CN220697994U - Aluminum product stamping forming equipment - Google Patents

Abstract

The utility model discloses an aluminum product stamping forming device, which belongs to the field of stamping devices and comprises: a workbench provided with a hydraulic pump and a push block which can move along a straight line; the hydraulic pump is provided with a punch; the pushing block is perpendicular to the moving direction of the hydraulic pump; the recovery box is fixedly connected with the workbench; the recovery box is provided with a receiving port; a rotatable rotating plate is arranged in the receiving port; a limiting plate I is arranged on one side of the rotating plate; the movable plate is arranged on one side, away from the first limiting plate, of the rotating plate, and the movable plate can move linearly; clamping plates which can move linearly are symmetrically arranged on two sides of the pushing block on the workbench; the clamping plate is provided with a groove; compared with the prior art, the aluminum product stamping forming equipment of this application will punch a hole the tubular product and arrange the rotor plate in, the rotor plate rotates tubular product from the horizontality to incline state to get rid of the inside waste material of tubular product.

Description

Aluminum product stamping forming equipment

Technical Field

The utility model relates to the field of stamping equipment, in particular to aluminum stamping forming equipment.

Background

Products made of aluminum and other alloy elements are usually manufactured by cold bending, sawing, punching, assembling, coloring and other procedures after being processed into cast products, forged products, foils, plates, belts, tubes, bars, sectional materials and the like, wherein the main metal element is aluminum, and the aluminum product performance is improved by adding some alloy elements, and a punching device is needed for punching in the punching step of aluminum product processing and forming; the patent with the application number of CN202320005398.2 proposes a stamping device for producing aluminum profiles, wherein a stamping head is driven to move downwards through a pressing plate, so that the stamping head and a workpiece on a placing plate are perforated by matching with a punching hole, and waste generated by perforation falls into a waste box through a through hole and a guide plate; however, when the aluminum pipe is punched on one side, waste materials generated by single-side punching can remain in the pipe and cannot fall into a waste box through the through hole and the guide plate; therefore, an aluminum material press forming apparatus is proposed.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides aluminum stamping forming equipment, wherein punched pipes are placed in a rotating plate, and the rotating plate rotates the pipes from a horizontal state to an inclined state, so that waste materials in the pipes are discharged.

The aim of the utility model can be achieved by the following technical scheme:

an aluminum material press forming apparatus comprising:

a workbench provided with a hydraulic pump and a push block which can move along a straight line; the hydraulic pump is provided with a punch; the pushing block is perpendicular to the moving direction of the hydraulic pump; the hydraulic pump is used for moving the punch head and punching the pipe; the pushing block is used for propping against one side of the pipe and positioning the pipe;

the recovery box is fixedly connected with the workbench; the recovery box is provided with a receiving port; a rotatable rotating plate is arranged in the receiving port; a limiting plate I is arranged on one side of the rotating plate; the recovery box is used for recovering waste materials generated by punching; the rotary plate is used for placing the pipe, and the limiting plate is propped against one end of the pipe;

the second limiting plate is arranged on one side, away from the first limiting plate, of the rotating plate, and the second limiting plate capable of moving linearly is arranged on one side, away from the first limiting plate, of the rotating plate; after the second limiting plate moves, the other end of the pipe is propped against, and the first limiting plate is matched to prop against the pipe; therefore, after the rotating plate rotates, the pipe cannot fall off from the rotating plate, and waste inside the pipe can fall off along the inclined plane;

clamping plates which can move linearly are symmetrically arranged on two sides of the pushing block on the workbench; the clamping plate is provided with a groove; the groove is rotationally connected with a first screw rod; the clamping plates are used for clamping two ends of the pipe;

the grooves are all connected with the limiting blocks in a sliding manner; the limiting block is in threaded connection with the screw rod;

before punching, the first screw is rotated, the first screw drives the limiting block to move through threads, and the distance between the limiting block and the punch is adjusted, so that after the pipe is pushed by the pushing block, the limiting block and the pushing block can prop against two sides of the pipe, and at the moment, the position of the limiting block determines the position of the punch in the width direction of the pipe relative to the pipe; after adjustment, placing the pipe between the clamping plate and the pushing block, driving the clamping plate to move, aligning two sides of the pipe, driving the pushing block to move, and driving the pipe to stop at the limiting block by the pushing block; then driving a hydraulic pump to move, and punching holes on the pipe by a punch according to requirements;

after the punching is finished, the punched pipe can be placed on the rotating plate manually or by means of mechanical driving components such as a robot and the like, and the limiting plate II is driven to move; the second limiting plate is matched with the first limiting plate to support the pipe; then the rotary plate is driven to rotate, the pipe is clamped and cannot fall off from the rotary plate, and waste materials generated by punching inside the pipe fall off to the recovery box along the inclined plane.

