CN220993370U - Assembling device - Google Patents

Abstract

A fitting apparatus comprising: the product bearing mechanism is provided with a containing space, and the containing space is used for positioning a product with a cavity; the accessory bearing mechanism is arranged opposite to the product bearing mechanism and comprises a supporting piece, a profiling piece and a heating piece, wherein the profiling piece is provided with a profiling surface for bearing and positioning the assembly piece, and the heating piece is used for heating the adhesive on the assembly piece; the product bearing mechanism is arranged on the moving mechanism, the moving mechanism is used for driving the product bearing mechanism to be close to the accessory bearing mechanism along a first direction, so that one end of the supporting piece stretches into the cavity of the product and the accessory is moved to a specified installation position opposite to the product, and the moving mechanism is also used for driving the product bearing mechanism to move along a second direction so as to enable the accessory to be abutted to the specified installation position of the product, so that the accessory and the product are fixed in a hot pressing mode. The assembly device can replace manual work to accurately install the assembly part in the die cavity of the product, so that the labor intensity is reduced, and the assembly efficiency is improved.

Description

Assembling device

Technical Field

The application relates to the technical field of circular part assembly, in particular to an assembly device.

Background

When producing electronic product, need assemble the balancing weight at the die cavity inside wall of circular type product, because the die cavity inner space is narrow and small, there is not the positioning reference, the manual assembly degree of difficulty is great. In addition, in order to make the balancing weight firmly install in the die cavity, need carry out hot pressing to the balancing weight, consequently, adopt artificial mode to carry out the assembly operation degree of difficulty big, need one kind can replace manual operation's equipment.

Disclosure of utility model

In view of the above, it is necessary to provide an assembling device capable of automatically and accurately assembling a balancing weight on the inner side wall of a product cavity instead of manual operation.

The embodiment of the application provides an assembling device, which comprises a product bearing mechanism, wherein the product bearing mechanism is provided with a containing space, and the containing space is used for positioning a product with a cavity; the accessory bearing mechanism is arranged opposite to the product bearing mechanism and comprises a supporting piece, a profiling piece arranged at one end of the supporting piece and a heating piece arranged in the profiling piece, wherein the profiling piece is adjacently arranged at an opening of the containing space and is provided with a profiling surface for bearing and positioning an accessory, and the heating piece is used for heating an adhesive on the accessory; the moving mechanism is arranged on one side of the accessory carrying mechanism, the product carrying mechanism is arranged on the moving mechanism, the moving mechanism is used for driving the product carrying mechanism to be close to the accessory carrying mechanism along a first direction, so that one end of the supporting piece stretches into the cavity of the product and the assembly piece is enabled to move to a specified installation position opposite to the product, and the moving mechanism is also used for driving the product carrying mechanism to move along a second direction perpendicular to the first direction, so that the assembly piece is abutted to the specified installation position of the product, and the assembly piece and the product are fixed in a hot pressing mode.

When the assembling device is used, the heating piece is firstly operated to heat the profiling piece, then the product and the assembly part are respectively arranged on the product bearing mechanism and the profiling piece, the moving mechanism drives the product bearing mechanism to be close to the profiling piece, the assembly part can extend into a cavity of the product, the appointed installation position of the inner side wall of the product cavity is opposite to the assembly part, the moving mechanism drives the product bearing mechanism to press down, the product and the assembly part are in hot pressing together, and the heating mechanism continuously conducts heat transfer on the assembly part, so that the adhesive on the assembly part is heated and solidified, and the product and the assembly part are firmly adhered together. Because the process does not need manual operation, the labor intensity of operators is reduced, and the assembly efficiency of accurately assembling the assembly parts on the inner side wall of the product cavity is improved.

In some embodiments, the product bearing mechanism comprises a bearing piece connected with the moving mechanism, and the side of the bearing piece facing the accessory bearing mechanism is provided with the containing space; the locating piece is arranged in a penetrating mode on the bearing piece, and the end portion of the locating piece stretches into the containing space and is used for inserting the product so as to locate the product.

