CN221315035U - Demoulding device of vulcanizing press - Google Patents

Abstract

The utility model discloses a demolding device of a vulcanizing press, which comprises a supporting plate, wherein supporting legs are fixedly connected to four corners of the lower end face of the supporting plate, a demolding mechanism is arranged below the supporting plate, a molding mechanism is arranged on the upper end face of the supporting plate, a mold pushing mechanism is arranged on the upper end face of the supporting plate, the mold pushing mechanism comprises two supporting blocks, the two supporting blocks are respectively and fixedly connected to two sides of the upper end face of the supporting plate, sliding blocks are fixedly connected to the upper end faces of the supporting blocks, sliding grooves are formed in the upper end faces of the sliding blocks, a push template is arranged on the upper end faces of the two supporting blocks, and guide blocks are fixedly connected to two sides of the lower end face of the push template. According to the utility model, the die pushing mechanism replaces manual operation to take out the demolded workpiece from the die forming mechanism, so that the use of manpower resource cost can be reduced, and the potential safety hazard that the skin of a worker is scalded due to touching the die forming mechanism can be avoided.

Description

Demoulding device of vulcanizing press

Technical Field

The utility model relates to the technical field of demolding devices, in particular to a demolding device of a vulcanizing press.

Background

The flat vulcanizing machine is mainly used for vulcanizing flat adhesive tapes and has the advantages of large pressure per unit area of a hot plate, reliable equipment operation, small maintenance amount and the like. The main function of the press is to provide the pressure and temperature required for curing. The pressure is generated by the hydraulic system through hydraulic cylinders and the temperature is provided by a heating medium, typically steam. The flat belt press vulcanizer is mainly divided into a column type flat belt press vulcanizer and a frame type flat belt press vulcanizer according to the structural form of the frame; the number of working layers can be divided into a single layer and a double layer: the working medium of the hydraulic system can be divided into oil pressure and water pressure. The flat vulcanizing machine is mainly used for vulcanizing flat rubber belts, rubber plates, polymers and other flat products, and is a common machine type in the rubber industry. The press stripper is an important component of a press.

For example, chinese patent application No. 202022216927.2 relates to an automatic demoulding device of a vulcanizing press, which solves the problems of time and labor waste, potential safety hazard and nonstandard product quality in manual mould unloading.

It has the following drawbacks:

After the machined part is demolded, a worker is required to manually take the machined part off the flat vulcanizing machine, so that the manually taken off the demolded machined part can improve the use of human resources, and the potential safety hazard that the skin of the worker is scalded due to touching the flat vulcanizing machine also exists.

Accordingly, a mold release device for a press vulcanizer is provided by those skilled in the art to solve the above-mentioned problems in the prior art.

Disclosure of utility model

The utility model aims to provide a demolding device of a vulcanizing press, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a press vulcanizer shedder, includes the backup pad, the lower terminal surface four corners department fixedly connected with supporting leg of backup pad, the below of backup pad is equipped with demoulding mechanism, the up end of backup pad is equipped with the shaping mechanism, the up end of backup pad is equipped with pushes away mould mechanism.

As a still further scheme of the utility model, the mould pushing mechanism comprises two supporting blocks, the two supporting blocks are respectively and fixedly connected to two sides of the upper end face of the supporting plate, the upper end faces of the supporting blocks are fixedly connected with sliding blocks, and the upper end faces of the sliding blocks are provided with sliding grooves.

As a still further scheme of the utility model, the upper end surfaces of the two supporting blocks are provided with the push templates, the two sides of the lower end surface of the push templates are fixedly connected with the guide blocks, the two guide blocks are respectively and slidably connected in the two sliding grooves, and threaded rods are respectively and rotatably connected in the two sliding grooves.

As a still further scheme of the utility model, the guide blocks in the two sliding grooves are respectively sleeved on the threaded rods in the two sliding grooves, one ends of the two sliding blocks are fixedly connected with synchronous motors, the output ends of the two synchronous motors are respectively in butt joint with one ends of the two threaded rods, and inclined plates are arranged on two sides of the upper end face of the supporting plate.

