CN220429085U

CN220429085U - Hardware processing injection mold

Info

Publication number: CN220429085U
Application number: CN202223380423.XU
Authority: CN
Inventors: 陈飞
Original assignee: Individual
Current assignee: Hao Huixin
Priority date: 2022-12-16
Filing date: 2022-12-16
Publication date: 2024-02-02
Anticipated expiration: 2032-12-16

Abstract

The utility model discloses a hardware processing injection mold, in particular to the technical field of hardware processing, which comprises a mold base and a mold cavity shell, wherein the mold cavity shell is provided with a plurality of mold cavities and is uniformly arranged in the mold base, the bottom of the mold cavity shell is fixedly provided with a bottom block, the back of the bottom block is provided with an opening penetrating to the bottom of the bottom block, and the left side and the right side of the inside of the opening are respectively provided with a T-shaped block in a penetrating way; the utility model has the beneficial effects that: when the fixture block moves backward along with the sliding column and moves out of the opening and does not block the T-shaped block, the T-shaped block can be pushed inwards, so that the outer end of the T-shaped block moves out of the square frame, after the bottom block is not fixed, the die cavity shell can be lifted up, the bottom block and the die base are separated, and then the die cavity shell can be detached, so that the problem that a plurality of die cavity shells are usually arranged in an existing hardware processing injection die, the die cavity shells are fixed by screws, and the die cavity shells are inconvenient to replace uniformly and quickly after being damaged is solved.

Description

Hardware processing injection mold

Technical Field

The utility model relates to the technical field of hardware processing, in particular to a hardware processing injection mold.

Background

The hardware processing injection mold is an industrial product which is formed by a certain mode through a specific structural form, and is also a production tool capable of producing industrial product parts with certain shape and size requirements in batches.

The interior a plurality of mould chamber shells that are provided with of present hardware processing injection mold generally adopts the screw to fix more in the mould chamber shell, after partial mould chamber shell damages, is inconvenient for quick its unified change.

Disclosure of Invention

The utility model aims to provide a hardware processing injection mold, which aims to solve the problems that a plurality of mold cavity shells are usually arranged in the existing hardware processing injection mold, the mold cavity shells are fixed by screws, and after part of mold cavity shells are damaged, the mold cavity shells are inconvenient to replace uniformly and quickly.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a hardware processing injection mold, includes mould base and mould chamber shell, the mould chamber shell is equipped with a plurality of and evenly sets up in the mould base, mould chamber shell bottom all is fixed with the end and puts the piece the end put the piece back and all offered the opening that link up to its bottom, the inside left and right sides of opening all runs through and is provided with T shape piece, mould base bottom is provided with just tears the subassembly open, just tear the subassembly open the mould chamber shell of being convenient for dismantle.

Further, just, tear subassembly open including traveller, fixture block, stop piece, spring one, square frame and spring two, the square frame is equipped with a plurality of and two-to-two bilateral symmetry and is fixed in mould base bottom, the traveller is located the square frame below, the fixture block is equipped with a plurality of and evenly is fixed in the traveller top.

Further, the left side and the right side of the die base are all communicated with T-shaped grooves, the stop block is positioned in the T-shaped grooves, the second spring is fixed between the bottom of the stop block and the bottom of the inner wall of the T-shaped grooves, and the front end of the stop block is provided with a notch communicated to the left side and the right side of the stop block.

Further, the left end and the right end of the sliding column penetrate through the two T-shaped grooves respectively and are positioned in front of the stop blocks, the first spring is provided with two springs and is fixed between the left side and the right side of the front end of the sliding column and the front ends of the inner walls of the two T-shaped grooves, and the sliding column is matched with the notch.

Further, the bottom block penetrates to the bottom of the die base and is correspondingly clamped between the bilaterally symmetrical square frames, and the outer end of the T-shaped block is correspondingly clamped into the square frames.

Further, the clamping block is correspondingly clamped into the opening, and the depth of the clamping block clamped into the opening is matched with the depth of the notch.

