CN220172559U - Wire fitting crimping die - Google Patents

Abstract

The utility model discloses a wire assembly crimping die which comprises a wire assembly crimping die body serving as a bottom foundation, wherein a directional conveying structure for guiding and conveying wires is arranged right in front of the wire assembly crimping die body, the wire assembly crimping die body comprises a seat plate serving as a foundation structure, an adjusting cylinder for controlling and adjusting is arranged above the seat plate, a sliding pin is arranged at the output end of the adjusting cylinder, a limiting block is arranged right below the output end of the adjusting cylinder, a positioning pin is arranged on the limiting block, the positioning pin is provided with a die shank for stress adjustment through the limiting block and a pressure spring, the die shank is provided with a die holder through one side of the seat plate, the die shank is also provided with a screw through one side of the seat plate, meanwhile, the die shank is also provided with a control button for controlling and adjusting through one side of the seat plate, a fixing rod for installing and arranging a reciprocating cylinder is also arranged through one side of the seat plate, and the wire assembly crimping die is elastically connected through the arranged pressure spring.

Description

Wire fitting crimping die

Technical Field

The utility model relates to the technical field of wire bonding part crimping dies, in particular to a wire bonding part crimping die.

Background

The wire fitting crimping die is die equipment for compacting wires and jacks, the existing wire fitting crimping die generally adopts manual pressing control buttons to control operation work on the whole wire fitting crimping die, the frequent manual pressing condition and the frequent hand pressing operation fatigue condition exist in the driving work process through the manual pressing control buttons, meanwhile, the existing wire fitting crimping die also places the wires and the jacks in the center of a die holder to be compacted through manual operation, but the situation that the placement efficiency is low and the situation of inserting deflection easily exists when the wire fitting crimping die is placed manually through manual operation.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a wire assembly crimping die, which aims to solve the problems that the prior wire assembly crimping die which is proposed to pass through in the prior art generally adopts a manual pressing control button to control and operate the whole wire assembly crimping die, and the manual pressing control button is used for driving the die to frequently press, and also has the conditions of manual pressing errors and frequent hand pressing operation fatigue, and meanwhile, the prior wire assembly crimping die also manually places a wire and a jack in the center of a die holder for compaction treatment, but the situation of low placement efficiency and easy deviation insertion exists when the prior wire assembly crimping die is manually placed.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the wire bonding part crimping die comprises a wire bonding part crimping die body serving as a bottom base, and a directional conveying structure for guiding and conveying wires is arranged right in front of the wire bonding part crimping die body;

the wire assembly crimping die body comprises a base plate serving as a basic structure, an adjusting cylinder for controlling and adjusting is arranged above the base plate, a sliding pin is arranged at the output end of the adjusting cylinder, and a limiting block is arranged right below the output end of the adjusting cylinder;

the limiting block is provided with a locating pin, and the locating pin is provided with a die shank for adjusting stress through the limiting block and the pressure spring.

Through adopting above-mentioned technical scheme, thereby through the pressure spring that sets up play elastic connection setting effect.

Preferably, the die shank is provided with the die holder through one side of the seat plate, the die shank is also provided with the screw through one side above the seat plate, and meanwhile, the die shank is also provided with the control button for controlling and adjusting through one side above the seat plate.

Through adopting above-mentioned technical scheme, thereby play the spacing effect of regulation motion to the die shank through the screw that sets up.

Preferably, the control button is also provided with a fixed rod arranged on one side of the seat board for installing the reciprocating cylinder, the output end of the reciprocating cylinder is provided with an adjusting block for adjusting the reciprocating extrusion of the control button, and a junction box for receiving wires is arranged under the seat board.

Through adopting above-mentioned technical scheme, thereby through the terminal box that sets up play the wire and collect the effect.

Preferably, the directional conveying structure comprises a relative adjusting assembly which is arranged on the directional conveying assembly, the relative adjusting assembly comprises arc plates provided with through hole grooves, meanwhile, the arc plates are movably arranged through connecting pins, and guide blocks for directional conveying of the wires are arranged on the inner sides of the arc plates.

