CN220881255U - Integrative mechanism is riveted to shield shell dress - Google Patents

Integrative mechanism is riveted to shield shell dress Download PDF

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Publication number
CN220881255U
CN220881255U CN202322636190.3U CN202322636190U CN220881255U CN 220881255 U CN220881255 U CN 220881255U CN 202322636190 U CN202322636190 U CN 202322636190U CN 220881255 U CN220881255 U CN 220881255U
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riveting
shell
rotating
driving
seat
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CN202322636190.3U
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Chinese (zh)
Inventor
刘家平
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Guangxi Hezheng Electronics Co ltd
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Guangxi Hezheng Electronics Co ltd
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Abstract

The utility model relates to the field of connecting wire production, in particular to a shielding shell riveting integrated mechanism, which comprises a base, wherein the base is provided with a wire pressing module and two riveting modules, the wire pressing module is positioned between the two riveting modules, and the wire pressing module is used for fixedly connecting a connector lug; the riveting module comprises a rotating seat, a rotating assembly, a shell taking piece, a riveting cutter, a riveting driving assembly, a resetting piece and a shell loading cylinder, wherein the rotating seat is rotationally arranged on the base, the rotating assembly is used for driving the rotating seat to rotate, the shell taking piece and the riveting cutter are both slidingly arranged on the rotating seat, the shell loading cylinder is used for driving the shell taking piece and the riveting cutter to move back and forth, and the riveting driving assembly is used for driving the riveting cutter to move so as to rivet the shielding shell after the shielding shell is assembled to the connecting wire; the reset piece is arranged between the riveting knife and the shell taking piece and is used for driving the shielding shell to reset after the shielding shell is riveted. According to the utility model, the structure of two procedures of shell mounting and riveting is integrated, so that the assembly efficiency of the shielding shell is improved.