Compared with the prior art, the utility model has the beneficial effects that:

when the fixture block moves backward along with the sliding column and moves out of the opening and does not block the T-shaped block, the T-shaped block can be pushed inwards, so that the outer end of the T-shaped block moves out of the square frame, after the bottom block is not fixed, the die cavity shell can be lifted up, the bottom block and the die base are separated, and then the die cavity shell can be detached, so that the problem that a plurality of die cavity shells are usually arranged in an existing hardware processing injection die, the die cavity shells are fixed by screws, and the die cavity shells are inconvenient to replace uniformly and quickly after being damaged is solved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic rear view of the entire present utility model;

fig. 3 is a schematic side view of a mold base of the present utility model.

In the figure: 1-mold base, 101-T-slot, 2-mold cavity shell, 201-bottom block, 202-T-block, 203-opening, 3-slide, 301-fixture block, 302-stopper, 303-notch, 304-spring one, 305-square, 306-spring two.

Detailed Description

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides a hardware processing injection mold, includes mould base 1 and mould chamber shell 2, mould chamber shell 2 is equipped with a plurality of and evenly sets up in mould base 1, mould chamber shell 2 bottom all is fixed with the end and puts piece 201 the end is put the piece 201 the back and all has been offered and has been link up to the opening 203 of its bottom, the inside left and right sides of opening 203 all is run through and is provided with T shape piece 202, mould base 1 bottom is provided with just tear the subassembly open, just tear the subassembly open and be convenient for dismantle mould chamber shell 2;

the easy-to-detach assembly comprises a slide column 3, a clamping block 301, a stop block 302, a first spring 304, a square frame 305 and a second spring 306, wherein the square frames 305 are symmetrically fixed at the bottom of the die base 1 in pairs, the sliding column 3 is located below the square frame 305, and the clamping block 301 is provided with a plurality of blocks and is uniformly fixed on the top of the sliding column 3;

the left side and the right side of the die base 1 are respectively penetrated with a T-shaped groove 101, the stop block 302 is positioned in the T-shaped groove 101, the second spring 306 is fixed between the bottom of the stop block 302 and the bottom of the inner wall of the T-shaped groove 101, and the front end of the stop block 302 is provided with a notch 303 penetrated to the left side and the right side;

the left end and the right end of the sliding column 3 respectively penetrate through the two T-shaped grooves 101 and are positioned in front of the stop blocks 302, the first springs 304 are arranged in two and fixed between the left side and the right side of the front end of the sliding column 3 and the front ends of the inner walls of the two T-shaped grooves, and the sliding column 3 is matched with the notch 303;

the bottom block 201 penetrates through the bottom of the mold base 1 and is correspondingly clamped between the bilaterally symmetrical square blocks 305, and the outer end of the T-shaped block 202 is correspondingly clamped into the square blocks 305;

when the mold cavity shell 2 needs to be replaced, the stop post 302 can be pressed downwards to press the second spring 306, after the notch 303 corresponds to the position of the slide post 3, the slide post 3 can have a space for moving backwards, and then the slide post 3 can be pushed backwards, so that the first spring 304 is unfolded after being stressed, and the slide post 3 can be clamped into the notch 303;

the clamping block 301 is correspondingly clamped into the opening 203, and the depth of the clamping block 301 clamped into the opening 203 is matched with the depth of the notch 303;

at this time, the clamping block 301 moves backward along with the slide column 3, and the clamping block 301 can be moved out of the opening 203 and does not block the T-shaped block 202 any more, then the T-shaped block 202 can be pushed inwards, so that the outer end of the T-shaped block 202 is moved out of the block 305, and therefore the bottom block 201 can lift the mold cavity shell 2 after being not fixed, so that the bottom block 201 can be detached from the mold cavity shell 2 after being separated from the mold base 1;

the replaced mould cavity shell 2 is then placed in the mould base 1 and, after the underlying block 201 has penetrated the mould base 1, the T-block 202 is pushed outwards and snapped again into the block 305, the slide 3 is released and rebounded forwards by the first spring 304, and, after the slide 3 has been removed from the recess 303, the stop block 302 can rebound upward through the second spring 306 and block the sliding column 3 again, the clamping block 301 moves forward along with the sliding column 3 and is clamped into the opening 203, the T-shaped block 202 is limited by the clamping block 301, the bottom block 201 and the square frame 305 can be fixed, and the mold cavity shell 2 can be stably installed in the mold base 1.

