阅读说明：本技术 一种铝合金阳极氧化用贴膜装置 (Film pasting device for aluminum alloy anodic oxidation ) 是由 聂子鑫 于 2020-12-22 设计创作，主要内容包括：本发明涉及一种铝合金阳极氧化用贴膜装置,包括工作台和承托板,所述承托板固定设置在工作台的上端面上,所述承托板的正上方设置有贴膜板,且贴膜板的上端面中部固定连接有气缸臂,所述气缸臂的自由上端与驱动气缸的驱动端相连接,且驱动气缸固定设置在支撑架上,所述支撑架固定设置在工作台的上端面上；本发明中增设了抵压机构,抵压机构的设置,通过对膜的抵压,可在贴膜过程中,防止膜发生移动,从面保证贴膜过程的有序进行,同时,抵压机构的结构设计合理,该抵压机构的抵压过程,可随着贴膜过程,有序高效进行,这样可降低设备的操作难度,达到高效率工作的效果,因此在实际的使用过程中,具有更高的市场前景。(The invention relates to a film sticking device for anodic oxidation of aluminum alloy, which comprises a workbench and a bearing plate, wherein the bearing plate is fixedly arranged on the upper end surface of the workbench, a film sticking plate is arranged right above the bearing plate, the middle part of the upper end surface of the film sticking plate is fixedly connected with a cylinder arm, the free upper end of the cylinder arm is connected with the driving end of a driving cylinder, the driving cylinder is fixedly arranged on a support frame, and the support frame is fixedly arranged on the upper end surface of the workbench; the film sticking device is additionally provided with the pressing mechanism, the film can be prevented from moving in the film sticking process by pressing the film, the orderly proceeding of the film sticking process is ensured from the surface, meanwhile, the structural design of the pressing mechanism is reasonable, the pressing process of the pressing mechanism can be orderly and efficiently proceeded along with the film sticking process, so that the operation difficulty of the device can be reduced, the effect of high-efficiency working is achieved, and the film sticking device has higher market prospect in the actual use process.)

1. The film sticking device for aluminum alloy anodic oxidation comprises a workbench (1) and a bearing plate (2), wherein the bearing plate (2) is fixedly arranged on the upper end face of the workbench (1), and is characterized in that a film sticking plate (4) is arranged right above the bearing plate (2), a cylinder arm (5) is fixedly connected to the middle of the upper end face of the film sticking plate (4), the free upper end of the cylinder arm (5) is connected with a driving end of a driving cylinder (6), the driving cylinder (6) is fixedly arranged on a support frame (7), the support frame (7) is fixedly arranged on the upper end face of the workbench (1), a pressing mechanism (8) is arranged on the film sticking plate (4), and the pressing mechanism (8) is arranged between the film sticking plate (4) and the bearing plate (2).

2. The film-sticking apparatus for anodic oxidation of aluminum alloy according to claim 1, wherein: support and press mechanism (8) including conflict frame (81) and L type backup pad (83), symmetry fixedly connected with two L type backup pads (83) on the up end of conflict frame (81), and activity grafting has spacing bracing piece (84) on L type backup pad (83), the lower extreme fixed connection of spacing bracing piece (84) is on the up end of pad pasting (4), and spacing bracing piece (84) outer winding is connected with supporting spring (85), fixed connection is on the lateral wall of spacing bracing piece (84) and the up end of L type backup pad (83) respectively at the both ends of a supporting spring (85).

3. The film-sticking apparatus for anodic oxidation of aluminum alloy according to claim 2, wherein: the lower end of the abutting frame (81) is fixedly connected with a rubber pad (82).

4. The film-sticking apparatus for anodic oxidation of aluminum alloy according to claim 2, wherein: the upper end of the limiting support rod (84) is fixedly connected with a limiting block (86).

