CN217121471U - Mould waste material discharge structure reaches mould including it - Google Patents

Abstract

The application relates to a mould waste discharge structure and a mould comprising the same. The waste discharge structure includes: the waste sliding plate, the sliding plate fixing plate and the shaking guide rod are arranged on the waste sliding plate; the waste sliding plate and the sliding plate fixing plate are arranged in a fixed template of the die, and the waste sliding plate is connected with one side of the sliding plate fixing plate so that the waste sliding plate inclines towards the bottom of the fixed template; the opposite side of slide fixed plate is equipped with the promotion boss, and the one end that the shake guide rod runs through the top of fixed die plate is equipped with crowded inclined plane of pushing away, crowded inclined plane of pushing away with promote the boss butt for the movable mould board and the fixed die plate compound die extrusion shake guide rod of mould, when the bottom motion of court fixed die plate, crowded inclined plane of pushing away can extrude the promotion boss and make promotion boss drive slide fixed plate and waste material slide towards deviating from the direction shake of crowded inclined plane of pushing away. The utility model provides a scheme can shake the waste material slide under the condition of the normal operation of mould to can follow the waste material slide roll-off with the waste material, avoid needing artifical manual waste material on the clearance waste material slide, improve production efficiency.

Description

Mould waste material discharge structure reaches mould including it

Technical Field

The application relates to the technical field of molds, in particular to a mold waste discharging structure and a mold comprising the same.

Background

At present the mode of mould discharge waste material most all sets up ordinary waste material slide inside the mould, the waste material slides out through this waste material slide, but need great inclination waste material just can the roll-off smoothly, through the experiment, when the inclination of waste material slide is less than 13 degrees, the waste material can't pass through the waste material slide roll-off, nevertheless because the reason of punch press equipment and mould structure, the inclination of waste material slide can't be designed bigger, if the waste material can't follow the mould roll-off, then must go to manually to take out the waste material from the mould with appurtenance, lead to production efficiency low, the cost of product punching press has been improved.

In the prior art, patent waste material chute shaking device and stamping die with publication number CN205851713U, the die includes a shaker installed on a lower die of the stamping die, a waste material chute connected with the shaker, and a driving block installed on an upper die of the stamping die, and the driving block abuts against the shaker when moving downwards along with the upper die to drive the shaker to deform, so that the waste material chute can shake in the up-and-down direction.

The above prior art has the following disadvantages:

when the inclination of waste material slide is less, drive the shake that the waste material slide goes on the upper and lower direction and still be difficult to follow the waste material slide-out, consequently, need solve the problem of how to follow the waste material slide-out with the waste material under the condition of the normal operation of mould.

SUMMERY OF THE UTILITY MODEL

For overcoming the problem that exists among the correlation technique, this application provides a mould waste discharge structure, this mould waste discharge structure can shake the waste material slide under the condition of the normal operation of mould to can follow the waste material slide-out with the waste material, avoid needing the artifical waste material on the manual clearance waste material slide, improve production efficiency.

The present application in a first aspect provides a mold waste discharge structure comprising:

a waste sliding plate 1, a sliding plate fixing plate 2 and a shaking guide rod 3;

the waste sliding plate 1 and the sliding plate fixing plate 2 are arranged in a fixed template 4 of the die, and the waste sliding plate 1 is connected with one side of the sliding plate fixing plate 2, so that the waste sliding plate 1 inclines towards the bottom of the fixed template 4;

the opposite side of slide fixed plate 2 is equipped with promotes boss 5, the one end that shake guide rod 3 runs through the top of fixed die plate 4 is equipped with crowded inclined plane 31 that pushes away, crowded inclined plane 31 that pushes away with the 5 butt of promotion boss for the movable mould board 6 and the 4 compound dies extrusion of fixed die plate of mould shake guide rod 3, when the bottom motion of fixed die plate 4, crowded inclined plane 31 that pushes away can extrude promotion boss 5 and make promotion boss 5 drive slide fixed plate 2 and waste material slide 1 towards deviating from the direction shake of crowded inclined plane 31 that pushes away.