Through adopting above-mentioned technical scheme, thereby through the guide block that sets up play the direction and carry the effect.

Preferably, one side of the arc-shaped plate is provided with a connecting plate which is convenient for the installation and the arrangement of the movable connecting pieces, and a driving cylinder which is used for movably adjusting the arc-shaped plate is arranged between the movable connecting pieces through a connecting pin.

Through adopting above-mentioned technical scheme, thereby through the arc that sets up, play atress relative drive regulation effect.

Preferably, the directional conveying assembly comprises concave blocks with hollow structures, a movable conveying roller is arranged between the concave blocks, a gear meshed with a chain is arranged at one end of the conveying roller, the conveying roller is driven and adjusted through a telescopic cylinder and a driving motor, and the telescopic cylinder is arranged between the arc plates through a connecting rod.

Through adopting above-mentioned technical scheme, thereby play two-way installation setting effect through the flexible cylinder that sets up.

Compared with the prior art, the utility model has the beneficial effects that: the wire assembly is crimped to the die,

(1) The wire assembly crimping die body is provided with: the reciprocating cylinder and the adjusting block are used for solving the problems that the existing wire assembly crimping die generally adopts manual pressing of a control button to control operation work on the whole wire assembly crimping die, the condition of frequent manual pressing and the condition of frequent manual pressing error and hand pressing operation fatigue exist in the driving work process of manually pressing the control button, when the wire and the jack need to be pressed, an operator controls the reciprocating cylinder to work at the moment, the adjusting block is driven to move under force in the working process of the reciprocating cylinder, the adjusting block performs reciprocating pressing effect on the control button in the stressing movement process of the adjusting block, the reciprocating driving adjusting effect of the adjusting cylinder is controlled in the reciprocating pressing process of the control button, and meanwhile, the arranged parts are used for avoiding the conditions;

(2) By setting up: the directional conveying structure solves the problems that an existing wire assembly crimping die is placed in the center of a die holder through manual operation to compress the wires and jacks, but the situation of low placement efficiency and easy insertion deviation exist when the wire assembly crimping die is placed manually by manual operation, an operator controls a driving motor to move in a working process when the wires and the jacks need to be compressed, the driving motor drives a conveying roller to move under stress through a gear and a chain in the working process, the operator manually places the wires between arc plates to compress the wires through the conveying roller at the center of the die holder, the driving motor and the driving cylinder work after the wires are compressed, and the driving cylinder work drives the arc plates to rotate relatively to adjust the stress of the wires to fall into the junction box to be collected.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic view of a press-fit die body of a wire assembly according to the present utility model;

FIG. 3 is a schematic view of a directional conveying structure according to the present utility model;

FIG. 4 is a schematic view of a relative adjusting assembly according to the present utility model;

FIG. 5 is a schematic view of the structure of the arc plate of the present utility model;

FIG. 6 is a schematic diagram of the structure of the concave block, the conveying roller, the telescopic cylinder and the driving motor of the utility model;

fig. 7 is an enlarged schematic view of fig. 6 a according to the present utility model.

In the figure: 1. crimping the die body of the wire assembly; 101. a seat plate; 102. adjusting a cylinder; 103. a sliding pin; 104. a limiting block; 105. a positioning pin; 106. a pressure spring; 107. a die handle; 108. a die holder; 109. a screw; 1010. a control button; 1011. a reciprocating cylinder; 1012. an adjusting block; 1013. a junction box; 2. a directional conveying structure; 201. a relative adjustment assembly; 2011. an arc-shaped plate; 2012. a guide block; 2013. a movable connecting piece; 2014. a driving cylinder; 202. a directional delivery assembly; 2021. a concave block; 2022. a conveying roller; 2023. a gear; 2024. a chain; 2025. a telescopic cylinder; 2026. and driving the motor.

