CN111605145A - Pitched roof mechanism for solving product interference by utilizing movable insert and using method thereof - Google Patents

Abstract

The invention relates to an inclined ejection mechanism for solving product interference by utilizing movable inserts and a using method thereof, and the inclined ejection mechanism comprises a die core, an inclined ejection piece, an inclined ejection column and a sliding assembly, wherein the upper end of the die core is provided with an opening, the inclined ejection piece is arranged in the opening, the upper surface of the inclined ejection piece is flush with the opening, a barb forming cavity is formed between the forming surface of the inclined ejection piece and the side wall of the die core, a first notch is arranged at the joint of the other side of the inclined ejection piece relative to the barb forming cavity and the upper surface of the inclined ejection piece, the first notch is provided with a movable insert which is in sliding connection with the inclined ejection piece, the movable insert is arranged at an interval with the bottom of the opening, a driving mechanism for driving the movable insert to move oppositely relative to the movement direction of the inclined ejection piece is arranged between the movable insert and the die core, and a guide limiting mechanism is arranged between the movable, Meanwhile, the clamping stagnation of the mechanism is prevented, the efficiency is high, and the structure is simple.

Description

Pitched roof mechanism for solving product interference by utilizing movable insert and using method thereof

Technical Field

The invention relates to the field of injection molds and technology, in particular to an inclined ejection mechanism for solving product interference by utilizing a movable insert and a using method thereof.

Background

In the production of injection molding products, the inverted buckle inside the product needs to be formed into a product structure by using an 'oblique top'. Due to the special shape and angle of part of the product, the inclined top has the problem of interfering with the product in the moving process. In actual production, the product can be shoveled off by the inclined top, and appearance defects are caused. The lifter mechanism includes a lifter post and a lifter piece, and the interference distance between the outside of the lifter piece and the top of the product at the time of demolding is S1, as shown in fig. 1. Meanwhile, the generated plastic scraps can be clamped into the movement gap of the mechanism, so that the movement of the mechanism is blocked. The problem is solved by changing the moving direction of the pitched roof and matching with a modified product, but the modified product changes the appearance or the assembly relationship, and the degree of freedom of product design is limited.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the pitched roof mechanism which prevents the product damage caused by the interference of product demoulding, simultaneously prevents the mechanism from being blocked, has high efficiency and simple structure and solves the product interference by utilizing the movable insert and the using method thereof.

The technical scheme of the invention is realized as follows: an inclined ejection mechanism for solving product interference by utilizing movable inserts comprises a die core, an inclined ejection piece, an inclined ejection column and a sliding assembly, wherein an opening is formed in the upper end of the die core, the inclined ejection piece is arranged in the opening, the upper surface of the inclined ejection piece is flush with the opening, a barb forming cavity is formed between the forming surface of the inclined ejection piece and the side wall of the die core, the upper end of the inclined ejection column penetrates through the die core and is fixedly connected with the inclined ejection piece, the lower end of the inclined ejection column is connected with the sliding assembly, a first notch is formed at the joint of the other side of the inclined ejection piece, which is opposite to the barb forming cavity, and the upper surface of the inclined ejection piece, a movable insert which is in sliding connection with the inclined ejection piece is arranged at the first notch, the movable insert is arranged at intervals with the bottom of the opening, the interval part forms a movable stroke S2, and a driving mechanism which drives the movable insert to move oppositely relative to the movement direction, and a guide limiting mechanism is arranged between the movable insert and the inclined ejecting piece.

