CN214444455U

CN214444455U - Buckle assembly equipment

Info

Publication number: CN214444455U
Application number: CN202022974296.0U
Authority: CN
Inventors: 严仲文
Original assignee: Dongguan Dingli Automation Technology Co Ltd
Current assignee: Dongguan Dingli Automation Technology Co Ltd
Priority date: 2020-12-11
Filing date: 2020-12-11
Publication date: 2021-10-22
Anticipated expiration: 2030-12-11

Abstract

The utility model relates to an automatic change equipment technical field, concretely relates to detain equipment, which comprises a worktable, be equipped with rotatory disc on the board, adjust a transport mechanism, detain base transport mechanism, nut assembly devices, screw rod assembly devices, lock screw mechanism and finished product conveying mechanism, nut assembly devices and screw rod assembly devices set gradually in the side of adjusting a transport mechanism, the output of adjusting a transport mechanism meets with one of them station of rotatory disc, detain base transport mechanism and set up the preceding station department of adjusting a transport mechanism and the station that meets of rotatory disc, lock screw mechanism and finished product conveying mechanism set gradually in the back station department of adjusting a transport mechanism and the station that meets of rotatory disc. The adjusting seat of the buckle handle, the nut, the screw rod and the assembly of the buckle handle base can be automatically completed, so that not only can each component be accurately assembled in place, the problem of blockage caused by rotation of the nut be avoided, the production quality of the buckle handle is guaranteed, and the production efficiency can be greatly improved.

Description

Buckle assembly equipment

Technical Field

The utility model relates to an automatic equipment technical field, concretely relates to detain equipment.

Background

The buckle handle is widely used as a common accessory in various occasions. In the conventional buckle assembly process, as shown in fig. 11, a nut 92 is directly assembled on an adjustment seat 91, the nut 92 is limited to rotate at a predetermined position of the adjustment seat 91 by a screw 93, and finally a clamping screw 94 locks the adjustment seat 91 on a buckle base 95. However, the problem of inaccurate alignment of the assembly is easily caused by the conventional direct assembly method, so that the nut 92 is blocked when rotating, and the screw 94 is not easy to clamp, which not only affects the assembly production quality of the buckle product, but also affects the production efficiency.

Therefore, there is a need in the industry for a solution to the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a detain equipment to prior art's not enough. The purpose of the utility model can be realized by the technical scheme as follows.

The utility model provides a detain equipment, includes the board, be equipped with rotatory disc on the board, adjust a transport mechanism, detain base transport mechanism, nut assembly devices, screw assembly devices, lock screw mechanism and finished product conveying mechanism, nut assembly devices reaches screw assembly devices sets gradually adjust a transport mechanism's side, adjust a transport mechanism's output with one of them station of rotatory disc meets, the knot is in base transport mechanism sets up adjust a transport mechanism with the preceding station department that rotatory disc meets the station, lock screw mechanism with finished product conveying mechanism sets gradually adjust a transport mechanism with the back station department that rotatory disc meets the station.

Preferably, the adjusting seat conveying mechanism comprises an adjusting seat feeding assembly and an adjusting seat conveying assembly, the adjusting seat conveying assembly comprises a conveying part, a conveying positioning part and a clamping conveying part, an input end of the conveying part is connected with the adjusting seat feeding assembly, the clamping conveying part is connected with an output end of the conveying part, and the conveying positioning part is arranged beside the conveying part.

Preferably, the carrying positioning part comprises a positioning base, a positioning adjusting plate, a first adjusting pushing device, a second adjusting pushing device, a positioning bearing plate and a plurality of elastic positioning pieces, wherein the bottom of the positioning adjusting plate is connected with the positioning base in a sliding manner, the first adjusting pushing device is fixed on the side edge of the positioning base and pushes the positioning adjusting plate to slide, the bottom of the positioning bearing plate is connected with the positioning adjusting plate in a sliding manner, the second adjusting pushing device is fixed on the positioning adjusting plate and pushes the positioning bearing plate to slide, and the elastic positioning pieces are arranged on the positioning bearing plate at intervals.