5. The film-sticking apparatus for anodic oxidation of aluminum alloy according to claim 1, wherein: seted up on bearing plate (2) and cut groove (3), and be provided with cutting mechanism (9) directly over cut groove (3), cutting mechanism (9) include annular cutting knife (91) and a bracing piece (92), annular cutting knife (91) activity sets up in conflict frame (81), and the interior ring diameter of annular cutting knife (91) is greater than the width of pad pasting board (4), fixed a plurality of bracing piece (92) that is provided with on the up end of annular cutting knife (91), and the upper end fixedly connected with transverse connection board (93) of a bracing piece (92), No. two bracing pieces of fixedly connected with (94) on the lower terminal surface of transverse connection board (93), and No. two bracing pieces of (94) activity is pegged graft on conflict frame (81), the winding is connected with No. two supporting spring (95) on No. two bracing pieces of (94), and No. two supporting spring's (95) both ends difference fixed connection on the lateral wall of No. two bracing pieces of (94) and conflict frame (81) (81) On the upper end face of the housing.

6. The film-sticking apparatus for anodic oxidation of aluminum alloy according to claim 5, wherein: the lower end of the second support rod (94) is fixedly connected with a circular rubber abutting contact (96).

7. The film-sticking apparatus for anodic oxidation of aluminum alloy according to claim 5, wherein: the cutting mechanism (9) is internally provided with a tiling mechanism (10), the tiling mechanism (10) comprises two L-shaped supporting plates (101) and a limiting supporting ring (102), the two L-shaped supporting plates (101) are arranged in two, the two L-shaped supporting plates (101) are symmetrically and fixedly arranged on the upper end surface of the conflict frame (81), the free end of each L-shaped supporting plate (101) is fixedly connected with the limiting supporting ring (102), a rotating supporting rod (104) is rotatably arranged on the inner side wall of each limiting supporting ring (102), a winding shaft (103) is fixedly sleeved outside each rotating supporting rod (104), a traction steel rope (105) is wound on each winding shaft (103), one end of each traction steel rope (105) is fixedly connected to the upper end surface of the conflict frame (81), and the other end of each traction steel rope (105) is fixedly connected to a tiling plate assembly (106), the flat-laying plate component (106) is movably arranged in the annular cutting knife (91), two ends of the flat-laying plate component (106) are fixedly provided with transverse connecting rods (107), free ends of the transverse connecting rods (107) are fixedly connected to the side wall of the supporting sliding block (108), the supporting sliding block (108) is movably arranged in the supporting sliding groove (1012), the supporting sliding groove (1012) is arranged on a transverse supporting plate (1011), the transverse supporting plate (1011) is fixedly arranged on the side wall of the annular cutting knife (91), the side wall of the transverse connecting rod (107) is fixedly connected with one end of a fourth supporting spring (109), the other end of the fourth supporting spring (109) is fixedly connected to the side wall of the transverse supporting plate (1011), and the transverse supporting plate (1011) is fixedly arranged on the side wall of the supporting sliding groove (1011).

8. The film-sticking apparatus for anodic oxidation of aluminum alloy according to claim 7, wherein: tiling board subassembly (106) are including fixed tiling board (1061) and removal tiling board (1062), fixed tiling board (1061) is connected with transverse connection pole (107), and has seted up a plurality of direction spout (1064) on the lateral wall of fixed tiling board (1061), it is provided with direction slide bar (1063) to slide in direction spout (1064), and the one end of the upper end fixedly connected with No. three supporting spring (1065) of direction slide bar (1063), the other end fixed connection of No. three supporting spring (1065) is on the roof of direction spout (1064), the lower extreme fixed connection of direction slide bar (1063) is on the up end of removing tiling board (1062).

9. The film-sticking apparatus for anodic oxidation of aluminum alloy according to claim 8, wherein: the number of the guide chutes (1064) is three, and the three guide chutes (1064) are equidistantly arranged on the fixed flat plate (1061).

Technical Field

The invention relates to the technical field, in particular to a film sticking device for anodic oxidation of aluminum alloy.

