CN216065351U - One-step forming machine for aluminum alloy clothes hanger - Google Patents

Abstract

The utility model discloses a one-step forming machine for an aluminum alloy clothes hanger, which comprises a main plate and an auxiliary plate, wherein a connecting plate interval is arranged between the main plate and the auxiliary plate, and an auxiliary feeding mechanism capable of conveying metal wires, a cutting mechanism for cutting the metal wires, a hook head forming mechanism for bending one end of each metal wire into a hook head shape, a main body forming mechanism for bending two ends of each metal wire into a triangular shape and a metal end winding mechanism for fixing the two ends of each metal wire in a rotating manner are arranged on the main plate/the auxiliary plate. Compared with the prior art, the utility model has the advantages that the production of the winding type metal wire clothes rack with the hook can be completed at one time, welding is not needed, the product quality and the strength are ensured, the potential safety hazard in the production process is reduced, the forming plate is driven to be synchronously formed at one time through the pair of gear turntables, the production speed is improved, the symmetry of the clothes rack is ensured, the hook head forming mechanism is used for enabling the product to be provided with the hooks with uniform shapes, the upper end of the product is firmly wound through the winding motor, and the integral strength and the product quality of the product are improved.

Description

One-step forming machine for aluminum alloy clothes hanger

Technical Field

The utility model relates to the technical field of clothes hanger forming machines, in particular to a one-step forming machine for aluminum alloy clothes hangers, and relates to a metal clothes hanger with a hook.

Background

The clothes hanger is a common daily use product in life, and is generally formed by cutting wood, bending metal wires, forming metal dies, forming plastic dies and other forming modes, wherein the metal wires are bent and formed more commonly, the manufacturing mode is high in speed, forming work can be completed at normal temperature, the process is simple, the cost is lower, the yield is high, the product strength is high, the quality is easy to control, so that the metal wire clothes hanger is selected as a main product in a plurality of production directions, a clothes hanger forming machine is generally used in the production process, the special lichen hanger one-step forming machine can be used for quickly completing the production process of the clothes hanger from the metal wires as raw materials to the clothes hanger at one time, the main processes comprise cutting, hooking, bending and winding, and the processes are met on one clothes hanger one-step forming machine.

Some patents, as granted under publication No. CNCN211437925U, provide a clothes hanger forming machine, wherein there are no hook process, no winding process, weak strength of product caused by welding hook head, poor quality of product, and equipment not belonging to one-step forming machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a one-step forming machine for an aluminum alloy clothes hanger with a hook, which can be processed and formed at one time.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the one-step forming machine for the aluminum alloy clothes hanger comprises a main board and an auxiliary board, wherein a connecting board interval is arranged between the main board and the auxiliary board, and is characterized in that an auxiliary feeding mechanism capable of conveying metal wires, a cutting mechanism for cutting off the metal wires, a hook head forming mechanism with one end of each bent metal wire in a hook head shape, a main body forming mechanism with two ends of each bent metal wire in a triangular shape, and a metal end winding mechanism for fixing the two ends of each metal wire in a revolving manner are arranged on the main body forming mechanism, the auxiliary feeding mechanism and the cutting mechanism are arranged on the left side/right side of the main body forming mechanism, the hook head forming mechanism is arranged on the right side/left side of the main body forming mechanism, the metal end winding mechanism is arranged right above the main body forming mechanism,

the main body forming mechanism comprises a first driving gear and a second driving gear which are connected in a meshed mode, the first driving gear is connected with a first driven gear in a meshed mode, the second driving gear is connected with a second driven gear in a meshed mode, rotary tables are installed at axial positions of the first driven gear and the second driven gear, a forming plate is fixed to the front wall face of each rotary table in an axial direction, the forming plate is in a horizontal arrangement in an initial state, a lower cushion plate which is arranged horizontally is arranged on the front wall face of the main plate, a triangular plate is arranged right above the middle position between the first driving gear and the second driving gear, two circular cushion columns are arranged below the left side and the right side of the triangular plate, and the two circular cushion columns are located above the lower cushion plate;

the hook head forming mechanism comprises a guide ring provided with a guide opening, an electric rotating wheel arranged in the guide ring and an auxiliary rotating wheel arranged at the guide opening of the guide ring, wherein the guide opening is arranged towards one side of the main body forming mechanism;

the metal end winding mechanism comprises a winding motor fixed on the main board and a pair of winding clamping plates which are controlled by the winding motor to rotate longitudinally;

the lower backing plate, the triangular plate, the two circular cushion columns, the guide ring, the electric rotating wheel and the auxiliary rotating wheel can stretch back and forth relative to the main plate.