By adopting the technical scheme, the die comprises a die core, an inclined ejecting piece, an inclined ejecting column and a sliding assembly, wherein an opening is arranged at the upper end of the die core, the inclined ejecting piece is arranged in the opening, the upper surface of the inclined ejecting piece is flush with the opening, so that the injection molding is convenient, a barb forming cavity is formed between the forming surface of the inclined ejecting piece and the side wall of the die core, the upper end of the inclined ejecting column penetrates through the die core and is fixedly connected with the inclined ejecting piece, the lower end of the inclined ejecting column is connected with the sliding assembly, a first notch is arranged at the joint of the other side of the inclined ejecting piece, which is opposite to the barb forming cavity, and the upper surface of the inclined ejecting piece, a movable insert which is in sliding connection with the inclined ejecting piece is arranged at the first notch, the initial position of the movable insert, the upper surface of the inclined ejecting piece and the upper surface of the die core form a male die, and when the male die is closed, the, the movable insert and the bottom of the opening are arranged at intervals, the interval part forms a movable stroke S2, the movable insert is arranged so as to facilitate the decrease of an S2 value during demoulding, at the moment, the injection molding surface of the male die generated by the inclined ejection piece and the movable insert is separated, at the moment, the interference problem is avoided, a driving mechanism for driving the movable insert to move oppositely relative to the movement direction of the inclined ejection piece is arranged between the movable insert and the die core, the driving mechanism is arranged so as to facilitate the downward movement of the movable insert during demoulding, a guide limiting mechanism is arranged between the movable insert and the inclined ejection piece, the arrangement of the guide limiting mechanism can facilitate the upper surface of the movable insert, the upper surface of the inclined ejection piece and the upper surface of the die core to form the male die, the highest ascending distance of the movable insert can be limited, the injection molding use is facilitated, the use efficiency is greatly improved, and the, prevent the production in clearance, because the activity is inserted and the mould is contradicted and is formed the difference in height during the compound die, consequently can produce the power of a downward pulling through telescopic machanism to the activity is inserted in the drawing of patterns, the effectual interference problem of having solved the product, simultaneously because there is not the interference problem, can not have the piece to produce and fall into the damage that the clearance leads to the mechanism, the ejecting 170mm of piece to one side, angle 18, then the ejector motion distance is to one side: 170mm tan 18-55.2 mm.

The invention is further configured to: the driving mechanism comprises a telescopic mechanism and a boss, the telescopic mechanism drives the movable insert to move oppositely relative to the inclined ejection piece in the movement direction, the boss controls the movable insert to move relative to the inclined ejection piece in the position, the telescopic mechanism comprises a fixed column and a driving spring, the driving spring is sleeved on the outer wall of the fixed column, one end of the fixed column is fixedly connected with the inclined ejection piece, the other end of the fixed column is inserted into the movable insert, the driving spring is sleeved on the outer side of the upper end of the fixed column, the upper end of the driving spring is fixedly connected with the fixed column, and the lower end of the driving spring is.

By adopting the technical scheme, the initial position of the movable insert is that the upper surface of the movable insert, the upper surface of the inclined ejector and the upper surface of the die core form a male die, at the moment, the bottom of the movable insert can be abutted against the boss, a driving spring of the telescopic mechanism is compressed in the movable insert, the compression force can be released when the movable insert is separated from the boss during demolding, the driving spring can provide downward force for the movable insert, the movable stroke S2 is conveniently shortened until the movable insert is abutted against the bottom of the first notch, and the problem of interference at the position of S1 is solved at the moment because S2 is greater than S1; the fixed column is arranged in a T shape, one end with the large diameter faces the movable insert, the upper end of the driving spring is fixedly connected with the bottom of the end with the large diameter of the fixed column, the movable insert comprises a through hole for inserting the fixed column, the lower end of the driving spring is fixedly connected with the inner wall of the through hole, therefore, one end of the movable insert is abutted against the die after die assembly, the movable insert and the first notch form a height difference of S2 which is 3mm, the driving spring is compressed between the fixed column and the movable insert, the driving spring provides downward movement force for the movable insert during demolding, the movable insert can abut against the first notch, and the value of S2 is 0 at the moment.

The invention is further configured to: the guide limiting mechanism comprises a first guide mechanism, the first guide mechanism comprises a guide rail arranged on the end face, facing the movable insert, of the inclined top piece, a first guide block is arranged on the end face, facing the movable insert, of the guide rail, a first sliding groove matched with the first guide block is formed in the end face, facing the first guide block, of the movable insert, and the first guide block is connected with the first sliding groove in a sliding mode along the moving direction of the movable insert relative to the inclined top piece.

