CN218448866U

CN218448866U - Terminal riveting mechanism

Info

Publication number: CN218448866U
Application number: CN202222906258.0U
Authority: CN
Inventors: 杨力; 郭建平
Original assignee: Shenzhen Zhongli Automation Technology Co ltd
Current assignee: Shenzhen Zhongli Automation Technology Co ltd
Priority date: 2022-10-31
Filing date: 2022-10-31
Publication date: 2023-02-03
Anticipated expiration: 2032-10-31

Abstract

The utility model discloses a terminal riveting mechanism, include: the terminal riveting device comprises a terminal feeding module, a wire positioning module, a terminal riveting module, a wire jacking module and a terminal pulling module. After the terminal pay-off module sent the terminal to the terminal riveting position, wire rod jacking module jacked the wire rod, and wire rod location module was fixed a position the wire rod, dialled the terminal module simultaneously and lifted the terminal for terminal and wire rod parallel and level, then inserted the wire rod in the terminal, and the terminal riveting module pushes down to combine terminal and wire rod together, and at this in-process, cuts the waste material module and amputates the waste material area. Compared with the prior art, the utility model discloses an increase and set up wire rod location module and wire rod jacking module and fix a position the wire rod, set up simultaneously and dial the terminal module and make wire rod and terminal parallel and level, guarantee during the wire rod can insert the terminal.

Description

Terminal riveting mechanism

Technical Field

The utility model relates to a wire rod processing field especially relates to a terminal riveting mechanism.

Background

During the wire processing, the wire and the housing terminal need to be riveted together. The utility model discloses a alignment location riveting terminal machine, with the terminal put at terminal guide bench, the feeding mechanism carries out the pay-off to the terminal material area, and alignment positioning mechanism carries out the alignment location to the terminal material area, when the terminal is carried to the below of riveting mechanism, puts the cable on the terminal, and riveting mechanism is in the same place terminal and cable riveting. It does not position the wire during insertion of the cable into the terminal, which if displaced, can result in the terminal not being aligned with the wire and ultimately the wire not being inserted into the terminal.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide a terminal riveting mechanism.

The technical scheme of the utility model as follows: a terminal crimping mechanism comprising: the terminal riveting and pressing module comprises a terminal feeding module, a wire positioning module, a terminal riveting and pressing module, a wire jacking module and a terminal pulling module;

the wire rod positioning module includes: the terminal riveting device comprises a positioning lifting assembly, a positioning translation assembly, a positioning rod and a positioning block, wherein the positioning translation assembly is connected with the positioning lifting assembly, the positioning rod is connected with the positioning translation assembly, the positioning block is arranged at the bottom end of the positioning rod, the positioning block is positioned above a terminal riveting position, and the positioning groove is arranged at the bottom end of the positioning block;

dial the terminal module and include: dial terminal cylinder, fixed block, connecting block, commentaries on classics piece, pivot and driving lever, the connecting block is connected with the jar pole of dialling the terminal cylinder, it is connected with the connecting block rotation to change the piece, it locates in the pivot to change the piece rotation, the pivot is fixed to be located on the fixed block, the driving lever is connected with changeing the piece.

Further, the terminal pay-off module includes: the material channel bottom plate, the material channel upper cover, the line pressing block, the feeding translation assembly and the feeding shifting lever are arranged, the terminal material belt is tiled on the material belt bottom plate, the material channel upper cover covers the terminal, the line pressing block is pressed above the material belt, the feeding shifting lever is connected with the feeding translation assembly, and the bottom end of the feeding shifting lever is a sharp corner.

Further, the terminal riveting module includes: the riveting die comprises a riveting lifting head, a riveting punch, a punching die and a terminal die, wherein the riveting punch is arranged at the bottom of the riveting lifting head, the punching die is arranged at the bottom of the riveting punch, and the terminal die is arranged below the riveting punch and is parallel and level to a material channel bottom plate.

Further, the terminal riveting module still includes: the material guide block is arranged on the base, the spring is arranged between the bottom surface of the material guide block and the base, the material guide block is aligned to the line pressing block, the material guide block is provided with a through groove for the material supply belt to pass through, the lower pressing block is connected with the riveting punch and the lower pressing block is located right above the material guide block.

