CN214266504U - Injection mold for automobile front wind shielding lower decorative plate - Google Patents

Abstract

The utility model discloses a plaque injection mold under car windscreen, including ebonite cover half, flexible glue cover half and slewer, the vertical mutual disposition of ebonite cover half, flexible glue cover half, slewer is located between ebonite cover half and the flexible glue cover half. And a first movable die and a second movable die are respectively arranged on two sides of the rotating device, and the rotating device drives the first movable die and the second movable die to interchange positions. The hard rubber core pulling and hard rubber core pulling driving mechanism is arranged in the hard rubber fixed die, the hard rubber core pulling driving mechanism drives the hard rubber core pulling to move, and a first locking mechanism is arranged on one side of the hard rubber core pulling driving mechanism. A soft rubber core pulling and soft rubber core pulling driving mechanism is arranged in the soft rubber fixed die, the soft rubber core pulling driving mechanism drives the soft rubber core pulling to move, and a second locking mechanism is arranged on one side of the soft rubber core pulling driving mechanism. The utility model discloses adopt two sets of moulds, two movable moulds adopt slewer to exchange the position, set up respectively at the cover half of injection ebonite one side and the cover half of injection flexible glue one side and loose core greatly, have ensured mould intensity, eliminate its because of hollowing out great, yielding risk.

Description

Injection mold for automobile front wind shielding lower decorative plate

Technical Field

The utility model relates to a technical field is made to the mould, concretely relates to plaque injection mold under windscreen before car.

Background

The main structure of the automobile front wind shielding lower decorative plate is a hard glue part, the upper part of the automobile front wind shielding lower decorative plate is a soft glue part which is integrated with the hard glue part into a whole, and the soft glue part is matched with the bottom of an automobile front cover in a sealing mode. The left and right sides of ebonite part has two sets of water leakage grooves respectively, has the back-off structure in the demolding direction behind the ebonite part injection moulding, simultaneously, also has the back-off structure in the demolding direction behind the partial injection moulding of flexible glue that is located upper portion, and two back-off structures all need loose core the structure realization greatly, because two back-off structures are respectively at ebonite part and flexible glue part and apart from nearer, need set up respectively to loose core, are difficult to realize on one set of mould. In addition, due to the fact that the core pulling is large, after the cavity is built in the template, the cavity is hollowed greatly, the strength of the template is poor, and the problem that deformation risks are large due to the influence of injection molding force during injection molding is solved. Therefore, further improvements are desired in the art.

SUMMERY OF THE UTILITY MODEL

Not enough to above-mentioned prior art, the utility model aims to provide a plaque injection mold under windscreen before car, the ebonite part and the flexible glue part of solving double-colored product spare all have the back-off, and the back-off volume is big, sets up two in the same template and looses core greatly, and the template is hollowed greatly, receives the influence of injection molding force, has the great problem of deformation risk.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

plaque injection mold under windscreen, including ebonite cover half, flexible glue cover half and slewer, ebonite cover half, flexible glue cover half vertical relative interval arrange, slewer is located between ebonite cover half and the flexible glue cover half.

And the two opposite sides of the rotating device are respectively provided with a first movable die and a second movable die, and the rotating device drives the first movable die and the second movable die to exchange positions.

The hard rubber core pulling and hard rubber core pulling driving mechanism is arranged in the hard rubber fixed die, the hard rubber core pulling driving mechanism drives the hard rubber core pulling to move, and a first locking mechanism is arranged on one side of the hard rubber core pulling driving mechanism.

A soft rubber core pulling and soft rubber core pulling driving mechanism is arranged in the soft rubber fixed die, the soft rubber core pulling driving mechanism drives the soft rubber core pulling to move, and a second locking mechanism is arranged on one side of the soft rubber core pulling driving mechanism.

Furthermore, the slewing device comprises a base, a slewing bearing and a movable die fixing plate, wherein the fixed part of the slewing bearing is fixedly connected with the top of the base.

