CN213353348U - Multi-cavity slide synchronous action structure - Google Patents

Abstract

A multi-cavity slide synchronous action structure comprises at least two first slider inserts, a first connecting strip, a first slide block, a first inclined guide column and a first inclined guide column fixing seat, wherein the first slider inserts and the first slide block are connected into a whole through the first connecting strip, the upper end of the first inclined guide column is fixed on the first inclined guide column fixing seat, the lower end of the first inclined guide column penetrates through the first slide block, the first inclined guide column is pulled, and the first inclined guide column can move in the vertical direction relative to the first slide block to drive the first slider inserts, the first connecting strip and the first slide block to move in the horizontal direction, so that the opening and closing of the first slider inserts are realized. The utility model has the advantages of the mould cost and the production cost are lower, the volume is littleer, the space that occupies is littleer.

Description

Multi-cavity slide synchronous action structure

Technical Field

The utility model relates to the field of molds, especially, relate to a multicavity slide synchronization action structure.

Background

In the mold manufacturing industry, whether a single cavity or multiple cavities are formed, the smaller the volume of the mold is, the lower the production cost is, under the condition that the strength of the mold is ensured. The simplification can be competitive in the market, but the simplification is a difficult point of mold design, and particularly under the condition that the mold needs a structure to be completed, the requirement on the mold design is higher.

At present, two sliding blocks are needed to be manufactured on two sides of each product in a single-cavity or multi-cavity mold, and a single sliding block in a conventional mold needs to be matched with an inclined guide post to realize slide. The volume of a single cavity mold is still relatively small, but for a multi-cavity mold, if two slides are made on both sides of each product, the length of the mold is doubled, which is extremely high for both mold cost and production cost. In addition, the volume is very large, and the occupied space is also large.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model discloses to the society provide a mould cost and manufacturing cost lower, the volume is littleer, the space that occupies is littleer multicavity line position synchronization action structure.

The technical scheme of the utility model is that: the multi-cavity slide synchronous action structure comprises at least two first slider inserts, a first connecting strip, a first slide block, a first inclined guide column and a first inclined guide column fixing seat, wherein the first slider inserts and the first slide block are connected into a whole through the first connecting strip, the upper end of the first inclined guide column is fixed on the first inclined guide column fixing seat, the lower end of the first inclined guide column penetrates through the first slide block, the first inclined guide column is pulled, and the first inclined guide column can move in the vertical direction relative to the first slide block to drive the first slider inserts, the first connecting strip and the first slide block to move in the horizontal direction, so that the opening and closing of the first slider inserts are realized.

As the improvement of the utility model, the first slider mold insert is last to have two first die cavitys at least.

As the utility model discloses an improvement, be equipped with the first lug of a plurality of on the first connecting strip, be equipped with the first recess that this first lug corresponds the matching on the first slider mold insert, through the cooperation of first lug and first recess makes first slider mold insert is fixed on the first connecting strip.

As the utility model discloses an improvement, be equipped with the second recess on the seat slider of first line, through the cooperation of first lug and second recess makes the seat slider of first line is fixed on the first connecting strip.

As an improvement of the present invention, the slide fastener further comprises at least two second slide block inserts correspondingly matched with the first slide block insert, a second connecting strip, a second slide block, a second angle guide pillar and a second angle guide pillar fixing seat, wherein the second connecting strip connects the second slide block insert and the second slide block into a whole, the upper end of the second angle guide pillar is fixed on the second angle guide pillar fixing seat, and the lower end of the second angle guide pillar passes through the second slide block; and pulling the second inclined guide post, wherein the second inclined guide post can move along the vertical direction relative to the second slide block of the slide seat, and drives the second slide block insert, the second connecting strip and the second slide block of the slide seat to move along the horizontal direction, so that the mold opening and closing of the second slide block insert are realized.

As the utility model discloses an improvement, be equipped with a plurality of second lug on the second connecting strip, be equipped with the third recess that this second lug corresponds the matching on the second slider mold insert, through the cooperation of second lug and third recess makes the second slider mold insert is fixed on the second connecting strip.

As the utility model discloses an improvement, be equipped with the fourth recess on the second slide seat slider, through the cooperation of second lug and fourth recess makes the second slide seat slider is fixed on the second connecting strip.