In one embodiment, the other side of the sliding plate fixing plate 2 is also provided with a contour sleeve 7;

the equal-height sleeve 7 comprises an equal-height gasket 71 and an equal-height screw 72, and the equal-height screw 72 is used for fixing the equal-height sleeve 7 on the sliding plate fixing plate 2;

a first spring 73 and a spring seat 74 are sequentially arranged along the direction from the equal-height gasket 71 to the equal-height screw 72, and the first spring 73 is respectively abutted against the equal-height gasket 71 and the spring seat 74;

when the pushing boss 5 drives the sliding plate fixing plate 2 and the waste sliding plate 1 to shake in the direction departing from the extruding and pushing inclined plane 31, the sliding plate fixing plate 2 drives the equal-height gasket 71 to extrude the first spring 73;

when the movable template 6 is separated from the fixed template 4, the first spring 73 pushes the equal-height gasket 71 to move, so that the sliding plate fixing plate 2 and the waste sliding plate 1 are driven to shake towards the direction of the extruding and pushing inclined surface 31, the pushing boss 5 is pushed to extrude the extruding and pushing inclined surface 31, and the shaking guide rod 3 is pushed back to the initial position.

In one embodiment, a deep groove ball bearing 51 is disposed at an end of the pushing boss 5 away from the fixed board 2, and the pushing inclined surface 31 abuts against an outer ring side wall of the deep groove ball bearing 51.

In one embodiment, the top of the fixed die plate 4 is provided with a guide rod limiting seat 41;

the periphery of the shaking guide rod 3 is provided with an abutting limit flange 32;

the shaking guide rod 3 penetrates through the guide rod limiting seat 41, and the second spring 33 is abutted between the abutting limiting flange 32 and the top of the fixed die plate 4, so that the abutting limiting flange 32 is abutted with the guide rod limiting seat 41.

In one embodiment, the movable die plate 6 is provided with a driving ejector rod 61;

when the movable platen 6 and the fixed platen 4 are clamped, the driving ejector rod 61 can press the shake guide rod 3.

In one embodiment, one end of the shaking guide rod 3 penetrating through the top of the fixed die plate 4 is a cone;

the side conical surface of the cone is abutted with the pushing boss 5.

In one embodiment, one end of the shaking guide rod 3 penetrating through the top of the fixed die plate 4 is a table body;

the side table surface of the table body is abutted with the pushing boss 5.

In one embodiment, a spring stop 8 is provided between the push boss 5 and the equal-height sleeve 7;

the spring shutter 8 includes a horizontal shutter portion 81 and a vertical shutter portion 82;

one end of the horizontal baffle part 81 is connected with the sliding plate fixing plate 2, and the other end is connected with the vertical baffle part 82;

one side surface of the horizontal baffle portion 81 is connected to the spring seat 74.

The present application provides in a second aspect a mold comprising:

the mold scrap discharge structure according to any one of the above.

The technical scheme provided by the application can comprise the following beneficial effects:

through being connected waste material slide and one side of slide fixed plate, make the waste material slide to the bottom slope of fixed die plate, thereby form the inclined plane of waste material roll-off, the opposite side of slide fixed plate is equipped with the promotion boss, the one end that the shake guide rod runs through the top of fixed die plate is equipped with crowded inclined plane of pushing away, when movable mould board and fixed die plate compound die extrusion shake guide rod, the bottom motion of extrusion shake guide rod towards the fixed die plate, this crowded inclined plane of pushing away also can be towards the bottom motion of fixed die plate simultaneously, make this crowded inclined plane of pushing away produce the extrusion to the promotion boss in the course of motion, make promotion boss drive slide fixed plate and waste material slide shake towards the direction that deviates from crowded inclined plane of pushing away, thereby shake waste material along the waste material slide roll-off on the waste material slide, the waste material that needs manual clearance on the waste material slide has been avoided, and production efficiency is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular descriptions of exemplary embodiments of the application, as illustrated in the accompanying drawings wherein like reference numbers generally represent like parts throughout the exemplary embodiments of the application.

Fig. 1 is a schematic structural view of a mold scrap discharge structure according to an embodiment of the present application when a movable platen and a stationary platen are not clamped together;

fig. 2 is a schematic structural view of a mold scrap discharge structure according to an embodiment of the present application when a movable platen and a fixed platen are clamped together.