Background

Aluminum alloys are the most widely used class of metallic structural materials in industry and have found a number of applications in the aerospace, automotive, mechanical manufacturing, marine and chemical industries. The process of forming an aluminum oxide film on the surface of an aluminum alloy product by using the electrolytic action of an aluminum alloy product as an anode in an electrolyte solution is called as anodic oxidation treatment of the aluminum alloy. The aluminum alloy product subjected to the anodic oxidation treatment is referred to as an aluminum alloy anode product.

In the aluminum alloy anodic oxidation treatment process, the aluminum alloy needs to be subjected to film pasting treatment so as to shield and protect the surface which does not need anodic oxidation, the existing aluminum alloy film pasting process mostly adopts a pressing plate to press a film on an aluminum alloy template, and after the pressing and the pressing are finished, the film is cut, so that the film pasting process is finished. However, in the existing film sticking process, the problem that the film moves in the film pressing process exists, and after the film sticking is completed, a film cutting process needs to be additionally arranged to cut the film, so that the film cutting efficiency is invisibly reduced.

In order to solve the problems, the invention provides a film sticking device for anodizing aluminum alloy.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects in the prior art, meet the practical requirements and provide a film sticking device for anodizing aluminum alloys so as to solve the technical problems.

(2) Technical scheme

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

the utility model provides an aluminum alloy is pad pasting device for anodic oxidation, includes workstation and bearing board, the bearing board is fixed to be set up on the up end of workstation, be provided with the pad pasting board directly over the bearing board, and the up end middle part fixedly connected with cylinder arm of pad pasting board, the free upper end of cylinder arm is connected with the drive end that drives actuating cylinder, and drives actuating cylinder and fix and set up on the support frame, the support frame is fixed to be set up on the up end of workstation, be provided with on the pad pasting board and support the pressure mechanism, just support the pressure mechanism setting between pad pasting board and bearing board.

Furthermore, support and press the mechanism including conflict frame and L type backup pad No. one, two L type backup pads of symmetry fixedly connected with on the up end of conflict frame, and the activity is pegged graft in the L type backup pad and is had spacing bracing piece, the lower extreme fixed connection of spacing bracing piece is on the up end of pad pasting, and spacing bracing piece outer winding is connected with supporting spring No. one, a supporting spring's both ends difference fixed connection is on the lateral wall of spacing bracing piece and the up end of L type backup pad No. one.

Further, the lower end of the abutting frame is fixedly connected with a rubber pad.

Furthermore, the upper end of the limiting support rod is fixedly connected with a limiting block.

Furthermore, the supporting plate is provided with a cutting groove, a cutting mechanism is arranged right above the cutting groove, the cutting mechanism comprises an annular cutting knife and a supporting rod, the annular cutting knife is movably arranged in the conflict frame, the inner ring diameter of the annular cutting knife is larger than the width of the film pasting plate, a plurality of first supporting rods are fixedly arranged on the upper end face of the annular cutting knife, a transverse connecting plate is fixedly connected to the upper end of the first supporting rod, a second supporting rod is fixedly connected to the lower end face of the transverse connecting plate, the second supporting rod is movably inserted into the conflict frame, a second supporting spring is wound on the second supporting rod, and the two ends of the second supporting spring are respectively and fixedly connected to the side wall of the second supporting rod and the upper end face of the conflict frame.

Further, the lower end of the second support rod is fixedly connected with a circular rubber abutting contact.

Furthermore, a tiling mechanism is arranged in the cutting mechanism, the tiling mechanism comprises two L-shaped supporting plates and a limiting supporting ring, the number of the two L-shaped supporting plates is two, the two L-shaped supporting plates are symmetrically and fixedly arranged on the upper end surface of the touch frame, the free end of each L-shaped supporting plate is fixedly connected with the limiting supporting ring, a rotating supporting rod is rotatably arranged on the inner side wall of the limiting supporting ring, a winding shaft is fixedly sleeved outside the rotating supporting rod, a traction steel rope is wound and connected on the winding shaft, one end of the traction steel rope is fixedly connected on the upper end surface of the touch frame, the other end of the traction steel rope is fixedly connected on a tiling plate assembly, the tiling plate assembly is movably arranged in an annular cutting knife, transverse connecting rods are fixedly arranged at the two ends of the tiling plate assembly, and the free ends of the transverse connecting rods are fixedly connected, and the supporting slide block is movably arranged in the supporting slide groove, the supporting slide groove is arranged on the transverse supporting plate, the transverse supporting plate is fixedly arranged on the side wall of the annular cutting knife, one end of a fourth supporting spring is fixedly connected to the side wall of the transverse connecting rod, the other end of the fourth supporting spring is fixedly connected to the side wall of the transverse supporting plate, and the transverse supporting plate is fixedly arranged on the side wall of the supporting slide groove.

