CN214645536U - Sliding block with self-locking function and double-color mold - Google Patents

Abstract

The utility model discloses a slider and double-color mold with self-locking function. The slider with self-locking function includes: the mounting part is embedded in a first core of the first color male die and/or a second core of the second color male die and is connected with the first core and/or the second core in a sliding manner; the molding part is arranged on one side, facing the first cavity of the first color master mold or the second cavity of the second color master mold, of the mounting part and is positioned at one end of the mounting part, and the molding part is used for molding a first color product; the self-locking part is arranged on one side of the mounting part with the forming part and is located at the other end of the mounting part, the self-locking part comprises a first inclined wall and a second inclined wall which are arranged oppositely, the first inclined wall is located on one side, close to the forming part, of the self-locking part, the second inclined wall is located on one side, away from the forming part, of the self-locking part, and the distance between the first inclined wall and the second inclined wall is reduced along the direction from the male die to the female die. The scheme can save the die space and save the material cost.

Description

Sliding block with self-locking function and double-color mold

Technical Field

The utility model relates to a plastic mould technical field, specific is a slider and double-color mold with self-locking function.

Background

When the inner side or the outer side of the injection-molded plastic part, which is different from the mold opening direction, is provided with holes or bosses, a mold core at the position on the mold for molding must be made to be laterally movable, and the lateral molding mold core (commonly called a slide block or a slide position in the industry) is driven to be used as a whole mechanism for lateral parting core pulling and resetting, so that the lateral parting and core pulling mechanism is formed.

The lateral parting and core-pulling mechanisms can be classified into a plurality of categories, such as mechanical, hydraulic or pneumatic, manual and the like, according to different power sources. Among them, the automotive type can realize automatic production and has high production efficiency, so that the application in mold design and manufacture is the most extensive. Further, in the maneuvering category, the inclined guide pillar (bent pin) lateral parting and core-pulling mechanism is most commonly used. The inclined guide post (bent pin) type lateral parting core-pulling mechanism utilizes the mold opening force of an injection mold as the driving force, and the transmission parts of the inclined guide post and the bent pin act on the lateral molding mold core to separate or pull the core of the lateral molding mold core. However, the inclined guide post lateral parting and core-pulling mechanism usually comprises a slider seat and an inclined guide post for conducting power, the structure is complex, the volume is large, and when the spatial position on the mold is insufficient, the design requirement of the mold is difficult to meet by the traditional inclined guide post lateral parting and core-pulling mechanism.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect among the prior art, the embodiment of the utility model provides a slider and double-colored mould with self-locking function, the slider that has self-locking function of this embodiment can be through the die cavity cooperation of self structure with the master model to realize loosing core and the locking that resets, saved the mould space greatly.

The embodiment of the application discloses: a sliding block with a self-locking function is applied to a double-color mold, the double-color mold comprises a female mold and a male mold which are oppositely arranged, the female mold comprises a first color female mold and a second color female mold which are arranged side by side, a first cavity is formed in the first color female mold, and a second cavity is formed in the second color female mold; the male die comprises a first color male die and a second color male die which are arranged side by side, the first color male die comprises a first core, and the second color male die comprises a second core; the slider with the self-locking function comprises:

a mounting portion that is embedded in the first core and/or the second core and slidably connected with the first core and/or the second core;

the molding part is arranged on one side, facing the first cavity or the second cavity, of the mounting part and is positioned at one end of the mounting part, and the molding part is used for molding a first color product;

the self-locking part is arranged on one side, provided with the forming part, of the mounting part and positioned at the other end of the mounting part, the self-locking part comprises a first inclined wall and a second inclined wall which are arranged oppositely, the first inclined wall is positioned on one side, close to the forming part, of the self-locking part, the second inclined wall is positioned on one side, away from the forming part, of the self-locking part, and the distance between the first inclined wall and the second inclined wall is reduced along the direction from the male die to the female die;

when the male die and the female die are closed, the second inclined wall of the self-locking part corresponding to the first cavity can be abutted by the inner wall of the first cavity, so that the sliding block with the self-locking function is reset;

when the male die and the female die are closed, the first inclined wall of the self-locking part corresponding to the second cavity can be pushed by the inner wall of the second cavity, so that the sliding block with the self-locking function can realize core pulling.

Specifically, the slider with the self-locking function further comprises a guide block connected to the mounting portion, and the guide block is used for guiding the slider with the self-locking function when the slider with the self-locking function slides relative to the first core and/or the second core.

Specifically, the first core and/or the second core are further provided with a guide rail used for being matched with the guide block.

Specifically, the installation part, the molding part and the self-locking part are integrally molded by adopting the same material.

Specifically, the mounting portion, the forming portion and the self-locking portion are made of heat treatment die steel.