Further, the wire jacking module includes: the wire jacking device comprises a wire jacking cylinder, a wire jacking rod and a wire supporting block, wherein the wire jacking rod is connected with the wire jacking cylinder, the wire supporting block is connected with the wire jacking rod, the wire supporting block is located below a positioning block, and the wire supporting block is provided with a groove for placing a wire.

Further, terminal riveting mechanism still includes cuts the waste material module, it includes to cut the waste material module: mounting panel, blank cylinder, cutter and waste pipe, the installation of blank cylinder is fixed on the mounting panel, the cutter is connected with the jar pole of blank cylinder, the mounting panel is equipped with the grooving, and the cutter is located the grooving, the waste pipe is located the below of cutter.

Adopt above-mentioned scheme, after terminal pay-off module sent the terminal to terminal riveting position, wire rod jacking module withstood the wire rod, and wire rod positioning module is fixed a position the wire rod, dials the terminal module simultaneously and lifts up the terminal for terminal and wire rod parallel and level, then insert the wire rod in the terminal, terminal riveting module pushes down to combine terminal and wire rod together, and at this in-process, it takes the excision with the waste material to cut the waste material module. Compared with the prior art, the utility model discloses an increase and set up wire rod positioning module and wire rod jacking module and fix a position the wire rod, set up simultaneously and dial the terminal module and make wire rod and terminal parallel and level, guarantee that the wire rod can insert in the terminal.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural view of the terminal material strap of the present invention.

Fig. 4 is a schematic structural diagram of the terminal feeding module and the terminal riveting module of the present invention.

Fig. 5 is a schematic structural view of the terminal feeding module and the terminal riveting module of the present invention.

Fig. 6 is a schematic structural diagram of the wire positioning module of the present invention.

Fig. 7 is a schematic structural view of the terminal-shifting module of the present invention.

Fig. 8 is a schematic structural view of the waste cutting module of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 and 2, the present invention provides a terminal riveting mechanism, including: the terminal riveting die comprises a terminal feeding module 1, a wire positioning module 2, a terminal riveting module 3, a wire jacking module 4, a terminal pulling module 5 and a waste cutting module 6.

Referring to fig. 3 to 5, the terminal feeding module 1 includes: the device comprises a material channel bottom plate 11, a material channel upper cover 12, a line pressing block 13, a feeding translation assembly 14 and a feeding deflector rod 15. The afterbody of material way bottom plate 11 is the terminal riveting position, and terminal material area 100 tiles on the material area bottom plate, and terminal material area 100 includes a material area 101 and connects one row of terminal 102 on the material area 101 next door, evenly is equipped with one row of round hole on the material area 101. The material channel upper cover 12 covers the terminals 102, and the material tape 101 is exposed out of the material channel upper cover 12. The line pressing block 13 is pressed above the material belt 101, a slot 131 is formed in the line pressing block 13, and the slot 131 enables a round hole in the material belt 101 to be exposed. The feeding shifting rod 15 is connected with the feeding translation assembly 14, the bottom end of the feeding shifting rod 15 is a sharp corner, and the sharp corner can be inserted into a round hole of the material belt 101. The feeding translation component 14 drives the feeding shift lever 15 to translate, and the feeding translation component 14 is composed of a cylinder, a guide rail and a sliding block. When feeding is needed, the feeding translation assembly 14 drives the feeding shift lever 15 to move to the terminal riveting position, the sharp corner of the feeding shift lever 15 is inserted into the round hole of the material belt 101, and the feeding shift lever 15 moves to move the terminal material belt 100 to the terminal riveting position.

The terminal riveting module 3 includes: a caulking elevating head 31, a caulking punch 32, a die 33, and a terminal die 34. The riveting lifting head 31 is located at a terminal riveting position, the riveting punch 32 is arranged at the bottom of the riveting lifting head 31, the punching die 33 is arranged at the bottom of the riveting punch 32, and the riveting lifting head 31 drives the riveting punch 32 and the punching die 33 to move up and down. The terminal die 34 is arranged below the riveting punch 32, the terminal die 34 is flush with the material channel bottom plate 11, a groove is formed in the top surface of the terminal die set 34, and a terminal coming from the material channel bottom plate 11 can be translated into the terminal die set 34 and fall into the groove of the terminal die set 34.