Further, the tiling board subassembly includes fixed tiling board and removes the tiling board, fixed tiling board is connected with transverse connection pole, and has seted up a plurality of direction spout on the lateral wall of fixed tiling board, it is provided with the direction slide bar to slide in the direction spout, and the one end of No. three supporting spring of upper end fixedly connected with of direction slide bar, No. three supporting spring's other end fixed connection is on the roof of direction spout, the lower extreme fixed connection of direction slide bar is on the up end that removes the tiling board.

Furthermore, the number of the guide sliding grooves is three, and the three guide sliding grooves are equidistantly arranged on the fixed flat plate.

Further, the method comprises the following steps:

after placing an aluminum alloy plate on a bearing plate, placing a film to be attached on the aluminum alloy plate;

then, a driving cylinder is started, the cylinder arm is driven to move downwards by the driving cylinder, the film pasting plate is driven to move downwards by the cylinder arm, the downward movement of the film pasting plate drives the pressing mechanism to move downwards, and the downward movement of the pressing mechanism can press the film, so that the film can be prevented from moving in the film pasting process of the film pasting plate;

when the abutting mechanism moves downwards, the cutting mechanism is driven to abut against the film in advance, the second support rod is enabled to abut against the film in advance along with the downward movement of the abutting mechanism, the second support rod can move upwards relative to the abutting frame along with the continuous descending of the abutting frame, the annular cutting knife can be driven to move upwards through the transverse connecting plate and the first support rod by the upward movement of the second support rod, the film can be separated from the annular cutting knife, and therefore after the film laminating and pasting of the film are completed through the film pasting plate, the damage of the annular cutting knife to the film can be avoided; the film cutting process is as follows, when the film pasting plate moves upwards, the conflict frame can move upwards, the second support rod can lose the conflict effect due to the movement of the conflict frame, so that the second support rod can be pushed to move downwards relative to the conflict frame under the effect of the second support spring, the annular cutting knife can be driven to move downwards through the first support rod and the transverse connecting plate due to the downward movement of the second support rod, the film can be cut through the annular cutting knife, and therefore in the actual working process, the film can be cut integrally, and the effect of high-efficiency working is achieved;

when the annular cutting knife moves upwards relative to the abutting frame, the two flat plate assemblies can be pulled through the two traction steel ropes to move away from each other, the films can be pushed flat when the flat plate assemblies move, the films are prevented from producing wrinkles, and therefore the film sticking quality is prevented from being influenced; with the continuous downward movement of the cylinder arm, the first L-shaped supporting plate can move relative to the limiting supporting rod, so that the equipment can be prevented from being clamped;

in the tiling stage, in order to ensure the tiling effect, will tile the fixed flat bed board in the right side of board subassembly and remove flat bed board relative motion setting during the design, at the tiling in-process like this, avoid the flat bed board subassembly to break away from the membrane along with the upward movement of annular cutting knife to ensure the high efficiency of tiling process, make the pad pasting process of aluminum alloy plate reach high-quality pad pasting effect.

(3) Has the advantages that:

A. the film sticking device is additionally provided with the pressing mechanism, the film can be prevented from moving in the film sticking process by pressing the film, the orderly proceeding of the film sticking process is ensured from the surface, meanwhile, the structural design of the pressing mechanism is reasonable, the pressing process of the pressing mechanism can be orderly and efficiently proceeded along with the film sticking process, so that the operation difficulty of the device can be reduced, the effect of high-efficiency working is achieved, and the film sticking device has higher market prospect in the actual use process.