Through adopting above-mentioned technical scheme, because the activity is inserted and is slided on the oblique top, consequently the setting of direction stop gear can prevent that the activity is inserted the gliding motion process and is produced the clearance or the activity is inserted and drop in the drawing of patterns, has improved the stability of work, the stability that the activity was inserted is further improved in the setting of first guide gear, the guide rail has played the effect that improves sliding connection stability, has prevented the production in clearance simultaneously, the orbital upper end of direction and the bottom of stopper are connected, first guide block and guide rail fixed connection, the setting of first spout has been convenient for the slip that the activity was inserted, has improved gliding efficiency, has played spacing effect simultaneously, is convenient for the formation of the terrace die of moulding plastics.

The invention is further configured to: the end face of the inclined ejecting piece facing the movable insert is provided with a limiting block, and the end face of the movable insert facing the inclined ejecting piece is provided with a second notch which is used for abutting against the bottom of the limiting block.

Through adopting above-mentioned technical scheme, because the activity is inserted and is located sliding connection at first breach, consequently when the activity was inserted and is risen to maximum height, the second breach can contradict with the stopper, and further play spacing effect this moment, be convenient for mould plastics, improved the efficiency of moulding plastics greatly.

The invention is further configured to: the guide limiting mechanism further comprises a second guide mechanism, the second guide mechanism comprises a second guide block and a limiting sliding groove, one end of the second guide block is fixedly connected with the movable insert, the other end of the second guide block is connected with the limiting sliding groove in a sliding mode, and the limiting sliding groove is arranged on the guide rail.

By adopting the technical scheme, the limiting sliding groove is positioned on the guiding track, one end of the second guiding block is connected with the limiting sliding groove in a sliding manner, so that the movable insert can be driven to move up and down, the stability of the sliding connection is improved, when the movable insert is in an initial state, the bottom of the movable insert is matched with the boss to form a movable S2, and when the movable insert is demolded, the movable insert needs to move down, so that the second guiding mechanism plays a role in further improving the stability of the movement.

The invention is further configured to: the lug boss is arranged at the bottom of the opening of the die core and is away from the lug boss at one side of the barb forming cavity, the top of the lug boss is abutted against the bottom of the movable insert, when the movable insert is in a die closing state, the movable insert is jacked towards the opening direction of the die core by the lug boss, and at the moment, the driving spring is in a compression state; when the movable insert is in the die opening state, the movable insert moves upwards along with the inclined ejecting piece, and the movable insert moves downwards under the action of the driving spring.

By adopting the technical scheme, the boss is convenient for the formation of the initial state of the movable insert, so that the injection molding of an injection molding product is facilitated, and the driving spring in the initial state is in a compression state, so that the driving spring can reset to give a downward force to the movable insert during demolding, the movable insert is enabled to move downward, and the working efficiency is greatly improved.

A use method of an inclined ejection mechanism for solving product interference by using a movable insert comprises the following steps:

a. when the die is closed, the outer side of the oblique ejecting piece is abutted to the inner cavity of the die, one side of the bottom of the movable insert, which is far away from the oblique ejecting piece, is abutted to one side of the inner cavity of the die, the height of the movable insert is increased, the second notch is abutted to the bottom of the limiting block, and at the moment, the top of the movable insert and the top of the oblique ejecting piece form an injection molding surface to complete die closing;

b. during demolding, the inclined ejection column moves towards the direction of an injection product and slides in cooperation with the sliding assembly, the inclined ejection piece begins to separate from the boss in the mold core, and the movable insert descends through the telescopic mechanism;

c. the movable insert is separated from an injection molding surface formed by the inclined top piece, the movable insert descends, and the downward movement distance of the movable insert is S2;

d. at the moment, the product interference value S1 is less than the descending distance S2 of the movable insert, and the demolding work is completed smoothly.

By adopting the technical scheme, after the die is assembled, the bottom of the inclined ejection piece can be abutted against the bottom of the die cavity, one side of the die cavity, which is close to the movable insert, is provided with the boss, after the inclined ejection piece is assembled, the outer side of the bottom of the movable insert can be abutted against the boss, at the moment, the bottom of the movable insert and the first notch form a height difference S2, as the second notch can be abutted against the bottom of the limiting block, namely S2 is 3mm, the top of the movable insert and the top of the inclined ejection piece are matched to form an injection molding surface for injection molding of a product, the movable insert plays a role in stably ascending and preventing the generation of a gap in the ascending process due to the guide limiting mechanism and the telescopic mechanism, after the injection molding of the product is completed, when the demolding is carried out, the inclined ejection piece moves along the direction of the inclined ejection column, the inclined ejection piece begins to be separated from the die, at the moment, the collision between the, the movable insert is subjected to downward force and the value of S2 is greater than S1, so that the problem of product interference is eliminated when the value of S2 is 0.