Furthermore, a forming motor capable of controlling the rotation of the first driving gear/the second driving gear is arranged on the main board.

Furthermore, the first driving gear, the second driving gear, the first driven gear and/or the second driven gear are/is installed in the main board.

Furthermore, shutdown mechanism includes fixed dog, cutting off cutter to and the cutting off pneumatic cylinder that controls the cutting off cutter and reciprocate, fixed dog all fixes the antetheca face and the upper and lower distribution at the mainboard with the cutting off pneumatic cylinder.

Furthermore, a supporting seat capable of suspending the main board is fixed below the main board, and a material outlet box is installed below the main board and the auxiliary board.

Furthermore, a first cylinder is fixedly mounted on the auxiliary plate, a shaping plate is fixedly mounted at a driving end of the first cylinder, the lower cushion plate is fixed on the rear wall surface of the shaping plate, and the two circular cushion columns are also fixed on the rear wall surface of the shaping plate.

Furthermore, a third cylinder is fixedly mounted on the auxiliary plate, and the third cylinder controls the extension of the guide ring, the electric rotating wheel and the auxiliary rotating wheel.

Furthermore, a pair of electric rotary drums is arranged between the main body forming mechanism and the hook head forming mechanism, a second air cylinder is fixedly mounted on the auxiliary plate, and the second air cylinder controls the electric rotary drums to stretch and retract.

Further, fixed mounting has a fourth cylinder on the subplate, fourth cylinder drive end fixed mounting has a motor guide rail, slidable mounting has linear electric motor on the motor guide rail, the set-square is fixed linear electric motor is last, just the set-square is located linear electric motor's rear.

Furthermore, two obtuse angle edges of set-square respectively fixed mounting have the deflector, the deflector is right angled triangle and two deflector hypotenuses opposite direction.

Compared with the prior art, the utility model has the advantages that the raw material metal wire can be formed into the whole clothes hanger at one time, the production of the winding type metal wire clothes hanger with the hook is completed at one time through the processes of hooking, forming, winding and the like, welding is not needed, the product quality and the strength are ensured, the potential safety hazard of manual operation and the traditional production welding process in the production process is reduced, the forming plate is driven to be synchronously formed at one time through the pair of gear turntables, the production speed is improved, the symmetry of the clothes hanger is ensured, the product is provided with the hooks with uniform shapes, the upper end of the product is firmly wound through the winding motor, the integral strength of the product is improved, and the product quality is improved.

Drawings

The present invention will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of illustrating the preferred embodiments and therefore should not be taken as limiting the scope of the utility model, and further that, unless otherwise indicated, the drawings are only schematic in nature and represent compositions or configurations of the described objects and may contain exaggerated displays, and that the drawings are not necessarily drawn to scale.

FIG. 1 is a front view schematic diagram of a hanger forming machine;

FIG. 2 is a side view schematic of a hanger forming machine;

FIG. 3 is a front sectional view of the clothes hanger forming machine;

FIG. 4 is a rear sectional view of the clothes hanger forming machine;

FIG. 5 is a side sectional schematic view of a hanger forming machine;

FIG. 6 is a side sectional structural view of the hanger forming machine;