Description

Integrative mechanism is riveted to shield shell dress
Technical Field
The utility model relates to the field of connecting wire production, in particular to a shielding shell riveting integrated mechanism.
Background
The shielding shell of the connecting wire is formed by two iron shells, after the iron shells are cut from the material belt, the two iron shells are assembled to the connecting wire in a way of opposite to each other, and then the two iron shells are riveted in a riveting way to form the shielding shell.
In the prior art, for example, chinese patents such as patent numbers 202121522049.5 and 201910218912.9 disclose a scheme of riveting a shield shell only or processing different mechanisms for assembling and riveting the shield shell, which results in a relatively bulky and complex structure and makes the production efficiency of the connecting wire unable to be further improved.
Disclosure of Invention
The utility model provides a shielding shell riveting integrated mechanism aiming at the problems of the prior art, and the shielding shell assembling efficiency is improved by integrating the structures of two procedures of shell assembling and riveting.
In order to solve the technical problems, the utility model adopts the following technical scheme:
The utility model provides a shielding shell riveting integrated mechanism, which comprises a base, wherein the base is provided with a wire pressing module and two riveting modules, the wire pressing module is positioned between the two riveting modules, and the wire pressing module is used for fixedly connecting a connector lug; the riveting module comprises a rotating seat, a rotating assembly, a shell taking piece, a riveting cutter, a riveting driving assembly, a resetting piece and a shell loading cylinder, wherein the rotating seat is rotationally arranged on the base, the rotating assembly is used for driving the rotating seat to rotate, the shell taking piece and the riveting cutter are both slidingly arranged on the rotating seat, the shell loading cylinder is used for driving the shell taking piece and the riveting cutter to move back and forth, and the riveting driving assembly is used for driving the riveting cutter to move so as to rivet the shielding shell after the shielding shell is assembled to the connecting wire;
The reset piece is arranged between the riveting knife and the shell taking piece and is used for driving the shielding shell to reset after the shielding shell is riveted.
Further, the riveting drive assembly comprises a riveting seat, a riveting cylinder, a riveting transmission piece and a riveting pushing piece, wherein the riveting seat is arranged on the base, the riveting transmission piece is arranged on the riveting seat in a lifting mode, the riveting pushing piece is arranged on the riveting seat in a sliding mode, the riveting transmission piece is provided with a transmission inclined plane, the riveting pushing piece is provided with a pushing inclined plane, the transmission inclined plane and the pushing inclined plane are in contact with each other, the riveting cylinder is used for driving the riveting transmission piece to lift, and the riveting pushing piece is used for pushing the riveting knife.
Further, the riveting drive assembly comprises a riveting seat, a riveting motor, a riveting speed reducer, a riveting eccentric part and a riveting pushing part, wherein the riveting seat is arranged on the base, the riveting pushing part is arranged on the riveting seat in a sliding mode, the riveting motor is connected with the riveting eccentric part through the riveting speed reducer in a driving mode, and the riveting pushing part is arranged at the eccentric end of the riveting eccentric part.
Further, the reset piece is a spring.
Further, the rotating assembly comprises a rotating driving cylinder, a rotating gear and a rotating rack, the rotating driving cylinder is connected with the rotating rack in a driving mode, the rotating gear is arranged on the base in a rotating mode, the rotating rack is meshed with the rotating gear, and the rotating seat and the rotating gear concentrically rotate.
Still further, the rotating assembly still includes first spacing nail and second spacing nail, and first spacing nail is used for contradicting with the roating seat when the roating seat rotates to first position, and the second spacing nail is used for contradicting with the roating seat when the roating seat rotates to the second position.
Further, the line ball module includes line seat, sensing device, line ball cylinder and briquetting, and line seat installs in the base, and line seat is provided with the appearance hole that is used for holding the connecting wire, and sensing device is used for sensing whether the connecting wire in the appearance hole is in place, and the briquetting is connected in line ball cylinder drive, and line ball cylinder is used for driving the briquetting and pushes down in order to fix the connecting wire after the connecting wire in the appearance hole is in place.
Further, the containing hole is a through hole, the connecting wire is inserted into the containing hole from one end of the containing hole, and the sensing device senses the connecting wire through the other end of the containing hole;
The sensing device is a proximity fiber.