As a still further scheme of the utility model, the molding mechanism comprises a lower molding module, the lower molding module is fixedly connected to the middle part of the upper end face of the supporting plate, two inclined plates are respectively arranged on two side wall faces of the lower molding module in a leaning way, hydraulic retractors are fixedly connected to four corners of the upper end face of the supporting plate, and the output ends of the four hydraulic retractors are fixedly connected with a top plate.

As a still further scheme of the utility model, the lower end face of the top plate is fixedly connected with an upper forming module, the positions of the upper forming module and the lower forming module are mutually corresponding, forming grooves are formed in the side wall faces of the upper forming module and the lower forming module, which are opposite, injection molding holes are formed in the upper end face of the top plate, and the injection molding holes are communicated with the forming grooves in the upper forming module.

As a still further scheme of the utility model, the demoulding mechanism comprises a mounting plate, the mounting plate is sleeved on the four supporting legs, the upper end surface of the mounting plate is fixedly connected with a pneumatic expansion device, and the output end of the pneumatic expansion device sequentially penetrates through the supporting plate, the lower forming module and extends into a forming groove on the lower forming module.

As a still further proposal of the utility model, the output end of the pneumatic expansion device is fixedly connected with a molding stripper plate, the molding stripper plate is positioned at the bottom end of the inner side of the molding groove of the upper end surface of the lower molding module, and the molding stripper plate is matched with the molding groove in size.

The beneficial effects of the utility model are as follows:

The setting of pushing away the mould mechanism has replaced the manual work piece of taking out from the mould mechanism after taking out of drawing of patterns, not only can reduce the use of manpower resources cost like this, but also can avoid the staff skin to touch the mould mechanism and the potential safety hazard that is scalded.

Drawings

FIG. 1 is a schematic view of the overall structure of a press mold release device;

FIG. 2 is a side cross-sectional view of a press stripper unit;

FIG. 3 is a perspective view of a push mold mechanism of a press stripper unit;

FIG. 4 is a perspective view of a molding mechanism of a press stripper unit;

fig. 5 is a sectional view of a demolding mechanism of a demolding device of a press vulcanizer.

In the figure: 1. a support plate; 2. support legs; 3. a demoulding mechanism; 301. a mounting plate; 302. a pneumatic retractor; 303. forming a stripper plate; 4. a molding mechanism; 401. forming a module; 402. a hydraulic retractor; 403. a top plate; 404. forming a module; 405. a forming groove; 406. injection molding holes; 5. a mould pushing mechanism; 501. a support block; 502. a slide block; 503. a chute; 504. pushing the template; 505. a guide block; 506. a threaded rod; 507. a synchronous motor; 508. and (3) an inclined plate.

Detailed Description

Referring to fig. 1-2, in an embodiment of the present utility model, a demolding device for a press vulcanizer includes a support plate 1, support legs 2 are fixedly connected to four corners of a lower end surface of the support plate 1, a demolding mechanism 3 is disposed below the support plate 1, a molding mechanism 4 is disposed on an upper end surface of the support plate 1, and a mold pushing mechanism 5 is disposed on an upper end surface of the support plate 1.

As shown in fig. 3, the mold pushing mechanism 5 includes two supporting blocks 501, the two supporting blocks 501 are respectively and fixedly connected to two sides of the upper end surface of the supporting plate 1, the upper end surfaces of the supporting blocks 501 are fixedly connected with sliding blocks 502, and the upper end surfaces of the sliding blocks 502 are provided with sliding grooves 503. The upper end surfaces of the two supporting blocks 501 are provided with a push template 504, two sides of the lower end surface of the push template 504 are fixedly connected with guide blocks 505, the two guide blocks 505 are respectively and slidably connected in the two sliding grooves 503, and threaded rods 506 are respectively and rotatably connected in the two sliding grooves 503. Guide blocks 505 in the two sliding grooves 503 are respectively sleeved on threaded rods 506 in the two sliding grooves 503, one ends of the two sliding blocks 502 are fixedly connected with synchronous motors 507, output ends of the two synchronous motors 507 are respectively in butt joint with one ends of the two threaded rods 506, and inclined plates 508 are arranged on two sides of the upper end face of the supporting plate 1. When the demolded workpiece is required to be pushed out of the molding mechanism 4, the synchronous motor 507 is started to drive the threaded rod 506 in butt joint with the synchronous motor 507 to rotate, the threaded rod 506 drives the push template 504 to move back and forth along the sliding groove 503, the movement of the push template 504 pushes the workpiece on the molding mechanism 4 to the inclined plate 508, and the workpiece pushed to the inclined plate 508 slides out of the molding mechanism 4 along the inclined surface of the inclined plate 508. The setting of pushing die mechanism 5 replaces manual work piece after taking out from die forming mechanism 4, so that use of manpower resource cost can be reduced, and potential safety hazard that the skin of staff touches die forming mechanism 4 and is scalded can be avoided.

