CN215746257U - Aluminum sheet forming device for high-end manufacturing equipment - Google Patents

Abstract

The utility model discloses an aluminum sheet forming device for high-end manufacturing equipment, which comprises: the guide plate is connected between the guide frame and the bottom plate; the bottom plate is connected with a moving plate in a sliding mode, the moving plate is connected with a mold baffle in a sliding mode, the mold baffle is connected with a plurality of adjusting worm gears in a rotating mode, and the adjusting worm gears are connected with the moving plate in a threaded connection mode; the extrusion mechanism is arranged between the guide plates. According to the utility model, the mould baffle plate and the moving plate are matched, so that the aluminum liquid can be limited, the aluminum liquid can be prevented from flowing out, and the aluminum skins with different thicknesses can be produced by adjusting the height of the mould baffle plate, so that the resources can be saved.

Description

Aluminum sheet forming device for high-end manufacturing equipment

Technical Field

The utility model relates to an aluminum sheet forming device, in particular to an aluminum sheet forming device for high-end manufacturing equipment.

Background

The production flow of aluminium skin mainly includes founding, the extrusion and three process of coloring, need be with the help of the mould during production aluminium skin, at first pour aluminium liquid into the mould in, then extrude the aluminium liquid in the mould, aluminium liquid becomes the aluminium skin in the mould internal cooling afterwards, but the general simple structure of current mould, the aluminium skin of a thickness can only be produced to a mould to when will producing the aluminium skin of thickness difference, need change the mould, so need produce a plurality of moulds of degree of depth diverse, thereby easily lead to the waste of resource.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an aluminum skin forming device for high-end manufacturing equipment, which can produce aluminum skins with different thicknesses and save resources.

In order to achieve the purpose, the utility model is realized according to the following technical scheme:

the utility model provides an aluminum skin forming device for high-end manufacturing equipment, which comprises: the guide plate is connected between the guide frame and the bottom plate; the bottom plate is connected with a moving plate in a sliding mode, the moving plate is connected with a mold baffle in a sliding mode, the mold baffle is connected with a plurality of adjusting worm gears in a rotating mode, and the adjusting worm gears are connected with the moving plate in a threaded connection mode; the extrusion mechanism is arranged between the guide plates.

Preferably, the pressing mechanism includes: the connecting plate is connected between the guide plates in a sliding mode, the connecting plate is connected with an air cylinder, and the air cylinder is connected with an extrusion plate.

Preferably, the device further comprises a rotating mechanism, wherein the rotating mechanism comprises: the mold comprises fixing blocks, a plurality of fixing blocks are connected to a mold baffle, rotating rods are rotatably connected between every two adjacent fixing blocks, two worms are connected to the two rotating rods, and the worms are meshed with adjusting worm wheels; the end part of one rotating rod is connected with the regulating valve; bevel gear sets are connected between adjacent rotating rods.

Preferably, the device further comprises a guide mechanism, wherein the guide mechanism comprises: the sliding plate is connected between the guide frames in a sliding manner, and both sides of the end part of the sliding plate are connected with driving plates which are fixedly connected with the connecting plate; one of the driving plates is connected with a push rod; the feeding hopper is connected to the end of the sliding plate, a shunt ball is connected to the feeding hopper, a plurality of branch pipes are connected to the shunt ball, and the branch pipes penetrate through the sliding plate.

Preferably, still include the drive mechanism, drive mechanism includes: the fixed plate is connected with one side of the sliding plate, a plurality of sliding blocks are connected on the fixed plate in a sliding mode, and a common spring is connected between each sliding block and the fixed plate.

Preferably, still include stop gear, stop gear includes: the wedge-shaped block is connected with the bottom plate in a sliding mode, and two reset springs are connected between the wedge-shaped block and the bottom plate.

Preferably, the driver plate is triangular in shape.

Preferably, the lower portion of the slide block is a ramp.

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

1. the mold baffle is matched with the moving plate, so that the aluminum liquid can be limited, the aluminum liquid can be prevented from flowing out, and aluminum skins with different thicknesses can be produced by adjusting the height of the mold baffle, so that resources can be saved;

2. the height of the mold baffle can be conveniently and quickly adjusted through the rotating mechanism, so that time and labor can be saved;

3. the guiding mechanism can be used for shunting and guiding the aluminum liquid, so that the aluminum liquid can be uniformly distributed in the mold baffle;

4. the moving plate injected with the molten aluminum and the mould baffle can be pushed down from the bottom plate through the driving mechanism, so that time and labor can be saved;

5. the movable plate can be limited through the limiting mechanism, so that the movable plate can be prevented from moving automatically, and the aluminum sheet can be conveniently produced.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of a first partial perspective structure of the present invention;