The utility model has the beneficial effects that: according to the utility model, after the connecting wire is sensed to be in place, the shielding shell is picked up downwards through the shell taking piece, then the rotating assembly controls the rotating seat to rotate so as to drive the shielding shell to face the connecting wire, then the shell taking piece is driven by the shell loading cylinder to act so as to mount the shielding shell on the connecting wire, finally the riveting driving assembly controls the riveting knife to further move so as to realize riveting of the shielding shell, and after the riveting is finished, the riveting knife is driven by the reset piece to retreat, so that the effect of integrally assembling and riveting the shielding shell is achieved, and the working procedures are simplified so as to improve the working efficiency.
Drawings
FIG. 1 is a schematic diagram of the present utility model.
Fig. 2 is a schematic view of a shell removing member, a riveting tool, a resetting member and a shell loading cylinder according to the present utility model.
FIG. 3 is an exploded view of the rivet driving assembly of the present utility model.
FIG. 4 is an exploded view of another embodiment of the rivet drive assembly of the present utility model.
Fig. 5 is a schematic view of a rotary assembly of the present utility model.
Fig. 6 is a schematic diagram of a wire pressing module according to the present utility model.
Reference numerals: the device comprises a 1-base, a 2-wire pressing module, a 3-riveting module, a 4-rotating seat, a 5-rotating assembly, a 6-shell taking piece, a 7-riveting cutter, an 8-riveting driving assembly, a 9-resetting piece, a 10-shell loading cylinder, an 11-shell loading seat, a 21-wire pressing seat, a 22-sensing device, a 23-wire pressing cylinder, a 24-pressing block, a 51-rotating driving cylinder, a 52-rotating gear, a 53-rotating rack, a 54-first limit nail, a 55-second limit nail, a 81-riveting seat, a 82-riveting cylinder, a 83-riveting transmission piece, a 84-riveting pushing piece, a 85-riveting motor, a 86-riveting speed reducer, a 87-riveting eccentric piece, a 831-transmission inclined plane and 841-pushing inclined plane.
Detailed Description
The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model. The present utility model will be described in detail below with reference to the accompanying drawings.
As shown in fig. 1 to 6, the shielding shell riveting integrated mechanism provided by the utility model comprises a base 1, wherein the base 1 is provided with a wire pressing module 2 and two riveting modules 3, the wire pressing module 2 is positioned between the two riveting modules 3, and the wire pressing module 2 is used for fixedly connecting a connector lug; the riveting module 3 comprises a rotating seat 4, a rotating assembly, a shell taking piece 6, a riveting cutter 7, a riveting driving assembly 8, a resetting piece 9 and a shell loading cylinder 10, wherein the rotating seat 4 is rotatably arranged on the base 1, the rotating assembly is used for driving the rotating seat 4 to rotate, the shell taking piece 6 and the riveting cutter 7 are both slidably arranged on the rotating seat 4, the shell loading cylinder 10 is used for driving the shell taking piece 6 and the riveting cutter 7 to move back and forth, and the riveting driving assembly 8 is used for driving the riveting cutter 7 to move so as to rivet the shielding shell after the shielding shell is assembled to a connecting wire; the reset piece 9 is arranged between the riveting knife 7 and the shell taking piece 6, and the reset piece 9 is used for driving the shielding shell to reset after the shielding shell is riveted.
In actual use, the shell taking piece 6 is a workpiece with an arc-shaped groove, and the riveting knife 7 is of a conventional structure. Namely, the shell taking piece 6 descends to enable the workpiece to be accommodated in the arc-shaped groove, so that the shielding shell can be picked up; the shielding case in this embodiment is an iron case as described in the background art, and the restoring member 9 is preferably a spring.
When the riveting device works, the shielding shells are transmitted to the position right below the riveting module 3 by an external transmission module, then the shell taking piece 6 and the riveting knife 7 are controlled by the shell loading cylinder 10 to descend so as to pick up the shell taking piece 6, then the shell taking piece 6 and the riveting knife 7 are reset, the rotating seat 4 is driven by the rotating assembly to rotate by 90 degrees, after the shielding shells of the two riveting modules 3 are opposite to each other, the shell loading cylinder 10 drives the shell taking piece 6 and the riveting knife 7 to move simultaneously so as to enable the two shielding shells to be in butt joint with each other and be wrapped on a connecting line; then the riveting driving component 8 acts to drive the riveting cutters 7 of the two riveting modules 3 to be further close to each other, so that the two riveting cutters 7 are matched to rivet the two shielding shells, and the integral shell-first-assembling and riveting effect is achieved.
As an implementation manner of this embodiment, the riveting driving assembly 8 includes a riveting base 81, a riveting cylinder 82, a riveting driving member 83 and a riveting pushing member 84, the riveting base 81 is mounted on the base 1, the riveting driving member 83 is disposed on the riveting base 81 in a liftable manner, the riveting pushing member 84 is slidably disposed on the riveting base 81, the riveting driving member 83 is provided with a driving inclined surface 831, the riveting pushing member 84 is provided with a pushing inclined surface 841, the driving inclined surface 831 and the pushing inclined surface 841 are in contact with each other, the riveting cylinder 82 is used for driving the riveting driving member 83 to lift, and the riveting pushing member 84 is used for pushing the riveting knife 7.
