CN220479971U - Stamping die of industrial control all-in-one aluminum alloy shell - Google Patents

Abstract

The utility model discloses a stamping die of an aluminum alloy shell of an industrial personal computer, which relates to the technical field of stamping dies and comprises a platform, wherein one side of the platform is fixedly connected with a fixing plate, the inside of the fixing plate is fixedly connected with a hydraulic press, the output end of the hydraulic press is fixedly connected with a first fixing block, the bottom of the first fixing block is provided with an upper die, the inside of the first fixing block is provided with a second groove, the inside of the first fixing block is slidably connected with two clamping blocks, one sides of the two clamping blocks, opposite to each other, are fixedly connected with a first spring, one side of the upper die is fixedly connected with a lug, two sides of the lug are respectively provided with a clamping groove, the top of the platform is fixedly connected with a second fixing block, and one side of the second fixing block is provided with a lower die. This stamping die of industrial computer all-in-one aluminum alloy shell, the flexible reset through first spring, fixture block and draw-in groove joint, conveniently install the change to last mould and bed die, improved work efficiency.

Description

Stamping die of industrial control all-in-one aluminum alloy shell

Technical Field

The utility model relates to the technical field of stamping dies, in particular to a stamping die for an aluminum alloy shell of an industrial control integrated machine.

Background

The industrial control integrated machine is mainly used for industrial technical transformation and process control in industrial automation, and is suitable for various fields of transportation, ferrous metallurgy, energy power, petrochemical industry, industrial furnaces, machine manufacturing, medical equipment, medical foods, communication and the like.

The aluminum alloy shell is made of various shells made of aluminum alloy, and is convenient to process, high in flexibility, and capable of being widely applied to industrial control integrated machine in the market at present, the types of required dies are different greatly, the dies are required to be replaced according to different requirements of customers during processing, the conventional equipment is complex in die replacement process, time and labor are wasted, and therefore the stamping die of the aluminum alloy shell of the industrial control integrated machine is provided for solving the problems.

Disclosure of Invention

The utility model aims to at least solve one of the technical problems in the prior art, and provides a stamping die for an aluminum alloy shell of an industrial control integrated machine, which can solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a stamping die of industrial computer aluminum alloy shell, includes the platform, platform one side fixedly connected with fixed plate, the inside fixedly connected with hydraulic press of fixed plate, the first fixed block of hydraulic press output fixedly connected with, first fixed block bottom is provided with the mould, the second recess has been seted up to the inside of first fixed block, the inside sliding connection of first fixed block has two fixture blocks, the first spring of one side equal fixedly connected with that two fixture blocks are on the back mutually, first spring other end fixedly connected with is inside first fixed block, go up mould one side fixedly connected with lug, the draw-in groove has all been seted up to lug both sides, platform top fixedly connected with second fixed block, second fixed block one side is provided with the bed die.

Preferably, the opposite side of the second fixing block to the lower die and the opposite side of the first fixing block to the upper die are identical in structure.

Preferably, one side of the clamping block opposite to the clamping block is arc-shaped, and one end of the protruding block opposite to the clamping block is arc-shaped.

Preferably, the inside fixedly connected with fixed column of lug, fixed column one side rotates and is connected with the axis of rotation, fixedly connected with gear in the axis of rotation, two first notches have been seted up to gear one side, the inside equal sliding connection of two first notches has moved the post, equal fixedly connected with roof on two removal posts, the roof is at the inside sliding connection of fixed column, two second notches have been seted up on one side of the fixed column, the one end that two removal posts did not contact with first notch is at the inside sliding connection of two second notches respectively, the inside sliding connection of lug has a rack, rack and gear engagement are connected, rack one end fixedly connected with second spring, the one end fixed connection of second spring and rack contact is inside the lug.

Preferably, a first groove is formed in one side of the first fixing block, and the rack is in sliding connection with the inside of the first groove.

