CN220391606U - Aluminium alloy tectorial membrane equipment - Google Patents

Abstract

The utility model discloses aluminum profile laminating equipment, in particular to the technical field of aluminum profile laminating, which comprises a processing table, wherein a chute is formed in the top of the processing table, an aluminum profile to be laminated is placed in the chute, a through groove is formed in the top of the processing table, a laminating component for laminating the surface of the aluminum profile is arranged in the through groove, a connecting plate is fixedly arranged at the bottom of the processing table, the laminating component comprises a first annular plate, and two first supporting plates which are distributed front and back are fixedly arranged on one side of the first annular plate. According to the utility model, the second annular plate is driven to rotate by the two rotating assemblies, the first annular plate is driven to rotate in the through groove, meanwhile, the first motor is used for driving the roller to drive the charging barrel to rotate, so that the film is rotated to be wound on the surface of the aluminum profile, a worker always pushes the aluminum profile, and the rotating first annular plate is used for driving the charging barrel to rotate, so that continuous film coating of the aluminum profile is realized, the film coating range is wide, the structure is simple, and the film coating efficiency of the aluminum profile is greatly improved.

Description

Aluminium alloy tectorial membrane equipment

Technical Field

The utility model relates to the technical field of aluminum material coating, in particular to aluminum profile coating equipment.

Background

After the aluminum profile aluminum oxidation processing process is finished, when a finished product is manufactured, a film coating device is required to be used for packaging the product, so that a certain identification and packaging protection effect are achieved, and damage such as scratches generated in the transportation process of the aluminum profile is avoided.

However, the common laminating device on the market is inconvenient to laminate aluminum profiles with different sizes and is inconvenient to compact the protective film. Therefore, the utility model discloses an aluminum profile laminating device with the publication number of CN217671076U, which comprises a base, wherein a support is arranged on the base, the support is in an inverted U-shaped structure, an adjustable pressing laminating mechanism is arranged under the support, a conveying table is arranged on the base, a conveying direction limiting mechanism is arranged on the conveying table, so that aluminum profiles with different sizes can be conveniently limited and conveyed, and meanwhile, the aluminum profile laminating device for compacting and laminating the aluminum profiles with different sizes is provided.

However, the above prior art has the following problems when in use: above-mentioned aluminium alloy tectorial membrane device when carrying out the tectorial membrane to the aluminium alloy, after the position that needs the staff frequently to switch the aluminium alloy, just can all cover the membrane with the outer wall all around of aluminium alloy and protect, because the aluminium alloy still receives the fixation of anchor clamps when the tectorial membrane, consequently need consume a large amount of time when adjusting the aluminium alloy position, lead to work efficiency low.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides the aluminum profile laminating equipment, the second annular plate is driven to rotate through the two rotating assemblies to drive the first annular plate to rotate in the through groove, meanwhile, the first motor is used for driving the roller to drive the charging barrel to rotate, so that the film is wound on the surface of the aluminum profile in a rotating way, a worker always pushes the aluminum profile, and the rotating first annular plate is used for driving the charging barrel to rotate, thereby realizing continuous lamination of the aluminum profile, having large laminating range and simple structure, greatly improving the laminating efficiency of the aluminum profile, and solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an aluminium alloy tectorial membrane equipment, includes the processing platform, the spout has been seted up to processing platform top, the aluminium alloy of waiting to tectorial membrane has been placed in the spout, the logical groove has been seted up to processing platform top, be equipped with the tectorial membrane subassembly to aluminium alloy surface tectorial membrane in the logical groove, processing platform bottom is fixed to be equipped with the connecting plate, tectorial membrane subassembly includes first annular plate, first annular plate one side is fixed to be equipped with the first backup pad of two front and back distributions, all runs through in two first backup pads and is equipped with the cylinder, first annular plate opposite side is equipped with the second backup pad of two front and back distributions for improve the stability of cylinder when rotatory, all the cover is equipped with the feed cylinder that twines the membrane on two cylinders, two front and back distribution's perforation has been seted up at first annular plate top, first annular plate both sides all are equipped with rotating assembly for drive first annular plate rotates in logical groove.

In a preferred embodiment, a first motor is fixedly arranged on one side of each of the two first support plates, and one end of an output shaft of the two first motors penetrates through the two first support plates and is fixed with the two rollers respectively for driving the rollers to rotate.

In a preferred embodiment, two slots which are vertically symmetrically distributed are formed in the outer walls of the two rollers, cutting bars are slidably arranged in the two slots, the cutting bars are fixed with the inner wall of the charging barrel, and the charging barrel is connected with the rollers by matching the cutting bars with the slots, so that the charging barrel is prevented from rotating along with the rollers.

In a preferred embodiment, the mounting grooves are formed in two sides of the bottom of the processing table, the two rotating assemblies comprise second motors, the two second motors are respectively fixed in the two mounting grooves, and gears are fixedly sleeved on the two second motor output shafts close to one end of each other.