FIG. 3 is a schematic view of a second partial perspective structure of the present invention;

FIG. 4 is a third partial perspective view of the present invention;

FIG. 5 is a schematic view of a fourth partial perspective structure of the present invention;

FIG. 6 is a schematic perspective view of a spacing mechanism according to the present invention;

in the figure: 1-bottom plate, 2-guide frame, 3-guide plate, 4-moving plate, 5-mould baffle, 6-adjusting worm wheel, 7-extruding mechanism, 71-connecting plate, 72-air cylinder, 73-extruding plate, 8-rotating mechanism, 81-fixed block, 82-rotating rod, 83-worm, 84-adjusting valve, 85-bevel gear set, 9-guiding mechanism, 91-sliding plate, 92-driving plate, 93-push rod, 94-feeding hopper, 95-shunting ball, 96-shunting pipe, 10-driving mechanism, 101-fixed plate, 102-sliding block, 103-common spring, 11-limiting mechanism, 111-wedge block and 112-reset spring.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1

The utility model provides a high-end aluminium skin forming device for manufacturing equipment, as shown in fig. 1-4, including bottom plate 1, leading frame 2, baffle 3, movable plate 4, mould baffle 5, adjusting worm wheel 6 and extrusion mechanism 7, the symmetry is connected with two leading frames 2 around bottom plate 1 top right side, be connected with baffle 3 between leading frame 2 top left side and the 1 top left side of bottom plate, 1 top sliding connection of bottom plate has movable plate 4, sliding connection has mould baffle 5 on movable plate 4, four equal rotary types in angle on the mould baffle 5 are connected with adjusting worm wheel 6, adjusting worm wheel 6 is connected through threaded connection's mode with movable plate 4, be equipped with extrusion mechanism 7 between two baffles 3.

The extrusion mechanism 7 comprises a connecting plate 71, a cylinder 72 and an extrusion plate 73, the connecting plate 71 is connected between the two guide plates 3 in a sliding manner, the cylinder 72 is connected onto the connecting plate 71, and the extrusion plate 73 is connected onto an expansion rod of the cylinder 72.

When the aluminum sheet is to be produced, the device can be used, firstly, the height of the mold baffle 5 can be adjusted according to the thickness of the aluminum sheet to be produced, when the height of the mold baffle 5 is to be adjusted, the adjusting worm wheel 6 can be rotated or reversely rotated, so that the adjusting worm wheel 6 can move upwards or downwards, the adjusting worm wheel 6 can move upwards or downwards to drive the mold baffle 5 to move upwards or downwards, and the height of the mold baffle 5 can be adjusted, so that the aluminum sheets with different thicknesses can be produced; after the height adjustment of the mold baffle 5 is completed, the rotation is stopped or the worm wheel 6 is adjusted in a reverse rotation mode, then the aluminum liquid can be poured into the mold baffle 5, the aluminum liquid can be limited through the matching of the mold baffle 5 and the moving plate 4, and the aluminum liquid can be prevented from flowing out. Then the connecting plate 71 can be moved rightwards, the connecting plate 71 can be moved rightwards to drive components on the connecting plate to move rightwards, when the extrusion plate 73 moves rightwards to be positioned on the same vertical line with the mold baffle 5, the connecting plate 71 stops moving rightwards, then the air cylinder 72 can be started to enable the extrusion plate 73 to move downwards, the extrusion plate 73 moves downwards to extrude the aluminum liquid in the mold baffle 5, so that the aluminum liquid can be flattened, the produced aluminum skin can be flat and firm, after extrusion is completed, the air cylinder 72 is controlled to enable the extrusion plate 73 to move upwards to reset, then the air cylinder 72 is closed, then the connecting plate 71 moves leftwards to reset, the connecting plate 71 moves leftwards to reset to drive the components on the connecting plate to move leftwards to reset, then the moving plate 4 and the mold baffle 5 filled with the aluminum liquid are moved downwards from the bottom plate 1, then another moving plate 4 and mold baffle 5 are placed again, the operation is repeated, and the aluminum sheet production work can be repeatedly carried out. So this device can carry on spacingly to aluminium liquid through the cooperation of mould baffle 5 and movable plate 4 to can prevent that aluminium liquid from flowing out, highly adjusting through the place to mould baffle 5, can produce the aluminium skin of thickness difference, and then can resources are saved.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 3, the mold baffle further comprises a rotating mechanism 8, the rotating mechanism 8 comprises a fixing block 81, a rotating rod 82, a worm 83, an adjusting valve 84 and a bevel gear group 85, the left side, the right side and the rear side of the mold baffle 5 are both connected with the fixing block 81, the rotating rod 82 is rotatably connected between two adjacent fixing blocks 81, the rotating rods 82 on the left side and the right side are both connected with two worms 83, the two worms 83 are symmetrical front and back, the worm 83 is meshed with the adjusting worm wheel 6, the front end of the right rotating rod 82 is connected with the adjusting valve 84, and the bevel gear group 85 is connected between two adjacent rotating rods 82.

