CN219541627U - Hinge rivet rotary riveting mechanism - Google Patents

Abstract

The utility model discloses a hinge rivet spin riveting mechanism, wherein the left and right directions of a spin riveting machine are horizontally and fixedly arranged on a support, an output shaft of the spin riveting machine horizontally extends to the right, an upper driving module and a lower driving module are fixedly arranged on the support, the output ends of the upper driving module and the lower driving module are connected with the upper part of a lower pressing strip and can drive the lower pressing strip to move up and down, the lower pressing strip is positioned at the right upper part of the output shaft of the spin riveting machine, the left driving module and the right driving module are fixedly arranged on the support, the output ends of the left driving module and the right driving module are connected with the right part of a support column and can drive the support column to move back and forth, the support column is positioned right of the output shaft of the spin riveting machine, and the left end of the support column is right opposite to the output shaft of the spin riveting machine. The lower pressing strip of the hinge rivet screwing mechanism can automatically press the hinge main body to be processed, and the support column can automatically extend out to prop against the other end of the pin to be screwed, so that the moving hinge semi-finished product is accurately fixed, the screwing machine can smoothly finish screwing action, and the screwing efficiency is greatly improved.

Description

Hinge rivet rotary riveting mechanism

Technical Field

The utility model relates to the field of machining tools, in particular to a hinge rivet rotary riveting mechanism.

Background

In the hinge assembly process, part parts are connected through pins, and after the pins are inserted, the free ends of the pins are required to be riveted in a rotating mode so as to prevent the pins from falling off. In the prior art, a workpiece to be riveted is generally placed on a designated riveting jig to be fixed, and then riveting is performed, however, in the hinge automatic assembly process, the part to be riveted is already assembled on a specific jig which moves flexibly, for example, a semi-finished product of the hinge is disassembled and then placed on the riveting jig to rivet, so that the processing efficiency of the hinge can be greatly reduced.

Disclosure of Invention

The utility model aims at: a hinge rivet screwing mechanism is provided to solve the above problems.

The technical scheme of the utility model is realized as follows:

the utility model provides a hinge rivet rivets soon and constructs, includes support, soon riveter, pushes down locating component and soon rivets locating component, around the riveter trend horizontal fixed mounting in on the support, around the output shaft of riveter stretch out to the level, push down locating component including lower layering and the upper and lower drive module of going up and down, upper and lower drive module fixed mounting in on the support, upper and lower drive module's output with lower layering's upper portion meets and can drive lower layering reciprocates, lower layering is located soon the upper right side of riveter's output shaft, soon rivet locating component including control trend horizontal support column and control drive module, control drive module fixed mounting in on the support, control drive module's output with support column's right part meets and can drive the support column back and forth movement, the support column is located just right side of riveter's output shaft, just right side of support column.

The hinge rivet spin riveting mechanism also comprises a driving cylinder, a cylinder seat, an up-down moving block, a lower pressing strip mounting block and a left-right telescopic block, wherein the cylinder seat is fixedly arranged on the bracket, the cylinder seat comprises a top wall plate and a left wall plate, the upper end of the top wall plate is fixedly connected with the left end of the top wall plate, the top wall plate is provided with a cylinder mounting hole, the middle part of the left wall plate is provided with a vertical guide hole which moves towards the strip vertically, the lower part of the left wall plate is provided with a left-right limiting hole which extends or retracts from the left-right telescopic block, the driving cylinder is fixedly arranged on the top wall plate, an output shaft of the driving cylinder downwards passes through the cylinder mounting hole to be connected with the top of the up-down moving block, the right end of the lower pressing strip mounting block is fixedly connected with the upper part of the left side wall of the up-down moving block, the left end of the lower pressing strip mounting block passes through the vertical guide hole to be fixedly connected with the upper part of the lower pressing strip, the middle part of the left lower wall of the up-down moving block is recessed to the right to form a telescopic notch, the right inner wall of the telescopic notch is bent to the right from top to bottom, the front side wall and the rear side wall of the telescopic notch are respectively provided with guide holes matched with the shape of the right inner wall of the telescopic notch at the left side of the right inner wall of the telescopic notch, the right upper part of the left-right telescopic block is provided with a matching surface matched with the shape of the right inner wall of the telescopic notch and bent to the right from top to bottom, the left-right telescopic block is inserted in the left-right limiting hole in a sliding way, the left-right telescopic block can extend to the telescopic notch and enable the matching surface to be matched with the right inner wall of the telescopic notch, the front outer wall and the rear outer wall of the left-right telescopic block are respectively provided with guide column bars in a protruding way right opposite to the guide holes, the guide column bars are inserted in the corresponding guide holes, the right end of the support column is fixedly connected to the left side wall of the left telescopic block and the right telescopic block.