Preferably, the elastic positioning part comprises a positioning part body, positioning columns, positioning elastic parts and limiting blocks, the limiting blocks are arranged at two side corners of the positioning part body close to the conveying and conveying part, the positioning elastic parts are arranged inside the positioning part body, and the positioning columns stretch out and draw back between the two limiting blocks to press the positioning elastic parts.

Preferably, the screw assembling mechanism sequentially comprises a screw pre-locking assembly and a screw locking assembly, the screw pre-locking assembly comprises a pre-locking base, a pre-locking lifting device, a pre-locking shifting device, an elastic pre-locking pushing and pressing piece, the pre-locking shifting device is transversely fixed on the pre-locking base, the pre-locking lifting device is longitudinally fixed on the pre-locking shifting device, the pressing piece is fixed on the pre-locking lifting device, a rack is arranged at the bottom end of the pressing piece, and the elastic pre-locking pushing and pressing piece is fixed on the pre-locking base.

Preferably, the screw locking assembly comprises a locking seat, a driving motor, a locking connecting plate, an elastic locking pushing and pressing part, a roller assembly and a roller lifting device, the roller lifting device is fixed on the locking seat, the locking connecting plate is fixed on a pushing shaft of the roller lifting device, the roller assembly is in transmission connection with the driving motor, and the elastic locking pushing and pressing part is arranged on the locking connecting plate.

Preferably, the screw locking mechanism comprises a screw feeding assembly, a screw distributing assembly and a screw locking assembly, the screw distributing assembly comprises a distributing base, a blanking device, a material blocking pushing device, a stop lever and a screw blowing device, the blanking device is fixed on the distributing base, the top end of the blanking device is communicated with the screw feeding assembly through a pipeline, the material blocking pushing device is fixed on the distributing base and pushes the stop lever to penetrate into the blanking device, the screw blowing device is arranged at the bottom end of the blanking device, and the bottom end of the screw blowing device is communicated with the screw locking assembly through a pipeline.

Preferably, the screw locking assembly includes a screw locking base, a screw locking table, a rotating device, a screw locking member and a screw locking displacement member, the screw locking displacement member is fixed on the screw locking base, the rotating device is fixed on the screw locking displacement member, the screw locking member is fixed on a rotating shaft of the rotating device and communicated with the screw distributing assembly, the screw locking table is arranged below the screw locking member, the screw locking table includes a screw locking bottom plate, an alignment pushing device, a sliding seat and a placing table, the sliding seat is connected with the screw locking bottom plate in a sliding manner, the alignment pushing device is fixed on the screw locking bottom plate and pushes the sliding seat to slide, and the placing table is arranged on a top surface of the sliding seat.

Preferably, the finished product conveying mechanism comprises a product grabbing component, a finished product conveying component and a defective product collecting component, the finished product conveying component and the defective product collecting component are arranged below the product grabbing component in a staggered mode, the defective product collecting component comprises a defective product guiding slide and a defective product collecting box, and the defective product guiding slide is obliquely arranged above the defective product collecting box.

Preferably, the base conveying mechanism of the buckle handle comprises a base feeding assembly, a base direct-vibration conveying channel, a base grabbing assembly and a base conveying bearing seat, wherein the base direct-vibration conveying channel is connected with the base feeding assembly and is placed on the base conveying bearing seat, and the base grabbing assembly is arranged at an output end of the base direct-vibration conveying channel.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses research and develop a knot equipment, can accomplish the regulation seat and nut, the screw rod of detaining the full automatization ground and detain the assembly of base, not only can ensure accurately put each parts assembly in place, avoid the nut to rotate the problem that the card went up appears, guarantee to detain the production quality of handle, can also improve production efficiency greatly.

Drawings

For a clearer explanation of the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

Fig. 2 is a schematic structural view of the adjusting seat conveying mechanism, the nut assembling mechanism and the screw assembling mechanism in the embodiment of the present invention.

Fig. 3 is a schematic structural view of a conveying positioning component according to an embodiment of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a schematic structural view of the screw pre-locking assembly according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of the screw locking assembly in the embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a screw locking mechanism according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of the screw distributing assembly according to the embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a screw locking assembly according to an embodiment of the present invention.

Fig. 10 is a schematic structural view of a finished product conveying mechanism and a rotating disc according to an embodiment of the present invention.

