CN218946088U - Uninterrupted continuous stamping mechanism for processing electronic connector - Google Patents

Abstract

The utility model relates to the technical field of stamping mechanisms and discloses an uninterrupted continuous stamping mechanism for processing an electronic connector, which comprises an upper die holder and a lower die holder, wherein an upper die fixing plate is arranged on the upper die holder, a male die is arranged on the upper die fixing plate, the inner part of the lower die holder is divided into a die cavity, a movable cavity and a discharging cavity, a die core matched with the male die is arranged in the die cavity, a limiting plate is arranged in the movable cavity, and a material guiding mechanism is arranged in the discharging cavity.

Description

Uninterrupted continuous stamping mechanism for processing electronic connector

Technical Field

The utility model relates to the technical field of stamping mechanisms, in particular to an uninterrupted continuous stamping mechanism for processing an electronic connector.

Background

Electronic connectors, also commonly referred to as circuit connectors and electrical connectors, are conductor devices that bridge two conductors on a circuit so that current or signals may flow from one conductor to the other. An electronic connector is a motor system that provides a separable interface for connecting two sub-electronic systems, simply referred to as a connector, i.e., a bridge between two components that complete an electrical connection between an electrical circuit or electronic machine.

The stamping mechanism is a special technological device for processing materials (metal or nonmetal) into parts (or semi-finished products) in cold stamping processing, and can also be called a cold stamping die (commonly called a cold stamping die). Stamping is a press working method in which a material is pressed at room temperature by a die mounted on a press to be separated or plastically deformed, thereby obtaining a desired part.

The patent name of the patent is CN215032862U, and the patent name of the patent is an uninterrupted continuous stamping mechanism for processing an electronic connector, the technical scheme provided by the patent is that the upper die applies pressure to the lower die to separate materials, and the stamping mechanism cannot achieve the effect of continuous stamping because the scheme does not collect the stamped materials systematically, so that the uninterrupted continuous stamping mechanism for processing the electronic connector needs to be designed to solve the technical problem.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides an uninterrupted continuous stamping mechanism for processing an electronic connector, which has the advantages of collecting stamped materials systematically and ensuring uninterrupted continuous stamping of the mechanism, and solves the problem that the continuous stamping cannot be achieved by the stamping mechanism due to the fact that the traditional stamping mechanism does not collect the stamped materials systematically.

(II) technical scheme

In order to achieve the purpose that the punched materials can be collected by the system and uninterrupted continuous punching of the mechanism is guaranteed, the utility model provides the following technical scheme: the utility model provides an incessant continuous stamping mechanism for processing electronic connector, includes upper die base and die holder, be equipped with the mould fixed plate on the upper die base, be equipped with the terrace die on the mould fixed plate, the die cavity is divided into three parts of die cavity, movable chamber and ejection of compact chamber in the die holder, be equipped with in the die cavity with terrace die complex mold core, the inside limiting plate that is equipped with of movable chamber, ejection of compact intracavity is equipped with guide mechanism.

Preferably, a forming hole is formed in the mold core, a feeding hole is formed in the limiting plate, and after the upper mold base and the lower mold base are pressed, the male mold, the forming hole and the feeding hole are matched in sequence.

Preferably, the bottom of the mold core is provided with a locking bolt, and the limiting plate is fixedly connected with the mold core through the locking bolt.

Preferably, gas springs for limiting the movable travel of the gas springs in the movable cavity are symmetrically arranged at the bottoms of the limiting plates, the bottoms of the gas springs are fixed with the lower die holder, and when the upper die holder is located at the lowest position, the gas springs are pressed to the lowest position by the limiting plates and are in a contracted state; when the upper die holder is positioned at the highest position, the gas spring is in a reset state.

Preferably, the material guiding mechanism comprises electric control magnetic force sucking discs, the electric control magnetic force sucking discs are symmetrically distributed in the discharging cavity, the electric control magnetic force sucking discs are of opposite inclination design, and a collecting bin is arranged below the electric control magnetic force sucking discs.

Preferably, the electric control magnetic chuck is located below the movable cavity and corresponds to the feeding hole, and the collecting bin is in sliding connection with the lower die holder.