In this embodiment, when riveting is required, the piston rod of the riveting cylinder 82 acts to drive the riveting transmission member 83 to descend, so that the position between the transmission inclined plane 831 and the pushing inclined plane 841 changes, and the riveting pushing member 84 is moved transversely along with the descending of the riveting transmission member 83, so as to achieve the effect of pushing the riveting knife 7; after the riveting is completed, the riveting cylinder 82 resets to drive the riveting transmission piece 83 to rise, and the reset piece 9 recovers deformation due to the loss of the pushing force exerted by the riveting pushing piece 84 so as to push the riveting knife 7 to reset and enable the riveting pushing piece 84 to reset, so that the riveting knife 7 is prevented from being kept in a riveting state to interfere with the next step.
As another implementation manner of this embodiment, the riveting driving assembly 8 includes a riveting base 81, a riveting motor 85, a riveting speed reducer 86, a riveting eccentric member 87 and a riveting pushing member 84, the riveting base 81 is mounted on the base 1, the riveting pushing member 84 is slidably disposed on the riveting base 81, the riveting motor 85 is in driving connection with the riveting eccentric member 87 through the riveting speed reducer 86, and the riveting pushing member 84 is mounted on an eccentric end of the riveting eccentric member 87.
That is, when riveting is needed, the riveting motor 85 controls the riveting eccentric member 87 to rotate through the riveting speed reducer 86, and since the riveting eccentric member 87 is connected with the riveting pushing member 84 and the riveting pushing member 84 can only slide on the riveting seat 81, the riveting pushing member 84 can transversely move along a straight line along with the rotation of the riveting eccentric member 87, and the effect of pushing the riveting tool 7 to perform riveting action can be achieved.
In this embodiment, the rotating assembly 5 includes a rotary driving cylinder 51, a rotary gear 52, and a rotary rack 53, the rotary driving cylinder 51 is connected to the rotary rack 53 in a driving manner, the rotary gear 52 is rotatably disposed on the base 1, the rotary rack 53 is meshed with the rotary gear 52, and the rotary seat 4 is concentrically rotated with the rotary gear 52.
Specifically, the rotating assembly 5 further includes a first limiting pin 54 and a second limiting pin 55, the first limiting pin 54 is used for abutting against the rotating seat 4 when the rotating seat 4 rotates to the first position, and the second limiting pin 55 is used for abutting against the rotating seat 4 when the rotating seat 4 rotates to the second position.
The rotary driving cylinder 51 drives the rotary rack 53 to move back and forth, thereby driving the rotary gear 52 to rotate, and realizing the effect of controlling the rotation of the rotary seat 4. When the rotating seat 4 rotates to be in contact with the first limiting nail 54, the rotating seat 4 cannot continue to rotate in the direction, and the shell taking piece 6 can just take materials at the moment; when the rotating seat 4 rotates to the other direction to be in conflict with the second limiting nail 55, the rotating seat 4 cannot continue to rotate to the direction, and the shell taking piece 6 is just converted into a horizontal state from a vertical state at the moment, and the shell loading action of the shielding shell can be realized only by extending forwards. The accuracy of the action can be ensured through the two limit nails, so that the fluency and the efficiency of the utility model are further improved.
In this embodiment, the wire pressing module 2 includes a wire holder 21, a sensing device 22, a wire pressing cylinder 23 and a pressing block 24, the wire holder 21 is mounted on the base 1, the wire holder 21 is provided with a hole for accommodating a connecting wire, the sensing device 22 is used for sensing whether the connecting wire in the hole is in place, the wire pressing cylinder 23 drives the connecting pressing block 24, and the wire pressing cylinder 23 is used for driving the pressing block 24 to press down after the connecting wire in the hole is in place so as to fix the connecting wire.
Specifically, the receiving hole is a through hole, the connecting wire is inserted into the receiving hole from one end of the receiving hole, and the sensing device 22 senses the connecting wire through the other end of the receiving hole; the sensing device 22 is a proximity fiber.
I.e. the front end of the accommodating hole is used for allowing a worker or a manipulator to insert the connecting wire, and the sensing device 22 senses the distance between the connecting wire and the sensing device 22 to judge whether the connecting wire is in place or not. When the connecting wire is in place, the pressing block 24 is driven by the pressing cylinder 23 to press the connecting wire so as to realize positioning, and then the shielding shell is assembled and riveted on the connecting wire by the two assembling and riveting modules 3, so that the first step of installation of the shielding shell is finished, and the subsequent installation action of the shielding shell can be finished only by welding the two shielding shells.
In actual use, the shell mounting cylinder 10 is connected with a shell mounting seat 11, the shell taking piece 6 and the riveting knife 7 are both arranged on the shell mounting seat 11, and the resetting piece 9 is arranged between the shell mounting seats 11 of the riveting knife 7.
The present utility model is not limited to the preferred embodiments, but is intended to be limited to the following description, and any modifications, equivalent changes and variations in light of the above-described embodiments will be apparent to those skilled in the art without departing from the scope of the present utility model.