Detailed Description

Preferred embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While the preferred embodiments of the present application are shown in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It should be understood that although the terms "first," "second," "third," etc. may be used herein to describe various information, these information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Example one

At present the mode of mould discharge waste material most all sets up ordinary waste material slide inside the mould, the waste material slides out through this waste material slide, but need great inclination waste material just can the roll-off smoothly, through the experiment, when the inclination of waste material slide is less than 13 degrees, the waste material can't pass through the waste material slide roll-off, nevertheless because the reason of punch press equipment and mould structure, the inclination of waste material slide can't be designed bigger, if the waste material can't follow the mould roll-off, then must go to manually to take out the waste material from the mould with appurtenance, lead to production efficiency low, the cost of product punching press has been improved. The scheme that prior art provided is when the inclination of waste material slide less, and the shake that drives the waste material slide and carry out the upper and lower direction still is difficult to follow the waste material slide-out, consequently, needs solve the problem of how to follow the waste material slide-out on the waste material slide under the condition of the normal operation of mould.

To above-mentioned problem, this application embodiment provides a mould waste discharge structure, can shake the waste material slide under the condition of the normal operation of mould to can be with waste material roll-off from the waste material slide, avoided needing the artifical waste material of manual clearance on the waste material slide, improve production efficiency.

The technical solutions of the embodiments of the present application are described in detail below with reference to the accompanying drawings.

Referring to fig. 1, an embodiment of a mold scrap discharge structure according to the embodiment of the present application includes:

waste material slide 1, slide fixed plate 2 and shake guide rod 3, wherein, waste material slide 1 and slide fixed plate 2 set up in the fixed die plate 4 of mould, waste material slide 1 is connected with one side of slide fixed plate 2, make waste material slide 1 to the bottom slope of fixed die plate 4, in practical application, because the reason of punch press equipment and mould structure, the inclination of waste material slide can't be designed bigger, the inclination of waste material slide can be less than 13 degrees usually, the inclination refers to the angle of the contained angle between the bottom place plane of waste material slide 1 and fixed die plate 4, through the experiment, if when the inclination of waste material slide is less than 13 degrees, the waste material is unable through the slide-out of waste material slide.

Therefore, in the embodiment of the present application, the other side of the sliding plate fixing plate 2 is provided with the pushing boss 5, one end of the shaking guide rod 3, which penetrates through the top of the fixed mold plate 4, is provided with the pushing inclined surface 31, the pushing inclined surface 31 abuts against the pushing boss 5, so that the movable mold plate 6 of the mold and the fixed mold plate 4 are matched to extrude the shaking guide rod 3, when moving towards the bottom of the fixed mold plate 4, the pushing inclined surface 31 can extrude the pushing boss 5, so that the pushing boss 5 drives the sliding plate fixing plate 2 and the scrap sliding plate 1 to shake towards the direction departing from the pushing inclined surface 31, it can be understood that, in the embodiment of the present application, the pushing inclined surface 31 inclines along the peripheral edge of the shaking guide rod 3 to the axis of the shaking guide rod 3, therefore, when the shaking guide rod 3 is at the initial position, the pushing inclined surface 31 near the axis of the shaking guide rod 3 abuts against the pushing boss 5, and during the movement of the shaking guide rod 3 towards the bottom of the fixed mold plate 4, crowded inclined plane 31 of pushing away also moves towards the bottom of fixed die plate 4 simultaneously, make the width of shake guide rod 3 progressively increase, make the butt position that promotes boss 5 and crowded inclined plane 31 of pushing away progressively toward the peripheral edge skew of shake guide rod 3, therefore, promote boss 5 and can produce towards deviating from the skew of crowded inclined plane 31 direction of pushing away, provide towards deviating from the motion inertia of crowded inclined plane 31 direction of pushing away for slide fixed plate 2 and waste material slide 1, thereby drive slide fixed plate 2 and waste material slide 1 towards deviating from the direction shake of crowded inclined plane 31 of pushing away, reach the purpose of roll-off waste material from waste material slide 1.

It can be understood that the waste material sliding plate 1 in the embodiment of the present application can carry waste material falling from the waste material blanking hole in the mold, and the waste material sliding plate 1 may be disposed below the waste material blanking hole or in a position near the waste material blanking hole as long as it can carry waste material falling from the waste material blanking hole, and in practical applications, the disposed position of the waste material sliding plate 1 may be determined according to practical applications, and is not limited herein.