Fig. 11 is a schematic structural view of the base transmission mechanism and the rotary disk of the embodiment of the present invention.

Fig. 12 is an exploded view of the structure of the buckle handle.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following specific embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

A buckle assembly device is shown in figures 1 and 2 and comprises a machine table 1, wherein a rotary disc 2, an adjusting seat conveying mechanism 3, a buckle base conveying mechanism 4, a nut assembling mechanism 5, a screw rod assembling mechanism 6, a screw locking mechanism 7 and a finished product conveying mechanism 8 are arranged on the machine table 1, the nut assembling mechanism 5 and the screw assembling mechanism 6 are sequentially arranged at the side of the adjusting seat conveying mechanism 3, the output end of the adjusting seat transmission mechanism 3 is connected with one station of the rotary disc 2, the button base transmission mechanism 4 is arranged at the front station of the connecting station of the adjusting seat transmission mechanism 3 and the rotary disc 2 to ensure that the button base is already placed on the rotary disc 2 at the front station, and the rotating disc 2 rotates to the next station connected with the adjusting seat conveying mechanism 3 to assemble the adjusting seat and the buckle handle base. The screw locking mechanism 7 and the finished product conveying mechanism 8 are sequentially arranged at the rear station of the connecting station of the adjusting seat conveying mechanism 3 and the rotating disc 2.

Specifically, the adjusting seat is conveyed on the adjusting seat conveying mechanism 3, when the adjusting seat is conveyed to the nut assembling mechanism 5, the nut assembling mechanism 5 assembles the nut at a preset position of the adjusting seat, then the screw rod is loaded on the nut of the adjusting seat through the screw rod assembling mechanism 6, the base conveying mechanism 4 is buckled to convey the base to the rotating disc 2, the rotating disc 2 drives the buckle to convey the base to a station corresponding to the output end of the adjusting seat conveying mechanism 3, the adjusting seat conveying mechanism 3 conveys the adjusting seat assembled with the nut and screw rod to the buckle positioned on the rotating disc 2, the rotating disc 2 rotates the adjusting seat to the screw locking mechanism 7, the screw locking mechanism 7 buckles the locking screw to fix the adjusting seat on the buckle base, and the adjusting seat is conveyed to the finished product conveying mechanism 8 to be conveyed out after the screw locking is completed. The adjusting seat of the buckle handle, the nut, the screw rod and the base can be assembled fully automatically, so that the assembly of each component can be accurately assembled, the problem that the nut is blocked due to rotation is avoided, the production quality of the buckle handle is guaranteed, and the production efficiency can be greatly improved.

In the buckle assembly apparatus provided in this embodiment, as shown in fig. 2, the adjusting seat conveying mechanism 3 includes an adjusting seat feeding assembly 31 and an adjusting seat carrying assembly 32, the adjusting seat feeding assembly 31 feeds the adjusting seat onto the adjusting seat carrying assembly 32, the adjusting seat carrying assembly 32 sequentially conveys the adjusting seat onto each component for processing, and the adjusting seat feeding assembly 31 preferably feeds a vibration tray. As shown in fig. 3, the adjusting seat conveying assembly 32 includes a conveying and conveying member 322, a conveying and positioning member 323, and a clamping and conveying member 321, wherein an input end of the conveying and conveying member 322 is connected to the adjusting seat loading assembly 31, the clamping and conveying member 321 is connected to an output end of the conveying and conveying member 322, and the conveying and positioning member 323 is disposed beside the conveying and conveying member 322. The adjusting seat comes out from the adjusting seat feeding assembly 31 and then directly enters the adjusting seat conveying component of the adjusting seat conveying assembly 32, when the adjusting seat is conveyed to a preset position, the conveying positioning component 323 supports against the adjusting seat, so that the adjusting seat does not move any more, the adjusting seat is assembled with accessories such as nuts and screws, the clamping conveying component 321 is conveyed to a subsequent station at the output end of the conveying component 322 by the adjusting seat with the nuts and screws clamped.