FIG. 7 is a side sectional structural view of the hanger forming machine;

in the figure: 1. a main board; 001. an auxiliary feeding mechanism; 2. a motor mounting plate; 3. molding the motor; 4. a first drive gear; 5. a second driving gear; 6. a first driven gear; 7. a second driven gear; 8a, a first rotating disc, 8b and a second rotating disc; 9. forming a plate; 10. winding a motor; 11. winding a clamping plate; 12. fixing a stop block; 13. cutting off the hydraulic cylinder; 14. a cutting knife; 15. a supporting seat; 16. discharging the material box; 17. a connecting plate; 18. a sub-board; 19. a material guide frame; 20. a first cylinder; 21. shaping plates; 22. a lower base plate; 23. a circular pad post; 24. a second cylinder; 25. an electric drum; 26. a third cylinder; 27. an electric runner; 28. a guide ring; 29. an auxiliary runner; 30. a fourth cylinder; 31. a linear motor; 32. a set square; 33. a guide plate.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, and those skilled in the art will appreciate that the descriptions are illustrative only, exemplary and should not be construed as limiting the scope of the present invention.

It should be noted that: like reference numerals refer to like items in the following figures, and thus, once an item is defined in one figure, it may not be further defined and explained in subsequent figures.

The clothes hanger is a common daily use product in life, and is generally formed by cutting wood, bending metal wires, forming metal dies, forming plastic dies and other forming modes, wherein the metal wires are bent and formed more commonly, the manufacturing mode is high in speed, forming work can be completed at normal temperature, the process is simple, the cost is lower, the yield is high, the product strength is high, the quality is easy to control, so that the metal wire clothes hanger is selected as a main product in a plurality of production directions, a clothes hanger forming machine is generally used in the production process, the special lichen hanger one-step forming machine can be used for quickly completing the production process of the clothes hanger from the metal wires as raw materials to the clothes hanger at one time, the main processes comprise cutting, hooking, bending and winding, and the processes are met on one clothes hanger one-step forming machine.

In part of clothes rack forming machines, a hook-free technological process and a winding technological process exist, the insecure strength of products caused by welding hook heads is low, a hook body and a clothes rack body do not belong to the same section of metal wire, the product quality is poor, and equipment does not belong to the technical problem of a one-step forming machine.

The embodiment mainly explains the aluminum alloy clothes rack capable of molding the metal clothes rack with the hook in one step by using a one-step molding machine, which comprises the following specific steps:

as shown in fig. 1 to 7, the one-step forming machine for the aluminum alloy clothes hanger comprises a main board 1, wherein a connecting plate 17 is fixed on the front wall surface of the main board 1, a secondary board 18 is fixed on the front wall surface of the connecting plate 17, and the connecting plate 17 is arranged between the main board 1 and the secondary board 18 at intervals, so that a space is formed between the main board 1 and the secondary board 18.

Install supplementary feed mechanism 001 on mainboard 1/subplate 18, shutdown mechanism, gib head forming mechanism, main part forming mechanism and metal end coiling mechanism, supplementary feed mechanism 001 can carry the wire to get into, shutdown mechanism is used for cutting off the wire, make supplementary feed mechanism 001 carry to gib head forming mechanism at every turn, the wire length of main part forming mechanism and metal end coiling mechanism keeps unanimous basically, gib head forming mechanism bends the one end that the wire wore out supplementary feed mechanism 001 earlier, make this end of wire be the gib head form, main part forming mechanism rolls over the both ends of a metal wire and makes its triangle structure that becomes the clothes hanger main part, and metal end coiling mechanism rotates the both ends of wire and twines fixedly.

In this embodiment, the main body forming mechanism is used as a position reference, the auxiliary feeding mechanism 001 and the cutting mechanism are both located on the right side of the main body forming mechanism, the auxiliary feeding mechanism 001 is located between the cutting mechanism and the main body forming mechanism, the auxiliary feeding mechanism 001 is relatively close to the cutting mechanism, the hook head forming mechanism is located on the left side of the main body forming mechanism, the metal end winding mechanism is located right above the main body forming mechanism, in order to avoid disorder of the metal wires which need to continue to convey the feeding materials after the metal wires are cut, the main feeding mechanism may be additionally arranged on the right side of the cutting mechanism, and preferably, the main feeding mechanism and the auxiliary feeding mechanism 001 are both a pair of relatively rotating rollers.