Specifically, the sliding block with the self-locking function and the first mold core and/or the second mold core are made of the same material.

The embodiment also discloses: a double-color mold comprises a plurality of sliding blocks with self-locking functions.

The utility model discloses following beneficial effect has at least:

the slider with self-locking function of this embodiment, through being equipped with the self-locking portion, and set up relative first skew wall and second skew wall on the self-locking portion, when utilizing the compound die of public mould and master model, the inner wall of first die cavity supports the reset that the second skew wall realized the slider, the inner wall of second die cavity promotes the first skew wall and realizes loosing core of slider, so, the space of mould can be practiced thrift greatly, material saving cost, and simultaneously, because the slider can be after loosing core automatic re-setting, manual reset has been saved, and the production efficiency is improved.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a female mold in an embodiment of the present invention;

fig. 2 is a schematic structural view of a male mold in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a slider with a self-locking function in an embodiment of the present invention.

Reference numerals of the above figures: 11. a first color master mold; 111. a first cavity; 1111. a first side wall; 12. a second color master; 121. a second cavity; 1211. a second side wall; 21. a first core; 22. a second core; 221. a guide rail; 31. an installation part; 32. a molding section; 33. an auto-lock portion; 331. a first sloped wall; 332. a second sloped wall; 4. and a guide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 and fig. 2, the two-color mold of the present embodiment includes a female mold and a male mold, which are oppositely disposed, and a plurality of sliders having a self-locking function. The female die comprises a first color female die 11 and a second color female die 12 which are arranged side by side, a first cavity 111 used for accommodating a sliding block with a self-locking function is arranged on the first color female die 11, and a second cavity 121 used for accommodating a sliding block with a self-locking function is arranged on the second color female die 12, so that the first cavity 111 and the second cavity 121 are both in profile modeling with the sliding block with the self-locking function. The public mould is including the public mould of the first colour and the public mould of second colour that set up side by side, and the public mould of first colour is including the first core 21 that is used for shaping first colour product, and the public mould of second colour is including the second core 22 that is used for shaping second colour product, is equipped with at least one slider that has self-locking function on first core 21 and the second core 22 respectively, and generally speaking, the first core 21 of first colour public mould is the same with the structure of the second core 22 of the public mould of second colour, and consequently, the structure and the distribution position of the slider that has self-locking function on first core 21 and the second core 22 are also the same.

As shown in fig. 2 and 3, the slider with the self-locking function of the present embodiment includes:

and a mounting portion 31 embedded in the first core 21 or the second core 22, wherein the mounting portion 31 is slidably connected to the first core 21 and the second core 22. That is, the slider having the self-locking function on the first core 21 is slidably connected to the first core 21 through the mounting portion 31, and the slider having the self-locking function on the second core 22 is slidably connected to the second core 22 through the mounting portion 31.

And a molding part 32 disposed on one side of the mounting part 31 facing the first cavity 111 or the second cavity 121 and located at one end of the mounting part 31. The molding portion 32 is used for molding a first color product when the female mold and the male mold are closed, and the first color product in this embodiment refers to a product molded by matching the first color female mold 11 and the first color male mold, or a product molded by matching the first color female mold 11 and the second color male mold. Specifically, when the female mold and the male mold are closed, the molding portion 32 of the slider having the self-locking function corresponding to the first color female mold 11 (located below the first color female mold 11) extends into the first color female mold 11 to mold a first color product; the molding portion 32 of the slider having the self-locking function corresponding to the second color master 12 (located below the second color master 12) is not separated from the first color product, and thus, extends into the second color master 12 together with the first color product to mold the second color product.

And a self-locking portion 33 provided on the side of the mounting portion 31 having the molding portion 32 and at the other end of the mounting portion 31. The self-locking part 33 comprises a first inclined wall 331 and a second inclined wall 332 which are oppositely arranged, the first inclined wall 331 is located on one side of the self-locking part 33 close to the forming part 32, the second inclined wall 332 is located on one side of the self-locking part 33 away from the forming part 32, and the distance between the first inclined wall 331 and the second inclined wall 332 is reduced along the direction from the male die to the female die, or the first inclined wall 331 and the second inclined wall 332 are inclined towards each other along the direction from the male die to the female die.

By adopting the scheme, the movement mode of the sliding block with the self-locking function in the embodiment in work is as follows:

when the male mold and the female mold are closed, the second inclined wall 332 of the self-locking portion 33 corresponding to the first cavity 111 is abutted by the inner wall of the first cavity 111, so that the slide block with the self-locking function is reset, or in other words, when the first color product is molded, under the action of the inner wall (such as the first side wall 1111 in the figure) of the first cavity 111, the self-locking portion 33 and the molding portion 32 corresponding to the first cavity 111 can slide into the first cavity 111 to be matched with the corresponding core, so that the first color product can be molded.

