CN220811800U

CN220811800U - Mould embryo flip structure

Info

Publication number: CN220811800U
Application number: CN202322762645.6U
Authority: CN
Inventors: 张锦辉
Original assignee: Guangdong Zhengde Moulded Steel Co ltd
Current assignee: Guangdong Zhengde Moulded Steel Co ltd
Priority date: 2023-10-16
Filing date: 2023-10-16
Publication date: 2024-04-19
Anticipated expiration: 2033-10-16

Abstract

The utility model relates to the technical field of overturning and discloses a die blank overturning structure which comprises four supporting rings connected through a plurality of groups of connecting columns, wherein a rectangular frame is arranged in each supporting ring, two A conveying devices are arranged on the inner side surfaces of the rectangular frames on the two outermost supporting rings through sliding rails, and the two A conveying devices are distributed in parallel and push adjusting positions through two A hydraulic cylinders. According to the die blank overturning structure, the die blanks are conveyed to the lower conveying devices A, the conveying devices A are driven by the hydraulic cylinders A to enable the two conveying devices A to clamp the die blanks from top to bottom, the two conveying devices B are driven by the hydraulic cylinders B to clamp the die blanks left and right, the supporting ring is driven to rotate by the driving wheels, and the die blanks can be overturned to be overturned up and down and left and right according to requirements.

Description

Mould embryo flip structure

Technical Field

The utility model relates to the technical field of overturning, in particular to a die blank overturning structure.

Background

The mould embryo is the skeleton of the whole mould, and the structure of the mould embryo is considered in the manufacture of all parts of the mould. The cost of the mould blank is about 30% of the whole mould, and the mould blank is manufactured by a special large mould blank factory and standardized. In the process of processing the die blanks, the equipment is needed to process all the surfaces of the massive steel, the massive steel is too heavy and is difficult to turn over manually, so that the die blanks are turned over by a turning machine, but the existing turning machine can only turn over the massive steel up and down and can not turn over sideways, so that limitations exist, and a die blank turning structure is provided for the problem.

Disclosure of utility model

Aiming at the defects in the prior art, the utility model provides a die blank overturning structure, which solves the problem that a overturning machine cannot overturn sideways.

The utility model provides the following technical scheme: the die blank overturning structure comprises four supporting rings connected through a plurality of groups of connecting columns, wherein a rectangular frame is arranged in each supporting ring, two A conveying devices are arranged on the inner side surfaces of the rectangular frames on the two outermost supporting rings through sliding rails, and the two A conveying devices are distributed in parallel and push to adjust positions through two A hydraulic cylinders;

The inner side surfaces of the rectangular frames on the two middle support rings are provided with two B conveying devices through sliding rails, and the two B conveying devices are distributed in parallel and push the adjusting positions through two B hydraulic cylinders;

The conveying devices A and B are vertically distributed, rollers on the conveying devices B pass through roller gaps on the conveying devices A, and the conveying devices A and the conveying devices B are distributed in a cross shape;

The bottom ends of the four support rings are supported and driven by two driving wheels, and the driving wheels are arranged on the base.

Preferably, two a hydraulic cylinders are mounted on the rectangular frames of the two outermost support rings, and the conveying ends of the a hydraulic cylinders are connected with the a conveying device.

Preferably, two B hydraulic cylinders are arranged on the rectangular frames of the two middle supporting rings, and the conveying ends of the B hydraulic cylinders are connected with the B conveying device.

Preferably, the driving wheel comprises a base and a roller installed on the base through a mounting shaft seat, and the roller is driven by a motor.

Preferably, the outer side surfaces of the roller and the supporting ring are respectively provided with gear teeth, and the roller is meshed with the gear teeth on the supporting ring.

Preferably, the conveying device A and the conveying device B are positioned on the roller conveyor.

Compared with the prior art, the utility model has the following beneficial effects:

According to the die blank overturning structure, the die blanks are conveyed to the lower conveying devices A, the conveying devices A are driven by the hydraulic cylinders A to enable the two conveying devices A to clamp the die blanks from top to bottom, the two conveying devices B are driven by the hydraulic cylinders B to clamp the die blanks left and right, the supporting ring is driven to rotate by the driving wheels, and the die blanks can be overturned to be overturned up and down and left and right according to requirements.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of the B hydraulic cylinder and B conveyor of the present utility model;

FIG. 3 is a schematic view of the side view of the partial structure of FIG. 1 in accordance with the present utility model;

FIG. 4 is a schematic diagram of the distribution structure of the A conveyor and the B conveyor according to the present utility model;

Fig. 5 is a schematic structural view of the driving wheel of the present utility model.

In the figure: 1. a connecting column; 2. a support ring; 3. a rectangular frame; 4. a conveying device; 5. a, a hydraulic cylinder; 6. b a conveying device; 7. a driving wheel; 71. a base; 72. a shaft seat; 73. a roller; 74. a motor; 8. a base; 9. and B, a hydraulic cylinder.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, a technical solution of the embodiments of the present disclosure will be clearly and completely described in conjunction with the accompanying drawings of the embodiments of the present disclosure, and detailed descriptions of known functions and known components are omitted from the present disclosure in order to avoid unnecessarily obscuring the concept of the present disclosure.