The following advantageous effects can be seen from the first embodiment:

through being connected waste material slide and one side of slide fixed plate, make the waste material slide to the bottom slope of fixed die plate, thereby form the inclined plane of waste material roll-off, the opposite side of slide fixed plate is equipped with the promotion boss, the one end that the shake guide rod runs through the top of fixed die plate is equipped with crowded inclined plane of pushing away, when movable mould board and fixed die plate compound die extrusion shake guide rod, the bottom motion of extrusion shake guide rod towards the fixed die plate, this crowded inclined plane of pushing away also can be towards the bottom motion of fixed die plate simultaneously, make this crowded inclined plane of pushing away produce the extrusion to promoting the boss in the motion process, make promotion boss drive slide fixed plate and waste material slide shake towards the direction that deviates from crowded inclined plane of pushing away, thereby waste material along the waste material slide roll-off on the shake waste material slide, avoided needing artifical manual clearance waste material on the waste material slide, and improve production efficiency.

Example two

For the convenience of understanding, an embodiment of a mold waste discharging structure is provided below for illustration, and in practical application, the other side of the sliding plate fixing plate is further provided with an equal-height sleeve, so that the movable mold plate and the fixed mold plate can also shake the waste sliding plate in the separation process, and further slide the waste on the waste sliding plate out.

Referring to fig. 2, a mold scrap discharge structure according to an embodiment of the present application includes:

the other side of the sliding plate fixing plate 2 is further provided with an equal-height sleeve 7, wherein the equal-height sleeve 7 comprises an equal-height gasket 71 and an equal-height screw 72, and the equal-height screw 72 is used for fixing the equal-height sleeve 7 on the sliding plate fixing plate 2, so that the equal-height sleeve 7 and the sliding plate fixing plate 2 can be driven to move mutually.

A first spring 73 and a spring seat 74 are sequentially arranged in the direction from the equal-height gasket 71 to the equal-height screw 72, the first spring 73 is respectively abutted against the equal-height gasket 71 and the spring seat 74, and when the movable template 6 and the fixed template 4 are matched and the boss 5 is pushed to drive the sliding plate fixing plate 2 and the waste sliding plate 1 to shake in the direction departing from the extrusion inclined plane 31, the sliding plate fixing plate 2 drives the equal-height gasket 71 to extrude the first spring 73; when the movable template 6 is separated from the fixed template 4, the pressure on the shaking guide rod 3 disappears, the extrusion force of the extrusion inclined plane 31 on the pushing boss 5 disappears, and thus the extrusion force on the first spring 73 also disappears, so that the first spring 73 rebounds to push the equal-height gasket 71 to move, the sliding plate fixing plate 2 and the waste sliding plate 1 are driven to shake towards the extrusion inclined plane 31, and the pushing boss 5 extrudes the extruded inclined plane 31, in the process of pushing the boss 5 to perform extrusion movement along the direction from the peripheral edge of the shaking guide rod 3 to the axis of the shaking guide rod 3, because the shaking guide rod 3 penetrates through the top of the fixed template 4, the top of the fixed template 4 has a horizontal limiting effect on the shaking guide rod 3, and therefore, after the extrusion inclined plane 31 of the shaking guide rod 3 receives the extrusion, the shaking guide rod 3 is pushed to the initial position by the pushing boss 5.

The following advantageous effects can be seen from the second embodiment:

through the opposite side at the slide fixed plate be equipped with equal altitude sleeve, equal altitude sleeve equal altitude gasket and equal altitude are equipped with first spring and spring holder between the screw, equal altitude screw is fixed with the slide fixed plate, make movable mould board and fixed die plate in the course of separation, first spring drives the slide fixed plate and removes towards crowded inclined plane direction of pushing away, for slide fixed plate and waste material slide provide the crowded motion inertia who pushes away the inclined plane direction of orientation, can produce the shake to the waste material slide, further with the waste material roll-off on the waste material slide in movable mould board and fixed die plate separation process, fully discharge the waste material, avoided needing the waste material on the manual clearance waste material slide of manual work, and the production efficiency is improved.

EXAMPLE III

In order to facilitate understanding, an embodiment of a mold waste discharge structure is provided below for explanation, and in practical application, in order to improve the smoothness degree of the mutual movement between the extruding and pushing inclined plane and the pushing boss, the extruding and pushing inclined plane and the pushing boss are further designed, in addition, a guide rod limiting seat is arranged at the top of the fixed mold plate, a second spring is arranged inside the guide rod limiting seat, and the shaking guide rod is limited, and meanwhile, the shaking guide rod has elastic shaking inertia.