The noun, conjunctive or adjective parts referred to in the above technical solutions are explained as follows:

the term fixedly connected in this application refers to a connection without any relative movement after the parts or components are installed; the common way is to fix the parts together by using screw, spline, wedge pin, etc., the connection way can be disassembled during maintenance and the parts can not be damaged, and the way can also be called as detachable fixed connection; in addition, the parts and components can not be used secondarily in such a way as welding, riveting, tenon passing and matching and the like, and the parts and components can not be disassembled in the way of forging, sawing or oxygen cutting during maintenance or replacement. The rotating connection in the application is a connection that after parts or components are installed, the parts generate relative rotation motion relative to a fixing piece, and the common form is that the bearings are installed on the fixing piece, the parts are installed on the inner ring or the outer ring of the bearings, and the bearings are utilized to complete the rotation motion. The sliding connection in the present application is a connection in which a part or a component can be moved on a fixing member after the part or the component is mounted.

In some embodiments, the workbench is symmetrically provided with screw seats; the screw bases are respectively and rotatably connected with a screw II; the second screw is driven by a belt; one screw seat is provided with a first motor; the motor I is connected with the screw rod II; the second screw rod is in threaded connection with the movable plate; the movable plate is fixedly provided with a driving seat; the driving seat is provided with a second motor; the second motor is provided with the third screw; the screw rod is connected with a mounting seat through three threads; the mounting seat is connected with the movable plate in a sliding manner; the hydraulic pump is fixedly installed on the installation seat.

In some embodiments, the table is provided with a chute; the workbench is provided with a motor III; the motor III is provided with a screw rod IV in the chute; the pushing block is connected with the four threads of the screw rod; the pushing block is connected with the sliding chute in a sliding way; the workbench is symmetrically and fixedly provided with an electric telescopic rod I; the first electric telescopic rod is fixedly connected with one clamping plate respectively.

In some embodiments, the bottom of the workbench is fixedly provided with a motor IV; the rotating plate is fixedly provided with a rotating shaft; the rotating shaft is rotationally connected with the recovery box; and the motor IV is connected with the rotating shaft.

In some embodiments, a second electric telescopic rod is arranged on one side, close to the recovery box, of the workbench; and the second electric telescopic rod is provided with a vacuum chuck.

In some embodiments, a motor five is fixedly arranged on one side, close to the recovery box, of the workbench; and the motor five is fixedly provided with a rubber wheel.

In some embodiments, the upper ends of the first limiting plate and the movable block are fixedly provided with cover plates; the first limiting plate is provided with a through hole.

In some embodiments, the rotating plate is fixedly mounted with a motor six; the rotating plate is rotationally connected with a screw rod five; the screw five is connected with the limiting plate two through threads; the rotating plate is in sliding connection with the second limiting plate; and the motor six and the screw five are driven by gears.

The utility model has the beneficial effects that:

the aluminum product stamping forming equipment of this application will punch a hole the tubular product after placing in the rotor plate, the rotor plate rotates tubular product from the horizontality to incline state to get rid of the inside waste material of tubular product.

Drawings

The utility model is further described below with reference to the accompanying drawings.

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

FIG. 2 is a schematic side view of the present application;

fig. 3 is a schematic view of the bottom structure of the present application.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present utility model and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The aluminum product stamping forming equipment of this application will punch a hole the tubular product after placing in the rotor plate, the rotor plate rotates tubular product from the horizontality to incline state to get rid of the inside waste material of tubular product.