Referring to fig. 1-5, a mold blank overturning structure comprises four supporting rings 2 connected through a plurality of groups of connecting columns 1, wherein a rectangular frame 3 is arranged in each supporting ring 2, two A conveying devices 4 are arranged on the inner side faces of the rectangular frames 3 on the two outermost supporting rings 2 through sliding rails, the two A conveying devices 4 are distributed in parallel and push adjusting positions through two A hydraulic cylinders 5, a mold blank is conveyed to the A conveying devices below, and then the A hydraulic cylinders 5 are driven to enable the two A conveying devices to clamp the mold blank from top to bottom.

The inner side surface of the rectangular frame 3 on the two middle support rings 2 is provided with two B conveying devices 6 through sliding rails, the two B conveying devices 6 are distributed in parallel and push the adjusting position through two B hydraulic cylinders 9, and the B hydraulic cylinders drive the two B conveying devices to clamp the die blank left and right.

The A conveying device 4 and the B conveying device 6 are located on the roller conveyor, rollers on the B conveying device 6 pass through roller gaps on the A conveying device 4, the two A conveying devices 4 and the two B conveying devices 6 are distributed in a well shape, the two A conveying devices 4 and the two B conveying devices 6 clamp and limit the die blanks in the vertical and horizontal directions respectively, so that the die blanks cannot fall in the overturning process, all sides are supported, and the die blanks are conveniently guided out.

Two A hydraulic cylinders 5 are arranged on the rectangular frames 3 of the two support rings 2 at the outermost side, the conveying ends of the A hydraulic cylinders 5 are connected with the A conveying device 4, two B hydraulic cylinders 9 are arranged on the rectangular frames 3 of the two support rings 2 in the middle, the conveying ends of the B hydraulic cylinders 9 are connected with the B conveying device 6, after the two support rings are overturned, the A hydraulic cylinders 5 and the B hydraulic cylinders 9 are regulated, the A conveying device 4 and the B conveying device 6 are regulated to proper positions, and the A conveying device 4 and the B conveying device 6 are driven to convey and guide out a die blank.

The bottom ends of the four support rings 2 are supported and driven by two driving wheels 7, the driving wheels 7 are arranged on a base 8, each driving wheel 7 comprises a base 71 and a roller 73 arranged on the base 71 and provided with a shaft seat 72, the rollers 73 are driven by a motor 74, the outer side surfaces of the rollers 73 and the support rings 2 are provided with gear teeth, the rollers 73 are meshed with the gear teeth on the support rings 2, the rollers 73 are driven by the motor 74 to drive the rollers 73 to drive and rotate the support rings 2 under the meshing of the gear teeth, and the rotating angle of the support rings 2 is controlled by controlling the motor 74, so that the overturning angle of the support rings 2 is adjusted, and the up-down left-right overturning adjustment is realized.

The above embodiments are only exemplary embodiments of the present utility model and are not intended to limit the present utility model, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this utility model will occur to those skilled in the art, and are intended to be within the spirit and scope of the utility model.

Claims

1. A mould embryo flip structure, its characterized in that: the support device comprises four support rings (2) connected through a plurality of groups of connecting columns (1), wherein a rectangular frame (3) is arranged in each support ring (2), two A conveying devices (4) are arranged on the inner side faces of the rectangular frames (3) on the two outermost support rings (2) through sliding rails, and the two A conveying devices (4) are distributed in parallel and push an adjusting position through two A hydraulic cylinders (5);

the inner side surfaces of the rectangular frames (3) on the two middle support rings (2) are provided with two B conveying devices (6) through sliding rails, and the two B conveying devices (6) are distributed in parallel and push the adjusting positions through two B hydraulic cylinders (9);

The A conveying devices (4) and the B conveying devices (6) are vertically distributed, rollers on the B conveying devices (6) pass through roller gaps on the A conveying devices (4), and the two A conveying devices (4) and the two B conveying devices (6) are distributed in a cross shape;

The bottom ends of the four support rings (2) are supported and driven by two driving wheels (7), and the driving wheels (7) are arranged on the base (8).

2. The mold blank overturning structure according to claim 1, wherein: two A hydraulic cylinders (5) are arranged on the rectangular frames (3) of the two outermost support rings (2), and the conveying ends of the A hydraulic cylinders (5) are connected with an A conveying device (4).

3. The mold blank overturning structure according to claim 1, wherein: two B hydraulic cylinders (9) are arranged on the rectangular frames (3) of the two middle support rings (2), and the conveying ends of the B hydraulic cylinders (9) are connected with a B conveying device (6).

4. The mold blank overturning structure according to claim 1, wherein: the driving wheel (7) comprises a base (71) and a roller (73) arranged on the base (71) and provided with a shaft seat (72), and the roller (73) is driven by a motor (74).

5. The mold blank overturning structure according to claim 4, wherein: the outer side surfaces of the roller (73) and the supporting ring (2) are respectively provided with gear teeth, and the roller (73) is meshed with the gear teeth on the supporting ring (2).

6. The mold blank overturning structure according to claim 1, wherein: and the conveying device A (4) and the conveying device B (6) are positioned on the roller conveyor.