Referring to fig. 1 and 2, a third embodiment of a mold scrap discharge structure according to an embodiment of the present application includes:

promote the boss 5 and keep away from the one end of slide fixed plate 2 and be equipped with deep groove ball bearing 51, crowded outer lane lateral wall butt that pushes away inclined plane 31 and deep groove ball bearing 51, it can be understood that no matter push away the in-process that inclined plane 31 extrudees and promote boss 5, still promote the crowded in-process that pushes away inclined plane 31 of extrusion of boss 5, deep groove ball bearing 51 all can carry out the rotation to can improve crowded smooth degree that pushes away the mutual motion between inclined plane 31 and the promotion boss 5. The deep groove ball bearing 51, i.e., a deep groove ball bearing, is characterized by small frictional resistance and high rotational speed, and can be used for a machine member that bears a radial load or a combined load acting both radially and axially.

The top of fixed die plate 4 is equipped with the spacing seat of guide bar 41, and the periphery of shake guide bar 3 is equipped with butt limit flange 32 and shakes guide bar 3 and run through the spacing seat of guide bar 41, and the butt has second spring 33 between the top of butt limit flange 32 and fixed die plate 4 for butt limit flange 32 and the spacing seat of guide bar 41 butt. The movable platen 6 is provided with a driving ejector rod 61, and when the movable platen 6 and the fixed platen 4 are closed, the driving ejector rod 61 can extrude the shake guide rod 3.

It can be understood that, when the driving mandril 61 extrudes the shaking guide rod 3, the abutting limit flange 32 can extrude the second spring 33 to contract, when the fixed die plate 4 is separated from the movable die plate 6, the second spring 33 rebounds to push the abutting limit flange 32 to return the shaking guide rod 3 to the initial position, the deep groove ball bearing 51 extrudes the extruding inclined plane 31 to return to the initial position to assist in the mutual movement fluency between the extruding inclined plane 31 and the pushing boss 5. The back and forth switching of the second spring 33 between the contracted state and the relaxed state also enables the shaking guide rod to have an elastic shaking inertia, thereby increasing the shaking of the waste slide plate and allowing the waste to be sufficiently discharged.

The abutment limit flange 32 can limit the shake guide rod 3 by abutting against the guide rod limit seat 41, and prevents the shake guide rod 3 from being separated from the fixed die plate 4 by the resilient elastic force of the second spring 33.

In the embodiment of the application, one end of the shaking guide rod 3 penetrating through the top of the fixed die plate 4 is a cone, the cone comprises a cone and a pyramid, and the side conical surface of the cone is abutted to the pushing boss 5. The shaking guide rod 3 can also be a table body through one end of the top of the fixed die plate 4, the table body comprises a circular truncated cone and a prismatic table, and the side table surface of the table body is abutted to the pushing boss 5.

In addition, a spring baffle 8 is arranged between the pushing boss 5 and the equal-height sleeve 7, the spring baffle 8 comprises a horizontal baffle part 81 and a vertical baffle part 82, the horizontal baffle part 81 and the vertical baffle part 82 are perpendicular to each other, one end of the horizontal baffle part 81 is connected with the sliding plate fixing plate 2, the other end of the horizontal baffle part is connected with the vertical baffle part 82, one side surface of the horizontal baffle part 81 is connected with the spring seat 74, and in order to prevent the equal-height gasket 71 from being injured to a mold operator after being subjected to the rebound elasticity of the first spring 73.

The following beneficial effects can be seen from the third embodiment:

set up deep groove ball bearing through the one end of keeping away from the slide fixed plate at promotion boss, set up the spacing seat of guide bar at the top of fixed die plate, the butt limit flange of shake guide bar has the second spring with the spacing seat of guide bar between, smooth degree when making crowded to push away between inclined plane and the promotion boss when the motion each other can improve, also can increase the shake to the waste material slide, improve the efficiency of waste material roll-off waste material slide, fully discharge the waste material, the waste material that needs artifical manual clearance on the waste material slide has been avoided, and the production efficiency is improved.

Example four

Corresponding to the embodiment of the application function implementation method, the application also provides a mold and a corresponding embodiment.

The mould that this application embodiment shows includes:

the mold scrap discharge structure according to any one of the above embodiments.

With regard to the mold scrap discharge structure in the above-described embodiment, the respective portions thereof have been described in detail in the embodiment related to the mold scrap discharge structure, and will not be explained in detail herein.

The aspects of the present application have been described in detail hereinabove with reference to the accompanying drawings. In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments. Those skilled in the art should also appreciate that the acts and modules referred to in the specification are not necessarily required in the present application. In addition, it can be understood that the steps in the method of the embodiment of the present application may be sequentially adjusted, combined, and deleted according to actual needs, and the modules in the device of the embodiment of the present application may be combined, divided, and deleted according to actual needs.