The gib head forming mechanism comprises a guide ring 28, an electric rotating wheel 27 and an auxiliary rotating wheel 29, a guide opening is formed in one side, facing the main body forming mechanism, of the guide ring 28, the auxiliary rotating wheel 29 is arranged above the guide opening, the electric rotating wheel 27 is arranged in the guide ring 28, a pair of electric rotating drums 25 are arranged between the gib head forming mechanism and the main body forming mechanism, the main feeding mechanism, the auxiliary feeding mechanism 001 and the pair of electric rotating drums 25 are used for conveying metal wires in a rotating mode, preferably, the front ends of the metal wires sequentially penetrate through the main feeding mechanism, the cutting mechanism, the auxiliary feeding mechanism 001, the main body forming mechanism and the pair of electric rotating drums 25, and finally the front ends of the metal wires enter the gib head forming mechanism.

The front end of the metal wire is inserted into the guide opening of the guide ring 28, at the moment, the cutting mechanism cuts off the metal wire, so that the metal wire of the main feeding mechanism is separated from the metal wire of the auxiliary feeding mechanism 001, the electric rotating wheel 27 rotates to work, the front end of the metal wire is rotated into the guide ring 28, the front end of the metal wire is positioned between the guide ring 28 and the electric rotating wheel 27 and bent to be in a hook head shape, and the rear end of the metal wire is separated from the auxiliary feeding mechanism 001.

A second cylinder 24 and a third cylinder 26 are respectively fixed on the auxiliary plate 18, after the front end of the metal wire is bent to be in a hook shape, the second cylinder 24 controls the electric rotary drum 25 to extend back and forth relative to the main plate 1, and the third cylinder 26 controls the guide ring 28, the electric rotary wheel 27 and the auxiliary rotary wheel 29 to extend back and forth relative to the main plate 1.

The cutting mechanism comprises a fixed stop block 12, a cutting knife 14 and a cutting hydraulic cylinder 13 for controlling the cutting knife 14 to move up and down, the fixed stop block 12 and the cutting hydraulic cylinder 13 are fixed on the front wall surface of the main board 1 and distributed up and down, a knife groove is formed in the fixed stop block 12, the cutting hydraulic cylinder 13 can control the knife head of the cutting knife 14 to be inserted into the knife groove, and the cutting knife 14 can be inserted into the knife groove to cut the metal wire.

Main part forming mechanism is including locating first driving gear 4 and second driving gear 5 in mainboard 1, and first driving gear 4 is connected with the meshing of second driving gear 5, be equipped with forming motor 3 in the mainboard 1, in this embodiment, the first driving gear 4 of driving end fixed connection of forming motor 3, and forming motor 3 drives first driving gear 4 anticlockwise/clockwise rotation, wall around the perpendicular mainboard 1 of rotation axle center of first driving gear 4 and second driving gear 5, preferably, be equipped with the motor groove in the mainboard 1, be equipped with the motor mounting panel 2 of inserting the installation in the motor groove, forming motor 3 fixes on motor mounting panel 2, forming motor 3 locates the rear of first driving gear 4.

When the forming motor 3 drives the first driving gear 4 to rotate forwards, the second driving gear 5 and the first driven gear 6 rotate backwards, and the second driven gear 7 rotates forwards, in order to ensure the stability in operation and reduce the difficulty of matching accessories, the axes of the four gears are positioned on the same plane and are parallel, the first driving gear 4 and the second driving gear 5 have the same size, the same rotating speed and opposite rotating directions; the first driven gear 6 and the second driven gear 7 have the same size, the same rotating speed and opposite rotating directions.

First driven gear 6 is connected in the meshing of first driving gear 4 in the mainboard 1, second driven gear 7 is connected in the meshing of second driving gear 5, and equal fixed mounting has the carousel on the preceding wall of first driven gear 6 and the 7 axial position of second driven gear, be fixed with shaping board 9 on the axial preceding wall of carousel, preferably, the size of two carousels is the same, but the direction of rotation is opposite, shaping board 9 on the carousel is located between mainboard 1 and the subplate 18, and initial condition, shaping board 9 is the level setting.