The support comprises a bottom plate, a vertical plate, horizontal plates, vertical plates, two right support legs, two left and right connecting rods and two air cylinder supporting pieces, wherein the vertical plates are fixedly installed on the bottom plate in the front-back direction, the left ends of the horizontal plates are fixedly installed on the right side wall of the vertical plates, the upper ends of the right support legs are respectively fixed on the front end and the rear end of the bottom of the horizontal plates, the lower ends of the right support legs are respectively fixed on the bottom plate, the lower ends of the vertical plates are vertically and fixedly installed on the right end of the top of the horizontal plates, second installation holes in the left and right directions are formed in the vertical plates, the vertical plates are just opposite to the second installation holes, the two left and right connecting rods are respectively connected between the upper parts of the vertical plates and the top of the vertical plates in a left and right alternate mode, the left ends of the air cylinder supporting pieces are respectively fixedly connected with the upper front ends and the rear ends of the right side walls of the vertical plates, the right ends of the air cylinder supporting pieces are respectively connected with the right side walls of the vertical plates in a penetrating mode, and the right side wall of the riveting machine is fixedly connected with the second installation holes, and the riveting machine is sequentially installed on the right side wall of the riveting machine.

Compared with the prior art, the lower pressing bar of the hinge rivet riveting mechanism can automatically press the hinge main body to be processed, and the support column can automatically extend out to prop against the other end of the pin to be riveting, so that the moving hinge semi-finished product is accurately fixed, the riveting machine can smoothly complete the riveting action, and the riveting efficiency is greatly improved.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

fig. 1 is a block diagram of a hinge rivet spin mechanism of the present utility model.

Fig. 2 is a partial structural view of the hinge rivet spinning mechanism of the present utility model.

Fig. 3 is another partial structural view of the hinge rivet spinning mechanism of the present utility model.

In the figure: 10. a bracket; 11. a bottom plate; 12. a vertical plate; 121. a first mounting hole; 141. a second mounting hole; 13. a horizontal plate; 14. a riser; 15. a right support leg; 16. left and right connecting rods; 17. a cylinder support; 20. a spin riveting machine; 30. pressing down the positioning assembly; 31. a lower pressing bar; 40. spin riveting positioning components; 41. a support column; 50. a driving cylinder; 55. a cylinder block; 551. a top wall panel; 552. a left wall plate; 5521. a vertical guide hole; 60. a vertical moving block; 61. a telescopic notch; 62. a guide hole; 65. a lower pressing strip mounting block; 70. left and right telescopic blocks; 71. a mating surface; 72. a guide column bar; 200. and (5) a hinge semi-finished product.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 3, the present utility model provides the following technical solutions: the hinge rivet rotary riveting mechanism comprises a bracket 10, a rotary riveting machine 20, a pressing positioning component and a rotary riveting positioning component. The riveting machine 20 is fixedly mounted on the support 10 horizontally in a left-right direction, and an output shaft of the riveting machine 20 horizontally extends to the right.

The lower pressing positioning assembly comprises a lower pressing strip 31 moving up and down and an upper and lower driving module, the upper and lower driving module is fixedly arranged on the support 10, the output end of the upper and lower driving module is connected with the upper part of the lower pressing strip 31 and can drive the lower pressing strip 31 to move up and down, and the lower pressing strip 31 is positioned above the right of the output shaft of the spin riveting machine 20.

The spin riveting positioning assembly comprises a support column 41 horizontally arranged in a left-right direction and a left-right driving module, the left-right driving module is fixedly mounted on the support 10, the output end of the left-right driving module is connected with the right part of the support column 41 and can drive the support column 41 to move back and forth, the support column 41 is positioned right of the output shaft of the spin riveting machine 20, and the left end of the support column 41 is opposite to the output shaft of the spin riveting machine 20.