When the male mold and the female mold are closed, the first inclined wall 331 of the self-locking portion 33 corresponding to the second cavity 121 is pressed and pushed by an inner wall (e.g., the second side wall 1211 in the figure) of the second cavity 121, so that the slider with the self-locking function is separated from the first color product to realize core pulling.

By means of the above situation, the slider with the self-locking function of the embodiment is provided with the self-locking part 33, and the self-locking part 33 is provided with the first inclined wall 331 and the second inclined wall 332 which are opposite to each other, when the male mold and the female mold are closed, the inner wall of the first cavity 111 abuts against the second inclined wall 332 to reset the slider, and the inner wall of the second cavity 121 pushes the first inclined wall 331 to loose the core of the slider, so that the space of the mold can be greatly saved, the material cost can be saved, meanwhile, the slider can be automatically reset after the core is pulled, the manual reset is saved, and the production efficiency is improved.

Specifically, the slider with the self-locking function of the embodiment has a simple structure and a small volume, so that the slider can be integrally processed and formed (for example, machined) without being assembled in a welding or detachable connection mode, and the precision of the structure is ensured. In order to ensure the molding quality of the product, the molding portion 32 may be made of the same material as the first core 21 and the second core 22, and thus, the mounting portion 31 and the self-locking portion 33 may be made of the same material as the first core 21 and/or the second core 22. Specifically, the mounting portion 31, the forming portion 32, and the self-locking portion 33 of the present embodiment may be made of heat-treated die steel, for example, SKD61 steel or 8407 steel.

Specifically, as shown in fig. 2 and 3, the slider with the self-locking function of the present embodiment further includes a guide block 4 connected to the mounting portion 31, and further, the first core 21 and/or the second core 22 are further provided with a guide rail 221 for cooperating with the guide block 4. The cooperation of the guide block 4 and the guide rail 221 can guide the slider having the self-locking function when the slider having the self-locking function slides with respect to the first core 21 or the second core 22. In this way, the friction between the guide block 4 and the guide rail 221 is adopted instead of the friction between the mounting portion 31 and the core, and the guide block 4 and the guide rail 221 can be made of steel materials with lower cost, thereby further saving material cost.

The present invention has been explained by using specific embodiments, and the explanation of the above embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (7)

1. A sliding block with a self-locking function is applied to a double-color mold, the double-color mold comprises a female mold and a male mold which are oppositely arranged, the female mold comprises a first color female mold and a second color female mold which are arranged side by side, a first cavity is formed in the first color female mold, and a second cavity is formed in the second color female mold; the male die comprises a first color male die and a second color male die which are arranged side by side, the first color male die comprises a first core, and the second color male die comprises a second core; it is characterized in that the sliding block with the self-locking function comprises:

a mounting portion that is embedded in the first core and/or the second core and slidably connected with the first core and/or the second core;

the molding part is arranged on one side, facing the first cavity or the second cavity, of the mounting part and is positioned at one end of the mounting part, and the molding part is used for molding a first color product;

the self-locking part is arranged on one side, provided with the forming part, of the mounting part and positioned at the other end of the mounting part, the self-locking part comprises a first inclined wall and a second inclined wall which are arranged oppositely, the first inclined wall is positioned on one side, close to the forming part, of the self-locking part, the second inclined wall is positioned on one side, away from the forming part, of the self-locking part, and the distance between the first inclined wall and the second inclined wall is reduced along the direction from the male die to the female die;

when the male die and the female die are closed, the second inclined wall of the self-locking part corresponding to the first cavity can be abutted by the inner wall of the first cavity, so that the sliding block with the self-locking function is reset;

when the male die and the female die are closed, the first inclined wall of the self-locking part corresponding to the second cavity can be pushed by the inner wall of the second cavity, so that the sliding block with the self-locking function can realize core pulling.

2. The slider with self-locking function according to claim 1, further comprising a guide block connected to the mounting portion, wherein the guide block is used for guiding the slider with self-locking function when the slider with self-locking function slides relative to the first core and/or the second core.

3. The slider with self-locking function according to claim 2, wherein the first core and/or the second core are further provided with a guide rail for cooperating with the guide block.

4. The slider with self-locking function according to claim 1, wherein the mounting portion, the forming portion and the self-locking portion are integrally formed by using the same material.

5. The slider with self-locking function according to claim 1, wherein the mounting portion, the forming portion and the self-locking portion are made of heat-treated die steel.

6. The slider with self-locking function according to claim 1, wherein the slider with self-locking function is made of the same material as the first core and/or the second core.

7. A bicolor mold comprising a plurality of self-locking slides according to any one of claims 1 to 6.

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