Wherein carousel 8a and first driven gear 6 fixed connection, carousel two 8b and second driven gear 7 fixed connection, fixed mounting has first cylinder 20 on the subplate 18, the drive end fixed mounting of first cylinder 20 has shaping plate 21, and be fixed with lower bolster 22 and two circular pad posts 23 on the rear wall of shaping plate 21, lower bolster 22 level sets up, first cylinder 20 can control shaping plate 21 and stretch out and draw back around relative mainboard 1 of lower bolster 22 and two circular pad posts 23, preferred, initial condition, on carousel 8a and carousel two 8b, shaping plate 9 is on a parallel with lower bolster 22.

In the front view, the first driving gear 4 is located on the right side of the second driving gear 5, that is, in the rear view, the first driving gear 4 is located on the left side of the second driving gear 5, the forming plate 9 on the first rotating disk 8a is located on the right side of the lower backing plate 22, the forming plate 9 on the second rotating disk 8b is located on the left side of the lower backing plate 22, the two circular spacers 23 are located between the two forming plates 9, and the two circular spacers 23 are located above the lower backing plate 22 and the two forming plates 9, preferably, the axes of the two circular spacers 23 are located on the same plane, the plane is parallel to the lower backing plate 22 and the forming plate 9 in the initial state, and the metal wires fed through the main feeding mechanism and the auxiliary feeding mechanism 001 are located between the two circular spacers 23 and the lower backing plate 22, that is, the metal wires are located between the two circular spacers 23 and the two forming plates 9.

Preferably, the upper end surfaces of the two contoured plates 9 that contact the wires are flush with the upper end surfaces of the wires of the lower backing plate 22.

The auxiliary plate 18 is fixedly provided with a fourth cylinder 30, a motor guide rail is fixedly arranged at the driving end of the fourth cylinder 30, a linear motor 31 is arranged on the motor guide rail in a sliding mode, the linear motor 31 can move up and down on the motor guide rail, a triangular plate 32 is fixed behind the linear motor 31, the triangular plate 32 is located between the main plate 1 and the auxiliary plate 18, the fourth cylinder 30 can control the triangular plate 32 to stretch out and draw back relative to the main plate 1, preferably, the triangular plate 32 extends out, and the triangular plate 32 is located right above the middle position of the two circular main bodies.

The guiding plates 33 are fixedly mounted on two obtuse edges of the triangle 32, preferably, the guiding plates 33 are right-angled triangles, and the directions of the oblique edges of the two guiding plates 33 are opposite.

After the hook head at the front end of the metal wire is formed, the second cylinder 24 controls the electric rotary drum 25 to retract relative to the main board 1, the third cylinder 26 controls the guide ring 28, the electric rotary wheel 27 and the auxiliary rotary wheel 29 to retract relative to the main board 1, in the front view direction, the forming motor 3 controls the first driving gear 4 to rotate clockwise, the first driven gear 6 and the first rotary disk 8a to rotate anticlockwise, the second driven gear 7 and the second rotary disk 8b to rotate clockwise, the forming plate 9 on the first rotary disk 8a or the second rotary disk 8b pushes the metal wire at one side to be attached to the circular pad column 23 to be lifted and pressed to the obtuse edge at one side of the triangular plate 32, and the two guide plates 33 on the triangular plate 32 enable the two ends of the metal wire to be connected in an overlapping mode, preferably, the length of the front end of the metal wire is larger than the length of the rear end of the metal wire.

The metal end winding mechanism comprises a winding motor 10 and a pair of winding clamping plates 11, the winding motor 10 is fixed on the front wall surface of the main board 1, the winding motor 10 can control the winding clamping plates 11 to rotate longitudinally, namely, the rotation direction of the winding clamping plates 11 is perpendicular to the lower backing plate 22, preferably, the winding clamping plates 11 are narrow in center and wide in two sides, and two sections of formed metal wires can be conveniently lapped and enter.