In a preferred embodiment, the two sides of the first ring plate are fixedly provided with second ring plates, the surfaces of the inner walls of the two second ring plates are provided with a plurality of tooth grooves, the gear is meshed with the plurality of tooth grooves on the inner wall of the second ring plate, and the second ring plate is driven to rotate by the gear, so that the first ring plate can rotate in the through groove.

In a preferred embodiment, the inner wall surfaces of the two sides of the through groove are provided with arc grooves, and the second annular plate is arranged in the arc grooves in a sliding manner, so that the stability of the first annular plate in rotation is improved.

In a preferred embodiment, a controller for controlling the first motor and the second motor is fixedly arranged on one side of the top of the processing table, and supporting legs are fixedly arranged at four corners of the bottom of the processing table and used for improving stability of the processing table in use.

The utility model has the technical effects and advantages that:

1. according to the utility model, the second annular plate is driven to rotate by the two rotating assemblies, the first annular plate is driven to rotate in the through groove, meanwhile, the first motor is used for driving the roller to drive the charging barrel to rotate, so that the film is rotated to be wound on the surface of the aluminum profile, a worker always pushes the aluminum profile, and the rotating first annular plate is used for driving the charging barrel to rotate, so that continuous film coating of the aluminum profile is realized, the film coating range is wide, the structure is simple, and the film coating efficiency of the aluminum profile is greatly improved.

2. Through using two second motors to drive two gears rotation respectively, two gears respectively with a plurality of tooth's socket meshing on two second annular plate inner walls when rotatory to the drive second annular plate is rotatory in the arc inslot, drives first annular plate and rotates around the aluminium alloy, does not need manual operation, and it is very convenient to use, and the connecting plate that processing platform bottom set up can link together two processing platforms.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a side plan view of the overall structure of the present utility model;

FIG. 3 is a cross-sectional view of a processing station of the present utility model;

FIG. 4 is a schematic view of a bowl and drum of the present utility model;

FIG. 5 is a cross-sectional view of a processing station of the present utility model;

fig. 6 is a top view of a first ring plate of the present utility model.

The reference numerals are: 1. a processing table; 2. a chute; 3. an aluminum profile; 4. a through groove; 5. a film covering component; 6. a connecting plate; 7. a rotating assembly; 8. a first motor; 9. a slot; 10. cutting; 11. a mounting groove; 12. an arc-shaped groove; 13. a controller;

501. a first annular plate; 502. a first support plate; 503. a roller; 504. a second support plate; 505. a charging barrel; 506. perforating;

701. a second motor; 702. a gear; 703. a second annular plate; 704. tooth slots.

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.

Referring to fig. 1-6 of the specification, the utility model provides an aluminum profile laminating device, which comprises a processing table 1, wherein a chute 2 is formed at the top of the processing table 1, an aluminum profile 3 to be laminated is placed in the chute 2, a through groove 4 is formed at the top of the processing table 1, a laminating component 5 for laminating the surface of the aluminum profile 3 is arranged in the through groove 4, a connecting plate 6 is fixedly arranged at the bottom of the processing table 1, the laminating component 5 comprises a first annular plate 501, two first supporting plates 502 which are distributed front and back are fixedly arranged at one side of the first annular plate 501, rollers 503 are arranged on the two first supporting plates 502 in a penetrating manner, and two second supporting plates 504 which are distributed front and back are arranged at the other side of the first annular plate 501 are used for improving the stability of the rollers 503 during rotation;

the two rollers 503 are respectively sleeved with a material cylinder 505 wound with a film, two perforations 506 which are distributed front and back are formed in the top of the first annular plate 501, rotating assemblies 7 are arranged on two sides of the first annular plate 501 and used for driving the first annular plate 501 to rotate in the through groove 4, a first motor 8 is fixedly arranged on one side of each of the two first supporting plates 502, one ends of output shafts of the two first motors 8 penetrate through the two first supporting plates 502 and are fixed with the two rollers 503 respectively and used for driving the rollers 503 to rotate, two slots 9 which are symmetrically distributed up and down are formed in the outer walls of the two rollers 503, cutting 10 is slidably arranged in each of the two slots 9, the cutting 10 is fixed with the inner wall of the material cylinder 505, the material cylinder 505 is connected with the rollers 503 by matching the cutting 10 with the slots 9, and the material cylinder 505 is prevented from rotating along with the rollers 503;

and the controller 13 for controlling the first motor 8 and the second motor 701 is fixedly arranged on one side of the top of the processing table 1, and supporting legs are fixedly arranged at four corners of the bottom of the processing table 1 and used for improving the stability of the processing table 1 in use.