Referring to fig. 1 to 3, an aluminum material press forming apparatus includes:

a table 1 provided with a hydraulic pump 2 and a push block 3 that are movable in a straight line; the hydraulic pump 2 is provided with a punch 4; the pushing block 3 is perpendicular to the moving direction of the hydraulic pump 2; the hydraulic pump 2 is used for moving the punch 4 and punching the pipe; the pushing block 3 is used for propping against one side of the pipe and positioning the pipe;

the recovery box 5 is fixedly connected with the workbench 1; the recovery box 5 is provided with a receiving port; a rotatable rotating plate 6 is arranged in the receiving port; one side of the rotating plate 6 is provided with a limiting plate I7; the recovery box 5 is used for recovering waste materials generated by punching; the rotary plate 6 is used for placing the pipe, and the first limiting plate 7 butts against one end of the pipe;

the second limiting plate 8, one side of the rotating plate 6 far away from the first limiting plate 7 is provided with the second limiting plate 8 capable of moving linearly; after the limiting plate II 8 moves, the other end of the pipe is propped against, and the pipe is propped against by matching with the limiting plate I7; therefore, after the rotating plate 6 rotates, the pipe cannot fall off from the rotating plate 6, and waste materials in the pipe can fall off along the inclined plane;

clamping plates 9, wherein clamping plates 9 capable of moving linearly are symmetrically arranged on two sides of the push block 3 on the workbench 1; the clamping plate 9 is provided with a groove; the groove is rotationally connected with a first screw rod 10; the clamping plates 9 are used for clamping two ends of the pipe;

the limiting blocks 11 are connected with the grooves in a sliding mode; the limiting block 11 is in threaded connection with the first screw rod 10;

before punching, the first screw rod 10 is rotated, the first screw rod 10 drives the limiting block 11 to move through threads, and the distance between the limiting block 11 and the punch 4 is adjusted, so that after the pipe is pushed by the pushing block 3, the limiting block 11 and the pushing block 3 can prop against two sides of the pipe, and at the moment, the position of the limiting block 11 determines the position of the punch 4 relative to the width direction of the pipe; after adjustment, placing the pipe between the clamping plate 9 and the pushing block 3, driving the clamping plate 9 to move, aligning two sides of the pipe, driving the pushing block 3 to move, and driving the pipe by the pushing block 3 to stop at the limiting block 11; then driving the hydraulic pump 2 to move, and punching holes on the pipe by the punch 4 according to requirements;

after the punching is finished, the punched pipe can be placed on the rotating plate 6 manually or by means of mechanical driving components such as a robot and the like, and the limiting plate II 8 is driven to move; the second limiting plate 8 is matched with the first limiting plate 7 to support the pipe; then the rotary plate 6 is driven to rotate, the pipe is clamped and cannot fall off from the rotary plate 6, and waste materials generated by punching inside the pipe fall off to the recovery box 5 along the inclined plane.

The linearly movable parts can be realized through a linear driving mechanism, and common linear driving mechanisms comprise a hydraulic telescopic rod, an electric telescopic rod and a pneumatic telescopic rod; of course, other structures capable of changing the position of the connecting end can be used for replacing the connecting end, such as a chain lifting mechanism used in a forklift, a scissor telescopic mechanism used on a scissor lifter, a spiral lifting mechanism in a spiral lifter and the like.

Belt drive in this application is a mechanical drive that utilizes a flexible belt that is tensioned over a pulley for movement or power transmission. According to the different driving principles, there are friction belt driving driven by friction force between the belt and the belt wheel, and synchronous belt driving driven by the belt and the teeth on the belt wheel engaged with each other. Alternative belt drives are of course possible, such as by using sprockets and chains, or by using gear sets to connect two screws for synchronous rotation.