In some embodiments, the outer side of the bearing member is provided with a first installation surface, a second installation surface, a third installation surface and a fourth installation surface which are sequentially connected, the positioning member is arranged on the first installation surface in a penetrating mode, and any one of the second installation surface, the third installation surface and the fourth installation surface is connected with the moving mechanism.

In some embodiments, the product bearing mechanism further comprises a magnetic attraction piece, which is arranged on the same side of the bearing piece as the positioning piece; the positioning piece comprises a positioning pin, the positioning pin penetrates through the bearing piece, and the end part of the positioning pin stretches into the containing space and is used for inserting the product so as to position the product; and the limiting pin is connected with the positioning pin and is used for being adsorbed by the magnetic attraction piece when the positioning pin penetrates through the bearing piece.

In some embodiments, a side of the profiling facing the support is provided with a thermal insulation portion, which abuts the support.

In some embodiments, the profile modeling member is provided with a clearance groove, and the clearance groove is used for clearance of a clamp for clamping the assembly part when the assembly part is installed on the profile modeling member.

In some embodiments, the accessory carrier further comprises a temperature sensor coupled to the cam and spaced apart from the heater, the temperature sensor configured to detect a temperature of the cam.

In some embodiments, the movement mechanism includes a transfer assembly disposed on one side of the support; the lifting assembly is connected with the transfer assembly and the product bearing mechanism and used for driving the product bearing mechanism to move in the second direction, and the lifting assembly is used for driving the product bearing mechanism to be close to the accessory bearing mechanism along the first direction under the driving of the transfer assembly; and the limiting assembly is arranged on one side of the supporting piece and is arranged at intervals with the transfer assembly, and the limiting assembly is used for being abutted with the lifting assembly so as to limit the product bearing mechanism.

In some embodiments, the lifting assembly includes a mobile station coupled to the transfer assembly; the connecting seat is connected with the movable seat in a sliding manner and is connected with the product bearing mechanism; and the lifting driving piece is arranged on the movable seat, is connected with the connecting seat and is used for driving the connecting seat to slide along the second direction so as to enable the product to be abutted with the assembly part.

In some embodiments, the limiting assembly includes a limiting member disposed on one side of the support member, the limiting member configured to abut the movable seat to limit the product bearing mechanism such that the fitting is being mounted to the designated mounting location; and the buffer is arranged on the limiting piece and is used for abutting against the movable seat so as to reduce the impact force generated when the movable seat abuts against the limiting piece.

Drawings

Fig. 1 is a schematic perspective view of an assembling device according to an embodiment of the present application.

Fig. 2 is a schematic perspective view of the carrier in the assembly device shown in fig. 1.

Fig. 3 is a schematic perspective view of the accessory carrying mechanism in the assembling device shown in fig. 1.

Fig. 4 is a schematic cross-sectional view of a product carrier in the assembly device shown in fig. 1.

Description of the main reference signs

Assembly device 100

Product carrying mechanism 10

Carrier 11

Storage space 111

First mounting surface 112

Second mounting surface 113

Third mounting surface 114

Fourth mounting surface 115

Through hole 116

Mounting groove 117

Positioning piece 12

Locating pin 121

Stop pin 122

Magnetic attraction piece 13

Fitting carrier 20

Support 21

Column 211

Support plate 212

Profiling 22

Profiling surface 221

Avoidance slot 222

Thermal insulation part 223

Heating element 23

Temperature sensor 24

Moving mechanism 30

Transfer unit 31

Transfer driving member 311

Slide rail 312

Lifting assembly 32

Movable seat 321

Connecting seat 322

Connecting plate 3221

Guide sleeve 3222

Guide pin 3223

Lifting driving piece 323

Spacing assembly 33

Limiting piece 331

Buffer 332

Product 200

Fitting 300

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it should be understood that the terms "orientation" or "positional relationship" are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and to simplify the description, rather than to indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operate in a particular orientation, and therefore should not be construed as limiting the application. Furthermore, in the description of the present application, it is to be noted that the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; the two components can be connected in a mechanical mode, can be electrically connected or can be communicated with each other, can be directly connected, can be indirectly connected through an intermediate medium, and can be communicated with each other inside the two components or can be in interaction relation with each other. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

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

Referring to fig. 1, an assembly device 100 is provided in an embodiment of the present application. The assembly apparatus 100 is capable of mounting the assembly 300 on the inner sidewall of the cavity of the product 200 and hot pressing the assembly 300 and the product 200 to more firmly adhere the assembly 300 to the inner sidewall of the cavity. In this embodiment, the product 200 is a circular part, that is, the cross-sectional shape of the product 200 is circular or circular arc, the assembly 300 is a counterweight, and the assembly 300 is arc-shaped and is adapted to the inner side wall of the cavity of the product 200.

