claim 3, wherein: the separating piece is provided with an arc-shaped surface on one side facing the downward pressing piece, the downward pressing piece is provided with a fit surface matched with the arc-shaped surface, and the fit surface is in contact with the arc-shaped surface to drive the separating piece to rotate relative to the supporting piece.

5. The fitting apparatus of claim 3, wherein: the sliding part comprises a main body part and two sliding parts, the main body part is provided with a sliding hole and an avoiding groove communicated with the sliding hole, the floating block is arranged in the sliding hole in a sliding mode, one end of the separating part penetrates through the avoiding groove and extends into the control hole, the two sliding parts are respectively arranged on two sides of the main body part, and the sliding parts are connected to the positioning holes in a limiting mode in a sliding mode.

6. The fitting apparatus of claim 5, wherein: the assembling device further comprises two limiting assemblies, the limiting assemblies are arranged in the positioning holes and are arranged in a one-to-one correspondence mode with the sliding portions, each limiting assembly comprises a first limiting block and a second limiting block, the first limiting blocks and the second limiting blocks are arranged at two ends of the hole wall of the positioning holes at intervals in the axial direction of the positioning holes, and the sliding portions are connected between the first limiting blocks and the second limiting blocks in a sliding mode in a limiting mode.

7. The fitting apparatus of claim 6, wherein: the sliding part is close to the end part of the first limiting block and the second limiting block is provided with a second magnetic part, the first limiting block and the second limiting block are close to the position of the end part of the sliding part are provided with a third magnetic part, and the second magnetic part and the third magnetic part are connected in an adsorption mode.

8. The fitting apparatus of claim 4, wherein: the separating piece is kept away from the one end of control hole is equipped with fourth magnetic part, just fourth magnetic part is located the separating piece deviates from one side of arcwall face, support piece is close to one side of fourth magnetic part is equipped with fifth magnetic part, the fourth magnetic part with fifth magnetic part adsorption connection.

9. The fitting apparatus of claim 1, wherein: the lower pressing mechanism further comprises at least one buffer piece, the buffer piece is arranged between the first lower pressing plate and the second lower pressing plate, the second lower pressing plate faces towards the first lower pressing plate, and the buffer piece is used for buffering the pressure applied by the first lower pressing plate and the second lower pressing plate.

10. The fitting apparatus of claim 9, wherein: the bolster includes connecting rod, stopper and elastic component, the one end of connecting rod is connected first holding down plate, the other end of connecting rod runs through the second holding down plate with the stopper is connected, the elastic component cover is located on the connecting rod, just the both ends of elastic component support respectively hold in first holding down plate with between the second holding down plate.

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