CN212193841U

CN212193841U - Rubber vulcanization molding equipment

Info

Publication number: CN212193841U
Application number: CN202020665840.0U
Authority: CN
Inventors: 郭演平; 张恒
Original assignee: Quanzhou Qinfeng Machinery Manufacturing Co ltd
Current assignee: Quanzhou Qinfeng Machinery Manufacturing Co ltd
Priority date: 2020-04-27
Filing date: 2020-04-27
Publication date: 2020-12-22
Anticipated expiration: 2030-04-27

Abstract

The utility model discloses a rubber vulcanization molding device, which comprises a beam and a lifting plate, wherein the left lower side of the beam is fixedly connected with a left support, the right lower side of the beam is fixedly connected with a right support, meanwhile, the right support is fixedly connected with a first chute, the left support is fixedly connected with a second chute, the bottom of the right support is fixedly connected with a workbench, the bottom of the workbench is fixedly connected with a pillar, and meanwhile, the lower end of the pillar is fixedly connected with a base; the lifting plate comprises a lifting plate body, a support plate, a first slide block, a second slide block, a main oil cylinder, a left auxiliary cylinder and a right auxiliary cylinder, wherein the lower end of the lifting plate body is fixedly connected with the support plate, the right end of the support plate body is fixedly connected with the first slide block, the left end of the support plate body is fixedly connected with the second slide block, the main oil cylinder is fixedly connected onto a base, the left auxiliary cylinder. The rubber vulcanization molding equipment has the characteristics of accelerating the mold closing speed of the lifting plate, improving the mold closing speed and increasing the production efficiency of the vulcanization molding machine.

Description

Rubber vulcanization molding equipment

Technical Field

The utility model relates to a vulcanizer equipment science and technology technical field specifically is a rubber vulcanization former.

Background

The automatic mold opening of the silicon rubber vulcanizing machine integrates the functions of prepressing, automatic air discharging, pressure maintaining vulcanization and automatic mold stripping required by various rubber vulcanizing processes; by adopting the PLC, all the die parameters can be stored in the touch screen, so that the operation and management are convenient; in the process of die assembly of the existing rubber vulcanizing machine, a large-tonnage oil cylinder is used for die assembly, so that the problems of low die assembly speed and low production efficiency exist.

In order to solve the disadvantages existing in the current market, the technology of improving the vulcanizing machine device is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem lie in overcoming the defect that mentions in the background art, provide a rubber vulcanization former. The main oil cylinder, the left auxiliary cylinder and the right auxiliary cylinder have the characteristics of accelerating the die closing speed of the lifting plate, improving the die closing speed and increasing the production efficiency of the vulcanization forming machine.

In order to achieve the above object, the utility model provides a following technical scheme: a rubber vulcanization molding device comprises a cross beam and a lifting plate, wherein a left support is fixedly connected to the left lower side of the cross beam, a right support is fixedly connected to the right lower side of the cross beam, a first sliding groove is fixedly connected to the right support, a second sliding groove is fixedly connected to the left support, the bottom of the right support is fixedly connected with a workbench, the bottom of the workbench is fixedly connected with a support, and the lower end of the support is fixedly connected with a base;

the lifting plate comprises a lifting plate body, a support plate, a first slide block, a second slide block, a main oil cylinder, a left auxiliary cylinder and a right auxiliary cylinder, wherein the lower end of the lifting plate body is fixedly connected with the support plate, the right end of the support plate body is fixedly connected with the first slide block, the left end of the support plate body is fixedly connected with the second slide block, the main oil cylinder is fixedly connected onto a base, the left auxiliary cylinder.

Preferably, the first sliding groove and the second sliding groove are symmetrical with respect to the lifting plate, and the first sliding block and the second sliding block are symmetrical with respect to the lifting plate.

Preferably, the carrier plate is respectively connected inside the first sliding groove and the second sliding groove in a sliding manner through the first sliding block and the second sliding block at the two ends.

Preferably, the center position of the carrier plate is fixedly connected with a telescopic rod of the main oil cylinder, and the lifting plate is of a lifting structure.

Preferably, two groups of empty grooves are formed in the workbench, and the two groups of empty grooves are arranged on the workbench in a diagonal manner.