When the height of the mold baffle 5 needs to be adjusted, the adjusting valve 84 can be rotated or reversely rotated, so that the right rotating rod 82 can be rotated or reversely rotated, the right rotating rod 82 can be rotated or reversely rotated through the right bevel gear set 85, the rear rotating rod 82 can be rotated or reversely rotated through the left bevel gear set 85, the left rotating rod 82 can be rotated or reversely rotated, the rotating rod 82 can drive the worm 83 to rotate or reversely rotate, the worm 83 can be rotated or reversely rotated, the adjusting worm wheel 6 can be rotated or reversely rotated, manual operation is not needed, the adjusting worm wheel 6 can be rotated or reversely rotated one by one, and time and labor can be saved; the height of the mold baffle 5 can be conveniently and quickly adjusted through the rotating mechanism 8, so that time and labor can be saved.

As shown in fig. 1 and 4, the device further comprises a guide mechanism 9, the guide mechanism 9 comprises a sliding plate 91, a driving plate 92, a push rod 93, a feeding hopper 94, a shunting ball 95 and branch pipes 96, the sliding plate 91 is slidably connected between the two guide frames 2, the driving plate 92 is connected to the front side and the rear side of the top of the sliding plate 91, the driving plate 92 is fixedly connected with the connecting plate 71, the push rod 93 is connected to the front side of the front driving plate 92, the feeding hopper 94 is connected to the rear side of the top of the sliding plate 91, the shunting ball 95 is connected to the feeding hopper 94, the branch pipes 96 are connected to the shunting ball 95, and the bottom ends of the branch pipes 96 penetrate through the sliding plate 91.

The moving plates 4 with the mold baffles 5 can be placed on the middle part and the right side of the bottom plate 1, then aluminum liquid is injected into the feeding hopper 94, then the aluminum liquid flows into the shunting balls 95 through the feeding hopper 94, then the aluminum liquid flows out of the shunting pipes 96 and falls into the mold baffles 5 on the middle part of the bottom plate 1, so that the aluminum liquid can be uniformly distributed in the mold baffles 5, when a proper amount of aluminum liquid is filled in the mold baffles 5 on the middle part of the bottom plate 1, the push rod 93 can be moved rightwards, so that the front driving plate 92 can be moved rightwards, the front driving plate 92 can be moved rightwards to drive the connecting plate 71 to be moved rightwards, the rear driving plate 92 can be moved rightwards, the driving plate 92 can be moved rightwards to drive the sliding plate 91 to be moved rightwards, the sliding plate 91 can be moved rightwards to drive the parts thereon to be moved rightwards, when the shunting pipes 96 are moved rightwards to be positioned above the mold baffles 5 on the bottom plate 1, the push rod 93 can be stopped moving rightwards, so that the aluminum liquid can flow out of the branch pipe 96 and fall into the mold baffle 5 on the right side of the bottom plate 1, and when the connecting plate 71 is to be moved leftwards to be reset, the reverse operation is repeated. So can shunt and lead to the aluminium liquid through guiding mechanism 9 to can make the even distribution of aluminium liquid in mould baffle 5.

Example 3

On the basis of embodiment 2, as shown in fig. 1 and 5, the device further includes a driving mechanism 10, the driving mechanism 10 includes a fixed plate 101, a sliding block 102 and a common spring 103, the right side of the sliding plate 91 is connected with the fixed plate 101, the sliding blocks 102 are connected to the fixed plate 101 in a sliding manner, which is symmetrical back and forth, and the common spring 103 is connected between the sliding block 102 and the fixed plate 101.

The sliding plate 91 moves rightwards and leftwards to drive the fixed plate 101 to move rightwards and leftwards, the fixed plate 101 moves rightwards and leftwards to drive the sliding block 102 to move rightwards and leftwards, after the sliding block 102 moves rightwards to be in contact with the right side mold baffle 5, the sliding block 102 can move upwards under the action of the right side mold baffle 5, the common spring 103 stretches along with the sliding block, after the sliding block 102 moves rightwards to be positioned on the right side of the right side mold baffle 5, the sliding block 102 can reset downwards under the action of the common spring 103, so that when the fixed plate 101 moves leftwards, the right side mold baffle 5 can move leftwards through the sliding block 102, and the moving plate 4 and the mold baffle 5 injected with aluminum liquid can be pushed downwards from the bottom plate 1; therefore, the moving plate 4 injected with the molten aluminum and the mold baffle 5 can be pushed down from the bottom plate 1 through the driving mechanism 10, so that time and labor can be saved.