(III) beneficial effects

Compared with the prior art, the utility model provides an uninterrupted continuous stamping mechanism for processing an electronic connector, which has the following beneficial effects:

the material is punched through the upper die holder, after the male die separates the material to required specification through forming hole, the male die is pushed into the pan feeding hole, because when the upper die holder is located the minimum position, automatically controlled magnetic chuck work, produce magnetic force, adsorb the downthehole material of pan feeding, adsorb the material on the automatically controlled magnetic chuck of bilateral symmetry, when the upper die holder is located the maximum position, automatically controlled magnetic chuck does not work, magnetic force disappears, the material does not have magnetic force to adsorb, and automatically controlled magnetic chuck is the opposite direction slope design, the material is because self gravity effect down, through the sucking disc surface of slope, fall into in the collecting bin of its below, the material after the system collection punching press has been reached, uninterrupted continuous punching press of mechanism has been guaranteed.

Drawings

FIG. 1 is a schematic diagram of a front view of an uninterrupted continuous stamping mechanism for manufacturing electronic connectors according to an embodiment of the present utility model;

FIG. 2 is a schematic right-side view of an uninterrupted continuous stamping mechanism for manufacturing electronic connectors according to an embodiment of the present utility model;

FIG. 3 is a schematic view of the cross-sectional axial side structure at A-A in FIG. 2;

fig. 4 is a schematic perspective view of an uninterrupted continuous stamping mechanism for manufacturing an electronic connector according to an embodiment of the present utility model.

In the figure: 1. an upper die holder; 2. a lower die holder; 3. an upper die fixing plate; 4. a male die; 5. a limiting plate; 6. a mold cavity; 7. a discharge cavity; 8. a mold core; 9. a material guiding mechanism; 10. forming a hole; 11. a feeding hole; 12. a locking bolt; 13. a gas spring; 14. an electric control magnetic chuck; 15. a collecting bin; 16. a movable chamber.

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. 1-4, an uninterrupted continuous stamping mechanism for processing an electronic connector comprises an upper die holder 1, a lower die holder 2, an upper die fixing plate 3, a male die 4, a limiting plate 5, a die cavity 6, a discharging cavity 7, a die core 8, a material guiding mechanism 9 and a movable cavity 16.

The die comprises an upper die holder 1 and a lower die holder 2, wherein an upper die fixing plate 3 is arranged on the upper die holder 1, a male die 4 is arranged on the upper die fixing plate 3, the inner part of the lower die holder 2 is divided into a die cavity 6, a movable cavity 16 and a discharging cavity 7, a die core 8 matched with the male die 4 is arranged in the die cavity 6, a limiting plate 5 is arranged in the movable cavity 16, and a material guiding mechanism 9 is arranged in the discharging cavity 7.

Specifically, after the material is sent to the top surface position of mold core 8, upper die base 1 punches downwards, the punching press of upper die base 1 is passed through to the material, after terrace die 4 separates the material to required specification through mold core 8, push away to the corresponding position in limiting plate 5 by terrace die 4, because upper die base 1 is in the minimum position this moment, guide mechanism 9 begins to work, produce magnetic force, adsorb the material in the limiting plate 5, make the material be in guide mechanism 9 top, when upper die base 1 lifts up and is in the maximum position, guide mechanism 9 does not work, the magnetic force disappears, the material does not have magnetic force to adsorb, just fall into guide mechanism 9 inside, the material after the system collection punching press has been reached, uninterrupted continuous punching press of mechanism has been guaranteed.

In order to enable workers in the field to better understand the separation pushing process of materials, in the technical scheme of the application, a forming hole 10 is formed in a mold core 8, a feeding hole 11 is formed in a limiting plate 5, after an upper mold base 1 and a lower mold base 2 are pressed together, a male mold 4, the forming hole 10 and the feeding hole 11 are sequentially matched, specifically, after the materials are punched through the upper mold base 1, the male mold 4 separates the materials to a required specification through the forming hole 10 in the mold core 8, the materials are continuously pushed into the feeding hole 11 by the male mold 4, and the separation pushing process of the materials is completed.

In order to fix the mold core 8 and the limiting plate 5, a locking bolt 12 is arranged at the bottom of the mold core 8, and the limiting plate 5 is fixedly connected with the mold core 8 through the locking bolt 12.

In order to achieve the reset of the die core 8 and the limiting plate 5 after being pressed by the upper die holder 1, and facilitate the subsequent pushing, in the technical scheme of the application, the bottom of the limiting plate 5 is symmetrically provided with the air springs 13 limiting the movable travel of the air springs 13 in the movable cavity 16, the bottom of the air springs 13 is fixed with the lower die holder 2, and when the upper die holder 1 is positioned at the lowest position, the air springs 13 are pressed to the lowest by the limiting plate 5 and are in a contracted state; when the upper die holder 1 is positioned at the highest position, the gas spring 13 is in a reset state, and jacks up the limiting plate 5, so that the die core 8 is flush with the top surface of the lower die holder 2, and the subsequent pushing is convenient.