Preferably, the upper end fixedly connected with stopper of workstation, and stopper inside set up with the spacing hole of the lifter looks adaptation of two sets of auxiliary cylinders, the lifter of two sets of auxiliary cylinders is pegged graft at spacing downthehole portion simultaneously.

Preferably, the right auxiliary cylinder and the left auxiliary cylinder are of symmetrical structures about the main oil cylinder, the right auxiliary cylinder and the left auxiliary cylinder are arranged on the base in a diagonal mode, and the right auxiliary cylinder and the left auxiliary cylinder are fixed at two ends of the main oil cylinder through mounting plates.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the carrier plate is connected inside the first sliding groove and the second sliding groove in a sliding manner through the first sliding blocks and the second sliding blocks on the two sides in a distributed manner, so that the vertically moving carrier plate is limited and guided, and the mould on the carrier plate can be ensured to be accurately matched;

2. the telescopic rod of the main oil cylinder moves upwards to drive the support plate to move upwards so as to carry out die assembly work on the lifting plate; the mold closing device has the characteristics of accelerating the mold closing speed of the lifting plate, improving the mold closing speed and increasing the production efficiency of the vulcanization molding machine.

Drawings

FIG. 1 is a front view of the structure of the present invention;

fig. 2 is a top view of the structural support plate of the present invention;

FIG. 3 is a top view of the structure workbench of the present invention;

fig. 4 is a side view of the structure of the present invention.

Reference numbers in the figures: 1. a cross beam; 2. a right bracket; 3. a first chute; 4. a lifting plate; 5. a first slider; 6. a carrier plate; 7. a limiting block; 8. a work table; 9. a right auxiliary cylinder; 10. a pillar; 11. mounting a plate; 12. a base; 13. a master cylinder; 14. a left auxiliary cylinder; 15. an empty groove; 16. a second slider; 17. a second chute; 18. and (4) a left bracket.

Detailed Description

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

Referring to fig. 1-4, the present invention provides a technical solution: a rubber vulcanization molding device comprises a cross beam 1 and a lifting plate 4, wherein a left support 18 is fixedly connected to the left lower side of the cross beam 1, a right support 2 is fixedly connected to the right lower side of the cross beam 1, a first sliding groove 3 is fixedly connected to the right support 2, a second sliding groove 17 is fixedly connected to the left support 18, the bottom of the right support 2 is fixedly connected with a workbench 8, the bottom of the workbench 8 is fixedly connected with a support column 10, and the lower end of the support column 10 is fixedly connected with a base 12; two groups of empty grooves 15 are formed in the workbench 8, and the two groups of empty grooves 15 are arranged on the workbench 8 in a diagonal manner; the first sliding chute 3 and the second sliding chute 17 are symmetrical structures about the lifting plate 4, and the first sliding block 5 and the second sliding block 16 are symmetrical structures about the lifting plate 4; the central position of the carrier plate 6 is fixedly connected with a telescopic rod of the main oil cylinder 13, and the lifting plate 4 is of a lifting structure; the upper end of the workbench 8 is fixedly connected with a limiting block 7, limiting holes matched with the lifting rods of the two groups of auxiliary cylinders are formed in the limiting block 7, and the lifting rods of the two groups of auxiliary cylinders are inserted in the limiting holes; the carrier plate 6 is respectively connected in the first sliding chute 3 and the second sliding chute 17 in a sliding manner through the first sliding block 5 and the second sliding block 16 at the two ends; the lower end of the lifting plate 4 is fixedly connected with the carrier plate 6, the right end of the carrier plate 6 is fixedly connected with the first slide block 5, the left end of the carrier plate 6 is fixedly connected with the second slide block 16, the base 12 is fixedly connected with the main oil cylinder 13, the left side of the main oil cylinder 13 is fixedly connected with the left auxiliary cylinder 14, and the right side of the main oil cylinder 13 is fixedly connected with the right auxiliary cylinder 9; the right auxiliary cylinder 9 and the left auxiliary cylinder 14 are of a symmetrical structure about the main oil cylinder 13, the right auxiliary cylinder 9 and the left auxiliary cylinder 14 are arranged on the base 12 in a diagonal manner, and the right auxiliary cylinder 9 and the left auxiliary cylinder 14 are fixed at two ends of the main oil cylinder 13 through the mounting plates 11;

as shown in fig. 1-3: the left auxiliary cylinder 14 and the right auxiliary cylinder 9 are distributed at the diagonal positions of the carrier plate 6, and the left auxiliary cylinder 14 and the right auxiliary cylinder 9 can uniformly distribute force on two sides of the carrier plate 6, so that the situation that the surface of the carrier plate 6 is stressed unevenly is avoided;

as shown in fig. 1: the support plate 6 is connected inside the first sliding groove 3 and the second sliding groove 17 in a sliding manner through the first sliding blocks 5 and the second sliding blocks 16 on the two sides in a distributed manner, so that the vertically moving support plate 6 is limited and guided, and the mould on the support plate 6 can be accurately closed.