The utility model discloses a two piece at least first slider mold inserts, first connecting strip, first line seat slider, first oblique guide pillar and first oblique guide pillar fixing base, first slider mold insert and first line seat slider are connected as an organic whole through first connecting strip, the upper end of first oblique guide pillar is fixed on first oblique guide pillar fixing base, the lower extreme of first oblique guide pillar passes through first line seat slider; when the utility model is used, the first inclined guide post is pulled upwards, under the action force of the inclined guide post, the two first slide block insert pieces, the first connecting strip and the first line seat slide block move leftwards along the horizontal direction, at the moment, at least two first slide block insert pieces are successfully separated from the product, and thus the product can be taken out; when the mold is closed, the first inclined guide post is pushed downwards, the two first slide block inserts, the first connecting strip and the first line seat slide block move rightwards along the horizontal direction under the driving of the first inclined guide post, at least two first slide block inserts are closed at the moment, and then injection molding is carried out. The utility model discloses a structure, through a set of first oblique guide pillar, first oblique guide pillar fixing base and first line seat slider alright in order to control a plurality of the mould that opens and shuts of first slider mold insert, for prior art, the utility model discloses compact structure not only, it is small, the space that occupies is little, moreover the utility model discloses a mould cost and manufacturing cost are all lower. Therefore, the utility model has the advantages of the mould cost and manufacturing cost are lower, the volume is littleer, the space that occupies is littleer.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Detailed Description

Referring to fig. 1, fig. 1 shows a first embodiment of a multi-cavity slide synchronization structure, which includes at least two first slide inserts 11, a first connecting bar 21, a first slide block 31, a first guide pillar 41 and a first guide pillar holder 51, the first slide block insert 11 and the first slide block 31 of the slide block seat are connected into a whole through a first connecting strip 21, the upper end of the first inclined guide post 41 is fixed on the first inclined guide post fixing seat 51, the lower end of the first inclined guide post 41 passes through the first traveling seat sliding block 31, the first inclined guide post 41 is pulled, the first inclined guide post 41 can move in the vertical direction relative to the first slide block 31 to drive the first slide block insert 11, the first connecting bar 21 and the first slide block 31 to move in the horizontal direction, so as to open and close the first slide block insert 11. In the present invention, preferably, the first slide block mold insert 11 has at least two first mold cavities 110. Specifically, in this embodiment, two first cavities 110 are disposed on the first slide block insert 11, there are four first slide block inserts 11, and the four first slide block inserts 11 are fixed on the first connecting bar 21 at predetermined intervals, and there are eight first cavities 110 in this embodiment, however, besides, the number of the first cavities 110 on each first slide block insert 11 may be more or one, and the number of the first slide block inserts 11 may also be set as needed. When the utility model is used, the first inclined guide post 41 is pulled upwards, and under the action of the first inclined guide post 41, the first slider insert 11, the first connecting strip 21 and the first line seat slider 31 move leftwards along the horizontal direction, at the moment, the mould is opened, and at least two first slider inserts 11 are successfully separated from the product 9, so that the product 9 can be taken out; when the mold is closed, the first angle guide pillar 41 is pushed downward, the first slide block insert 11, the first connecting bar 21 and the first traveling block 31 move rightward along the horizontal direction under the action of the first angle guide pillar 41, at least two first slide block inserts 11 are closed at the moment, and then injection molding can be performed. The utility model discloses a structure, through a set of first oblique guide pillar 41, first oblique guide pillar fixing base 51 and first line seat slider 31 alright with control a plurality of the mould that opens and shuts of first slider mold insert 11, for prior art, the utility model discloses compact structure not only, it is small, the space that occupies is little, moreover the utility model discloses a mould cost and manufacturing cost are all lower.

The utility model discloses in, preferably, be equipped with the first lug 211 of a plurality of on the first connecting strip 21, be equipped with the first recess 111 that this first lug 211 corresponds the matching on the first slider mold insert 11, through the cooperation of first lug 211 and first recess 111 makes first slider mold insert 11 is fixed on the first connecting strip 21.

The utility model discloses in, preferably, be equipped with second recess 311 on the first line seat slider 31, through the cooperation of first lug 211 and second recess 311 makes first line seat slider 31 is fixed on the first connecting strip 21.

The present invention can also be configured as a second embodiment (as shown in fig. 2), the second embodiment is substantially the same as the first embodiment, and the difference is that the present invention further includes at least two second slide inserts 12, a second connecting bar 22, a second slide block 32, a second angle beam 42 and a second angle beam fixing seat 52, which are correspondingly matched with the first slide insert 11, the second connecting bar 22 connects the second slide inserts 12 and the second slide block 32 into a whole, the upper end of the second angle beam 42 is fixed on the second angle beam fixing seat 52, and the lower end of the second angle beam 42 passes through the second slide block 32; and pulling the second inclined guide post 42, wherein the second inclined guide post 42 can move in the vertical direction relative to the second row of seat slide block 32 to drive the second slide block insert 12, the second connecting strip 22 and the second row of seat slide block 32 to move in the horizontal direction, so that the opening and closing of the second slide block insert 12 is realized. In this embodiment, the structures and the operating principles of the second slide insert 12, the second connecting bar 22, the second slide block 32, the second angle beam 42, and the second angle beam holder 52 are the same as those of the first slide insert 11, the first connecting bar 21, the first slide block 31, the first angle beam 41, and the first angle beam holder 51; the difference is that the first cavity 110 of the first slide insert 11 and the second cavity 120 of the second slide insert 12 are used for jointly closing the mold for the injection-molded product (in the first embodiment, the first cavity 110 of the first slide insert 11 is used for the injection-molded product alone), the moving directions of the first slide insert 11 and the second slide insert 12 are opposite according to the mold closing and mold opening directions, that is, the second slide insert 12, the second connecting strip 22 and the second slide block 32 move rightward along the horizontal direction by pulling the second tilt guide post 42 upward, so as to open the mold for the second slide insert 12, and when the second tilt guide post 42 is pushed downward, the second slide insert 12, the second connecting strip 22 and the second slide block 32 move leftward along the horizontal direction, so as to close the mold for the second slide insert 12. Are not described in detail herein; the second slide block insert 12, the second connecting strip 22, the second slide block 32, the second slide guide 42 and the second slide block fixing seat 52 are arranged to be used for products which need to be formed by co-die assembly and injection molding of the first slide block insert 11 and the second slide block insert 12.

