CN112605272A

CN112605272A - Mould for drawing deep convex hull on arc convex hull

Info

Publication number: CN112605272A
Application number: CN202011506677.4A
Authority: CN
Inventors: 杨翠刚; 王�华; 庄严; 宁涛; 付恒; 王洪伟
Original assignee: Chengdu Homin Technology Co Ltd
Current assignee: Chengdu Homin Technology Co Ltd
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-04-06
Anticipated expiration: 2040-12-18
Also published as: CN112605272B

Abstract

The invention discloses a die for drawing a deep convex hull on an arc convex hull, which comprises an upper die and a lower die, wherein the upper die comprises an upper support (1), an upper padding plate (2), a fixed plate (3), a limiting plate (4) and a discharging plate (5) which are sequentially and fixedly arranged at the bottom of the upper support (1), and two convex dies (6) for forming the arc surface are fixedly arranged in the discharging plate (5); the lower die comprises a base (10), a lower base plate (11) and a concave die plate (12) which are fixedly arranged at the top of the base (10) in sequence, a concave cavity (13) is formed in the concave die plate (12), and a forming arc-shaped surface concave die (14) is arranged in the concave cavity (13) in a sliding mode. The invention has the beneficial effects that: compact structure, improvement finished product part production efficiency, improvement finished product part machining precision, reduction in production cost.

Description

Mould for drawing deep convex hull on arc convex hull

Technical Field

The invention relates to the technical field of mold structures, in particular to a mold for drawing a deep convex hull on an arc convex hull.

Background

The structure of the finished part is shown in fig. 1, and the finished part comprises a plate body 23, wherein arc-shaped convex hulls 24 are arranged at the left end and the right end of the plate body 23, and a convex hull 25 is arranged at the tops of the two arc-shaped convex hulls 24. The existing finished parts with the arc-shaped convex hulls 24 and the convex hulls 25 are processed through a stamping die, the plate body 23 is firstly assembled on a concave die of the die A, then a convex die of the die A is matched with the concave die, two arc-shaped convex hulls 24 are formed at two ends of the plate body 23, then semi-finished parts are obtained, the semi-finished parts are assembled on a concave die of the die B, then the convex die of the die B is matched with the concave die, the convex hulls 25 are formed on the two arc-shaped convex hulls 24, and finally the finished parts are processed. However, although this type of machining can produce finished parts, it still has the following drawbacks: 1. the finished parts can be machined only by twice tooling, which undoubtedly increases accumulated positioning errors, reduces the position accuracy of the arc convex hull 24 and the convex hull 25, and causes low machining accuracy of the finished parts. 2. Two sets of moulds A are needed to process finished parts, so that the mould cost is increased, the part turnover time is prolonged, and the production efficiency of the finished parts is reduced. Therefore, a mold for improving the production efficiency of the finished parts, improving the machining precision of the finished parts and reducing the production cost is needed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the die for drawing the convex hull deeply on the arc convex hull, which has the advantages of compact structure, improvement on the production efficiency of finished parts, improvement on the machining precision of the finished parts and reduction in the production cost.

The purpose of the invention is realized by the following technical scheme: a mould for drawing deep convex hulls on arc-shaped convex hulls comprises an upper mould and a lower mould, wherein the upper mould comprises an upper support, an upper padding plate, a fixed plate, a limiting plate and a discharging plate which are sequentially and fixedly arranged at the bottom of the upper support;

the lower die comprises a base, a lower backing plate and a concave die plate which are sequentially and fixedly arranged on the top of the base, a concave cavity is formed in the concave die plate, a forming arc-shaped surface concave die is arranged in the concave cavity in a sliding manner, a gap is formed between the forming arc-shaped surface concave die and the lower backing plate, two grooves are formed in the top of the forming arc-shaped surface concave die and arranged above and below the concave die plate respectively and correspond to the two forming arc-shaped surface convex dies respectively, arc-shaped protrusions are fixedly arranged on the bottoms of the two grooves respectively and are positioned under the two arc-shaped surfaces respectively and matched with the arc-shaped surfaces, two guide grooves are formed in the bottom of the forming arc-shaped surface concave die and penetrate through the two arc-shaped protrusions respectively, the two guide grooves are respectively arranged under the two through grooves, the groove width of each guide groove is smaller than that of the corresponding groove, and, the two convex hull convex dies extend into the two guide grooves respectively, the top surfaces of the two convex hull convex dies are arranged above the concave die plate, the nitrogen spring is fixedly arranged in the base, the top of the nitrogen spring is fixedly provided with the ejector rod, and the other end of the ejector rod penetrates through the lower backing plate and the cavity in sequence and is fixedly arranged on the bottom surface of the forming arc-shaped surface concave die.