B. Meanwhile, a cutting mechanism is additionally arranged and is used for cutting the film after the film is pasted, so that the film pasting process of the aluminum alloy template is completed, the structural design of the cutting mechanism is reasonable during design, the cutting mechanism is separated from the film during downward pressing of the pressing mechanism, damage to the film is prevented, the cutting mechanism can move downward to complete cutting of the film when upward movement of the film pasting plate is completed, so that the film pasting process is completed, a power source is not required to be additionally arranged during movement of the cutting mechanism, so that the production cost is reduced, and the cutting mechanism and the pressing mechanism cooperatively complete cutting action, so that high-efficiency activity is ensured.

C. The film pasting machine is further provided with a film pasting mechanism, the film pasting mechanism is arranged and used for flatly pasting a film and preventing bubbles from being generated between the film and an aluminum alloy, so that the aluminum alloy after film pasting can be prevented from generating wrinkles, and the high efficiency of the film pasting is further ensured.

D. In the tiling stage, in order to ensure the tiling effect, will tile the fixed flat bed board in the right side of board subassembly and remove flat bed board relative motion setting during the design, at the tiling in-process like this, avoid the flat bed board subassembly to break away from the membrane along with the upward movement of annular cutting knife to ensure the high efficiency of tiling process, make the pad pasting process of aluminum alloy plate reach high-quality pad pasting effect.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a film-bonding apparatus for anodic oxidation of aluminum alloy according to the present invention;

FIG. 2 is a schematic view of a partially enlarged structure of the film-sticking apparatus for anodic oxidation of aluminum alloy of the present invention shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the structure A in FIG. 2 of the film-sticking apparatus for anodic oxidation of aluminum alloy according to the present invention;

FIG. 4 is an enlarged schematic view of the structure B in FIG. 2 of the film sticking device for anodic oxidation of aluminum alloy in accordance with the present invention

FIG. 5 is a schematic view of a partially enlarged structure of the film-laminating apparatus for anodic oxidation of aluminum alloy of the present invention shown in FIG. 2;

FIG. 6 is an enlarged schematic view of the structure C in FIG. 5 of the film-coating apparatus for anodic oxidation of aluminum alloy according to the present invention.

The reference numbers are as follows:

the device comprises a workbench 1, a bearing plate 2, a cutting groove 3, a film pasting plate 4, a cylinder arm 5, a driving cylinder 6, a support frame 7, a pressing mechanism 8, a contact frame 81, a rubber pad 82, a first L-shaped support plate 83, a limit support rod 84, a first support spring 85, a limit block 86, a cutting mechanism 9, an annular cutting knife 91, a first support rod 92, a transverse connection plate 93, a second support rod 94, a second support spring 95, a circular rubber contact 96, a tiling mechanism 10, a second L-shaped support plate 101, a limit support ring 102, a winding shaft 103, a rotating support rod 104, a traction steel rope 105, a tiling plate assembly 106, a fixed tiling plate 1061, a movable tiling plate 1062, a guide slide bar 1063, a guide chute 1064, a third support spring 1065, a transverse connection rod 107, a support slider 108, a fourth support spring 109, a fixed support side plate 1010, a transverse support plate 1011 and a support chute 1012.

The invention will be further illustrated with reference to the following figures 1-6 and examples:

a film sticking device for aluminum alloy anodic oxidation comprises a workbench 1 and a bearing plate 2, wherein the bearing plate 2 is fixedly arranged on the upper end face of the workbench 1, a film sticking plate 4 is arranged right above the bearing plate 2, a cylinder arm 5 is fixedly connected with the middle part of the upper end face of the film sticking plate 4, the free upper end of the cylinder arm 5 is connected with the driving end of a driving cylinder 6, the driving cylinder 6 is fixedly arranged on a supporting frame 7, the supporting frame 7 is fixedly arranged on the upper end face of the workbench 1, a pressing mechanism 8 is arranged on the film sticking plate 4, the pressing mechanism 8 is arranged between the film sticking plate 4 and the bearing plate 2, the pressing mechanism 8 comprises a touch frame 81 and a first L-shaped supporting plate 83, two first L-shaped supporting plates 83 are symmetrically and fixedly connected on the upper end face of the touch frame 81, a limit supporting rod 84 is movably inserted on the first L-shaped supporting plate 83, the lower end of the limit supporting rod 84 is fixedly connected on the upper end face of the film sticking plate 4, and the limiting support rod 84 is wound and connected with a first support spring 85, and two ends of the first support spring 85 are respectively fixedly connected to the side wall of the limiting support rod 84 and the upper end surface of the first L-shaped support plate 83, the pressing mechanism 8 is additionally arranged in the film sticking device, the film can be prevented from moving in the film sticking process by pressing the film, the film sticking process can be carried out orderly, meanwhile, the structural design of the pressing mechanism 8 is reasonable, the pressing process of the pressing mechanism 8 can be carried out orderly and efficiently along with the film sticking process, the operation difficulty of the device can be reduced, the high-efficiency working effect can be achieved, and the film sticking device has a higher market prospect in the actual use process.

In this embodiment, the lower extreme fixedly connected with rubber pad 82 of conflict frame 81, the setting of rubber pad 82 plays the effect to the membrane protection when conflict frame 81 supports the membrane.

In this embodiment, the upper end fixedly connected with stopper 86 of spacing bracing piece 84, stopper 86's setting can play spacing effect, avoids L type backup pad 83 and spacing bracing piece 84 to take place to break away from No. one.

In the embodiment, a cutting groove 3 is formed on a bearing plate 2, a cutting mechanism 9 is arranged right above the cutting groove 3, the cutting mechanism 9 comprises an annular cutting knife 91 and a first support rod 92, the annular cutting knife 91 is movably arranged in a touch frame 81, the inner diameter of the annular cutting knife 91 is larger than the width of a film pasting plate 4, a plurality of first support rods 92 are fixedly arranged on the upper end surface of the annular cutting knife 91, a transverse connecting plate 93 is fixedly connected to the upper end of the first support rod 92, a second support rod 94 is fixedly connected to the lower end surface of the transverse connecting plate 93, the second support rod 94 is movably inserted in the touch frame 81, a second support spring 95 is wound on the second support rod 94, two ends of the second support spring 95 are respectively fixedly connected to the side wall of the second support rod 94 and the upper end surface of the touch frame 81, and meanwhile, the cutting mechanism 9 is additionally arranged in the invention, cutting mechanism 9's setting, a membrane for the realization is advanced the cutting behind the pad pasting, thereby accomplish the pad pasting process of aluminum alloy template, cutting mechanism 9's structural design is reasonable when the design, support pressing mechanism 8 and accomplish downwards and support the pressure in-process, cutting mechanism 9 breaks away from with the membrane, prevent the destruction to the membrane, when the pad pasting board 4 is accomplished and is supported the pressure pad pasting upward movement, cutting mechanism 9 can the downstream, accomplish the cutting to the membrane, thereby accomplish the pad pasting process, at the in-process of cutting mechanism 9 motion, need not to add the power supply, thereby reduction in production cost, and cutting mechanism 9 and support pressing mechanism 8 to accomplish the cutting effect in coordination, thereby ensure high-efficient initiative.

In this embodiment, the lower end of the second support rod 94 is fixedly connected with a circular rubber contact 96, and the circular rubber contact 96 can protect the membrane when the second support rod 94 presses the membrane.