The utility model discloses in, preferably, be equipped with a plurality of second lug 221 on the second connecting strip 22, be equipped with the third recess 121 that this second lug 221 corresponds the matching on the second slider mold insert 12, through the cooperation of second lug 221 and third recess 121 makes second slider mold insert 12 is fixed on the second connecting strip 22.

The utility model discloses in, preferably, be equipped with fourth recess 321 on the second line seat slider 32, through the cooperation of second lug 221 and fourth recess 321 makes the second line seat slider 32 is fixed on the second connecting strip 22.

Claims (7)

1. A multi-cavity slide synchronous action structure is characterized in that: comprises at least two first slide block inserts (11), a first connecting bar (21), a first slide block (31), a first inclined guide post (41) and a first inclined guide post fixing seat (51), the first slide block insert (11) and the first slide block (31) of the line seat are connected into a whole through a first connecting strip (21), the upper end of the first inclined guide post (41) is fixed on the first inclined guide post fixing seat (51), the lower end of the first inclined guide post (41) passes through the first line seat sliding block (31) to pull the first inclined guide post (41), the first inclined guide post (41) can move in the vertical direction relative to the first line seat sliding block (31) to drive the first sliding block insert (11), the first connecting strip (21) and the first line seat sliding block (31) to move in the horizontal direction, so that the mold opening and closing of the first sliding block insert (11) is realized.

2. The multi-chamber slide synchronization mechanism according to claim 1, wherein: the first slide block insert (11) is provided with at least two first mold cavities (110).

3. A multi-chamber slide synchronization structure according to claim 1 or 2, wherein: the first connecting strip (21) is provided with a plurality of first protruding blocks (211), the first sliding block insert (11) is provided with first grooves (111) which are correspondingly matched with the first protruding blocks (211), and the first sliding block insert (11) is fixed on the first connecting strip (21) through the matching of the first protruding blocks (211) and the first grooves (111).

4. A multi-chamber slide synchronization structure according to claim 3, wherein: the first line seat sliding block (31) is provided with a second groove (311), and the first line seat sliding block (31) is fixed on the first connecting bar (21) through the matching of the first convex block (211) and the second groove (311).

5. The multi-chamber slide synchronization mechanism according to claim 1, wherein: the sliding block structure is characterized by further comprising at least two second sliding block inserts (12) correspondingly matched with the first sliding block insert (11), a second connecting strip (22), a second slide block (32) of the slide block seat, a second inclined guide column (42) and a second inclined guide column fixing seat (52), wherein the second sliding block inserts (12) and the second slide block (32) of the slide block seat are connected into a whole by the second connecting strip (22), the upper end of the second inclined guide column (42) is fixed on the second inclined guide column fixing seat (52), and the lower end of the second inclined guide column (42) penetrates through the second slide block (32) of the slide block seat; and the second inclined guide post (42) is pulled, and the second inclined guide post (42) can move along the vertical direction relative to the second slide block (32) to drive the second slide block insert (12), the second connecting strip (22) and the second slide block (32) to move along the horizontal direction, so that the mold opening and closing of the second slide block insert (12) are realized.

6. The multi-chamber slide synchronization mechanism according to claim 5, wherein: the second connecting strip (22) is provided with a plurality of second protrusions (221), the second sliding block insert (12) is provided with third grooves (121) which are correspondingly matched with the second protrusions (221), and the second sliding block insert (12) is fixed on the second connecting strip (22) through the matching of the second protrusions (221) and the third grooves (121).

7. The multi-chamber slide synchronization mechanism according to claim 6, wherein: and a fourth groove (321) is formed in the second row seat sliding block (32), and the second row seat sliding block (32) is fixed on the second connecting strip (22) through the matching of the second bump (221) and the fourth groove (321).

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