The cavity is provided with the guide holder that sets firmly on the lower bolster, and the guide holder sets up in the clearance, sets up two guiding holes that correspond with the guide way respectively in the guide holder, and two convex closure terrace dies run through two guiding hole settings respectively.

The ejector rod penetrates through the guide seat and is fixedly arranged on the forming arc-shaped surface female die.

The lower backing plate is provided with a through hole communicated with the concave cavity, and the ejector rod is slidably mounted in the through hole.

The convex hull convex die is a step die.

The invention has the following advantages: the invention has compact structure, improves the production efficiency of finished parts, improves the processing precision of the finished parts and reduces the production cost.

Drawings

FIG. 1 is a schematic structural view of a finished part;

FIG. 2 is a schematic structural view of the present invention in an open mold state;

FIG. 3 is a schematic structural view of a concave die for forming an arc-shaped surface;

FIG. 4 is a schematic view of the connection of a convex mold and a convex-hull concave mold for forming an arc-shaped surface;

FIG. 5 is a schematic structural view of a convex hull punch;

FIG. 6 is a schematic view of a formed semi-finished part of the present invention;

FIG. 7 is a schematic structural view of a semi-finished part;

FIG. 8 is a schematic view of a molded finished part of the present invention;

FIG. 9 is an enlarged view of a portion I of FIG. 8;

in the figure, 1-upper support, 2-upper backing plate, 3-fixed plate, 4-limiting plate, 5-stripper plate, 6-forming arc surface male die, 7-arc surface, 8-through groove, 9-convex hull female die, 10-base, 11-lower backing plate, 12-concave die plate, 13-concave cavity, 14-forming arc surface female die, 15-groove, 16-arc bulge, 17-guide groove, 18-convex hull male die, 19-nitrogen spring, 20-ejector rod, 21-guide seat, 23-plate body, 24-arc convex hull and 25-convex hull.

Detailed Description

The invention will be further described with reference to the accompanying drawings, without limiting the scope of the invention to the following:

as shown in fig. 2-9, a mould of drawing dark convex closure on arc convex closure, it includes mould and lower mould, goes up the mould and includes the pop-up 1, sets firmly in the upper padding plate 2, fixed plate 3, limiting plate 4 and stripper 5 of pop-up 1 bottom in order, two shaping arcwall face terrace dies 6 have set firmly in stripper 5, and the bottom of shaping arcwall face terrace die 6 is provided with arcwall face 7, and arcwall face 7 sets up in stripper 5 below, and the setting is mutually supported about the arcwall face 7 of two shaping arcwall face terrace dies 6, sets up the logical groove 8 along its axial setting in the shaping arcwall face terrace die 6, and logical groove 8 runs through arcwall face 7 and sets up, set firmly two convex closure die 9 on the limiting plate 4, two convex closure die 9 stretch into respectively in two logical grooves 8.