The use process is as follows: after the second spring 306 is pressed and pressed downwards by the stopping column 302, a space for the backward movement of the sliding column 3 can be provided after the notch 303 corresponds to the position of the sliding column 3, then the sliding column 3 can be pushed backward, the first spring 304 is forced and unfolded, the sliding column 3 can be clamped into the notch 303, the clamping block 301 is correspondingly clamped into the opening 203, the depth of the clamping block 301 clamped into the opening 203 is matched with the depth of the notch 303, the clamping block 301 can move backward along with the sliding column 3, the clamping block 301 can be moved out of the opening 203 and does not block the T-shaped block 202, the outer end of the T-shaped block 202 can be pushed inwards along with the movement of the T-shaped block 202 from the block 305, the bottom block 201 can be lifted up by the die cavity 2 after the bottom block 201 is not fixed, the die cavity 2 can be detached from the die base 1, the replaced die cavity 2 is placed in the die base 1, the bottom block 201 penetrates through the die base 1, the T-shaped block 202 is pushed again, the T-shaped block 202 is moved out of the die base 203 and moves back to the position of the sliding column 3, the sliding column 3 can be moved back to the die base 303, and the position of the sliding column 3 can be fixed to the position of the sliding column 3, and the sliding column 3 can be moved back to the position of the sliding column 3, and the position of the sliding column is fixed to the die base 3, and the position of the sliding column is moved forward, and the position of the sliding column 3 can be fixed by the position of the sliding column 3, and the sliding column is moved to the position, and the position of the sliding column 3, and the position can move the position and the position, and the position of the position block and the position of the position.

Claims

1. The utility model provides a hardware processing injection mold, includes mould base (1) and mould chamber shell (2), mould chamber shell (2) are equipped with a plurality of and evenly set up in mould base (1), its characterized in that: the mold cavity is characterized in that a bottom block (201) is fixed at the bottom of the mold cavity shell (2), an opening (203) penetrating through the bottom of the bottom block is formed in the back of the bottom block (201), T-shaped blocks (202) are arranged on the left side and the right side of the inside of the opening (203) in a penetrating mode, an easy-to-detach assembly is arranged at the bottom of the mold base (1), and the easy-to-detach assembly is convenient to detach the mold cavity shell (2).

2. A hardware processing injection mold as defined in claim 1, wherein: the convenient-to-disassemble assembly comprises a slide column (3), a clamping block (301), a stop block (302), a first spring (304), a square frame (305) and a second spring (306), wherein the square frame (305) is provided with a plurality of blocks, the blocks are symmetrically fixed at the bottom of the die base (1) in a left-right mode, the slide column (3) is located below the square frame (305), and the clamping block (301) is provided with a plurality of blocks and is uniformly fixed at the top of the slide column (3).

3. A hardware processing injection mold as claimed in claim 2, wherein: the left side and the right side of the die base (1) are respectively communicated with a T-shaped groove (101), the stop block (302) is positioned in the T-shaped groove (101), the second spring (306) is fixed between the bottom of the stop block (302) and the bottom of the inner wall of the T-shaped groove (101), and the front end of the stop block (302) is provided with a notch (303) communicated to the left side and the right side of the stop block.

4. A hardware injection mold as claimed in claim 3, wherein: the left end and the right end of the sliding column (3) respectively penetrate through the two T-shaped grooves (101) and are positioned in front of the stop blocks (302), the first springs (304) are arranged in two and fixed between the left side and the right side of the front end of the sliding column (3) and the front ends of the inner walls of the two T-shaped grooves, and the sliding column (3) is matched with the notch (303).

5. The hardware injection mold of claim 4, wherein: the bottom block (201) penetrates through the bottom of the die base (1) and is correspondingly clamped between the bilaterally symmetrical square frames (305), and the outer end of the T-shaped block (202) is correspondingly clamped into the square frames (305).

6. The hardware injection mold of claim 5, wherein: the clamping block (301) is correspondingly clamped into the opening (203), and the depth of the clamping block (301) clamped into the opening (203) is matched with the depth of the notch (303).