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, and 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 view of a prior art pitched roof mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 3 is a schematic diagram of the working principle of the embodiment of the present invention 1;

FIG. 4 is a schematic diagram of the working principle of the embodiment of the present invention 2;

FIG. 5 is a schematic structural view of a lifter block according to an embodiment of the present invention;

FIG. 6 is an enlarged view taken at A in FIG. 2 according to an embodiment of the present invention;

fig. 7 is a cross-sectional view of a pitched roof element according to an embodiment of the present invention.

Reference numerals: 1. a slanted ejecting column; 2. a sliding assembly; 3. a slanted ejecting member; 301. a first notch; 302. a limiting block; 4. a movable insert; 401. a first chute; 402. a second notch; 5. a guide limiting mechanism; 501. a guide rail; 502. a first guide block; 503. a second guide block; 504. a limiting chute; 6. a telescoping mechanism; 601. fixing a column; 602. a drive spring; 7. a male die; 8. a mold core; 9. an opening; 10. and (4) a boss.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 2 to 7, the invention discloses an angle ejector mechanism for solving product interference by using movable inserts, which comprises a mold core 8, an angle ejector 3, an angle ejector column 1 and a sliding assembly 2, wherein the upper end of the mold core 8 is provided with an opening 9, the angle ejector 3 is arranged in the opening 9, the upper surface of the angle ejector 3 is flush with the opening 9, so that injection molding is facilitated, a barb forming cavity is formed between the forming surface of the angle ejector 3 and the side wall of the mold core 8, the upper end of the angle ejector column 1 penetrates through the mold core 8 to be fixedly connected with the angle ejector 3, the lower end of the angle ejector column 1 is connected with the sliding assembly 2, a first notch 301 is arranged at the joint of the other side of the angle ejector 3 relative to the barb forming cavity and the upper surface of the angle ejector 3, the first notch 301 is provided with a movable insert 4 slidably connected with the angle ejector 3, and the initial position of the movable insert 4 is the upper surface, the lower, The upper surface of the pitched roof part 3 and the upper surface of the die core 8 form a male die 7, when the male die 7 and the female die are closed, the cavity at the moment is communicated with the barb forming cavity to form a die cavity of the whole product, the movable insert 4 and the bottom of the opening 9 are arranged at intervals, the interval part forms a movable stroke S2, the movable insert 4 is arranged to facilitate the reduction of an S2 value during demoulding, the injection molding surface of the male die 7 generated by the pitched roof part 3 and the movable insert 4 is separated at the moment, no interference problem exists at the moment, a driving mechanism for driving the movable insert 4 to move oppositely relative to the moving direction of the pitched roof part 3 is arranged between the movable insert 4 and the die core 8, the driving mechanism is arranged to facilitate the downward movement of the movable insert 4 during demoulding, a guide limiting mechanism 5 is arranged between the movable insert 4 and the pitched roof part 3, the guide limiting mechanism 5 is arranged to facilitate the upper surface of the movable insert 4, the upper surface of the pitched roof part 3 and, can restrict the highest rise distance of activity insert 4, be convenient for mould plastics and use, improve the efficiency of use greatly, can play the effect that improves stability to the motion of activity insert 4 simultaneously, prevent the production in clearance, because the activity is inserted 4 and the mould is contradicted and is formed the difference in height when the compound die, consequently can insert 4 production a power of pulling downwards to the activity through telescopic machanism 6 in the drawing of patterns, the effectual interference problem of having solved the product, simultaneously because there is not the interference problem, can not have the piece to produce and fall into the damage that the clearance leads to the mechanism, the ejecting 170mm of oblique kicking block, angle 18, then the oblique top moving distance does: 170mm tan 18-55.2 mm.