The lower die comprises a base 10, a lower backing plate 11 and a concave die plate 12 which are fixedly arranged on the top of the base 10 in sequence, a concave cavity 13 is formed in the concave die plate 12, a forming arc-shaped surface concave die 14 is slidably arranged in the concave cavity 13, a gap is formed between the forming arc-shaped surface concave die 14 and the lower backing plate 11, two grooves 15 are formed in the top of the forming arc-shaped surface concave die 14, the grooves 15 are arranged above the concave die plate 12, the two grooves 15 are respectively arranged corresponding to the two forming arc-shaped surface convex dies 6 up and down, arc-shaped protrusions 16 are fixedly arranged on the bottoms of the two grooves 15, the two arc-shaped protrusions 16 are respectively positioned under the two arc-shaped surfaces 7 and matched with the arc-shaped surfaces 7, two guide grooves 17 are formed in the bottom of the forming arc-shaped surface concave die 14, the two guide grooves 17 respectively penetrate through the two arc-shaped protrusions 16, the two guide grooves 17 are respectively, the cavity 13 is provided with two convex hull convex dies 18 fixedly arranged on the lower backing plate 11, the convex hull convex dies 18 are stepped dies, the two convex hull convex dies 18 respectively extend into the two guide grooves 17, the top surfaces of the two convex hull convex dies 18 are arranged above the concave die plate 12, a nitrogen spring 19 is fixedly arranged in the base 10, an ejector rod 20 is fixedly arranged at the top of the nitrogen spring 19, and the other end of the ejector rod 20 sequentially penetrates through the lower backing plate 11 and the cavity 13 and is fixedly arranged on the bottom surface of the forming arc-shaped surface concave die 14.

The cavity 13 is provided with a guide seat 21 fixedly arranged on the lower backing plate 11, the guide seat 21 is arranged in the gap, two guide holes corresponding to the guide grooves 17 are formed in the guide seat 21, and the two convex hull convex dies 18 penetrate through the two guide holes respectively. The ejector rod 20 penetrates through the guide seat 21 and is fixedly arranged on the forming arc-shaped surface female die 14. The lower backing plate 11 is provided with a through hole communicated with the concave cavity 13, and the ejector rod 20 is slidably arranged in the through hole.

The working process of the invention is as follows:

s1, connecting the upper support 1 to a stamping head of a stamping die;

s2, processing of semi-finished parts: a worker places the plate body 23 on the top surface of the forming arc-shaped surface female die 14, and the left and right extending parts of the plate body 23 are respectively positioned right above the two arc-shaped protrusions 16; the stamping die is operated to enable a stamping head to move downwards, the stamping head drives an upper support 1 to move downwards, the upper support 1 drives an upper base plate 2, a fixing plate 3, a limiting plate 4, a discharging plate 5, forming arc surface male dies 6 and a convex hull female die 9 to move downwards synchronously, the two forming arc surface male dies 6 press the left extending part and the right extending part of a plate body 23 downwards respectively, the left end part and the right end part of the plate body 23 move towards an arc bulge 16 after being pressed, and after arc surfaces 7 of the two forming arc surface male dies 6 are matched with the two arc bulges 16 respectively, a semi-finished part with two arc convex hulls 24 can be processed as shown in figures 6-7;

s3, processing of finished parts: with the continuous downward movement of the punching head, the forming arc face male die 6 drives the semi-finished part to move downward, and the forming arc face female die 14 is formed downward, the forming arc face female die 14 moves downward relative to the convex hull male die 18, the forming arc face female die 14 presses the ejector rod 20 downward, the ejector rod 20 presses the nitrogen spring 19 downward, the nitrogen spring 19 is compressed, after the forming arc face female die 14 moves downward for a certain distance, the top end surface of the convex hull male die 18 is exposed above the forming arc face female die 14, meanwhile, the convex hull male die 18 extends into the through groove 8, the convex hull male die 18 pushes the arc convex hull 24 on the semi-finished part into the through groove 8, so that a convex hull 25 is formed between the convex hull female die 9 and the convex hull male die 18, when the punching head cannot move downward any more, the finished part can be finally formed, and the convex hull formed on the arc convex hull is as shown in fig. 8-9;

s4, operating the stamping head to reset, driving the upper support 1 to move upwards by the stamping head, driving the upper backing plate 2, the fixing plate 3, the limiting plate 4, the discharging plate 5, the forming arc surface male die 6 and the convex hull female die 9 to move upwards synchronously by the upper support 1, resetting the forming arc surface female die 14 under the restoring force of the nitrogen spring 19, jacking the ejector rod 20 upwards by the nitrogen spring 19, jacking the forming arc surface female die 14 upwards by the ejector rod 20, jacking the finished part upwards by the forming arc surface female die 14, and taking the finished part after resetting;

and S5, repeating the operations of S2-S4, and continuously producing a plurality of finished parts.