The movable mould fixing plate is vertically arranged above the base, the lower end of the movable mould fixing plate is fixedly connected with a rotating part of the slewing bearing, and the first movable mould and the second movable mould are respectively fixed on two sides of the movable mould fixing plate.

Further, the movable mold cores are arranged on the sides, away from the rotating device, of the first movable mold and the second movable mold, and the movable mold core of the first movable mold is identical to the movable mold core of the second movable mold in structure.

Furthermore, one side of the ebonite fixed die, which is close to the rotating device, is provided with an ebonite cavity, the ebonite cavity can be matched with any movable die core to form an ebonite injection molding cavity, a ebonite part of the front wind shielding lower decorative plate is molded in the ebonite injection molding cavity, and after the die is opened, the ebonite part of the front wind shielding lower decorative plate is left on the movable die core.

One side of the soft rubber fixed die close to the rotating device is provided with a soft rubber cavity, the soft rubber cavity can be matched with a hard rubber part moving die core with a front wind shielding lower decorative plate to form a soft rubber injection cavity, and a soft rubber part of the front wind shielding lower decorative plate is formed in the soft rubber injection cavity.

Further, the ebonite actuating mechanism of loosing core includes ebonite T type piece and ebonite the hydro-cylinder of loosing core, ebonite T type piece and ebonite cover half sliding fit, ebonite the hydro-cylinder of loosing core fix on ebonite cover half, its piston rod drive ebonite T type piece motion.

The hard rubber core pulling device is characterized in that the hard rubber core pulling device is provided with a T-shaped sliding groove which is obliquely arranged relative to the moving direction of the hard rubber T-shaped block, the hard rubber T-shaped block is in sliding fit with the hard rubber core pulling device, and the hard rubber core pulling oil cylinder drives the hard rubber core pulling device to slide relative to the hard rubber fixed die through the hard rubber T-shaped block.

Furthermore, the first locking mechanism comprises a first counter locking T-shaped block, a first locking block and a hard rubber counter locking oil cylinder, the first counter locking T-shaped block and the first locking block are in sliding fit with the hard rubber fixed die, the hard rubber counter locking oil cylinder is fixed on the hard rubber fixed die, and a piston rod of the hard rubber counter locking oil cylinder drives the first counter locking T-shaped block to move.

The one end of first locking piece has the T shape spout of arranging with the relative slope of first anti-T type piece direction of motion, and first anti-T type piece of locking and the T shape spout sliding fit of first locking piece, the ebonite back-locking hydro-cylinder through first anti-T type piece drive first locking piece and ebonite cover half relative slip, the other end of first locking piece can extend in the draw-in groove of ebonite T type piece, pins the ebonite and looses the core.

Furthermore, the flexible glue core-pulling driving mechanism comprises a flexible glue T-shaped block and a flexible glue core-pulling oil cylinder, the flexible glue T-shaped block is in sliding fit with the flexible glue fixed die, the flexible glue core-pulling oil cylinder is fixed on the flexible glue fixed die, and a piston rod of the flexible glue core-pulling oil cylinder drives the flexible glue T-shaped block to move.

The flexible glue core pulling device is characterized in that a T-shaped sliding groove which is obliquely arranged relative to the motion direction of the flexible glue T-shaped block is formed in the flexible glue core pulling device, the flexible glue T-shaped block is in sliding fit with the flexible glue core pulling device, and the flexible glue core pulling oil cylinder drives the flexible glue core pulling device to slide relative to the flexible glue fixed die through the flexible glue T-shaped block.

Furthermore, the second locking mechanism comprises a second counter-locking T-shaped block, a second locking block and a soft rubber counter-locking oil cylinder, the second counter-locking T-shaped block is in sliding fit with the soft rubber fixed die, the soft rubber counter-locking oil cylinder is fixed on the soft rubber fixed die, and a piston rod of the soft rubber counter-locking oil cylinder drives the second counter-locking T-shaped block to move.