The driving mechanism comprises a telescopic mechanism 6 for driving the movable insert 4 to move oppositely relative to the inclined ejecting piece 3 and a boss 10 for controlling the position of the movable insert 4 relative to the inclined ejecting piece 3, the telescopic mechanism 6 comprises a fixed column 601 and a driving spring 602 sleeved on the outer wall of the fixed column 601, one end of the fixed column 601 is fixedly connected with the inclined ejecting piece 3, the other end of the fixed column 601 is inserted into the movable insert 4, the driving spring 602 is sleeved on the outer side of the upper end of the fixed column 601, the upper end of the driving spring 602 is fixedly connected with the fixed column 601, the lower end of the driving spring 602 is fixedly connected with the inside of the movable insert 4, the initial position of the movable insert 4 is that the upper surface of the movable insert 4, the upper surface of the inclined ejecting piece 3 and the upper surface of the die core 8 form a male die 7, at the moment, the bottom of the movable insert 4 is abutted against the boss 10, and the driving, the compression force is released when the movable insert 4 is separated from the boss 10 during demolding, the driving spring 602 gives a downward force to the movable insert 4, so that the movable stroke S2 is conveniently shortened until the movable insert 4 is abutted against the bottom of the first notch 301, and the problem of interference at the position S1 is solved at the moment because S2 is greater than S1; the fixed column 601 is arranged in a T shape, one end with a large diameter faces the movable insert 4, the upper end of the driving spring 602 is fixedly connected with the bottom of one end with a large diameter of the fixed column 601, the movable insert 4 comprises a through hole for inserting the fixed column 601, and the lower end of the driving spring 602 is fixedly connected with the inner wall of the through hole, so that one end of the movable insert 4 abuts against a die after die assembly, a height difference between the movable insert 4 and the first notch 301, that is, S2 is 3mm, the driving spring 602 is compressed between the fixed column 601 and the movable insert 4, the driving spring 602 provides a downward movement force for the movable insert 4 during die assembly, the movable insert 4 abuts against the first notch 301, and at this time, the value of S2 is 0.

The guiding and limiting mechanism 5 comprises a first guiding mechanism, the first guiding mechanism comprises a guiding track 501 arranged on the end surface of the inclined top part 3 facing the movable insert 4, the end surface of the guiding track 501 facing the movable insert 4 is provided with a first guiding block 502, the end surface of the movable insert 4 facing the first guiding block 502 is provided with a first sliding groove 401 matched with the first guiding block 502, the first guiding block 502 is connected with the first sliding groove 401 in a sliding way along the moving direction of the movable insert 4 relative to the inclined top part 3, because the movable insert 4 slides on the inclined top, the guiding and limiting mechanism 5 can prevent the movable insert 4 from generating a gap in the upward sliding moving process or preventing the movable insert 4 from falling off in demoulding, the working stability is improved, the stability of the movable insert 4 is further improved by the arrangement of the first guiding mechanism, the guiding track 501 plays a role in improving the stability of sliding connection, meanwhile, the gap is prevented from being generated, the upper end of the guide rail 501 is connected with the bottom of the limiting block 302, the first guide block 502 is fixedly connected with the guide rail, the sliding of the movable insert 4 is facilitated by the arrangement of the first sliding groove 401, the sliding efficiency is improved, the limiting effect is achieved, and the injection molding male die 7 is convenient to form.

The terminal surface of the pitched roof part 3 towards the movable insert 4 is provided with a limiting block 302, the terminal surface of the movable insert 4 towards the pitched roof part 3 is provided with a second notch 402 which is used for being abutted against the bottom of the limiting block 302, and the movable insert 4 is slidably connected with the first notch 301, so that when the movable insert 4 ascends to the maximum height, the second notch 402 can be abutted against the limiting block 302, and at the moment, the further limiting effect is achieved, the injection molding is facilitated, and the injection molding efficiency is greatly improved.