In some embodiments, the table 1 is symmetrically provided with screw seats 12; the screw bases 12 are respectively and rotatably connected with a screw II 13; the second screw 13 is driven by a belt; one screw seat 12 is provided with a motor I14; the motor I14 is connected with the screw II 13; the second screw rod 13 is in threaded connection with the movable plate 15; the movable plate 15 is fixedly provided with a driving seat; the driving seat is provided with a second motor 16; the second motor 16 is provided with a third screw 17; the third screw 17 is in threaded connection with a mounting seat 18; the mounting seat 18 is in sliding connection with the movable plate 15; the hydraulic pump 2 is fixedly installed on the installation seat 18; the motor I14 is used for driving the screw II 13 to rotate, and the screw II 13 realizes synchronous rotation through belt transmission; the screw rod II 13 drives the movable plate 15, the mounting seat 18 and the hydraulic pump 2 to move up and down through threads, so that the height of the hydraulic pump 2 is changed, the hydraulic pump 2 is convenient to maintain, the height of the hydraulic pump 2 is improved, and the punch 4 is convenient to maintain; the second motor 16 is used for controlling the third screw 17 to rotate, the third screw 17 drives the mounting seat 18 to move along the movable plate 15 through threads, so that the hydraulic pump 2 can move in the length direction of the pipe, and punching is performed according to requirements.

In some embodiments, the table 1 is provided with a chute; the workbench 1 is provided with a motor III 19; the motor III 19 is provided with a screw IV 20 in the chute; the fourth screw 20 is in threaded connection with the pushing block 3, and the motor is accommodated and rotated through the fourth screw 20, so that the pushing block 3 is driven to linearly move; the pushing block 3 is connected with the chute in a sliding way; the workbench 1 is symmetrically and fixedly provided with an electric telescopic rod I21; the first electric telescopic rod 21 is fixedly connected with one clamping plate 9 respectively; the first electric telescopic rod 21 is used for driving the clamping plate 9 to linearly move.

In some embodiments, the bottom of the workbench 1 is fixedly provided with a motor IV 22; the rotating plate 6 is fixedly provided with a rotating shaft; the rotating shaft is rotationally connected with the recovery box 5; the motor IV 22 is connected with the rotating shaft; the motor IV 22 drives the rotating plate 6 to rotate through the rotating shaft.

In some embodiments, a second electric telescopic rod 23 is arranged on one side of the workbench 1 close to the recovery box 5; the second electric telescopic rod 23 is provided with a vacuum chuck 24; the vacuum chuck 24 is used for grabbing the punched pipe, and the electric telescopic rod II 23 is used for pushing the vacuum chuck 24 to the pipe.

In some embodiments, a motor five is fixedly arranged on one side of the workbench 1 close to the recovery box 5; the motor five is fixedly provided with a rubber wheel 25, and the height of the rubber wheel 25 meets the requirement that the rubber wheel 25 props against the pipe when the pipe is grabbed to the lower end of the rubber wheel 25 by the vacuum chuck 24; the punched pipe can be removed by driving the rubber wheel 25 to rotate by the motor five.

In some embodiments, the upper ends of the first limiting plate 7 and the movable block are fixedly provided with a cover plate 26; the first limiting plate 7 is provided with a through hole 27; the size of the through hole 27 is consistent with that of the inner hole of the pipe; the cover plate 26 is used for blocking the upper end face of the pipe; prevent the tube from side turning when turning over.

In some embodiments, the rotating plate 6 is fixedly mounted with a motor six 28; the rotating plate 6 is rotationally connected with a screw five; the screw five is connected with the limiting plate two 8 through threads; the rotating plate 6 is in sliding connection with the second limiting plate 8; the motor six 28 and the screw five are driven by gears; the motor six 28 drives the screw five to rotate through a pair of meshed spur gears, and the screw five drives the limiting plate two 8 to move along the rotating plate 6 through threads.

The aluminum material press forming apparatus provided by the present utility model will be further described with reference to the drawings and embodiments.

An aluminum material press forming apparatus comprising:

a table 1 provided with a hydraulic pump 2 and a push block 3 that are movable in a straight line; the hydraulic pump 2 is provided with a punch 4; the pushing block 3 is perpendicular to the moving direction of the hydraulic pump 2; the hydraulic pump 2 is used for moving the punch 4 and punching the pipe; the pushing block 3 is used for propping against one side of the pipe and positioning the pipe;