As shown in fig. 4, the molding mechanism 4 includes a lower molding module 401, the lower molding module 401 is fixedly connected to the middle of the upper end surface of the support plate 1, two inclined plates 508 are respectively disposed on two side wall surfaces of the lower molding module 401, four corners of the upper end surface of the support plate 1 are fixedly connected with hydraulic retractors 402, and output ends of the four hydraulic retractors 402 are fixedly connected with a top plate 403. The lower end face of the top plate 403 is fixedly connected with an upper forming module 404, the positions of the upper forming module 404 and the lower forming module 401 correspond to each other, a forming groove 405 is formed in one side wall face of the upper forming module 404 opposite to the lower forming module 401, an injection molding hole 406 is formed in the upper end face of the top plate 403, and the injection molding hole 406 is communicated with the forming groove 405 on the upper forming module 404. When the device is used, the hydraulic expansion device 402 is started firstly, the upper forming module 404 is driven to move downwards to form the module 401 by the starting of the hydraulic expansion device 402 until the upper forming module 404 is propped against the upper end face of the lower forming module 401, then forming raw materials are injected into a forming groove 405 between the lower forming module 401 and the upper forming module 404 through injection holes 406, the forming groove 405 between the lower forming module 401 and the upper forming module 404 is filled, the hydraulic expansion device 402 is started again after the forming raw materials in the forming groove 405 are solidified and formed, the upper forming module 404 is driven to move downwards to form the module 401 by the starting of the hydraulic expansion device 402, and after the upper forming module 404 is moved to a proper position, the hydraulic expansion device 402 is closed, so that the forming of a machined part can be completed. The molding mechanism 4 is provided to shape the molding material, thereby obtaining a processed product of a predetermined shape.

As shown in fig. 5, the demolding mechanism 3 comprises a mounting plate 301, the mounting plate 301 is sleeved on four supporting legs 2, the upper end surface of the mounting plate 301 is fixedly connected with a pneumatic telescopic device 302, and the output end of the pneumatic telescopic device 302 sequentially passes through the supporting plate 1, the lower forming module 401 and extends into a forming groove 405 on the lower forming module 401. The output end of the pneumatic telescopic device 302 is fixedly connected with a molding stripper plate 303, the molding stripper plate 303 is positioned at the bottom end of the inner side of a molding groove 405 on the upper end surface of the lower molding module 401, and the molding stripper plate 303 is matched with the molding groove 405 in size. When the workpiece with the upper end face of the lower forming module 401 being shaped is required to be demolded, the pneumatic telescopic device 302 is started to push the forming stripper plate 303 to move upwards along the inner wall of the forming groove 405, and the movement of the forming stripper plate 303 can demold the workpiece with the upper end face of the lower forming module 401 being shaped. The setting of demoulding mechanism 3 not only makes the machined part drawing of patterns that the shaping ended more simple convenient, but also can effectually improve the machined part drawing of patterns efficiency.

The working principle of the utility model is as follows:

When the device is used, the hydraulic expansion device 402 is started firstly, the upper forming module 404 is driven to move downwards to form the module 401 by the starting of the hydraulic expansion device 402 until the upper forming module 404 is propped against the upper end face of the lower forming module 401, then forming raw materials are injected into a forming groove 405 between the lower forming module 401 and the upper forming module 404 through injection holes 406, the forming groove 405 between the lower forming module 401 and the upper forming module 404 is filled, the hydraulic expansion device 402 is started again after the forming raw materials in the forming groove 405 are solidified and formed, the upper forming module 404 is driven to move downwards to form the module 401 by the starting of the hydraulic expansion device 402, and after the upper forming module 404 is moved to a proper position, the hydraulic expansion device 402 is closed, so that the forming of a machined part can be completed. When the workpiece with the upper end face of the lower forming module 401 being shaped is required to be demolded, the pneumatic telescopic device 302 is started to push the forming stripper plate 303 to move upwards along the inner wall of the forming groove 405, and the movement of the forming stripper plate 303 can demold the workpiece with the upper end face of the lower forming module 401 being shaped. When the demolded workpiece is required to be pushed out of the molding mechanism 4, the synchronous motor 507 is started to drive the threaded rod 506 in butt joint with the synchronous motor 507 to rotate, the threaded rod 506 drives the push template 504 to move back and forth along the sliding groove 503, the movement of the push template 504 pushes the workpiece on the molding mechanism 4 to the inclined plate 508, and the workpiece pushed to the inclined plate 508 slides out of the molding mechanism 4 along the inclined surface of the inclined plate 508.

The foregoing description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical solution of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides a press vulcanizer shedder, includes backup pad (1), its characterized in that: support legs (2) are fixedly connected to four corners of the lower end face of the support plate (1), a demolding mechanism (3) is arranged below the support plate (1), a molding mechanism (4) is arranged on the upper end face of the support plate (1), and a mold pushing mechanism (5) is arranged on the upper end face of the support plate (1);

The die pushing mechanism (5) comprises two supporting blocks (501), the two supporting blocks (501) are respectively and fixedly connected to two sides of the upper end face of the supporting plate (1), the upper end faces of the supporting blocks (501) are fixedly connected with sliding blocks (502), and sliding grooves (503) are formed in the upper end faces of the sliding blocks (502);

The demolding mechanism (3) comprises a mounting plate (301), wherein the mounting plate (301) is sleeved on four supporting legs (2), the upper end face of the mounting plate (301) is fixedly connected with a pneumatic expansion device (302), and the output end of the pneumatic expansion device (302) sequentially penetrates through the supporting plate (1), the lower molding module (401) and extends into a molding groove (405) on the lower molding module (401).

2. The press demolding device according to claim 1, wherein two upper end surfaces of the supporting blocks (501) are provided with a push template (504), two sides of the lower end surface of the push template (504) are fixedly connected with guide blocks (505), the two guide blocks (505) are respectively and slidably connected in two sliding grooves (503), and threaded rods (506) are respectively and rotatably connected in the two sliding grooves (503).

3. The demolding device of a vulcanizing press according to claim 2, wherein the guide blocks (505) in the two sliding grooves (503) are respectively sleeved on the threaded rods (506) in the two sliding grooves (503), one ends of the two sliding blocks (502) are fixedly connected with synchronous motors (507), the output ends of the two synchronous motors (507) are respectively in butt joint with one ends of the two threaded rods (506), and inclined plates (508) are arranged on two sides of the upper end face of the supporting plate (1).

4. A press vulcanizer demolding device according to claim 3, wherein the molding mechanism (4) comprises a lower molding module (401), the lower molding module (401) is fixedly connected to the middle part of the upper end surface of the supporting plate (1), two inclined plates (508) are respectively arranged on two side wall surfaces of the lower molding module (401), hydraulic retractors (402) are fixedly connected to four corners of the upper end surface of the supporting plate (1), and the output ends of the four hydraulic retractors (402) are fixedly connected to a top plate (403).

5. The press mold release device according to claim 4, wherein an upper molding module (404) is fixedly connected to a lower end surface of the top plate (403), positions of the upper molding module (404) and the lower molding module (401) correspond to each other, a molding groove (405) is formed in a side wall surface of the upper molding module (404) opposite to the side wall surface of the lower molding module (401), an injection molding hole (406) is formed in an upper end surface of the top plate (403), and the injection molding hole (406) is communicated with the molding groove (405) on the upper molding module (404).

6. The press demolding device according to claim 5, wherein the output end of the pneumatic telescopic device (302) is fixedly connected with a molding demolding plate (303), the molding demolding plate (303) is located at the bottom end inside a molding groove (405) on the upper end face of the lower molding module (401), and the molding demolding plate (303) is matched with the molding groove (405) in size.