Specifically, the hinge rivet spin riveting mechanism further comprises a driving cylinder 50, a cylinder seat 55, an up-down moving block 60, a lower pressing strip mounting block 65 and a left-right telescopic block 70. The cylinder block 55 is fixedly mounted on the bracket 10, the cylinder block 55 comprises a top wall plate 551 and a left wall plate 552, the upper end of the top wall plate 551 is fixedly connected with the left end of the top wall plate 552, the top wall plate 551 is provided with a cylinder mounting hole (not shown), the middle part of the left wall plate 552 is provided with a vertical guide hole 5521 which goes up and down, the lower part of the left wall plate 552 is provided with a left and right limiting hole 5522 which extends or retracts from the left and right telescopic block 70, the driving cylinder 50 is fixedly mounted on the top wall plate 551, the output shaft of the driving cylinder 50 passes through the cylinder mounting hole downwards and is connected with the top of the up and down moving block 60, the right end of the lower pressing bar mounting block 65 is fixedly connected with the upper part of the left side wall of the up and down moving block 60, the left end of the lower pressing bar mounting block 65 passes through the vertical guide hole 5521 and is fixedly connected with the upper part of the lower pressing bar 31, the middle part of the left lower wall of the up-down moving block 60 is recessed to the right to form a telescopic notch 61, the right inner wall of the telescopic notch 61 is bent to the right from top to bottom, the front and rear side walls of the telescopic notch 61 are respectively provided with a guide hole 62 matched with the shape of the right inner wall of the telescopic notch 61 at the left side of the right inner wall of the telescopic notch 61, the right upper part of the left and right telescopic block 70 is provided with a matching surface 71 matched with the shape of the right inner wall of the telescopic notch 61 and bent to the right from top to bottom, the left and right telescopic block 70 is inserted in the left and right limiting hole 5522 in a sliding way, the left and right telescopic block 70 can extend to the telescopic notch and make the matching surface 71 be matched with the right inner wall of the telescopic notch 61, the front and rear outer walls of the left and right telescopic block 70 are respectively provided with guide post strips 72 in a protruding way at the positions opposite to the guide hole 62, the guide posts 72 are inserted into the corresponding guide holes 62, and the right ends of the support posts 41 are fixedly connected to the left side walls of the left and right telescopic blocks 70. When the up-down moving block 60 moves up, the guiding post 72 moves down and right relative to the guiding hole 62, so that the mating surface 71 is matched and abutted with the right inner wall of the telescopic gap 61, so that the supporting column 41 retracts right, and when the up-down moving block 60 moves down, the guiding post 72 moves up and left relative to the guiding hole 62, so that the mating surface 71 leaves the right inner wall of the telescopic gap 61, and the supporting column 41 extends left. The driving cylinder 50, the up-and-down moving block 60 and the down-pressing bar mounting block 65 constitute the up-and-down driving module. The driving cylinder 50, the up-and-down moving block 60, and the left-and-right expansion block 70 constitute the left-and-right driving module.

Specifically, the bracket 10 includes a bottom plate 11, a vertical plate 12, a horizontal plate 13, a vertical plate 14, two right legs 15, two left and right links 16, and two cylinder supports 17. The vertical plate 12 is fixedly installed on the bottom plate 11 vertically in the front-back direction, the left end of the horizontal plate 13 is fixedly installed on the right side wall of the vertical plate 12, the upper ends of the right supporting legs 15 are respectively fixed on the front end and the rear end of the bottom of the horizontal plate 13, the lower ends of the right supporting legs 15 are respectively fixed on the bottom plate 11, the lower ends of the vertical plate 14 are vertically and fixedly installed on the right end of the top of the horizontal plate 13, the vertical plate 14 is provided with a left-right direction second installation hole 141, the vertical plate 12 is opposite to the second installation hole 141, a first installation hole 121 is formed in the position of the vertical plate 12, the left-right connecting rods 16 are respectively in the left-right direction and are alternately connected between the upper part of the vertical plate 12 and the top of the vertical plate 14, the left ends of the two cylinder supporting pieces 17 are respectively fixedly connected on the upper front end and the upper rear end of the right side wall of the vertical plate 14, the right ends of the two cylinder supporting pieces 17 are respectively fixedly connected with the cylinder seat 55, the left-right end of the cylinder supporting pieces 20 are respectively fixedly connected with the left-right side wall of the vertical plate 14, the riveting machine 20 is fixedly connected with the left-right side wall of the vertical plate 20, the riveting machine is provided with the right side wall 20, the riveting machine is sequentially provided with the left-right side wall 20, and the output shaft of the riveting machine is sequentially penetrates through the second installation hole 141, and the right side wall is provided with the first installation hole 20.

When the hinge rivet riveting mechanism 100 of the utility model works, a hinge semi-finished product 200 moves to the right of a riveting machine along with a turntable, at the moment, a driving cylinder 50 drives an up-down moving block 60 to move downwards, a lower pressing bar mounting block 65 drives a lower pressing bar 31 to push downwards so as to press and fix the hinge semi-finished product 200, meanwhile, a guide column strip 72 moves upwards and leftwards relative to a guide hole 62, so that a matching surface 71 leaves the right inner wall of a telescopic notch 61, a support column 41 extends leftwards and abuts against the other end of a rivet to be riveted by a jacking column, and meanwhile, an output end of the riveting machine 20 rotates and extends rightwards and abuts against a rivet to be riveted by a riveting machine, thereby completing the riveting action. After the spin riveting is completed, the driving cylinder 50 drives the up-down moving block 60 to move upwards for resetting, the lower pressing bar 31 moves upwards for resetting, and meanwhile, the guiding column strips 72 move downwards and rightwards relative to the guiding holes 62, so that the matching surface 71 is matched and abutted with the right inner wall of the telescopic notch 61, and the supporting column 41 is retracted and reset rightwards.