Detailed Description

Referring to fig. 1-7, the present utility model provides a technical solution: the wire closes a crimping die, as shown in fig. 1 and 2, including wire closes a crimping die body 1 as the bottom basis, wire closes a crimping die body 1 including the bedplate 101 as foundation structure, and bedplate 101 top is equipped with the regulation cylinder 102 that the control was adjusted, and the regulation cylinder 102 output is equipped with the sliding pin 103 simultaneously, is equipped with stopper 104 under the regulation cylinder 102 output, wherein, above-mentioned spare part all adopts prior art spare part installation setting, utilizes the effectual control drive of play to adjust and connect the installation setting effect when the prior art spare part installation setting.

The scheme is further that a locating pin 105 is arranged on the limiting block 104, and the locating pin 105 is provided with a die shank 107 for adjusting stress through the limiting block 104 and the pressure spring 106, wherein the components are installed and arranged by adopting the components in the prior art, and the effects of limiting installation and elastic installation are effectively achieved when the components in the prior art are installed and arranged.

The above scheme is further, die shank 107 is equipped with die holder 108 through bedplate 101 one side, and die shank 107 is equipped with screw 109 through bedplate 101 top one side equally, and die shank 107 is equipped with control button 1010 of control regulation through bedplate 101 top one side equally simultaneously, and wherein, above-mentioned spare part adopts prior art spare part installation setting equally, and the effectual regulation that plays is spacing and press control regulation effect when utilizing prior art spare part installation setting equally.

In the above scheme, the control button 1010 is also provided with a fixing rod installed on the reciprocating cylinder 1011 through one side of the seat board 101, and the output end of the reciprocating cylinder 1011 is provided with an adjusting block 1012 for adjusting the reciprocating extrusion of the control button 1010, and meanwhile, a junction box 1013 for receiving wires is arranged under the seat board 101.

As shown in fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, a directional conveying structure 2 for guiding and conveying a wire is arranged right in front of the wire-closing crimping die body 1, the directional conveying structure 2 comprises a relative adjusting component 201 arranged on the directional conveying component 202, the relative adjusting component 201 comprises an arc-shaped plate 2011 provided with a through hole groove, meanwhile, the arc-shaped plates 2011 are movably arranged through connecting pins, guide blocks 2012 for guiding and conveying the wire are arranged on the inner sides of the arc-shaped plates 2011, the arc-shaped plates 2011 and the guide blocks 2012 are symmetrically arranged, and when the arc-shaped plates 2011 and the guide blocks 2012 are symmetrically arranged, the effect of guiding, positioning and conveying is effectively achieved due to the fact that stress relative driving adjusting effects are effectively achieved.

The above scheme is further that a connecting plate which is convenient for installing and setting the movable connecting piece 2013 is arranged on one side of the arc 2011, and a driving cylinder 2014 which is used for movably adjusting the arc 2011 is arranged between the movable connecting pieces 2013 through a connecting pin, wherein the parts form a driving adjusting structure, and when the driving adjusting structure formed by the parts is utilized, the effect of relatively stressed rotation adjusting is achieved on the arc 2011.

The above scheme is further, directional conveying assembly 202 includes inside concave piece 2021 that is hollow structure, and be equipped with movable regulation's conveying roller 2022 between the concave piece 2021, conveying roller 2022 one end is equipped with the gear 2023 that sets up with the meshing of chain 2024 simultaneously, conveying roller 2022 passes through telescopic cylinder 2025 and driving motor 2026 drive regulation, and telescopic cylinder 2025 passes through the connecting rod setting between arc 2011, wherein, above-mentioned spare part constitutes lift conveying structure, the effectual positive and negative regulation conveying effect that plays wire and jack through the lift conveying structure that above-mentioned spare part constitutes, above-mentioned spare part is by the controller drive control simultaneously, thereby effectually play semi-automatization operation work effect.