the workbench 1 is symmetrically provided with screw bases 12; the screw bases 12 are respectively and rotatably connected with a screw II 13; the second screw 13 is driven by a belt; one screw seat 12 is provided with a motor I14; the motor I14 is connected with the screw II 13; the second screw rod 13 is in threaded connection with the movable plate 15; the movable plate 15 is fixedly provided with a driving seat; the driving seat is provided with a second motor 16; the second motor 16 is provided with a third screw 17; the third screw 17 is in threaded connection with a mounting seat 18; the mounting seat 18 is in sliding connection with the movable plate 15; the hydraulic pump 2 is fixedly installed on the installation seat 18; the motor I14 is used for driving the screw II 13 to rotate, and the screw II 13 realizes synchronous rotation through belt transmission; the screw rod II 13 drives the movable plate 15, the mounting seat 18 and the hydraulic pump 2 to move up and down through threads, so that the height of the hydraulic pump 2 is changed, the hydraulic pump 2 is convenient to maintain, the height of the hydraulic pump 2 is improved, and the punch 4 is convenient to maintain; the second motor 16 is used for controlling the third screw 17 to rotate, the third screw 17 drives the mounting seat 18 to move along the movable plate 15 through threads, so that the hydraulic pump 2 can move in the length direction of the pipe, and punching is performed according to requirements;

the workbench 1 is provided with a chute; the workbench 1 is provided with a motor III 19; the motor III 19 is provided with a screw IV 20 in the chute; the fourth screw 20 is in threaded connection with the pushing block 3, and the motor is accommodated and rotated through the fourth screw 20, so that the pushing block 3 is driven to linearly move; the pushing block 3 is connected with the chute in a sliding way;

the recovery box 5 is fixedly connected with the workbench 1; the recovery box 5 is provided with a receiving port; a rotatable rotating plate 6 is arranged in the receiving port; one side of the rotating plate 6 is provided with a limiting plate I7; the recovery box 5 is used for recovering waste materials generated by punching; the rotary plate 6 is used for placing the pipe, and the first limiting plate 7 butts against one end of the pipe; the bottom of the workbench 1 is fixedly provided with a motor IV 22; the rotating plate 6 is fixedly provided with a rotating shaft; the rotating shaft is rotationally connected with the recovery box 5; the motor IV 22 is connected with the rotating shaft; the motor IV 22 drives the rotating plate 6 to rotate through the rotating shaft;

the second limiting plate 8, one side of the rotating plate 6 far away from the first limiting plate 7 is provided with the second limiting plate 8 capable of moving linearly; after the limiting plate II 8 moves, the other end of the pipe is propped against, and the pipe is propped against by matching with the limiting plate I7; therefore, after the rotating plate 6 rotates, the pipe cannot fall off from the rotating plate 6, and waste materials in the pipe can fall off along the inclined plane; the rotating plate 6 is fixedly provided with a motor six 28; the rotating plate 6 is rotationally connected with a screw five; the screw five is connected with the limiting plate two 8 through threads; the rotating plate 6 is in sliding connection with the second limiting plate 8; the motor six 28 and the screw five are driven by gears; the motor six 28 drives the screw five to rotate through a pair of meshed spur gears, and the screw five drives the limiting plate two 8 to move along the rotating plate 6 through threads.

Clamping plates 9, wherein clamping plates 9 capable of moving linearly are symmetrically arranged on two sides of the push block 3 on the workbench 1; the clamping plate 9 is provided with a groove; the groove is rotationally connected with a first screw rod 10; the clamping plates 9 are used for clamping two ends of the pipe; the workbench 1 is symmetrically and fixedly provided with an electric telescopic rod I21; the first electric telescopic rod 21 is fixedly connected with one clamping plate 9 respectively; the first electric telescopic rod 21 is used for driving the clamping plate 9 to move linearly;

the limiting blocks 11 are connected with the grooves in a sliding mode; the limiting block 11 is in threaded connection with the first screw rod 10;

before punching, the first screw rod 10 is rotated, the first screw rod 10 drives the limiting block 11 to move through threads, and the distance between the limiting block 11 and the punch 4 is adjusted, so that after the pipe is pushed by the pushing block 3, the limiting block 11 and the pushing block 3 can prop against two sides of the pipe, and at the moment, the position of the limiting block 11 determines the position of the punch 4 relative to the width direction of the pipe; after adjustment, placing the pipe between the clamping plate 9 and the pushing block 3, driving the clamping plate 9 to move, aligning two sides of the pipe, driving the pushing block 3 to move, and driving the pipe by the pushing block 3 to stop at the limiting block 11; then driving the hydraulic pump 2 to move, and punching holes on the pipe by the punch 4 according to requirements;

after the punching is finished, the punched pipe can be placed on the rotating plate 6 manually or by means of mechanical driving components such as a robot and the like, and the limiting plate II 8 is driven to move; the second limiting plate 8 is matched with the first limiting plate 7 to support the pipe; then the rotary plate 6 is driven to rotate, the pipe is clamped and cannot fall off from the rotary plate 6, and waste materials generated by punching inside the pipe fall off to the recovery box 5 along the inclined plane.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (8)