One end of the second locking block is provided with a T-shaped sliding groove which is arranged in a relatively inclined mode with the second inverse locking T-shaped movement direction, the second inverse locking T-shaped block is in sliding fit with the T-shaped sliding groove of the second locking block, the soft rubber inverse locking oil cylinder drives the second locking block to slide relative to the soft rubber fixed die through the second inverse locking T-shaped block, and the other end of the second locking block can stretch into a clamping groove of the soft rubber T-shaped block to lock the soft rubber for core pulling.

Further, the hard glue core pulling is in sliding fit with the hard glue fixed die, and the soft glue core pulling is in sliding fit with the soft glue fixed die.

By adopting the technical scheme, the utility model discloses a beneficial technological effect is: the utility model discloses adopt two sets of moulds, two movable moulds adopt slewer to exchange the position, set up respectively at the cover half of injection ebonite one side and the cover half of injection flexible glue one side and loose core greatly, have ensured mould intensity, eliminate it because of hollowing out great, receive the yielding risk of injection moulding force influence.

Drawings

Fig. 1 is a schematic structural view of a front windshield lower decorative plate of an automobile in the background art of the present invention.

Fig. 2 is the utility model discloses plaque injection mold's under windscreen is kept out to car structural principle schematic diagram.

Fig. 3 is a schematic structural view of a part of the present invention shown in fig. 1, and shows a hard glue core and related parts.

Fig. 4 is a schematic cross-sectional structure of fig. 3.

Fig. 5 is a schematic structural view of another part of the present invention in fig. 1, showing the soft glue core pulling and the related components.

Fig. 6 is a schematic cross-sectional structure of fig. 5.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings:

referring to fig. 1 to 6, the injection mold for the automobile front windshield lower decorative plate comprises a hard rubber fixed mold 1, a soft rubber fixed mold 2 and a rotating device 3, wherein the hard rubber fixed mold 1 and the soft rubber fixed mold 2 are vertically arranged at a left vertical interval and a right vertical interval, and the rotating device 3 is positioned between the hard rubber fixed mold 1 and the soft rubber fixed mold 2. The slewing device 3 comprises a base 31, a slewing bearing and a movable die fixing plate 32, wherein the fixed part of the slewing bearing is fixedly connected with the top of the base 31. The movable mold fixing plate 32 is vertically arranged above the base 31, and the lower end of the movable mold fixing plate is fixedly connected with a rotating part of a slewing bearing, and the slewing bearing drives the movable mold fixing plate 32 to vertically rotate.

The two opposite sides of the rotating device 3 are respectively provided with a first movable die 4 and a second movable die 5, the first movable die 4 and the second movable die 5 are respectively fixed on the two sides of the movable die fixing plate 32, and the rotating device 3 drives the first movable die 4 and the second movable die 5 to exchange positions. The movable mold cores are arranged on the sides, away from the rotating device 3, of the first movable mold 4 and the second movable mold 5, and the movable mold core of the first movable mold 4 is identical to the movable mold core of the second movable mold 5 in structure.

One side of the ebonite fixed die 1, which is close to the rotating device 3, is provided with a ebonite cavity, the ebonite cavity can be matched with any movable die core to form an ebonite injection molding cavity, the injection molding machine injects ebonite into the ebonite injection molding cavity, the ebonite part of the front wind shielding lower decorative plate is molded in the ebonite injection molding cavity, and after the die is opened, the ebonite part of the front wind shielding lower decorative plate is left on the movable die core and rotates 180 degrees along with the movable die core.

One side that flexible glue cover half 2 is close to slewer 3 has the flexible glue die cavity, the movable mould core that has plaque under the preceding keep out the wind rotates 180 backs and the compound die of flexible glue cover half 2, the flexible glue die cavity can form flexible glue injection molding chamber with the part movable mould core cooperation of ebonite that has plaque under the preceding keep out the wind, the injection molding machine is to flexible glue injection molding intracavity injection flexible glue, the flexible glue part of plaque under the preceding keep out the wind of flexible glue injection molding intracavity shaping, simultaneously, another movable mould core and ebonite cover half 1 keep out the wind the ebonite part of plaque under before injecting under the compound die state.