In the buckle assembling apparatus provided in this embodiment, as shown in fig. 3, the carrying positioning component 323 includes a positioning base 324, a positioning adjustment plate 326, a first adjusting pushing device 325, a second adjusting pushing device 327, a positioning carrier plate 328, and a plurality of elastic positioning members 329, and the first adjusting pushing device 325 and the second adjusting pushing device 327 are preferably pushed by an air cylinder. Referring to fig. 3, the first adjusting and pushing device 325 pushes the positioning adjustment plate 326 to move forward and backward so that the elastic positioning member 329 moves closer to or away from the conveying and conveying member 322 to ensure that the elastic positioning member 329 can press against the adjustment seat on the conveying and conveying member 322, and the second adjusting and pushing device 327 pushes the positioning carrier plate 328 to move left and right to adjust the positioning position of the elastic positioning member 329 on the adjustment seat. Specifically, the bottom of the positioning adjustment plate 326 is connected with the positioning base 324 in a sliding manner, the first adjusting and pushing device 325 is fixed to the side of the positioning base 324 and pushes the positioning adjustment plate 326 to slide, the bottom of the positioning bearing plate 328 is connected with the positioning adjustment plate 326 in a sliding manner, the second adjusting and pushing device 327 is fixed to the positioning adjustment plate 326 and pushes the positioning bearing plate 328 to slide, and the elastic positioning members 329 are arranged on the positioning bearing plate 328 at intervals to ensure that a space exists between each station and avoid mutual interference.

In the buckle handle assembling apparatus provided in this embodiment, as shown in fig. 4, the elastic positioning element 329 includes a positioning element body 3291, a positioning column 3293, a positioning elastic element (not shown) and a positioning block 3292, the positioning element body 3291 is provided with the positioning block 3292 at two side corners close to the conveying and conveying part 322, the positioning elastic element is disposed inside the positioning element body 3291, and the positioning column 3293 extends between the two positioning blocks 3292 to press the positioning elastic element. Under the pushing action of the first adjusting pushing device 325 and the second adjusting pushing device 327, the elastic positioning element 329 is close to the adjusting seat, the limiting blocks 3292 at the two side corners limit the positions of the two ends of the adjusting seat so as to make the position of the adjusting seat relatively stable, and the positioning column 3293 compresses the positioning elastic element and extends out of the positioning element body 3291 to elastically press against the nut assembling position of the adjusting seat, so that the position of the adjusting seat is ensured to be fixed, and the positioning column 3293 is retracted by the action force of the nut in the process of adjusting the seat in the nut assembling process, and the assembling of the nut is not influenced.

In the buckle handle assembling device provided in this embodiment, as shown in fig. 2, the screw assembling mechanism 6 sequentially includes a screw pre-locking component 61 and a screw locking component 62, the screw pre-locking component 61 is used for aligning and inserting the screw with the nut on the adjusting seat at a corresponding position, and the screw locking component 62 pushes and presses the aligned screw to assemble the screw in place. As shown in fig. 5, the screw pre-locking assembly 61 includes a pre-locking base 611, a pre-locking lifting device 612, a pre-locking shifting device 613, an elastic pre-locking pushing element 614 and a pressing block 615, wherein the pre-locking shifting device 613 adjusts a transverse position of the pressing block 615, the pre-locking lifting device 612 adjusts a longitudinal position of the pressing block 615, the elastic pre-locking pushing element 614 is used for pushing the screw into a nut position on the adjusting base, and the pressing block 615 is used for pressing the nut on the adjusting base to prevent the nut from shifting, so as to facilitate accurate alignment of the screw. The pre-lock shifting device 613 is transversely fixed on the pre-lock base 611, the pre-lock lifting device 612 is longitudinally fixed on the pre-lock shifting device 613, the pressing block 615 is fixed on the pre-lock lifting device 612 and located above the adjusting seat carrying assembly 32, and the pressing block 615 presses the nut on the adjusting seat conveyed on the adjusting seat carrying assembly 32 from top to bottom. The bottom of pressing block 615 is equipped with the rack, and the gear engagement on rack and the nut ensures that the nut position does not change. The elastic pre-locking pushing element 614 is fixed on the pre-locking base 611, the elastic pre-locking pushing element 614 is arranged opposite to the elastic positioning element 329, the elastic positioning element 329 limits the position of the adjusting seat on one side, and the elastic pre-locking pushing element 614 pushes the screw rod to be inserted in a position corresponding to the nut on the adjusting seat on the other side.