In order to enable workers in the field to better understand the aggregate process after the materials are separated and pushed, in the technical scheme of the application, the material guide mechanism 9 comprises electric control magnetic suction cups 14, the electric control magnetic suction cups 14 are symmetrically distributed in a discharging cavity 7, the electric control magnetic suction cups 14 are of a diagonal design, an aggregate bin 15 is arranged below the electric control magnetic suction cups 14, the electric control magnetic suction cups 14 are located below a movable cavity 16 and correspond to the position of a material inlet hole 11, the aggregate bin 15 is in sliding connection with a lower die holder 2, specifically, the materials are continuously pushed into the material inlet hole 11 by a male die 4, the electric control magnetic suction cups 14 are located below the movable cavity 16 and correspond to the position of the material inlet hole 11, at the moment, the electric control magnetic suction cups 14 start to work to generate magnetic force, the materials in the material inlet hole 11 are located above the electric control magnetic suction cups 14, when the upper die holder 1 is lifted to be in the highest position, the electric control magnetic suction cups 14 do not work, the magnetic force disappears, the materials are of the diagonal design, the electric control magnetic suction cups 14 are in the diagonal design, the materials fall into the inclined surface of the inclined suction bins under the self-gravity effect, the inclined suction cups 15 fall into the surface of the lower die holder 15, the aggregate bin 15 and are separated from the lower die holder 2, and the aggregate bin is required to be separated, and then the aggregate bin is slid from the aggregate bin 2, and the aggregate bin is separated, and the material is taken from the aggregate bin 2 through the material is subsequently, and the aggregate bin is separated from the aggregate bin through the material is separated.

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 (6)

1. An uninterrupted continuous stamping mechanism for processing an electronic connector, characterized in that: including upper die base (1) and die holder (2), be equipped with mould fixed plate (3) on upper die base (1), be equipped with terrace die (4) on last mould fixed plate (3), die cavity (6), movable chamber (16) and ejection of compact chamber (7) triplex are divided into to die holder (2) internal portion, be equipped with in die cavity (6) with terrace die (4) complex mold core (8), the inside limiting plate (5) that is equipped with of movable chamber (16), be equipped with guiding mechanism (9) in ejection of compact chamber (7).

2. An uninterrupted continuous stamping mechanism for manufacturing electronic connectors as claimed in claim 1, wherein: the die core (8) is provided with a forming hole (10), the limiting plate (5) is provided with a feeding hole (11), and after the upper die holder (1) and the lower die holder (2) are pressed together, the male die (4), the forming hole (10) and the feeding hole (11) are matched in sequence.

3. An uninterrupted continuous stamping mechanism for manufacturing electronic connectors as claimed in claim 2, wherein: the bottom of the mold core (8) is provided with a locking bolt (12), and the limiting plate (5) is fixedly connected with the mold core (8) through the locking bolt (12).

4. A continuous stamping mechanism for processing an electronic connector as recited in claim 3, wherein: the bottom of the limiting plate (5) is symmetrically provided with a gas spring (13) for limiting the movable travel of the gas spring in the movable cavity (16), the bottom of the gas spring (13) is fixed with the lower die holder (2), and when the upper die holder (1) is positioned at the lowest position, the gas spring (13) is pressed to the lowest position by the limiting plate (5) and is in a contracted state; when the upper die holder (1) is positioned at the highest position, the gas spring (13) is in a reset state.

5. An uninterrupted continuous stamping mechanism for manufacturing electronic connectors as claimed in claim 4, wherein: the material guiding mechanism (9) comprises electric control magnetic force sucking discs (14), the electric control magnetic force sucking discs (14) are symmetrically distributed in the discharging cavity (7), the electric control magnetic force sucking discs (14) are of opposite inclination design, and a collecting bin (15) is arranged below the electric control magnetic force sucking discs (14).

6. An uninterrupted continuous stamping mechanism for manufacturing electronic connectors as claimed in claim 5, wherein: the electric control magnetic chuck (14) is located below the movable cavity (16) and corresponds to the feeding hole (11), and the collecting bin (15) is in sliding connection with the lower die holder (2).

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