The guide limiting mechanism 5 further comprises a second guide mechanism, the second guide mechanism comprises a second guide block 503 and a limiting sliding groove 504, one end of the second guide block 503 is fixedly connected with the movable insert 4, the other end of the second guide block 503 is connected with the limiting sliding groove 504 in a sliding manner, the limiting sliding groove 504 is arranged on the guide track 501, the limiting sliding groove 504 is located on the guide track 501, one end of the second guide block 503 is connected with the limiting sliding groove 504 in a sliding manner so as to drive the movable insert 4 to move up and down, the stability of the sliding connection is improved, when the movable insert 4 is in an initial state, the bottom of the movable insert 4 is matched with the boss 10 to form a movable part S2, and when the movable insert 4 is demolded, the movable insert 4 needs to move downwards, so that the second guide mechanism plays a role in further improving the stability of the movement.

The boss 10 is arranged at the bottom of the opening 9 of the die core 8 and is away from the boss 10 at one side of the barb forming cavity, the top of the boss 10 is abutted against the bottom of the movable insert 4, when the movable insert 4 is in a die closing state, the movable insert 4 is pushed towards the opening 9 of the die core 8 by the boss 10, and at the moment, the driving spring 602 is in a compression state; when the movable insert 4 is in the mold opening state, the movable insert 4 moves upwards along with the inclined ejecting piece 3, the movable insert 4 moves downwards under the action of the driving spring 602, the boss 10 is convenient for the formation of the initial state of the movable insert 4, so that the injection molding of an injection molding product is facilitated, and the driving spring 602 in the initial state is in a compression state, so that the driving spring 602 can reset to give a downward force to the movable insert 4 during demolding, the movable insert 4 moves downwards, and the working efficiency is greatly improved.

A use method of an inclined ejection mechanism for solving product interference by using a movable insert comprises the following steps:

a. when the die is closed, the outer side of the oblique ejecting piece is abutted to the inner cavity of the die, one side of the bottom of the movable insert, which is far away from the oblique ejecting piece, is abutted to one side of the inner cavity of the die, the height of the movable insert is increased, the second notch is abutted to the bottom of the limiting block, and at the moment, the top of the movable insert and the top of the oblique ejecting piece form an injection molding surface to complete die closing;

b. during demolding, the inclined ejection column moves towards the direction of an injection product and slides in cooperation with the sliding assembly, the inclined ejection piece begins to separate from the boss in the mold core, and the movable insert descends through the telescopic mechanism;

c. the movable insert is separated from an injection molding surface formed by the inclined top piece, the movable insert descends, and the downward movement distance of the movable insert is S2;

d. at the moment, the product interference value S1 is less than the descending distance S2 of the movable insert, and the demolding work is completed smoothly.

The working principle is as follows: after the die is assembled, the bottom of the inclined ejecting piece 3 is abutted against the bottom of the die cavity, one side of the die cavity, which is close to the movable insert 4, is provided with a boss 10, after the inclined ejecting piece 3 is assembled, the outer side of the bottom of the movable insert 4 is abutted against the boss 10, at the moment, the bottom of the movable insert 4 and the first notch 301 form a height difference S2, because the second notch 402 is abutted against the bottom of the limiting block 302, namely S2 is 3mm, at the moment, the top of the movable insert 4 and the top of the inclined ejecting piece 3 are matched to form an injection molding surface for product injection molding, the movable insert 4 plays a role in stably rising and preventing the generation of a gap due to the guide limiting mechanism 5 and the telescopic mechanism 6 in the rising process, after the product injection molding is finished, when the demolding is carried out, the inclined ejecting piece 3 moves along the direction of the inclined ejecting column 1, the inclined ejecting piece 3 begins to separate from the die, at the moment, the, under the action of the driving spring 602 of the telescopic mechanism 6, the movable insert 4 is subjected to downward force and the value of S2 is greater than S1, so that the problem of product interference is eliminated when the value of S2 is 0,

the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides an utilize activity to insert to solve oblique top mechanism that product is interfered, includes mould benevolence, oblique top piece, oblique fore-set and sliding component, mould benevolence upper end be provided with the opening, oblique top piece set up in this opening, the upper surface and the opening of oblique top piece flush, and form barb shaping chamber between the shaping face of oblique top piece and the lateral wall of mould benevolence, mould benevolence and oblique fore-set fixed connection are passed to the upper end of oblique fore-set, and the lower extreme and the sliding component of oblique fore-set are connected, its characterized in that: the connecting part of the other side of the inclined ejecting piece opposite to the barb forming cavity and the upper surface of the inclined ejecting piece is provided with a first notch, the first notch is provided with a movable insert which is in sliding connection with the inclined ejecting piece, the movable insert and the bottom of the opening are arranged at intervals, the interval part forms a movable stroke S2, a driving mechanism for driving the movable insert to move oppositely relative to the movement direction of the inclined ejecting piece is arranged between the movable insert and the die core, and a guide limiting mechanism is arranged between the movable insert and the inclined ejecting piece.