1. An aluminum material press forming apparatus, comprising:

a workbench (1) provided with a hydraulic pump (2) and a push block (3) which can move along a straight line; the hydraulic pump (2) is provided with a punch (4); the pushing block (3) is perpendicular to the moving direction of the hydraulic pump (2);

the recovery box (5) is fixedly connected with the workbench (1); the recovery box (5) is provided with a receiving port; a rotatable rotating plate (6) is arranged in the receiving port; one side of the rotating plate (6) is provided with a first limiting plate (7);

the second limiting plate (8) is arranged on one side, away from the first limiting plate (7), of the rotating plate (6), and the second limiting plate (8) capable of moving linearly is arranged on one side;

the clamping plates (9) are symmetrically arranged on two sides of the pushing block (3) of the workbench (1), and the clamping plates (9) capable of moving linearly are arranged on the two sides of the pushing block; the clamping plate (9) is provided with a groove; the groove is rotationally connected with a first screw rod (10);

the limiting blocks (11) are connected with the grooves in a sliding mode; the limiting block (11) is in threaded connection with the first screw rod (10).

2. The aluminum product press forming apparatus according to claim 1, characterized in that the table (1) is symmetrically provided with screw seats (12); the screw bases (12) are respectively and rotatably connected with a screw II (13); the second screw rod (13) is driven by a belt; one screw seat (12) is provided with a motor I (14); the motor I (14) is connected with the screw II (13); the second screw rods (13) are in threaded connection with the movable plate (15); the movable plate (15) is fixedly provided with a driving seat; the driving seat is provided with a motor II (16); the second motor (16) is provided with a third screw rod (17); the screw rod III (17) is in threaded connection with a mounting seat (18); the mounting seat (18) is in sliding connection with the movable plate (15); the hydraulic pump (2) is fixedly arranged on the mounting seat (18).

3. The aluminum material press forming apparatus according to claim 2, wherein the table (1) is provided with a chute; the workbench (1) is provided with a motor III (19); the motor III (19) is provided with a screw IV (20) in the chute; the fourth screw rod (20) is in threaded connection with the pushing block (3); the pushing block (3) is in sliding connection with the sliding groove; the workbench (1) is symmetrically and fixedly provided with an electric telescopic rod I (21); the first electric telescopic rod (21) is fixedly connected with one clamping plate (9) respectively.

4. An aluminum product stamping forming apparatus as claimed in claim 3, characterized in that the bottom of the table (1) is fixedly provided with a motor IV (22); the rotating plate (6) is fixedly provided with a rotating shaft; the rotating shaft is rotationally connected with the recovery box (5); and the motor IV (22) is connected with the rotating shaft.

5. The aluminum product press forming apparatus according to claim 4, wherein the side of the table (1) close to the recovery tank (5) is provided with an electric telescopic rod two (23); and the second electric telescopic rod (23) is provided with a vacuum sucker (24).

6. The aluminum product stamping forming apparatus as claimed in claim 5, characterized in that a motor five is fixedly installed on one side of the workbench (1) close to the recovery tank (5); and the motor five is fixedly provided with a rubber wheel (25).

7. The aluminum stamping forming device according to claim 1, wherein a cover plate (26) is fixedly arranged at the upper ends of the first limiting plate (7) and the movable block; the first limiting plate (7) is provided with a through hole (27).

8. The aluminum material press forming apparatus according to claim 1, wherein the rotary plate (6) is fixedly mounted with a motor six (28); the rotating plate (6) is rotationally connected with a screw rod five; the screw five is connected with the limiting plate two (8) through threads; the rotating plate (6) is in sliding connection with the limiting plate II (8); and the motor six (28) and the screw five are in gear transmission.