Through inserting aluminium alloy 3 aiming at spout 2, then pass perforation 506 on the first annular plate 501 with the membrane one end on the feed cylinder 505, and paste the membrane together with aluminium alloy 3 surface, afterwards use two rotating assemblies 7 of controller 13 control to function simultaneously, drive first annular plate 501 and rotate in logical inslot 4, simultaneously use first motor 8 drive cylinder 503 to drive feed cylinder 505 rotation, twine the surface at aluminium alloy 3 with the membrane rotation, utilize 360 rotatory first annular plate 501 to drive feed cylinder 505 rotation, can realize the serialization tectorial membrane to aluminium alloy 3, simple structure, improve the tectorial membrane efficiency to aluminium alloy 3 greatly.

Referring to fig. 1-6 of the specification, the utility model provides an aluminum profile laminating device, two sides of a first annular plate 501 are fixedly provided with second annular plates 703, the inner wall surfaces of the two second annular plates 703 are respectively provided with a plurality of tooth grooves 704, the gear 702 is meshed with the plurality of tooth grooves 704 on the inner wall of the second annular plate 703, the gear 702 is utilized to drive the second annular plate 703 to rotate, so that the first annular plate 501 can rotate in a through groove 4, the inner wall surfaces of two sides of the through groove 4 are respectively provided with an arc groove 12, the second annular plates 703 are slidably arranged in the arc grooves 12, and the stability of the first annular plate 501 in rotation is improved.

Through using two second motors 701 to drive two gears 702 rotation respectively, two gears 702 mesh with a plurality of tooth grooves 704 on the inner wall of two second annular plates 703 respectively when rotatory to drive second annular plates 703 and rotate in arc groove 12, drive first annular plate 501 and do 360 degrees rotations around aluminium alloy 3, do not need manual operation, it is very convenient to use, and the connecting plate 6 that processing platform 1 bottom set up can link together two processing platforms 1.

Finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. The utility model provides an aluminium alloy tectorial membrane equipment, includes processing platform (1), its characterized in that: a chute (2) is formed in the top of the processing table (1), an aluminum profile (3) to be coated is placed in the chute (2), a through groove (4) is formed in the top of the processing table (1), a film coating component (5) for coating the surface of the aluminum profile (3) is arranged in the through groove (4), and a connecting plate (6) is fixedly arranged at the bottom of the processing table (1);

the laminating assembly (5) comprises a first annular plate (501), two first supporting plates (502) which are distributed front and back are fixedly arranged on one side of the first annular plate (501), two first supporting plates (502) are respectively provided with a roller (503) in a penetrating mode, two second supporting plates (504) which are distributed front and back are arranged on the other side of the first annular plate (501) and are used for improving stability of the rollers (503) in rotation, two cylinders (505) which are wound with films are respectively sleeved on the two rollers (503), and two perforated holes (506) which are distributed front and back are formed in the top of the first annular plate (501);

both sides of the first annular plate (501) are provided with rotating assemblies (7) for driving the first annular plate (501) to rotate in the through groove (4).

2. An aluminum profile laminating apparatus according to claim 1, wherein: one side of each of the two first supporting plates (502) is fixedly provided with a first motor (8), and one end of an output shaft of each of the two first motors (8) penetrates through the two first supporting plates (502) and is fixed with the two rollers (503) respectively for driving the rollers (503) to rotate.

3. An aluminum profile laminating apparatus according to claim 1, wherein: two slots (9) which are vertically symmetrically distributed are formed in the outer walls of the two rollers (503), cutting bars (10) are slidably arranged in the two slots (9), and the cutting bars (10) are fixed with the inner wall of the charging barrel (505).

4. An aluminum profile laminating apparatus according to claim 1, wherein: mounting grooves (11) are formed in two sides of the bottom of the machining table (1), two rotating assemblies (7) comprise second motors (701), the two second motors (701) are respectively fixed in the two mounting grooves (11), and gears (702) are fixedly sleeved on the output shafts of the two second motors (701) close to one end of each other.

5. An aluminum profile laminating apparatus according to claim 4, wherein: the two sides of the first annular plate (501) are fixedly provided with second annular plates (703), a plurality of tooth grooves (704) are formed in the inner wall surfaces of the two second annular plates (703), and the gear (702) is meshed with the plurality of tooth grooves (704) on the inner wall of the second annular plate (703) and used for driving the second annular plate (703) to rotate.

6. An aluminum profile laminating apparatus according to claim 5, wherein: the arc grooves (12) are formed in the inner wall surfaces of the two sides of the through groove (4), the second annular plate (703) is arranged in the arc grooves (12) in a sliding mode, and stability of the first annular plate (501) in rotation is improved.

7. An aluminum profile laminating apparatus according to claim 4, wherein: the machining table is characterized in that a controller (13) for controlling the first motor (8) and the second motor (701) is fixedly arranged on one side of the top of the machining table (1), and supporting legs are fixedly arranged at four corners of the bottom of the machining table (1).