The hard rubber core pulling device comprises a hard rubber fixed die 1, a hard rubber core pulling driving mechanism 11 and a hard rubber core pulling driving mechanism 6 are arranged in the hard rubber fixed die 1, the hard rubber core pulling 11 is in sliding fit with the hard rubber fixed die 1, the hard rubber core pulling driving mechanism 6 drives the hard rubber core pulling 11 to move, and a first locking mechanism 7 is arranged on one side of the hard rubber core pulling driving mechanism. The hard rubber core pulling driving mechanism 6 comprises a hard rubber T-shaped block 61 and a hard rubber core pulling oil cylinder 62, the hard rubber T-shaped block 61 is in sliding fit with the hard rubber fixed die 1, the hard rubber core pulling oil cylinder 62 is fixed on the hard rubber fixed die 1, and a piston rod of the hard rubber core pulling oil cylinder drives the hard rubber T-shaped block 61 to move.

The hard glue core pulling 11 is provided with a T-shaped sliding groove which is obliquely arranged relative to the moving direction of the hard glue T-shaped block 61, the hard glue T-shaped block 61 is in sliding fit with the hard glue core pulling 11, and the hard glue core pulling oil cylinder 62 drives the hard glue core pulling 11 to slide relative to the hard glue fixed die 1 through the hard glue T-shaped block 61.

The first locking mechanism 7 comprises a first anti-locking T-shaped block 71, a first locking block 72 and a hard rubber anti-locking oil cylinder 73, the first anti-locking T-shaped block 71 and the first locking block 72 are in sliding fit with the hard rubber fixed die 1, the hard rubber anti-locking oil cylinder 73 is fixed on the hard rubber fixed die 1, and a piston rod of the hard rubber anti-locking oil cylinder drives the first anti-locking T-shaped block 71 to move. One end of the first locking block 72 is provided with a T-shaped sliding groove which is arranged in a relatively inclined mode with the movement direction of the first anti-locking T-shaped block 71, the first anti-locking T-shaped block 71 is in sliding fit with the T-shaped sliding groove of the first locking block 72, the ebonite anti-locking oil cylinder 73 drives the first locking block 72 to slide relative to the ebonite fixed die 1 through the first anti-locking T-shaped block 71, the other end of the first locking block 72 can extend into a clamping groove of the ebonite T-shaped block 61, the ebonite loose core 11 is locked, and retreating of the ebonite loose core 11 under the action of injection molding force in the injection molding process is avoided.

After the ebonite is moulded plastics and is accomplished, at first, first anti-lock T type piece 71 retreats the in-process drive first locking piece 72 and withdraws from the draw-in groove of ebonite T type piece 61, later, ebonite knockout core hydro-cylinder 62 drives ebonite knockout core 11 through ebonite T type piece 61 and withdraws from the back-off, the ebonite injection molding is stayed the movable mould after the die sinking, slewer 3 drives movable mould and ebonite injection molding rotation 180, with flexible glue fixed mould 2 compound die.

A soft rubber core pulling 21 and a soft rubber core pulling driving mechanism 8 are arranged in the soft rubber fixed die 2, the soft rubber core pulling 21 is in sliding fit with the soft rubber fixed die 2, the soft rubber core pulling driving mechanism 8 drives the soft rubber core pulling 21 to move, and a second locking mechanism 9 is arranged on one side of the soft rubber core pulling driving mechanism. The soft rubber core-pulling driving mechanism 8 comprises a soft rubber T-shaped block 81 and a soft rubber core-pulling oil cylinder 82, the soft rubber T-shaped block 81 is in sliding fit with the soft rubber fixed die 2, the soft rubber core-pulling oil cylinder 82 is fixed on the soft rubber fixed die 2, and a piston rod of the soft rubber core-pulling oil cylinder drives the soft rubber T-shaped block 81 to move. The soft rubber core pulling 21 is provided with a T-shaped sliding chute which is arranged in a manner of being inclined relative to the moving direction of the soft rubber T-shaped block 81, the soft rubber T-shaped block 81 is in sliding fit with the soft rubber core pulling 21, and the soft rubber core pulling oil cylinder 82 drives the soft rubber core pulling 21 to slide relative to the soft rubber fixed die 2 through the soft rubber T-shaped block 81.