When the rubber vulcanization molding equipment is used, the external switches of the left auxiliary cylinder 14 and the right auxiliary cylinder 9 are opened, the left auxiliary cylinder 14 and the right auxiliary cylinder 9 are distributed at the diagonal positions of the support plate 6, the left auxiliary cylinder 14 and the right auxiliary cylinder 9 can uniformly distribute force on two sides of the support plate 6, the situation that the surface stress of the support plate 6 is uneven is avoided, the support plate 6 is driven to quickly rise by the left auxiliary cylinder 14 and the right auxiliary cylinder 9, then the telescopic rod of the main oil cylinder 13 moves upwards along with the support plate to drive the support plate 6 to move upwards, and the lifting plate 4 is subjected to mold closing work; the mold closing speed of the lifting plate 4 is increased, the mold closing speed is increased, and the production efficiency of the vulcanization molding machine is increased; this is the entire process of operation of the rubber vulcanization molding apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a rubber vulcanization former, includes crossbeam (1) and lifter plate (4), its characterized in that: a left support (18) is fixedly connected to the left lower side of the cross beam (1), a right support (2) is fixedly connected to the right lower side of the cross beam (1), a first sliding groove (3) is fixedly connected to the right support (2), a second sliding groove (17) is fixedly connected to the left support (18), the bottom of the right support (2) is fixedly connected with the workbench (8), the bottom of the workbench (8) is fixedly connected with the pillar (10), and the lower end of the pillar (10) is fixedly connected with the base (12);

lifter plate (4) lower extreme and support plate (6) fixed connection, and support plate (6) right-hand member and first slider (5) fixed connection, support plate (6) left end and second slider (16) fixed connection simultaneously, fixedly connected with master cylinder (13) on base (12), and master cylinder (13) left side fixedly connected with left auxiliary cylinder (14), master cylinder (13) right side fixedly connected with right auxiliary cylinder (9) simultaneously.

2. A rubber vulcanization molding apparatus according to claim 1, characterized in that: the first sliding groove (3) and the second sliding groove (17) are of a symmetrical structure relative to the lifting plate (4), and the first sliding block (5) and the second sliding block (16) are of a symmetrical structure relative to the lifting plate (4).

3. A rubber vulcanization molding apparatus according to claim 1, characterized in that: the carrier plate (6) is respectively connected inside the first sliding groove (3) and the second sliding groove (17) in a sliding mode through the first sliding block (5) and the second sliding block (16) at the two ends.

4. A rubber vulcanization molding apparatus according to claim 1, characterized in that: the center position of the support plate (6) is fixedly connected with a telescopic rod of the main oil cylinder (13), and the lifting plate (4) is of a lifting structure.

5. A rubber vulcanization molding apparatus according to claim 1, characterized in that: two sets of dead slots (15) are formed in the workbench (8), and the two sets of dead slots (15) are arranged on the workbench (8) in a diagonal manner.

6. A rubber vulcanization molding apparatus according to claim 1, characterized in that: the upper end fixedly connected with stopper (7) of workstation (8), and stopper (7) are inside to be seted up with the spacing hole of the lifter looks adaptation of two sets of auxiliary cylinder, and the lifter of two sets of auxiliary cylinders is pegged graft at spacing downthehole portion simultaneously.

7. A rubber vulcanization molding apparatus according to claim 1, characterized in that: the right auxiliary cylinder (9) and the left auxiliary cylinder (14) are of a symmetrical structure relative to the main oil cylinder (13), the right auxiliary cylinder (9) and the left auxiliary cylinder (14) are arranged on the base (12) in a diagonal mode, and the right auxiliary cylinder (9) and the left auxiliary cylinder (14) are fixed at two ends of the main oil cylinder (13) through the mounting plates (11).