Preferably, the first notch is opened outwards from the center of the gear.

Preferably, the projection is slidably coupled within the second recess.

Preferably, the clamping block is in sliding connection in the clamping groove.

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

according to the technical scheme, the clamping block is clamped with the clamping groove through the telescopic reset of the first spring, the upper die and the lower die are conveniently installed and replaced, the utilization rate of equipment is improved, the working efficiency is improved, workpieces of various different specifications can be processed, various types of equipment do not need to be purchased, and the production cost is reduced.

According to the technical scheme, the second spring is stretched for resetting, the gear and the rack are matched, the top plate pushes the clamping block to move towards the inside of the first fixed block, the upper die and the lower die can be rapidly disassembled, and the production efficiency is improved.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a schematic structural diagram of a stamping die for an aluminum alloy housing of an industrial personal computer;

FIG. 2 is an enlarged schematic view of the utility model at A in FIG. 1;

FIG. 3 is a schematic view of the inside of a first fixed block according to the present utility model;

FIG. 4 is a schematic view of the inside of the bump according to the present utility model;

FIG. 5 is a schematic view of the inside of the bump according to the present utility model.

Reference numerals: 1. a platform; 2. a fixing plate; 3. a hydraulic press; 4. a first fixed block; 5. a first groove; 6. a first spring; 7. a clamping block; 8. an upper die; 9. a bump; 10. a clamping groove; 11. a rotating shaft; 12. fixing the column; 13. a gear; 14. a first notch; 15. a moving column; 16. a top plate; 17. a second spring; 18. a rack; 19. a lower die; 20. a second fixed block; 21. a second notch; 22. and a second groove.

Description of the embodiments

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a stamping die of industrial computer aluminum alloy shell, which comprises a platform 1, platform 1 one side fixedly connected with fixed plate 2, fixed plate 2 inside fixedly connected with hydraulic press 3, hydraulic press 3 output fixedly connected with first fixed block 4, first fixed block 4 bottom is provided with mould 8, second recess 22 has been seted up inside first fixed block 4, first fixed block 4 inside sliding connection has two fixture blocks 7, the one side that two fixture blocks 7 are opposite to each other is all fixedly connected with first spring 6, first spring 6 other end fixed connection is inside first fixed block 4, mould 8 one side fixedly connected with lug 9 on the top, lug 9 is at the inside sliding connection of second recess 22, draw-in groove 10 has all been seted up to lug 9 both sides, fixture block 7 is at the inside sliding connection of draw-in groove 10, platform 1 top fixedly connected with second fixed block 20, second fixed block 20 one side is provided with bed die 19;

the side of the second fixing block 20 opposite to the lower die 19 is identical in structure to the side of the first fixing block 4 opposite to the upper die 8;

the hydraulic press 3 is a prior known technical means, and is not repeated here;

one side of the clamping block 7 opposite to the clamping block is arc-shaped, and one end of the protruding block 9 opposite to the clamping block 7 is arc-shaped;

the fixture block 7 is the arc with lug 9, can avoid lug 9 to get into the draw-in groove 10 receive the fixture block 7 to block, causes the machinery to block, can't make lug 9 normally slide in the inside of first fixed block 4, and this setting has improved lug 9 gliding smoothness nature, has improved work efficiency.

When the convex block 9 is contacted with the convex block 7, the convex block 7 slides towards the inside of the first fixed block 4 by the extrusion force of the convex block 9, the first spring 6 is compressed by force, the convex block 9 can slide in the second concave groove 22 continuously, when the convex block 7 is opposite to the clamping groove 10, the first spring 6 resets, the first spring 6 pushes the convex block 7 to move towards the inside of the clamping groove 10, the upper die 8 can be fixed at the moment, the fixing method of the second fixed block 20 and the lower die 19 is the same as that of the upper die 8, and the hydraulic press 3 can be started to punch the die at the moment.