The second locking mechanism 9 comprises a second counter-locking T-shaped block 91, a second locking block 92 and a soft rubber counter-locking oil cylinder 93, the second counter-locking T-shaped block 91 is in sliding fit with the soft rubber fixed die 2, the soft rubber counter-locking oil cylinder 93 is fixed on the soft rubber fixed die 2, and a piston rod of the soft rubber counter-locking oil cylinder drives the second counter-locking T-shaped block 91 to move. One end of the second locking block 92 is provided with a T-shaped sliding groove which is arranged in a relatively inclined mode with the second inverse locking T-shaped movement direction, the second inverse locking T-shaped block 91 is in sliding fit with the T-shaped sliding groove of the second locking block 92, the soft rubber inverse locking oil cylinder 93 drives the second locking block 92 to slide relative to the soft rubber fixed mold 2 through the second inverse locking T-shaped block 91, the other end of the second locking block 92 can extend into a clamping groove of the soft rubber T-shaped block 81, the soft rubber loose core 21 is locked, and the injection molding process is prevented from retreating under the action of injection molding force of the soft rubber loose core 21.

After the soft rubber injection molding is completed, firstly, the second locking block 92 is driven to withdraw from the clamping groove of the soft rubber T-shaped block 81 in the retreating process of the second back locking T-shaped block 91, then the soft rubber core-pulling oil cylinder 82 drives the soft rubber core-pulling 21 to withdraw from the back-off through the soft rubber T-shaped block 81, and the injection molding product piece is left on the movable mold after the mold opening and is ejected by the movable mold.

The parts not mentioned in the utility model can be realized by adopting or using the prior art for reference.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (8)

1. The injection mold for the automobile front windshield lower decorative plate is characterized by comprising a hard rubber fixed mold, a soft rubber fixed mold and a rotating device, wherein the hard rubber fixed mold and the soft rubber fixed mold are vertically arranged at intervals relatively, and the rotating device is positioned between the hard rubber fixed mold and the soft rubber fixed mold;

a first movable die and a second movable die are respectively arranged on two opposite sides of the rotating device, and the rotating device drives the first movable die and the second movable die to interchange positions;

a hard rubber core pulling and hard rubber core pulling driving mechanism is arranged in the hard rubber fixed die, the hard rubber core pulling driving mechanism drives the hard rubber core pulling to move, and a first locking mechanism is arranged on one side of the hard rubber core pulling driving mechanism;

a soft rubber core pulling and soft rubber core pulling driving mechanism is arranged in the soft rubber fixed die, the soft rubber core pulling driving mechanism drives the soft rubber core pulling to move, and a second locking mechanism is arranged on one side of the soft rubber core pulling driving mechanism.

2. The injection mold for the front windshield lower trim panel of the automobile according to claim 1, wherein the rotating device comprises a base, a rotating support and a movable mold fixing plate, and a fixing part of the rotating support is fixedly connected with the top of the base;

the movable mould fixing plate is vertically arranged above the base, the lower end of the movable mould fixing plate is fixedly connected with a rotating part of the slewing bearing, and the first movable mould and the second movable mould are respectively fixed on two sides of the movable mould fixing plate.

3. The injection mold for an automotive front windshield lower trim panel according to claim 1, wherein the first movable mold and the second movable mold each have a movable mold core on a side facing away from the swivel device, and the movable mold core of the first movable mold is identical in structure to the movable mold core of the second movable mold.