For ease of understanding, a three-dimensional coordinate system is established in fig. 1 to assist in explanation, directions of an X axis, a Y axis and a Z axis are shown in the figure, and the X axis, the Y axis and the Z axis are perpendicular to each other, wherein the X axis direction is defined as a first direction, and the Z axis direction is defined as a second direction.

Referring to fig. 1 and 2, the assembling device 100 includes a product carrying mechanism 10, a fitting carrying mechanism 20, and a moving mechanism 30. The accessory carrier 20 and the product carrier 10 are disposed opposite to each other, the product carrier 10 has a receiving space 111, and the receiving space 111 is used for receiving and positioning the product 200, and when the product 200 is mounted on the product carrier 10, the cavity of the product 200 faces the accessory carrier 20.

Referring to fig. 1 and 3, the accessory carrier 20 is used to carry an accessory 300. The accessory carrier 20 includes a support 21, a profile 22, and a heater 23. The supporting member 21 is disposed opposite to the product bearing mechanism 10, the profiling member 22 is disposed at one end of the supporting member 21, the heating member 23 may be a heating rod, and the heating member 23 is disposed in the profiling member 22. To position fitting 300, cam 22 has a cam surface 221 thereon, and cam surface 221 is adapted to fit fitting 300 such that fitting 300 fits into cam 22. The heating element 23 heats the profiling 22. When the fitting 300 is positioned on the profiling 22, the profiling 22 transfers heat to the fitting 300 to heat the adhesive on the fitting 300.

It should be noted that, before the product 200 and the assembly 300 are mounted to the assembly device 100, the assembly carrier 20 is heated, and an adhesive is applied to the assembly 300.

The moving mechanism 30 is disposed on one side of the accessory carrier 20 and is connected to the product carrier 10, and the moving mechanism 30 can drive the product carrier 10 to move in the negative X-axis direction (i.e., rightward in fig. 1) so that the product 200 on the product carrier 10 moves toward the assembly 300 on the accessory carrier 20, so that the assembly 300 extends into the cavity of the product 200 and the designated mounting position on the product 200 faces the assembly 300. The moving mechanism 30 drives the product carrying mechanism 10 to move in the negative Z-axis direction (i.e., downward as shown in fig. 1) to press the product 200 against the fitting 300, so that the fitting 300 is hot-pressed with the inner side walls of the cavity.

Since the fitting carrier 20 starts to heat first, after the fitting 300 is mounted on the fitting carrier 20, the fitting carrier 20 continues to transfer heat to the fitting 300, so that the product 200 and the fitting 300 are pressed together in a hot-pressed manner, and the adhesive on the fitting 300 is cured by heating, so that the product 200 and the fitting 300 are more firmly adhered together. The assembly device 100 can replace manual operation to assemble the assembly 300 and the product 200 together, thereby reducing labor input, reducing labor intensity and improving assembly efficiency of accurately assembling the assembly 300 on the inner side wall of the cavity of the product 200.

Referring to fig. 1, 2 and 4, the product carrying mechanism 10 includes a carrying member 11 and a positioning member 12. The carrier 11 is connected to the moving mechanism 30, a receiving space 111 is formed on a side of the carrier 11 facing the accessory carrier 20, and the product 200 is positioned on the carrier 11 through the receiving space 111.