The metal wire is bent under the action of the forming plate 9 on the first rotating disc 8a and the second rotating disc 8b, the front end and the rear end of the metal wire are attached to the winding clamping plate 11 one above the other, the winding motor 10 rotates to control the winding clamping plate 11 to rotate, the front end and the rear end of the metal wire are wound and fixed, the neck of the clothes hanger is machined and formed, and preferably, the front end of the metal wire is higher than the rear end of the metal wire.

After that, the linear motor 31 moves downwards after the forming, the first cylinder 20 controls the lower backing plate 22 and the circular backing column 23 to retract, and the fourth cylinder 30 controls the triangular plate 32 to retract, so that the integrally formed clothes hanger falls off.

Mainboard 1 below is fixed with the supporting seat that can unsettled mainboard 1, and mainboard 1 and subplate 18's below installs out magazine 16, and is equipped with a pair of guide frame 19 that is used for the guide between mainboard 1 and subplate 18, and guide frame 19 upper end is uncovered structure, and the fashioned clothes hanger of being convenient for can drop to ejection of compact box 16 in, preferred, ejection of compact box 16 can the pull get and put.

In conclusion, the specific processing process of the clothes hanger is as follows, a metal wire is fed from the right side, the metal wire sequentially passes through the main feeding mechanism, the cutting mechanism, the auxiliary feeding mechanism 001, the main body forming mechanism, the electric rotary drum 25 and the hook head forming mechanism, is straightened between the left side forming plate 9 and the left side electric rotary drum 25, the front end of the metal wire is fed between the auxiliary rotary wheel 29 and the guide ring 28, the cutting hydraulic cylinder 13 drives the cutting knife 14 to cut off the metal wire, the metal wire positioned in the main feeding mechanism stops conveying, the electric rotary wheel 27 rotates anticlockwise to bend the front end of the metal wire in the guide ring 28, the head of the clothes hanger is formed, the electric rotary drum 25 is controlled by the second air cylinder 24 to retract relative to the main plate 1, the guide ring 28, the electric rotary wheel 27 and the auxiliary rotary wheel 29 are controlled by the third air cylinder 26 to retract relative to the main plate 1, then the forming motor 3 drives the rotary disc one 8a and the rotary disc two 8b to rotate relative to each other, the forming plate 9 turns and folds metal wires on two sides of the circular cushion column 23 by taking the circular cushion column 23 as a circle center, the metal wires are tightly pressed on the triangular plate 32, two ends of the metal wires are lapped and enter the winding clamping plate 11, the winding clamping plate 11 is controlled by the winding motor 10 to rotate, the metal wires are wound into a hanger neck and a triangular main body in two sections in the clamping plate, then the triangular plate 32 moves downwards, the first air cylinder 20 controls the lower cushion plate 22 and the circular cushion column 23 to retract, the fourth air cylinder 30 controls the triangular plate 32 to retract, the hanger is not supported by the lower cushion plate 22 and falls into the material outlet box 16 by means of self gravity, then all parts reset, the metal wires are fed again, and new hanger processing is carried out.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "inner", "outer", and the like refer to the orientation or positional relationship shown in the drawings, or the orientation or positional relationship which the products of the present invention usually put in use, are only for convenience of describing the present invention and simplifying the description, but do not refer to or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

The present invention provides an aluminum alloy clothes hanger, which is described in detail above, and the principle and the implementation of the present invention are illustrated herein by using specific examples, and the above description of the examples is only for the purpose of helping understanding the present invention and the core idea, it should be noted that, for those skilled in the art, the present invention can be modified and modified without departing from the principle of the present invention, and the modified and modified embodiments also fall within the protection scope of the claims of the present invention.