Claims (8)

1. A shielding shell dress is riveted integrative mechanism, includes base, its characterized in that: the base is provided with a wire pressing module and two riveting modules, the wire pressing module is positioned between the two riveting modules, and the wire pressing module is used for fixedly connecting the connector lug; the riveting module comprises a rotating seat, a rotating assembly, a shell taking piece, a riveting cutter, a riveting driving assembly, a resetting piece and a shell loading cylinder, wherein the rotating seat is rotationally arranged on the base, the rotating assembly is used for driving the rotating seat to rotate, the shell taking piece and the riveting cutter are both slidingly arranged on the rotating seat, the shell loading cylinder is used for driving the shell taking piece and the riveting cutter to move back and forth, and the riveting driving assembly is used for driving the riveting cutter to move so as to rivet the shielding shell after the shielding shell is assembled to the connecting wire;
The reset piece is arranged between the riveting knife and the shell taking piece and is used for driving the shielding shell to reset after the shielding shell is riveted.
2. The shield shell riveting integrated mechanism according to claim 1, wherein: the riveting drive assembly comprises a riveting seat, a riveting cylinder, a riveting transmission piece and a riveting pushing piece, wherein the riveting seat is arranged on the base, the riveting transmission piece is arranged on the riveting seat in a lifting manner, the riveting pushing piece is arranged on the riveting seat in a sliding manner, the riveting transmission piece is provided with a transmission inclined plane, the riveting pushing piece is provided with a pushing inclined plane, the transmission inclined plane and the pushing inclined plane are mutually abutted, the riveting cylinder is used for driving the riveting transmission piece to lift, and the riveting pushing piece is used for pushing the riveting knife.
3. The shield shell riveting integrated mechanism according to claim 1, wherein: the riveting driving assembly comprises a riveting seat, a riveting motor, a riveting speed reducer, a riveting eccentric part and a riveting pushing part, wherein the riveting seat is arranged on the base, the riveting pushing part is arranged on the riveting seat in a sliding mode, the riveting motor is connected with the riveting eccentric part through the riveting speed reducer in a driving mode, and the riveting pushing part is arranged at the eccentric end of the riveting eccentric part.
4. The shield shell riveting integrated mechanism according to claim 1, wherein: the reset piece is a spring.
5. The shield shell riveting integrated mechanism according to claim 1, wherein: the rotating assembly comprises a rotating driving cylinder, a rotating gear and a rotating rack, the rotating driving cylinder is connected with the rotating rack in a driving mode, the rotating gear is arranged on the base in a rotating mode, the rotating rack is meshed with the rotating gear, and the rotating seat and the rotating gear rotate concentrically.
6. The shield shell riveting integrated mechanism according to claim 5, wherein: the rotating assembly further comprises a first limiting nail and a second limiting nail, the first limiting nail is used for abutting against the rotating seat when the rotating seat rotates to the first position, and the second limiting nail is used for abutting against the rotating seat when the rotating seat rotates to the second position.
7. The shield shell riveting integrated mechanism according to claim 1, wherein: the wire pressing module comprises a wire mounting seat, a sensing device, a wire pressing cylinder and a pressing block, wherein the wire mounting seat is arranged on the base, a containing hole for containing the connecting wire is formed in the wire mounting seat, the sensing device is used for sensing whether the connecting wire in the containing hole is in place or not, the pressing block is connected through driving of the wire pressing cylinder, and the pressing block is used for driving the pressing block to press down to fix the connecting wire after the connecting wire in the containing hole is in place.
8. The shield shell riveting integrated mechanism as recited in claim 7, wherein: the holding hole is a through hole, the connecting wire is inserted into the holding hole from one end of the holding hole, and the sensing device senses the connecting wire through the other end of the holding hole;
The sensing device is a proximity fiber.
CN202322636190.3U 2023-09-26 2023-09-26 Integrative mechanism is riveted to shield shell dress Active CN220881255U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322636190.3U CN220881255U (en) 2023-09-26 2023-09-26 Integrative mechanism is riveted to shield shell dress

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322636190.3U CN220881255U (en) 2023-09-26 2023-09-26 Integrative mechanism is riveted to shield shell dress

Publications (1)

Publication Number Publication Date
CN220881255U true CN220881255U (en) 2024-05-03

Family

ID=90836769

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202322636190.3U Active CN220881255U (en) 2023-09-26 2023-09-26 Integrative mechanism is riveted to shield shell dress

Country Status (1)

Country Link
CN (1) CN220881255U (en)

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