2. The mechanism of claim 1, wherein the mechanism comprises a movable insert for solving product interference: the driving mechanism comprises a telescopic mechanism and a boss, the telescopic mechanism drives the movable insert to move oppositely relative to the inclined ejection piece in the movement direction, the boss controls the movable insert to move relative to the inclined ejection piece in the position, the telescopic mechanism comprises a fixed column and a driving spring, the driving spring is sleeved on the outer wall of the fixed column, one end of the fixed column is fixedly connected with the inclined ejection piece, the other end of the fixed column is inserted into the movable insert, the driving spring is sleeved on the outer side of the upper end of the fixed column, the upper end of the driving spring is fixedly connected with the fixed column, and the lower end of the driving spring is.

3. The mechanism of claim 1, wherein the mechanism comprises a movable insert for solving product interference: the guide limiting mechanism comprises a first guide mechanism, the first guide mechanism comprises a guide rail arranged on the end face, facing the movable insert, of the inclined top piece, a first guide block is arranged on the end face, facing the movable insert, of the guide rail, a first sliding groove matched with the first guide block is formed in the end face, facing the first guide block, of the movable insert, and the first guide block is connected with the first sliding groove in a sliding mode along the moving direction of the movable insert relative to the inclined top piece.

4. The mechanism of claim 1, wherein the mechanism comprises a movable insert for solving product interference: the end face of the inclined ejecting piece facing the movable insert is provided with a limiting block, and the end face of the movable insert facing the inclined ejecting piece is provided with a second notch which is used for abutting against the bottom of the limiting block.

5. The mechanism of claim 3, wherein the mechanism comprises a movable insert for solving product interference: the guide limiting mechanism further comprises a second guide mechanism, the second guide mechanism comprises a second guide block and a limiting sliding groove, one end of the second guide block is fixedly connected with the movable insert, the other end of the second guide block is connected with the limiting sliding groove in a sliding mode, and the limiting sliding groove is arranged on the guide rail.

6. The mechanism of claim 2, wherein the mechanism comprises a movable insert for solving product interference: the lug boss is arranged at the bottom of the opening of the die core and is away from the lug boss at one side of the barb forming cavity, the top of the lug boss is abutted against the bottom of the movable insert, when the movable insert is in a die closing state, the movable insert is jacked towards the opening direction of the die core by the lug boss, and at the moment, the driving spring is in a compression state; when the movable insert is in the die opening state, the movable insert moves upwards along with the inclined ejecting piece, and the movable insert moves downwards under the action of the driving spring.

7. A method for ejecting the inclined ejecting mechanism for solving the product interference by using the movable insert according to any one of claims 1 to 6, wherein: the method comprises the following steps:

a. when the die is closed, the outer side of the oblique ejecting piece is abutted to the inner cavity of the die, one side of the bottom of the movable insert, which is far away from the oblique ejecting piece, is abutted to one side of the inner cavity of the die, the height of the movable insert is increased, the second notch is abutted to the bottom of the limiting block, and at the moment, the top of the movable insert and the top of the oblique ejecting piece form an injection molding surface to complete die closing;

b. during demolding, the inclined ejection column moves towards the direction of an injection product and slides in cooperation with the sliding assembly, the inclined ejection piece begins to separate from the boss in the mold core, and the movable insert descends through the telescopic mechanism;

c. the movable insert is separated from an injection molding surface formed by the inclined top piece, the movable insert descends, and the downward movement distance of the movable insert is S2;

d. at the moment, the product interference value S1 is less than the descending distance S2 of the movable insert, and the demolding work is completed smoothly.

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