In the present embodiment of the handle assembly apparatus, as shown in fig. 6, the screw locking assembly 62 includes a locking seat 621, a driving motor 622, a locking connection plate 623, an elastic locking pushing component 625, a roller component 626, and a roller lifting device 624. The roller lifting device 624 is fixed on the locking seat 621, the locking connecting plate 623 is fixed on a pushing shaft of the roller lifting device 624, and the roller lifting device 624 pushes the locking connecting plate 623 to move up and down, so as to drive each component on the locking connecting plate 623 to move together, so as to adjust the position of the locking screw of the locking assembly. The roller assembly 626 is in transmission connection with the driving motor 622, and the driving motor 622 provides rotating power for the roller assembly 626. The elastic lock pressing member 625 is provided on the lock link plate 623. The elastic locking adapts to the positions of the screw and the nut along with the movement of the locking connecting plate 623, so that the screw which is subjected to pre-locking treatment is accurately pushed onto the nut. Because the nut in the buckle handle is in a relatively rotatable state on the adjusting seat, the nut is easily locked when the screw rod is directly pushed and pressed onto the nut entering the adjusting seat, so that the roller assembly 626 is in contact with the nut and drives the nut to rotate at a preset position of the adjusting seat when the screw rod is assembled, and the pushing and pressing screw rod is completely assembled on the screw rod of the adjusting seat while the nut rotates, so that the nut after being assembled can still keep relatively rotating on the adjusting seat.

In the buckle assembly apparatus provided in this embodiment, as shown in fig. 7, the screw locking mechanism 7 includes a screw feeding assembly 71, a screw distributing assembly 72, and a screw locking assembly 73, the screw feeding assembly 71 conveys screws onto the screw distributing assembly 72 for distributing and conveying to the screw locking assembly 73, and according to actual requirements, a plurality of sets of screw locking assemblies 73 can be provided for locking screws. As shown in fig. 8, the screw distributing assembly 72 includes a distributing base 721, a blanking device 722, a material blocking pushing device 725, a blocking rod 724 and a screw blowing device 723, the blanking device 722 is fixed on the distributing base 721, the top end of the blanking device 722 is communicated with the screw feeding assembly 71 through a pipeline, the material blocking pushing device 725 is fixed on the distributing base 721 and pushes the blocking rod 724 to penetrate through the blanking device 722, so as to press against screws in the blanking device 722, thereby preventing a plurality of screws from falling down at one time. The screw blowing device 723 is arranged at the bottom end of the blanking device 722, and the bottom end of the screw blowing device 723 is communicated with the screw locking assembly 73 through a pipeline. Specifically, the screws are placed in the screw feeding assembly 71, the screw feeding assembly 71 conveys the screws into the blanking device 722 of the screw distributing assembly 72 through a pipeline, a blanking channel is formed in the blanking device 722, and the screws entering the blanking device 722 are arranged in the blanking channel. When material distribution is carried out, the blocking pushing device 725 pushes the blocking rod 724 to retract outwards slightly to release screws, the lowest screw falls, and then the blocking pushing device 725 pushes the blocking rod 724 to extend into the blanking device 722 to abut against the screw which does not fall, so that the situation that a plurality of screws fall together to interfere the work of the screw locking assembly 73 is avoided. In the screw that drops gets into the pipeline between screw feed subassembly 72 and the screw locking subassembly 73, blow screw device 723 and blow and send the screw to the operating position of screw locking subassembly 73 along the pipeline fast on, so repeated with the screw conveying, easy operation, convenient and fast need not to press from both sides the screw through anchor clamps and also can send the screw to screw locking subassembly 73 fast on, accurate target in place in addition, can improve production efficiency greatly.