In this embodiment, a tiling mechanism 10 is disposed in the cutting mechanism 9, the tiling mechanism 10 includes two L-shaped support plates 101 and a limiting support ring 102, two L-shaped support plates 101 are disposed, the two L-shaped support plates 101 are symmetrically and fixedly disposed on the upper end surface of the abutting frame 81, the limiting support ring 102 is fixedly connected to a free end of the two L-shaped support plates 101, a rotating support rod 104 is rotatably disposed on the inner side wall of the limiting support ring 102, a winding shaft 103 is fixedly sleeved outside the rotating support rod 104, a traction steel cable 105 is wound on the winding shaft 103, one end of the traction steel cable 105 is fixedly connected to the upper end surface of the abutting frame 81, the other end of the traction steel cable 105 is fixedly connected to a tiling plate assembly 106, the tiling plate assembly 106 is movably disposed in the annular cutting knife 91, transverse connecting rods 107 are fixedly disposed at both ends of the tiling plate assembly 106, the free end of the transverse connecting rods 107, the supporting slide block 108 is movably arranged in the supporting slide groove 1012, the supporting slide groove 1012 is arranged on the transverse supporting plate 1011, the transverse supporting plate 1011 is fixedly arranged on the side wall of the annular cutting knife 91, one end of a fourth supporting spring 109 is fixedly connected to the side wall of the transverse connecting rod 107, the other end of the fourth supporting spring 109 is fixedly connected to the side wall of the transverse supporting plate 1011, the transverse supporting plate 1011 is fixedly arranged on the side wall of the supporting slide groove 1012, the invention is also provided with the tiling mechanism 10, the tiling mechanism 10 is arranged for tiling the film to prevent bubbles from being generated between the film and the aluminum alloy, so that the aluminum alloy after film pasting can be prevented from generating wrinkles, and further the high efficiency of the film pasting is ensured, during the design, the structural design of the tiling mechanism 10 is reasonable, the tiling process can complete the film tiling along with the upward movement of the cutting mechanism 9, and the equipment is further, the device has consistency, and the tiling process does not need manual operation, thereby reducing the operation procedures of the device and achieving the effects of time saving and labor saving.

In this embodiment, the tile assembly 106 includes a fixed tile 1061 and a movable tile 1062, the fixed tile 1061 is connected to the horizontal connecting rod 107, and the side wall of the fixed flat laying plate 1061 is provided with a plurality of guide chutes 1064, guide sliding rods 1063 are slidably arranged in the guide chutes 1064, and the upper end of the guide slide bar 1063 is fixedly connected with one end of a third supporting spring 1065, the other end of the third supporting spring 1065 is fixedly connected to the top wall of the guide chute 1064, the lower end of the guide slide bar 1063 is fixedly connected to the upper end surface of the movable floor plate 1062, in the tiling stage, in order to ensure the tiling effect, the right fixed tile 1061 and the movable tile 1062 of the tile assembly 106 are designed to be relatively movably disposed, thus, during the tiling process, the tiling board assembly 106 is prevented from being separated from the film along with the upward movement of the circular cutter 91, thereby ensuring the high efficiency of the tiling process and leading the film pasting process of the aluminum alloy plate to achieve the high-quality film pasting effect.

In this embodiment, the number of the guide chutes 1064 is three, and the three guide chutes 1064 are equidistantly disposed on the fixed flat plate 1061, so that the movable flat plate 1062 can be better guided and supported by increasing the number of the guide chutes 1064.

The working principle of the invention comprises the following processes:

after the aluminum alloy plate is placed on the bearing plate 2, a film to be attached is placed on the aluminum alloy plate;

then, the driving cylinder 6 is started, the cylinder arm 5 is driven to move downwards by the driving cylinder 6, the film sticking plate 4 is driven to move downwards by the cylinder arm 5, the downward movement of the film sticking plate 4 drives the pressing mechanism 8 to move downwards, and the downward movement of the pressing mechanism 8 can press the film, so that the film can be prevented from moving in the film sticking process of the film sticking plate 4;