Having described embodiments of the present application, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the disclosed embodiments. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (9)

1. A mold scrap discharge structure, comprising:

a waste sliding plate (1), a sliding plate fixing plate (2) and a shaking guide rod (3);

the waste sliding plate (1) and the sliding plate fixing plate (2) are arranged in a fixed die plate (4) of a die, and the waste sliding plate (1) is connected with one side of the sliding plate fixing plate (2) so that the waste sliding plate (1) inclines to the bottom of the fixed die plate (4);

the opposite side of slide fixed plate (2) is equipped with and promotes boss (5), shake guide rod (3) run through the one end at the top of fixed die plate (4) is equipped with and pushes away inclined plane (31), push away inclined plane (31) with promote boss (5) butt, make movable mould board (6) of mould with fixed die plate (4) compound die extrusion shake guide rod (3), court during the bottom motion of fixed die plate (4), it can extrude to push away inclined plane (31) promote boss (5) and make it drives to promote boss (5) slide fixed plate (2) with waste material slide (1) court deviates from the direction shake of pushing away inclined plane (31).

2. The mold scrap discharge structure in accordance with claim 1,

the other side of the sliding plate fixing plate (2) is also provided with an equal-height sleeve (7);

the equal-height sleeve (7) comprises an equal-height gasket (71) and an equal-height screw (72), and the equal-height screw (72) is used for fixing the equal-height sleeve (7) on the sliding plate fixing plate (2);

a first spring (73) and a spring seat (74) are sequentially arranged along the direction from the equal-height gasket (71) to the equal-height screw (72), and the first spring (73) is respectively abutted against the equal-height gasket (71) and the spring seat (74);

when the pushing boss (5) drives the sliding plate fixing plate (2) and the waste sliding plate (1) to shake towards the direction departing from the extruding and pushing inclined plane (31), the sliding plate fixing plate (2) drives the equal-height gasket (71) to extrude the first spring (73);

when the movable template (6) is separated from the fixed template (4), the first spring (73) pushes the equal-height gasket (71) to move, the sliding plate fixing plate (2) and the waste sliding plate (1) are driven to shake towards the direction of the extruding and pushing inclined plane (31), the pushing boss (5) extrudes the extruding and pushing inclined plane (31), and the shaking guide rod (3) is pushed back to the initial position.

3. The mold scrap discharge structure in accordance with claim 1,

the end, far away from the sliding plate fixing plate (2), of the pushing boss (5) is provided with a deep groove ball bearing (51), and the pushing inclined plane (31) is abutted to the outer ring side wall of the deep groove ball bearing (51).

4. The mold scrap discharge structure in accordance with claim 1,

the top of the fixed die plate (4) is provided with a guide rod limiting seat (41);

the periphery of the shaking guide rod (3) is provided with an abutting limit flange (32);

the shaking guide rod (3) penetrates through the guide rod limiting seat (41), and a second spring (33) is connected between the abutting limiting flange (32) and the top of the fixed die plate (4) in an abutting mode, so that the abutting limiting flange (32) is abutted to the guide rod limiting seat (41).

5. The mold scrap discharge structure in accordance with claim 1,

a driving ejector rod (61) is arranged on the movable template (6);

when the movable die plate (6) and the fixed die plate (4) are matched, the driving ejector rod (61) can extrude the shaking guide rod (3).

6. The mold scrap discharge structure in accordance with claim 1,

one end of the shaking guide rod (3) penetrating through the top of the fixed die plate (4) is a cone;

the side conical surface of the cone is abutted to the pushing boss (5).

7. The mold scrap discharge structure in accordance with claim 1,

one end of the shaking guide rod (3) penetrating through the top of the fixed die plate (4) is a table body;

the side table surface of the table body is abutted against the pushing boss (5).

8. The mold scrap discharge structure in accordance with claim 2,

a spring baffle (8) is arranged between the pushing boss (5) and the equal-height sleeve (7);

the spring baffle (8) comprises a horizontal baffle part (81) and a vertical baffle part (82);

one end of the horizontal baffle part (81) is connected with the sliding plate fixing plate (2), and the other end of the horizontal baffle part is connected with the vertical baffle part (82);

one side surface of the horizontal baffle part (81) is connected with the spring seat (74).

9. A mold, comprising:

the mold scrap discharge structure in accordance with any one of claims 1-8.

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