In whole production process, only need once the location plate body 23 can produce finished product part, compare traditional processing mode, reduced accumulative positioning error to on having ensured each part, convex closure 25 and arc convex closure 24's position accuracy, and then very big improvement the machining precision of part. In addition, only a pair of moulds is needed to form the arc convex hull 24 and the convex hull 25 on the plate body 23, the turnover is not needed, and the production efficiency of parts is greatly improved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a mould of drawing dark convex closure on arc convex closure which characterized in that: the die comprises an upper die and a lower die, wherein the upper die comprises an upper support (1), an upper base plate (2), a fixed plate (3), a limiting plate (4) and a discharging plate (5), the upper base plate (2), the fixed plate (3), the limiting plate (4) and the discharging plate (5) are sequentially and fixedly arranged at the bottom of the upper support (1), two forming arc-shaped surface male dies (6) are fixedly arranged in the discharging plate (5), the bottoms of the forming arc-shaped surface male dies (6) are provided with arc-shaped surfaces (7), the arc-shaped surfaces (7) are arranged below the discharging plate (5), the arc-shaped surfaces (7) of the two forming arc-shaped surface male dies (6) are oppositely arranged on the left side and the right side, through grooves (8) arranged along the axial direction of the forming arc-shaped surface male dies (6) are formed in the forming arc-shaped surface male dies (6), the;

the lower die comprises a base (10), a lower backing plate (11) and a concave die plate (12) which are sequentially and fixedly arranged at the top of the base (10), a concave cavity (13) is formed in the concave die plate (12), a forming arc-shaped surface concave die (14) is slidably arranged in the concave cavity (13), a gap is formed between the forming arc-shaped surface concave die (14) and the lower backing plate (11), two grooves (15) are formed in the top of the forming arc-shaped surface concave die (14), the grooves (15) are arranged above the concave die plate (12), the two grooves (15) are respectively and vertically and correspondingly arranged with two forming arc-shaped surface convex dies (6), arc-shaped protrusions (16) are fixedly arranged on the bottoms of the two grooves (15), the two arc-shaped protrusions (16) are respectively positioned under the two arc-shaped surfaces (7) and matched with the arc-shaped surfaces (7), two guide grooves (17) are formed in the, two guide ways (17) run through two arc protruding (16) settings respectively, and two guide ways (17) set up respectively under two logical groove (8), and the groove width of guide way (17) is less than the groove width that leads to groove (8), cavity (13) are provided with two convex closure terrace dies (18) that set firmly on lower bolster (11), and two convex closure terrace dies (18) stretch into respectively in two guide ways (17), and the top surface of two convex closure terrace dies (18) sets up in the top of die board (12), base (10) internal setting has nitrogen spring (19), and the top of nitrogen spring (19) has set firmly ejector pin (20), and the other end of ejector pin (20) runs through lower bolster (11), top surface that cavity (13) just set firmly on the basal surface of shaping arcwall face die (14) in order.

2. The mold for drawing a deep convex hull on an arc-shaped convex hull according to claim 1, wherein: the concave cavity (13) is provided with a guide seat (21) fixedly arranged on the lower backing plate (11), the guide seat (21) is arranged in the gap, two guide holes corresponding to the guide grooves (17) respectively are formed in the guide seat (21), and the two convex hull convex dies (18) penetrate through the two guide holes respectively.

3. The mold for drawing a deep convex hull on an arc-shaped convex hull according to claim 1, wherein: the ejector rod (20)) penetrates through the guide seat (21) and is fixedly arranged on the forming arc-shaped surface concave die (14).

4. The mold for drawing a deep convex hull on an arc-shaped convex hull according to claim 1, wherein: the lower backing plate (11) is provided with a through hole communicated with the concave cavity (13), and the ejector rod (20) is slidably arranged in the through hole.

5. The mold for drawing a deep convex hull on an arc-shaped convex hull according to claim 1, wherein: the convex hull convex die (18) is a stepped die.