The lower pressing bar of the hinge rivet spin riveting mechanism can automatically press the hinge main body to be processed, and the support column can automatically extend out to prop against the other end of the pin to be spin-riveted, so that the moving hinge semi-finished product is accurately fixed, the spin riveting machine can smoothly complete spin riveting action, and the spin riveting efficiency is greatly improved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a hinge rivet rivets mechanism soon which characterized in that: the riveting machine comprises a support, a riveting machine, a pressing positioning assembly and a riveting positioning assembly, wherein the riveting machine is fixedly arranged on the support in a left-right direction, an output shaft of the riveting machine extends horizontally in a right direction, the pressing positioning assembly comprises a lower pressing strip and an upper and lower driving module, the upper and lower driving module is fixedly arranged on the support, an output end of the upper and lower driving module is connected with the upper part of the lower pressing strip and can drive the lower pressing strip to move up and down, the lower pressing strip is arranged on the right upper part of an output shaft of the riveting machine, the riveting positioning assembly comprises a support column and a left-right driving module, the left-right driving module is fixedly arranged on the support, an output end of the left-right driving module is connected with the right part of the support column and can drive the support column to move back and forth, and the support column is arranged right on the output shaft of the riveting machine, and the left end of the support column is right opposite to the output shaft of the riveting machine.

2. The hinge rivet spin mechanism of claim 1, wherein: the cylinder seat is fixedly arranged on the bracket, the cylinder seat comprises a top wall plate and a left wall plate, the upper end of the top wall plate is fixedly connected with the left end of the top wall plate, a cylinder mounting hole is formed in the top wall plate, a vertical guide hole which extends vertically is formed in the middle of the left wall plate, a left limit hole and a right limit hole which extend or retract from the left telescopic block to the right telescopic block are formed in the lower portion of the left wall plate, the driving cylinder is fixedly arranged on the top wall plate, an output shaft of the driving cylinder penetrates downwards through the cylinder mounting hole to be connected with the top of the upper moving block and the lower telescopic block, the right end of the lower telescopic block is fixedly connected with the upper portion of the left side wall of the upper moving block and the lower telescopic block, the left end of the lower telescopic block penetrates through the vertical guide hole to be fixedly connected with the upper portion of the lower telescopic block, the middle part of the left lower wall of the up-down moving block is recessed to the right to form a telescopic notch, the right inner wall of the telescopic notch is bent to the right from top to bottom, the front side wall and the rear side wall of the telescopic notch are respectively provided with guide holes matched with the shape of the right inner wall of the telescopic notch at the left side of the right inner wall of the telescopic notch, the right upper part of the left-right telescopic block is provided with a matching surface matched with the shape of the right inner wall of the telescopic notch and bent to the right from top to bottom, the left-right telescopic block is inserted in the left-right limiting hole in a sliding way, the left-right telescopic block can extend to the telescopic notch and enable the matching surface to be matched with the right inner wall of the telescopic notch, the front outer wall and the rear outer wall of the left-right telescopic block are respectively provided with guide column bars in a protruding way right opposite to the guide holes, the guide column bars are inserted in the corresponding guide holes, the right end of the support column is fixedly connected to the left side wall of the left telescopic block and the right telescopic block.

3. The hinge rivet spin mechanism of claim 2, wherein: the support comprises a bottom plate, a vertical plate, horizontal plates, vertical plates, two right support legs, two left and right connecting rods and two air cylinder supporting pieces, wherein the vertical plates are fixedly installed on the bottom plate in the front-back direction, the left ends of the horizontal plates are fixedly installed on the right side wall of the vertical plates, the upper ends of the right support legs are respectively fixed on the front end and the rear end of the bottom of the horizontal plates, the lower ends of the right support legs are respectively fixed on the bottom plate, the lower ends of the vertical plates are vertically and fixedly installed on the right end of the top of the horizontal plates, second installation holes in the left and right directions are formed in the vertical plates, the vertical plates are just opposite to the second installation holes, the two left and right connecting rods are respectively connected between the upper parts of the vertical plates and the top of the vertical plates in a left and right alternate mode, the left ends of the air cylinder supporting pieces are respectively fixedly connected with the upper front ends and the rear ends of the right side walls of the vertical plates, the right ends of the air cylinder supporting pieces are respectively connected with the right side walls of the vertical plates in a penetrating mode, and the right side wall of the riveting machine is fixedly connected with the second installation holes, and the riveting machine is sequentially installed on the right side wall of the riveting machine.