In the present embodiment, as shown in fig. 8, the screw locking assembly 73 includes a screw locking base 731, a screw locking table 732, a rotating device 733, a screw locking member 734 and a screw shifting member 735, the screw locking member 735 is fixed to the screw locking base 731, the rotating device 733 is fixed to the screw shifting member 735, the screw locking member 734 is fixed to a rotating shaft of the rotating device 733 and is communicated with the screw distributing assembly 72, the screw locking table 732 is disposed below the screw locking member 734, a seat for adjusting a screw to be locked and a base for a fastener are disposed on the screw locking table 732, the screw shifting member drives the rotating device 733 and the screw locking member 734 to move to adjust a vertical position, and the rotating device 733 rotates to lock the screw to the fastener. As shown in fig. 8, the screw locking workbench 732 includes a screw locking bottom plate 7321, an alignment pushing device 7322, a sliding seat 7323, and a placing table 7324, where the sliding seat 7323 is connected to the screw locking bottom plate 7321 in a sliding manner, the alignment pushing device 7322 is fixed to the screw locking bottom plate 7321 and pushes the sliding seat 7323 to slide, the placing table 7324 is disposed on the top surface of the sliding seat 7323, and the alignment pushing device 7322 pushes the sliding seat 7323 to drive the placing table 7324 to move left and right to adjust the left and right positions.

In the assembling apparatus for a buckle handle provided in this embodiment, as shown in fig. 10, the finished product conveying mechanism 8 includes a product grabbing component 81, a finished product conveying component 82 and a defective product collecting component, and the finished product conveying component 82 and the defective product collecting component are disposed below the product grabbing component 81 in a staggered manner, so as to ensure that the positions of the two components do not interfere with each other. The defective product collecting assembly comprises a defective product guiding slide 83 and a defective product collecting box 84, wherein the defective product guiding slide 83 is obliquely arranged above the defective product collecting box 84. After the assembly of the buckle on the rotary disc 2 is completed, the product grabbing component 81 grabs out the buckle, finished products meeting the quality requirement are placed on the finished product conveying component 82 and conveyed to a preset position, and defective products are placed on the defective product guide slide 83 and slide down in the defective product collecting box 84.

In the assembling apparatus for a fastener handle provided in this embodiment, as shown in fig. 11, the fastener handle base conveying mechanism 4 includes a base feeding component 41, a base direct-vibration conveying channel 42, a base grabbing component 43, and a base conveying bearing seat 44, the base direct-vibration conveying channel 42 is connected to the base feeding component 41, the base direct-vibration conveying channel 42 is placed on the base conveying bearing seat 44, and the base conveying bearing seat 44 supports the base direct-vibration conveying channel 42, so as to prevent the base direct-vibration conveying channel 42 from toppling over. The base gripping assembly 43 is disposed at the output end of the base straight vibrating conveyor 42. The base of the button handle is placed on the base feeding assembly 41, the base of the button handle is sent to the base straight vibration conveying channel 42 for conveying, and the base grabbing assembly 43 grabs the base of the button handle and places the base of the button handle on the rotating disc 2.

The present invention has been further described with reference to specific embodiments, but it should be understood that the specific description herein should not be construed as limiting the spirit and scope of the present invention, and that various modifications to the above-described embodiments, which would occur to persons skilled in the art after reading this specification, are within the scope of the present invention.

Claims

1. The utility model provides a detain equipment, a serial communication port, which comprises a worktable, be equipped with rotatory disc on the board, adjust a transport mechanism, detain base transport mechanism, nut assembly devices, screw rod assembly devices, lock screw mechanism and finished product conveying mechanism, nut assembly devices reaches screw rod assembly devices sets gradually adjust a transport mechanism's side, adjust a transport mechanism's output with one of them station of rotatory disc meets, detain and set up base transport mechanism adjust a transport mechanism with rotatory disc meets the preceding station department of station, lock screw mechanism with finished product conveying mechanism sets gradually adjust a transport mechanism with rotatory disc meets the back station department of station.

2. The buckle handle assembling equipment according to claim 1, wherein the adjusting seat conveying mechanism comprises an adjusting seat feeding assembly and an adjusting seat conveying assembly, the adjusting seat conveying assembly comprises a conveying part, a conveying positioning part and a clamping conveying part, the input end of the conveying part is connected with the adjusting seat feeding assembly, the clamping conveying part is connected with the output end of the conveying part, and the conveying positioning part is arranged beside the conveying part.