Terminal riveting module 3 still includes: a lower pressing block 35, a base 36, a material guide block 37 and a spring. The base 36 is located at the tail of the material channel bottom plate 11, the material guide block 37 is arranged on the base 36, the material guide block 37 is located in front of the terminal mold 34, the material guide block 37 is also provided with a groove for placing a wire, and the groove of the material guide block 37 is aligned with the groove of the terminal mold 34 in the front-back direction. The springs are arranged between the bottom surface of the material guide block 37 and the base 36, the material guide block 37 is aligned with the line pressing block 13 left and right, the material guide block 37 is provided with a through groove for the material belt 101 to pass through, and the material belt 101 is straightly inserted into the through groove of the material guide block 37 from the line pressing block 13, penetrates out of the through groove and finally enters the waste cutting module 6. The lower pressing block 35 is connected with the riveting punch 32, the lower pressing block 35 is located right above the material guide block 37, the lower pressing block 35 presses down the material guide block 37, the spring is compressed, the material guide block 37 and the terminal die 34 are staggered up and down, and the material belt on the material guide block 37 and the terminals on the terminal die 34 are pulled, so that the terminals 102 and the material belt 101 are separated.

Referring to fig. 6, the wire positioning module 2 includes: a positioning lifting assembly 21, a positioning translation assembly 22, a positioning rod 23 and a positioning block 24. The positioning and translation assembly 22 is connected with the positioning and lifting assembly 21, the positioning rod 23 is connected with the positioning and translation assembly 22, a positioning block 24 is arranged at the bottom end of the positioning rod 23, the positioning block 24 is located above the terminal riveting position, and a positioning groove is formed in the bottom end of the positioning block 24 and can be used for embedding wires. The positioning lifting assembly 21 drives the positioning block 24 to move up and down, and the positioning translation assembly 22 drives the positioning block 24 to translate back and forth. After the positioning block 24 contacts with the wire, the wire falls into the positioning groove of the positioning block 24, so that the wire is positioned.

Referring to fig. 7, the terminal-pulling module 5 includes: a terminal pulling cylinder 51, a fixed block 52, a connecting block 53, a rotating block 54, a rotating shaft 55 and a pulling rod 56. The connecting block 53 is connected with a cylinder rod of the terminal poking air cylinder 51, the rotating block 54 is rotatably connected with the connecting block 53, the rotating block 54 is rotatably arranged on a rotating shaft 55, the rotating shaft 55 is fixedly arranged on the fixed block 52, and the poking rod 56 is connected with the rotating block 54. The shifting rod 56 is located below the terminal on the terminal die 34, and the rod of the terminal shifting cylinder 51 is pushed forward to push the connecting block 53 forward to drive the rotating block 54 to rotate around the rotating shaft 55, so as to drive the shifting rod 56 to be lifted upwards, so that the terminal is lifted upwards, the terminal is aligned with a wire, and the wire can be conveniently inserted into the terminal.

Referring to fig. 2, the wire jacking module 4 includes: a wire lifting cylinder 41, a wire lifting rod 42 and a wire holder 43. The wire lifting rod 42 is connected with the wire lifting cylinder 41, the wire supporting block 43 is connected with the wire lifting rod 42, and the wire supporting block 43 is positioned below the positioning block 24. The wire supporting block 43 is provided with a groove for placing a wire, the end part of the wire is carried in the groove of the wire supporting block 43, and the wire supporting block 43 is used for supporting the wire.

Referring to fig. 8, the scrap cutting module 6 includes: mounting plate 61, blank cylinder 62, cutter 63 and waste pipe 64. The cutting cylinder 62 is fixedly arranged on the mounting plate 61, the cutter 63 is connected with a cylinder rod of the cutting cylinder 62, the mounting plate 61 is provided with a cutting groove 611, the cutter 63 is located in the cutting groove 611, and the waste pipe 64 is located below the cutter 63. The material cutting cylinder 62 drives the cutter 63 to cut off the material belt, and the cut waste material belt falls into the waste material pipe 64.