In this embodiment, the carrier 11 is a rectangular block, and four sequentially connected side surfaces on the outer side of the carrier 11 are a first mounting surface 112, a second mounting surface 113, a third mounting surface 114, and a fourth mounting surface 115, respectively. The carrier 11 is further provided with a through hole 116, the through hole 116 is communicated with the storage space 111, the position of the through hole 116 is arranged on the first mounting surface 112, when the product 200 is positioned on the carrier 11, the positioning piece 12 is arranged in the through hole 116 in a penetrating mode, at the moment, one end of the positioning piece 12 stretches into the storage space 111 and is inserted into the product 200, and under the positioning action of the positioning piece 12, the product 200 cannot rotate around the X axis and cannot fall off from the storage space 111. Any one of the second mounting surface 113, the third mounting surface 114, and the fourth mounting surface 115 may be connected to the moving mechanism 30. By connecting different sides of the carrier 11 to the movement mechanism 30, the assembly 300 can be mounted at different locations on the inside wall of the cavity of the product 200.

The positioning member 12 includes a positioning pin 121 and a stopper pin 122. One end of the limiting pin 122 is connected with the positioning pin 121, the positioning pin 121 is made of glass fiber, the positioning pin 121 penetrates through the bearing piece 11, one end of the positioning pin 121 stretches into the containing space 111 to be inserted into the product 200, the shape of the end part of the positioning pin 121 stretching into the containing space 111 is matched with that of the product 200, for example, a hole in the product 200 for inserting the positioning pin 121 is long, and at the moment, the end part of the positioning pin 121 stretching into the containing space 111 is also long.

The product bearing mechanism 10 further comprises a magnetic attraction piece 13, a mounting groove 117 is formed in the bearing piece 11, and the mounting groove 117 is arranged adjacent to the through hole 116 and communicated with the through hole 116. The magnetic attraction member 13 is a magnet, and the magnetic attraction member 13 is mounted in the mounting groove 117. When the positioning pin 121 is inserted into the product 200 to position the product 200, the positioning pin 122 is received in the mounting groove 117 and the magnetic attraction piece 13 attracts the positioning pin 122. The positioning pin 121 is prevented from being separated from the carrier 11 by the pulling action of the positioning pin 121 by the limiting pin 122 under the adsorption action of the magnetic attraction piece 13.

Referring to fig. 1 and 3, the support 21 includes a post 211 and a support plate 212. The stand 211 sets up along the Z axle direction, and extension board 212 connects in the one end of stand 211, and stand 211 and extension board 212 are L, and profile modeling piece 22 is installed on extension board 212.

In this embodiment, the fitting 300 is taken and placed by a special fixture, in order to facilitate taking and placing the fitting 300, the profile modeling element 22 is provided with the avoidance grooves 222, the number of the avoidance grooves 222 can be determined according to actual situations, and the avoidance grooves 222 can play a role in avoiding the fixture, so as to prevent the fixture from interfering with the supporting element 21 when taking and placing the fitting 300.

In order to avoid scalding operators, a heat insulation part 223 is arranged on one side of the profiling piece 22 facing the supporting piece 21, the heat insulation part 223 is made of glass fiber, and the heat insulation part 223 can avoid the temperature rise of the support plate 212, so that the purpose of preventing scalding operators is achieved.

The accessory carrier 20 also includes a temperature sensor 24. A temperature sensor 24 is connected to the profiling 22 and spaced from the heating element 23, the temperature sensor 24 being for measuring the temperature of the profiling 22. Excessive or insufficient temperature of the profiling member 22 can be avoided by detecting the temperature of the profiling member 22, and the heating member 23 can be stopped by controlling an external controller (not shown) when the temperature of the profiling member 22 is excessive, and the heating member 23 can heat the profiling member 22 when the temperature of the profiling member 22 is excessively low.

Referring to fig. 1, the moving mechanism 30 includes a transfer component 31, a lifting component 32 and a limiting component 33. The transfer unit 31 is provided on one side of the support 21, the lifting unit 32 is connected to the transfer unit 31, and the carrier 11 is connected to the lifting unit 32. In this embodiment, the transferring assembly 31 includes a transferring driving member 311 and a sliding rail 312, the transferring driving member 311 is a rodless cylinder, the sliding rail 312 is disposed at intervals with the transferring driving member 311, the transferring driving member 311 is connected with the lifting assembly 32, and the lifting assembly 32 is slidably connected with the sliding rail 312, when the transferring driving member 311 drives the lifting assembly 32 to approach the accessory carrying mechanism 20 along the X-axis direction, the lifting assembly 32 slides along the sliding rail 312, and the sliding rail 312 guides the lifting assembly 32, so that the product 200 can be precisely moved to the accessory 300.