Through the flexible reduction of first spring 6, fixture block 7 and draw-in groove 10 joint, conveniently install the change to last mould 8 and bed die 19, improved the utilization ratio of equipment, improved work efficiency, can carry out the work piece of multiple different specifications and process, need not purchase multiple type equipment, reduced manufacturing cost.

The inside fixed column 12 of fixedly connected with of lug 9, fixed column 12 one side rotates and is connected with axis of rotation 11, fixedly connected with gear 13 on the axis of rotation 11, two first notch 14 have been seted up to gear 13 one side, first notch 14 is outwards offered by the centre of a circle of gear 13, the inside sliding connection of two first notch 14 has movable column 15, all fixedly connected with roof 16 on two movable column 15, roof 16 is in the inside sliding connection of fixed column 12, roof 16 is in the inside sliding connection of draw-in groove 10, two second notch 21 have been seted up to fixed column 12 one side, the one end that two movable column 15 did not contact with first notch 14 is in the inside sliding connection of two second notch 21 respectively, the inside sliding connection of lug 9 has rack 18, rack 18 and gear 13 meshing connection, rack 18 one end fixedly connected with second spring 17, the one end that second spring 17 did not contact with rack 18 is fixed connection in lug 9 inside;

when the upper die 8 is disassembled, the rack 18 is pushed to move towards the inside of the lug 9, the second spring 17 is compressed under force, the gear 13 is driven to rotate when the rack 13 moves, when the gear 13 rotates, the first notch 14 is outwards opened by the circle center of the gear 13, the two moving columns 15 move outwards, the bottoms of the two moving columns 15 are limited by the second notch 21, the two moving columns 15 can only do opposite rectilinear motion, the two moving columns 15 move towards the outside of the lug 9, the moving columns 15 move to drive the top plate 16 to move towards the outside of the lug 9, the top plate 16 pushes the clamping block 7 in the clamping groove 10 into the first fixed block 4, at the moment, the lug 9 can be moved towards the outside of the first fixed block 4, the rack 18 is loosened after the lug 9 moves out, the second spring 17 resets, the rack 18 is driven to move towards the outside of the lug 9, the rack 18 is driven to rotate the gear 13, the gear 18 is driven to rotate, the moving columns 15 and the top plate 16 are driven to reset, and at the moment, the upper die 8 can be smoothly separated, and the second fixed block 20 and the lower die 19 are disassembled in the same method.

Through the tensile reset of second spring 17, the cooperation of gear 13 and rack 18, roof 16 promotes fixture block 7 to the inside removal of first fixed block 4, can realize the quick dismantlement of last mould 8 and bed die 19, has improved production efficiency.

The first recess 5 has been seted up to first fixed block 4 one side, and rack 18 is at the inside sliding connection of first recess 5, avoids lug 9 to get into the inside mechanical card that causes of first fixed block 4 and dies, has improved the smoothness nature of equipment operation.

Working principle: when the stamping die is used, firstly, the lug 9 is inserted into the second groove 22, when the lug 9 contacts the clamping block 7, the clamping block 7 is stressed and compressed to the inside of the first fixed block 4 by the extrusion force of the lug 9, at the moment, the lug 9 can continuously slide in the second groove 22, when the clamping block 7 is opposite to the clamping groove 10, the first spring 6 is reset, the clamping block 7 is pushed to move towards the inside of the clamping groove 10 by the first spring 6, at the moment, the upper die 8 can be fixed, the fixing method of the second fixed block 20 and the lower die 19 is the same as that of the upper die 8, at the moment, the hydraulic press 3 is started to stamp the die, when the upper die 8 is dismounted, the rack 18 is pushed to move towards the inside of the lug 9, the second spring 17 is stressed and compressed, the gear 13 is driven to rotate when the rack 13 is moved, and the gear 13 is driven to rotate, and when the gear 13 is rotated, because the circle center of the first notch 14 is outwards opened by the gear 13, the two moving columns 15 are only in opposite to move linearly, and the two moving columns 15 can move outwards due to the limitation of the second notch 21, the two moving columns 15 move towards the outside of the clamping groove 9, at the moment, the two moving columns 15 move towards the outside of the lug 9, the outside of the lug 9 is driven by the second moving columns 16, the second rack 16 moves towards the inside of the lug 9, the inside of the lug 9 is driven by the second moving column 16, the second rack 16 is driven by the second moving column 16 to move towards the inside the die 9, the inside of the lug 9, the rack 18 is driven by the outside of the second rack 9, the inside the rack 18 is driven by the second moving outside the rack 18 is driven to move outside the inside the rack 18, and the second rack is driven by the inside of the rack is driven to rotate, and the inside of the rack 18 is driven to rotate, and the inside of the second rack is driven to rotate, and the inside is driven to rotate, and is driven to be moved.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present utility model.