Claims (10)

1. The one-step forming machine for the aluminum alloy clothes hanger comprises a main board and an auxiliary board, wherein a connecting board interval is arranged between the main board and the auxiliary board, and is characterized in that an auxiliary feeding mechanism capable of conveying metal wires, a cutting mechanism for cutting off the metal wires, a hook head forming mechanism with one end of each bent metal wire in a hook head shape, a main body forming mechanism with two ends of each bent metal wire in a triangular shape, and a metal end winding mechanism for fixing the two ends of each metal wire in a revolving manner are arranged on the main body forming mechanism, the auxiliary feeding mechanism and the cutting mechanism are arranged on the left side/right side of the main body forming mechanism, the hook head forming mechanism is arranged on the right side/left side of the main body forming mechanism, the metal end winding mechanism is arranged right above the main body forming mechanism,

the main body forming mechanism comprises a first driving gear and a second driving gear which are connected in a meshed mode, the first driving gear is connected with a first driven gear in a meshed mode, the second driving gear is connected with a second driven gear in a meshed mode, rotary tables are installed at axial positions of the first driven gear and the second driven gear, a forming plate is fixed to the front wall face of each rotary table in an axial direction, the forming plate is in a horizontal arrangement in an initial state, a lower cushion plate which is arranged horizontally is arranged on the front wall face of the main plate, a triangular plate is arranged right above the middle position between the first driving gear and the second driving gear, two circular cushion columns are arranged below the left side and the right side of the triangular plate, and the two circular cushion columns are located above the lower cushion plate;

the hook head forming mechanism comprises a guide ring provided with a guide opening, an electric rotating wheel arranged in the guide ring and an auxiliary rotating wheel arranged at the guide opening of the guide ring, wherein the guide opening is arranged towards one side of the main body forming mechanism;

the metal end winding mechanism comprises a winding motor fixed on the main board and a pair of winding clamping plates which are controlled by the winding motor to rotate longitudinally;

the lower backing plate, the triangular plate, the two circular cushion columns, the guide ring, the electric rotating wheel and the auxiliary rotating wheel can stretch back and forth relative to the main plate.

2. The aluminum alloy clothes rack one-time forming machine according to claim 1, wherein the main plate is provided with a forming motor capable of controlling the rotation of the first driving gear/the second driving gear.

3. The aluminum alloy clothes rack one-time forming machine according to claim 1, wherein the first driving gear, the second driving gear, the first driven gear and/or the second driven gear are installed in the main plate.

4. The aluminum alloy clothes rack one-time forming machine according to claim 1, wherein the cutting mechanism comprises a fixed stop, a cutting knife, and a cutting hydraulic cylinder for controlling the cutting knife to move up and down, and the fixed stop and the cutting hydraulic cylinder are fixed on the front wall surface of the main plate and distributed up and down.

5. The aluminum alloy clothes rack one-time forming machine according to claim 1, wherein a support base capable of suspending the main plate is fixed below the main plate, and a discharging box is installed below the main plate and the auxiliary plate.

6. The aluminum alloy clothes rack one-time forming machine according to claim 1, wherein the auxiliary plate is fixedly provided with a first cylinder, the driving end of the first cylinder is fixedly provided with a shaping plate, the lower backing plate is fixed on the rear wall surface of the shaping plate, and the two circular backing columns are also fixed on the rear wall surface of the shaping plate.

7. The aluminum alloy clothes rack one-time forming machine according to claim 1, wherein a third cylinder is fixedly installed on the auxiliary plate, and the third cylinder controls the extension and retraction of the guide ring, the electric rotating wheel and the auxiliary rotating wheel.

8. The aluminum alloy clothes rack one-time forming machine according to claim 1, wherein a pair of electric rotating drums is provided between the main body forming mechanism and the hook head forming mechanism, and a second air cylinder is fixedly installed on the auxiliary plate and controls the electric rotating drums to extend and retract.

9. The aluminum alloy clothes rack one-time forming machine according to claim 1, wherein a fourth cylinder is fixedly installed on the auxiliary plate, a motor guide rail is fixedly installed at a driving end of the fourth cylinder, a linear motor is slidably installed on the motor guide rail, the triangular plate is fixed on the linear motor, and the triangular plate is located behind the linear motor.

10. The aluminum alloy clothes rack one-time forming machine according to claim 9, wherein guide plates are fixedly installed on two obtuse-angle sides of the triangular plate respectively, the guide plates are in a right-angled triangle shape, and the directions of the oblique sides of the two guide plates are opposite.

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