In the above scheme, when the wire and the jack need to be pressed by the die holder 108, the operator manually places the wire under the conveying roller 2022 at this moment, the controller controls the driving motor 2026 to work, the gear 2023 and the chain 2024 are driven to do stressed motion by the conveying roller 2022 in the process of working by the driving motor 2026, the controller stops the driving motor 2026 to work after the wire and the jack are conveyed to the center of the die holder 108 in the process of stressed motion by the conveying roller 2022, the controller controls the reciprocating cylinder 1011 to work, the adjusting block 1012 extrudes the control button 1010, the adjusting cylinder 102 is controlled to work when the control button 1010 extrudes, the die shank 107 is extruded by the sliding pin 103 in the process of working by force, the limiting block 104, the positioning pin 105 and the pressure spring 106 in the process of stressed extrusion by the die shank 107, after the adjusting block 1012 is separated from the control button 1010 by force, the adjusting cylinder 102 reversely works at this moment, the driving motor 2026 is synchronously reversely operated to withdraw the wire out of the die holder 108 at this moment, the controller controls the driving cylinder 2014 to work, the driving cylinder 2011 and the guide block 2012 are driven by the movable connecting piece 2013 in the process of working by the driving cylinder 2014, the wire 2011 and the movable connecting piece 2012 to the wire to the guide block 2025 and the wire to move relative to the die holder, the inner space of the wire can not be compressed by the operator, and the inner space of the wire can be controlled to be equal to the die holder 2, and the width of the collecting arc can be expanded and contracted.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. Wire fastener crimping die, including wire fastener crimping die body (1) as the bottom basis, its characterized in that: a directional conveying structure (2) for guiding and conveying the wires is arranged right in front of the wire assembly crimping die body (1);

the wire assembly crimping die body (1) comprises a base plate (101) serving as a basic structure, an adjusting cylinder (102) for controlling and adjusting is arranged above the base plate (101), a sliding pin (103) is arranged at the output end of the adjusting cylinder (102), and a limiting block (104) is arranged right below the output end of the adjusting cylinder (102);

the limiting block (104) is provided with a locating pin (105), and the locating pin (105) is provided with a die shank (107) for adjusting stress through the limiting block (104) and the pressure spring (106).

2. The wire-bonding crimping die according to claim 1, wherein: the die shank (107) is provided with a die holder (108) through one side of the seat plate (101), the die shank (107) is also provided with a screw (109) through one side above the seat plate (101), and meanwhile, the die shank (107) is also provided with a control button (1010) for controlling and adjusting through one side above the seat plate (101).

3. The wire-bonding crimping die according to claim 1, wherein: the control button (1010) is also provided with a fixed rod which is arranged on one side of the seat board (101) and is used for installing the reciprocating air cylinder (1011), the output end of the reciprocating air cylinder (1011) is provided with an adjusting block (1012) which is used for adjusting the reciprocating extrusion of the control button (1010), and meanwhile, the wiring box (1013) which is used for receiving the lead is arranged under the seat board (101).

4. The wire-bonding crimping die according to claim 1, wherein: the directional conveying structure (2) comprises a relative adjusting component (201) which is arranged on the directional conveying component (202), the relative adjusting component (201) comprises arc plates (2011) provided with through hole grooves, meanwhile, the arc plates (2011) are movably arranged through connecting pins, and guide blocks (2012) for directional conveying of the wires are arranged on the inner sides of the arc plates (2011).

5. The wire-bonding crimping die according to claim 4, wherein: one side of the arc-shaped plate (2011) is provided with a connecting plate which is convenient for the movable connecting piece (2013) to be installed and arranged, and a driving cylinder (2014) which is used for movably adjusting the arc-shaped plate (2011) is arranged between the movable connecting pieces (2013) through connecting pins.

6. The wire-bonding crimping die according to claim 4, wherein: the directional conveying assembly (202) comprises concave blocks (2021) with hollow structures, movable conveying rollers (2022) are arranged between the concave blocks (2021), gears (2023) meshed with a chain (2024) are arranged at one ends of the conveying rollers (2022), the conveying rollers (2022) are driven and adjusted through telescopic air cylinders (2025) and driving motors (2026), and the telescopic air cylinders (2025) are arranged between arc plates (2011) through connecting rods.