Claims (8)

1. The utility model provides a stamping die of industrial computer aluminum alloy shell, includes platform (1), its characterized in that: platform (1) one side fixedly connected with fixed plate (2), fixed plate (2) inside fixedly connected with hydraulic press (3), hydraulic press (3) output fixedly connected with first fixed block (4), first fixed block (4) bottom is provided with mould (8), second recess (22) have been seted up to inside of first fixed block (4), first fixed block (4) inside sliding connection has two fixture blocks (7), the equal fixedly connected with first spring (6) in one side that two fixture blocks (7) are opposite to each other, first spring (6) other end fixedly connected with is inside first fixed block (4), go up mould (8) one side fixedly connected with lug (9), draw-in groove (10) have all been seted up to lug (9) both sides, platform (1) top fixedly connected with second fixed block (20), second fixed block (20) one side is provided with bed die (19).

2. The stamping die for an aluminum alloy shell of an industrial personal computer according to claim 1, wherein: the side of the second fixed block (20) opposite to the lower die (19) and the side of the first fixed block (4) opposite to the upper die (8) are identical in structure.

3. The stamping die for an aluminum alloy shell of an industrial personal computer according to claim 1, wherein: one side of the clamping block (7) opposite to the clamping block is arc-shaped, and one end of the protruding block (9) opposite to the clamping block (7) is arc-shaped.

4. The stamping die for an aluminum alloy shell of an industrial personal computer according to claim 1, wherein: the utility model discloses a cam (9) inside fixedly connected with fixed column (12), fixed column (12) one side rotates and is connected with axis of rotation (11), fixedly connected with gear (13) on axis of rotation (11), two first notch (14) have been seted up on one side of gear (13), inside all sliding connection of two first notch (14) has movable column (15), all fixedly connected with roof (16) on two movable column (15), roof (16) are at fixed column (12) inside sliding connection, roof (16) are at inside sliding connection of draw-in groove (10), two second notch (21) have been seted up on one side of fixed column (12), two movable column (15) do not with the inside sliding connection of first notch (14) in two second notch (21) respectively, inside sliding connection of cam (9) has rack (18), rack (18) are connected with gear (13) meshing, rack (18) one end fixedly connected with second spring (17), one end fixed connection that second spring (17) did not contact with rack (18) is inside cam (9).

5. The stamping die for an aluminum alloy shell of an industrial personal computer according to claim 1, wherein: a first groove (5) is formed in one side of the first fixing block (4), and a rack (18) is connected inside the first groove (5) in a sliding mode.

6. The stamping die for an aluminum alloy housing of an industrial personal computer according to claim 4, wherein: the first notch (14) is formed outwards from the center of the gear (13).

7. The stamping die for an aluminum alloy shell of an industrial personal computer according to claim 1, wherein: the protruding block (9) is in sliding connection in the second groove (22).

8. The stamping die for an aluminum alloy shell of an industrial personal computer according to claim 1, wherein: the clamping block (7) is in sliding connection in the clamping groove (10).