As shown in fig. 1 and 6, the shoe sole further comprises a limiting mechanism 11, the limiting mechanism 11 comprises a wedge block 111 and a return spring 112, the wedge block 111 is connected to the right side of the top of the sole plate 1 in a sliding manner, and two return springs 112 are symmetrically connected between the wedge block 111 and the sole plate 1 in a front-back manner.

The movable plate 4 can be limited by the cooperation of the wedge-shaped block 111 and the return spring 112, so that the movable plate 4 can be prevented from moving rightwards by self, and the work of producing aluminum sheets can be facilitated; therefore, the moving plate 4 can be limited through the limiting mechanism 11, so that the moving plate 4 can be prevented from moving by itself, and the aluminum sheet production can be facilitated.

While the preferred embodiments of the present invention have been illustrated and described in detail, it should be understood that modifications and variations can be effected by one skilled in the art in light of the above teachings without undue experimentation. Therefore, any technical solutions that can be obtained by a person skilled in the art through logical analysis, reasoning or limited experiments based on the prior art according to the present inventive concept should be within the scope of protection defined by the present claims.

Claims (8)

1. The utility model provides a high-end aluminium skin forming device for manufacturing equipment which characterized in that includes:

the guide plate comprises a bottom plate (1), two guide frames (2) are connected to the bottom plate (1), and a guide plate (3) is connected between each guide frame (2) and the bottom plate (1);

the device comprises a moving plate (4), a bottom plate (1) is connected with the moving plate (4) in a sliding mode, the moving plate (4) is connected with a mold baffle (5) in the sliding mode, the mold baffle (5) is connected with a plurality of adjusting worm gears (6) in the rotating mode, and the adjusting worm gears (6) are connected with the moving plate (4) in a threaded connection mode;

the extrusion mechanism (7) is arranged between the guide plates (3).

2. The aluminum skin forming device for high-end manufacturing equipment, according to claim 1, wherein the pressing mechanism (7) comprises:

connecting plates (71) are connected between the guide plates (3) in a sliding mode, air cylinders (72) are connected onto the connecting plates (71), and extrusion plates (73) are connected onto the air cylinders (72).

3. The aluminum skin forming device for high-end manufacturing equipment, according to claim 2, further comprising a rotating mechanism (8), wherein the rotating mechanism (8) comprises:

the mould baffle plate (5) is connected with a plurality of fixing blocks (81), rotating rods (82) are rotatably connected between every two adjacent fixing blocks (81), two worms (83) are connected to the two rotating rods (82), and the worms (83) are meshed with the adjusting worm wheel (6);

the end of one rotating rod (82) is connected with the regulating valve (84);

bevel gear sets (85) are connected between the adjacent rotating rods (82).

4. The aluminum skin forming device for high-end manufacturing equipment according to claim 3, further comprising a guiding mechanism (9), wherein the guiding mechanism (9) comprises:

the sliding plates (91) are connected between the guide frames (2) in a sliding manner, driving plates (92) are connected to two sides of the end parts of the sliding plates (91), and the driving plates (92) are fixedly connected with the connecting plate (71);

a push rod (93), wherein the push rod (93) is connected to one driving plate (92);

the feeding device comprises a feeding hopper (94), the end part of the sliding plate (91) is connected with the feeding hopper (94), a shunt ball (95) is connected onto the feeding hopper (94), a plurality of branch pipes (96) are connected onto the shunt ball (95), and the branch pipes (96) penetrate through the sliding plate (91).

5. The aluminum skin forming device for the high-end manufacturing equipment according to claim 4, further comprising a driving mechanism (10), wherein the driving mechanism (10) comprises:

the sliding plate comprises a fixed plate (101), one side of a sliding plate (91) is connected with the fixed plate (101), the fixed plate (101) is connected with a plurality of sliding blocks (102) in a sliding mode, and a common spring (103) is connected between each sliding block (102) and the fixed plate (101).

6. The aluminum skin forming device for the high-end manufacturing equipment according to claim 5, further comprising a limiting mechanism (11), wherein the limiting mechanism (11) comprises:

the bottom plate (1) is connected with the wedge block (111) in a sliding mode, and two return springs (112) are connected between the wedge block (111) and the bottom plate (1).

7. The aluminum skin forming device for high-end manufacturing equipment, according to claim 3, wherein the driving plate (92) is triangular in shape.

8. The aluminum skin forming device for high-end manufacturing equipment as claimed in claim 4, wherein the lower portion of the sliding block (102) is a slope.

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