The elevation assembly 32 includes a moving base 321, a connection base 322, and an elevation driving member 323. The moving seat 321 is connected with the transfer driving piece 311 and is slidably connected to the slide rail 312, and the moving seat 321 is driven by the transfer driving piece 311 to move along the X-axis direction. The connecting seat 322 is slidably connected to the moving seat 321, and the carrier 11 in the product carrying mechanism 10 is connected to the connecting seat 322. The lifting driving member 323 may be an air cylinder, and the lifting driving member 323 is connected with the connecting seat 322 and is used for driving the connecting seat 322 to slide relative to the moving seat 321 in the Z-axis direction.

In this embodiment, the connection base 322 includes a connection plate 3221, a plurality of guide sleeves 3222, and a plurality of guide pins 3223. The connection plate 3221 is connected to the carrier 11 and to the lift drive 323. The number of the guide sleeves 3222 is four, and the four guide sleeves 3222 are arranged on the connecting plate 3221 at intervals. The number of the guide pins 3223 is four, one end of each of the four guide pins 3223 is connected to the movable seat 321, the four guide pins 3223 are in one-to-one correspondence with the four guide sleeves 3222, and the guide pins 3223 are respectively inserted into the corresponding guide sleeves 3222 in a sliding manner. When the lifting driving piece 323 drives the connection plate 3221 to move, the guide pin 3223 and the guide sleeve 3222 slide relatively, and the connection plate 3221 moves accurately along the Z-axis direction under the guide action of the guide pin 3223.

The spacing assembly 33 includes a spacing member 331 and a buffer 332. The stopper 331 is provided at one side of the support 21. The number of the buffers 332 is two, and the two buffers 332 are arranged on the limiting piece 331 at intervals. When the transfer driving piece 311 drives the moving seat 321 to move towards the accessory carrying mechanism 20, the moving seat 321 is firstly abutted against the buffer 332 and is slowly abutted against the limiting piece 331 under the buffering action of the buffer 332, so that a large impact force is avoided when the moving seat 321 is contacted with the limiting piece 331.

The working process of the assembly device 100 provided in the embodiment of the application is as follows:

the product 200 is inserted into the accommodating space 111 of the carrier 11, and then the positioning piece 12 is penetrated into the carrier 11, at this time, the positioning pin 121 of the positioning piece 12 passes through the through hole 116 on the carrier 11 and is inserted into the product 200, the limiting pin 122 on the positioning piece 12 is accommodated in the mounting groove 117 and is absorbed by the magnetic absorbing piece 13, and the positioning piece 12 is fixed on the carrier 11 under the absorption action of the magnetic absorbing piece 13.

The fitting 300 is placed on the support 21, and the support 21 positions the fitting 300 by the profiling surface 221.

The transfer driving member 311 drives the moving base 321 to move toward the upright post 211 along the X-axis direction, and simultaneously the moving base 321 moves together with the connecting base 322, the lifting driving member 323 and the carrying member 11 located on the connecting base 322, and at this time, the product 200 and the assembly 300 approach each other. When the movable seat 321 abuts against the limiting member 331, the movable seat 321 stops moving, at this time, the assembly 300 extends into the cavity of the product 200, and the assembly 300 corresponds to the designated installation position of the inner sidewall of the cavity, and then the lifting driving member 323 drives the connecting seat 322 to move along the negative Z-axis direction, so that the connecting seat 322 abuts against the assembly 300 with the product 200 on the carrier 11 and keeps for a certain time. At the same time, the support 21 continues to transfer heat to the fitting 300, so that the adhesive on the fitting 300 is cured by heating, thereby making the product 200 and the fitting 300 more firmly bonded.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Finally, it should be noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made to the technical solution of the present application without departing from the spirit and scope of the technical solution of the present application.