3. The assembly equipment of claim 2, wherein the carrying and positioning component comprises a positioning base, a positioning adjustment plate, a first adjusting and pushing device, a second adjusting and pushing device, a positioning bearing plate and a plurality of elastic positioning pieces, the bottom of the positioning adjustment plate is slidably connected with the positioning base, the first adjusting and pushing device is fixed on the side of the positioning base and pushes the positioning adjustment plate to slide, the bottom of the positioning bearing plate is slidably connected with the positioning adjustment plate, the second adjusting and pushing device is fixed on the positioning adjustment plate and pushes the positioning bearing plate to slide, and the elastic positioning pieces are arranged on the positioning bearing plate at intervals.

4. The assembly equipment of claim 3, wherein the elastic positioning member comprises a positioning member body, a positioning column, a positioning elastic member and limiting blocks, the limiting blocks are arranged at two side corners of the positioning member body close to the conveying and conveying part, the positioning elastic member is arranged inside the positioning member body, and the positioning column stretches between the two limiting blocks to press the positioning elastic member.

5. The lock handle assembly device according to claim 1, wherein the screw assembly mechanism comprises a screw pre-locking assembly and a screw locking assembly in sequence, the screw pre-locking assembly comprises a pre-locking base, a pre-locking lifting device, a pre-locking displacement device, an elastic pre-locking pushing piece and a pressing block, the pre-locking displacement device is transversely fixed on the pre-locking base, the pre-locking lifting device is longitudinally fixed on the pre-locking displacement device, the pressing block is fixed on the pre-locking lifting device, a rack is arranged at the bottom end of the pressing block, and the elastic pre-locking pushing piece is fixed on the pre-locking base.

6. The buckle handle assembling equipment according to claim 5, wherein the screw locking assembly comprises a locking seat, a driving motor, a locking connecting plate, an elastic locking pushing and pressing assembly, a roller assembly and a roller lifting device, the roller lifting device is fixed on the locking seat, the locking connecting plate is fixed on a pushing shaft of the roller lifting device, the roller assembly is in transmission connection with the driving motor, and the elastic locking pushing and pressing assembly is arranged on the locking connecting plate.

7. The buckle assembly device according to claim 1, wherein the screw locking mechanism comprises a screw feeding assembly, a screw distributing assembly and a screw locking assembly, the screw distributing assembly comprises a distributing base, a blanking device, a material blocking pushing device, a stop rod and a screw blowing device, the blanking device is fixed on the distributing base, the top end of the blanking device is communicated with the screw feeding assembly through a pipeline, the material blocking pushing device is fixed on the distributing base and pushes the stop rod to penetrate through the blanking device, the screw blowing device is arranged at the bottom end of the blanking device, and the bottom end of the screw blowing device is communicated with the screw locking assembly through a pipeline.

8. The buckle handle assembly device according to claim 7, wherein the screw locking assembly comprises a screw locking base, a screw locking table, a rotating device, a screw locking member and a screw locking displacement member, the lock screw displacement piece is fixed on the lock screw base, the rotating device is fixed on the lock screw displacement piece, the screw locking piece is fixed on the rotating shaft of the rotating device and is communicated with the screw distributing component, the screw locking workbench is arranged below the screw upper locking piece and comprises a screw locking bottom plate, an alignment pushing device, a sliding seat and a placing table, the sliding seat is connected with the screw locking bottom plate in a sliding mode, the alignment pushing device is fixed on the screw locking bottom plate and pushes the sliding seat to slide, and the placing table is arranged on the top face of the sliding seat.

9. The buckle handle assembling equipment according to claim 1, wherein the finished product conveying mechanism comprises a product grabbing component, a finished product conveying component and a defective product collecting component, the finished product conveying component and the defective product collecting component are arranged below the product grabbing component in a staggered mode, the defective product collecting component comprises a defective product guiding slide and a defective product collecting box, and the defective product guiding slide is obliquely arranged above the defective product collecting box.

10. The button assembly equipment according to claim 1, wherein the button base conveying mechanism comprises a base feeding assembly, a base vertical vibration conveying channel, a base grabbing assembly and a base conveying and bearing seat, the base vertical vibration conveying channel is connected with the base feeding assembly and is placed on the base conveying and bearing seat, and the base grabbing assembly is arranged at the output end of the base vertical vibration conveying channel.