4. The injection mold for the automobile front windshield lower trim panel according to claim 3, wherein a ebonite cavity is formed in one side, close to the rotating device, of the ebonite fixed mold, the ebonite cavity can be matched with any movable mold core to form an ebonite injection cavity, a ebonite part of the front windshield lower trim panel is formed in the ebonite injection cavity, and after the mold is opened, the ebonite part of the front windshield lower trim panel is left on the movable mold core;

one side of the soft rubber fixed die close to the rotating device is provided with a soft rubber cavity, the soft rubber cavity can be matched with a hard rubber part moving die core with a front wind shielding lower decorative plate to form a soft rubber injection cavity, and a soft rubber part of the front wind shielding lower decorative plate is formed in the soft rubber injection cavity.

5. The injection mold for the automobile front windshield lower trim panel according to claim 1, wherein the hard glue core pulling driving mechanism comprises a hard glue T-shaped block and a hard glue core pulling oil cylinder, the hard glue T-shaped block is in sliding fit with the hard glue fixed die, the hard glue core pulling oil cylinder is fixed on the hard glue fixed die, and a piston rod of the hard glue core pulling oil cylinder drives the hard glue T-shaped block to move;

the hard rubber core pulling device is characterized in that the hard rubber core pulling device is provided with a T-shaped sliding groove which is obliquely arranged relative to the moving direction of the hard rubber T-shaped block, the hard rubber T-shaped block is in sliding fit with the hard rubber core pulling device, and the hard rubber core pulling oil cylinder drives the hard rubber core pulling device to slide relative to the hard rubber fixed die through the hard rubber T-shaped block.

6. The injection mold for the automobile front windshield lower trim panel according to claim 5, wherein the first locking mechanism comprises a first counter locking T-shaped block, a first locking block and a hard glue counter locking oil cylinder, the first counter locking T-shaped block and the first locking block are in sliding fit with the hard glue fixed die, the hard glue counter locking oil cylinder is fixed on the hard glue fixed die, and a piston rod of the hard glue counter locking oil cylinder drives the first counter locking T-shaped block to move;

the one end of first locking piece has the T shape spout of arranging with the relative slope of first anti-T type piece direction of motion, and first anti-T type piece of locking and the T shape spout sliding fit of first locking piece, the ebonite back-locking hydro-cylinder through first anti-T type piece drive first locking piece and ebonite cover half relative slip, the other end of first locking piece can extend in the draw-in groove of ebonite T type piece, pins the ebonite and looses the core.

7. The injection mold for the automobile front windshield lower trim panel according to claim 1, wherein the soft rubber core-pulling driving mechanism comprises a soft rubber T-shaped block and a soft rubber core-pulling oil cylinder, the soft rubber T-shaped block is in sliding fit with a soft rubber fixed mold, the soft rubber core-pulling oil cylinder is fixed on the soft rubber fixed mold, and a piston rod of the soft rubber core-pulling oil cylinder drives the soft rubber T-shaped block to move;

the flexible glue core pulling device is characterized in that a T-shaped sliding groove which is obliquely arranged relative to the motion direction of the flexible glue T-shaped block is formed in the flexible glue core pulling device, the flexible glue T-shaped block is in sliding fit with the flexible glue core pulling device, and the flexible glue core pulling oil cylinder drives the flexible glue core pulling device to slide relative to the flexible glue fixed die through the flexible glue T-shaped block.

8. The injection mold for the automobile front windshield lower trim panel according to claim 7, wherein the second locking mechanism comprises a second counter-locking T-shaped block, a second locking block and a soft rubber counter-locking oil cylinder, the second counter-locking T-shaped block is in sliding fit with the soft rubber fixed mold, the soft rubber counter-locking oil cylinder is fixed on the soft rubber fixed mold, and a piston rod of the soft rubber counter-locking oil cylinder drives the second counter-locking T-shaped block to move;

one end of the second locking block is provided with a T-shaped sliding groove which is arranged in a relatively inclined mode with the second inverse locking T-shaped movement direction, the second inverse locking T-shaped block is in sliding fit with the T-shaped sliding groove of the second locking block, the soft rubber inverse locking oil cylinder drives the second locking block to slide relative to the soft rubber fixed die through the second inverse locking T-shaped block, and the other end of the second locking block can stretch into a clamping groove of the soft rubber T-shaped block to lock the soft rubber for core pulling.

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