Claims (10)

1. An assembly device, comprising:

The product bearing mechanism is provided with a containing space for positioning a product with a cavity;

The accessory bearing mechanism is arranged opposite to the product bearing mechanism and comprises a supporting piece, a profiling piece arranged at one end of the supporting piece and a heating piece arranged in the profiling piece, wherein the profiling piece is adjacently arranged at an opening of the containing space and is provided with a profiling surface for bearing and positioning an accessory, and the heating piece is used for heating an adhesive on the accessory;

The moving mechanism is arranged on one side of the accessory carrying mechanism, the product carrying mechanism is arranged on the moving mechanism, the moving mechanism is used for driving the product carrying mechanism to be close to the accessory carrying mechanism along a first direction, so that one end of the supporting piece stretches into the cavity of the product and the assembly piece is enabled to move to a specified installation position opposite to the product, and the moving mechanism is also used for driving the product carrying mechanism to move along a second direction perpendicular to the first direction, so that the assembly piece is abutted to the specified installation position of the product, and the assembly piece and the product are fixed in a hot pressing mode.

2. The assembly device of claim 1, wherein,

The product bearing mechanism comprises:

The bearing piece is connected with the moving mechanism, and one side of the bearing piece, facing the accessory bearing mechanism, is provided with the storage space;

The locating piece is arranged in a penetrating mode on the bearing piece, and the end portion of the locating piece stretches into the containing space and is used for inserting the product so as to locate the product.

3. The assembly device of claim 2, wherein,

The outside of bearing member has first installation face, second installation face, third installation face and fourth installation face that connect gradually, the setting element wears to locate first installation face, second installation face, third installation face and any one of fourth installation face with moving mechanism connects.

4. The assembly device of claim 2, wherein,

The product bearing mechanism further comprises:

The magnetic attraction piece is arranged on the same side of the bearing piece and the positioning piece;

The positioning piece comprises:

The positioning pin penetrates through the bearing piece, and the end part of the positioning pin stretches into the containing space and is used for inserting the product so as to position the product;

And the limiting pin is connected with the positioning pin and is used for being adsorbed by the magnetic attraction piece when the positioning pin penetrates through the bearing piece.

5. The assembly device of claim 1, wherein,

And a heat insulation part is arranged on one side of the profiling part, facing the supporting part, and is abutted with the supporting part.

6. The assembly device of claim 1, wherein,

And the profile modeling piece is provided with a clearance groove, and the clearance groove is used for carrying out clearance on a clamp for clamping the assembly part when the assembly part is installed on the profile modeling piece.

7. The assembly device of claim 1, wherein,

The accessory carrier further comprises:

the temperature sensor is connected with the profiling part and is arranged at intervals with the heating part, and the temperature sensor is used for detecting the temperature of the profiling part.

8. The assembly device of claim 1, wherein,

The moving mechanism includes:

The transfer component is arranged on one side of the supporting piece;

The lifting assembly is connected with the transfer assembly and the product bearing mechanism and used for driving the product bearing mechanism to move in the second direction, and the lifting assembly is used for driving the product bearing mechanism to be close to the accessory bearing mechanism along the first direction under the driving of the transfer assembly;

And the limiting assembly is arranged on one side of the supporting piece and is arranged at intervals with the transfer assembly, and the limiting assembly is used for being abutted with the lifting assembly so as to limit the product bearing mechanism.

9. The assembly device of claim 8, wherein,

The lifting assembly includes:

the movable seat is connected with the transfer assembly;

The connecting seat is connected with the movable seat in a sliding manner and is connected with the product bearing mechanism;

And the lifting driving piece is arranged on the movable seat, is connected with the connecting seat and is used for driving the connecting seat to slide along the second direction so as to enable the product to be abutted with the assembly part.

10. The assembly device of claim 9, wherein,

The spacing subassembly includes:

The limiting piece is arranged on one side of the supporting piece and is used for abutting against the movable seat so as to limit the product bearing mechanism, and the assembly part is arranged at the appointed installation position;

and the buffer is arranged on the limiting piece and is used for abutting against the movable seat so as to reduce the impact force generated when the movable seat abuts against the limiting piece.