The working principle of the utility model is as follows:

under the action of the terminal feeding module 1, the terminal material tape 100 moves to the riveting position, and after the foremost terminal falls into the groove of the terminal mold 34, the terminal feeding module 1 stops conveying. Then wire jacking module 4 jacks up the wire, and locating piece 24 of wire positioning module 2 pushes down, fixes the wire, dials the driving lever 56 of terminal module 5 simultaneously and lifts up the terminal for the terminal is parallel and level with the wire, then inserts the wire in the terminal. After the wire rod is inserted into the terminal, the terminal riveting module 3 is started, the stamping knife die 33 is pressed downwards to rivet the terminal and the wire rod together, meanwhile, the pressing block 35 is pressed downwards on the material guide block 37 to press the material guide block 37 downwards, so that the material guide block 37 and the terminal die 34 are staggered up and down, the material belt 101 on the material guide block 37 and the terminal 102 on the terminal die 34 are pulled, and the terminal 102 is separated from the material belt 101. The scrap cutting module 6 then cuts the scrap strip. After a terminal is riveted, the terminal feeding module 1 transports a terminal from the terminal strip to the terminal mold 34.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims

1. A terminal riveting mechanism, comprising: the terminal riveting and pressing module comprises a terminal feeding module, a wire positioning module, a terminal riveting and pressing module, a wire jacking module and a terminal pulling module;

the wire rod positioning module includes: the positioning and translating device comprises a positioning lifting assembly, a positioning and translating assembly, a positioning rod and a positioning block, wherein the positioning and translating assembly is connected with the positioning lifting assembly, the positioning rod is connected with the positioning and translating assembly, the positioning block is arranged at the bottom end of the positioning rod, the positioning block is positioned above a terminal riveting position, and the positioning groove is formed in the bottom end of the positioning block;

2. The terminal crimping mechanism of claim 1, wherein the terminal feed module comprises: the material channel bottom plate, the material channel upper cover, the line pressing block, the feeding translation assembly and the feeding shifting lever are arranged, the terminal material belt is tiled on the material belt bottom plate, the material channel upper cover covers the terminal, the line pressing block is pressed above the material belt, the feeding shifting lever is connected with the feeding translation assembly, and the bottom end of the feeding shifting lever is a sharp corner.

3. The terminal crimping mechanism of claim 2 wherein the terminal crimping module includes: the riveting die comprises a riveting lifting head, a riveting punch, a punching die and a terminal die, wherein the riveting punch is arranged at the bottom of the riveting lifting head, the punching die is arranged at the bottom of the riveting punch, and the terminal die is arranged below the riveting punch and is parallel and level to a material channel bottom plate.

4. The terminal crimping mechanism of claim 3 wherein the terminal crimping module further comprises: the material guide block is arranged on the base, the spring is arranged between the bottom surface of the material guide block and the base, the material guide block is aligned to the line pressing block, the material guide block is provided with a through groove for the material supply belt to pass through, the lower pressing block is connected with the riveting punch and the lower pressing block is located right above the material guide block.

5. The terminal crimping mechanism of claim 1, wherein the wire jacking module comprises: the wire jacking device comprises a wire jacking cylinder, a wire jacking rod and a wire supporting block, wherein the wire jacking rod is connected with the wire jacking cylinder, the wire supporting block is connected with the wire jacking rod, the wire supporting block is located below a positioning block, and the wire supporting block is provided with a groove for placing a wire.

6. The terminal crimping mechanism of any one of claims 1-5, further comprising a scrap cutting module, the scrap cutting module comprising: mounting panel, blank cylinder, cutter and waste pipe, the installation of blank cylinder is fixed on the mounting panel, the cutter is connected with the jar pole of blank cylinder, the mounting panel is equipped with the grooving, and the cutter is located the grooving, the waste pipe is located the below of cutter.