when the pressing mechanism 8 moves downwards, the cutting mechanism 9 is driven to firstly abut against the film, the second support rod 94 is firstly enabled to abut against the film along with the downward movement of the pressing mechanism 8, the second support rod 94 is enabled to move upwards relative to the abutting frame 81 along with the continuous descending of the abutting frame 81, the annular cutting knife 91 is driven to move upwards through the transverse connecting plate 93 and the first support rod 92 along with the upward movement of the second support rod 94, the annular cutting knife 91 can be separated from the film along with the upward movement of the annular cutting knife 91, and therefore after the film laminating and sticking are completed through the film sticking plate 4, the damage of the annular cutting knife 91 to the film can be avoided; the film cutting process is as follows, when the film pasting plate 4 moves upwards, the conflict frame 81 can move upwards, the second support rod 94 can lose the conflict effect due to the movement of the conflict frame 81, so that under the effect of the second support spring 95, the second support rod 94 can be pushed to move downwards relative to the conflict frame 81, the first support rod 92 and the transverse connecting plate 93 can drive the annular cutting knife 91 to move downwards due to the downward movement of the second support rod 94, the film can be cut by the annular cutting knife 91, and therefore in the actual working process, the film can be cut integrally, and the efficient working effect can be achieved;

when the circular cutting knife 91 moves upward relative to the abutting frame 81, the two flat plate assemblies 106 are pulled by the two traction steel ropes 105 to move away from each other, and the movement of the flat plate assemblies 106 can push the flat film to prevent the film from generating folds, thereby preventing the film quality from being influenced, specifically, in the process of downward movement of the abutting frame 81, the second supporting rod 94 is abutted against the membrane in advance, then, as the downward movement proceeds, the annular cutting knife 91 is pushed by the second support rod 94 to move downward relative to the abutting frame 81, as the movement proceeds, the two flat board assemblies 106 are pulled by the traction steel rope 105 to move in the direction away from each other, as the flat board assemblies 106 move, the film is pushed flat, the film is prevented from being wrinkled, when the two flat laying plate assemblies 106 move to contact the inner side wall of the annular cutting knife 91, the abutting frames 81 complete the abutting on the film; with the continuous downward movement of the cylinder arm 5, the first L-shaped supporting plate 83 can move relative to the limiting supporting rod 84, so that the equipment can be prevented from being clamped;

in the tiling stage, in order to ensure the tiling effect, will tile board subassembly 106 right side fixed tiling board 1061 and remove tiling board 1062 relative motion setting during the design, like this at the tiling in-process, avoid tiling board subassembly 106 along with the upward movement of annular cutting knife 91 and break away from the membrane to ensure the high efficiency of tiling process, make the pad pasting process of aluminum alloy plate reach high-quality pad pasting effect.

The invention has the beneficial effects that:

according to the invention, the pressing mechanism 8 is additionally arranged, the film can be prevented from moving in the film pasting process by pressing the film, the ordered film pasting process can be ensured, meanwhile, the structural design of the pressing mechanism 8 is reasonable, the pressing process of the pressing mechanism 8 can be orderly and efficiently carried out along with the film pasting process, so that the operation difficulty of equipment can be reduced, the effect of efficient work is achieved, and the film pasting machine has a higher market prospect in the actual use process.

Meanwhile, the cutting mechanism 9 is additionally arranged, the cutting mechanism 9 is arranged and used for cutting the film after film pasting, so that the film pasting process of the aluminum alloy template is completed, the structural design of the cutting mechanism 9 is reasonable in design, the cutting mechanism 9 is separated from the film in the downward pressing process of the pressing mechanism 8, damage to the film is prevented, the cutting mechanism 9 can move downwards to complete cutting of the film when the film pasting plate 4 completes upward pressing and film pasting, so that the film pasting process is completed, a power source is not required to be additionally arranged in the movement process of the cutting mechanism 9, so that the production cost is reduced, and the cutting mechanism 9 and the pressing mechanism 8 cooperatively complete a cutting function, so that high-efficiency activity is ensured.

And the invention also sets up the mechanism 10 of tiling, the setting of the mechanism 10 of tiling, is used for tiling the membrane, prevent producing the bubble between aluminum alloy and the membrane, thus can prevent the aluminum alloy after the membrane from producing the fold, and then guarantee the high efficiency of the membrane, while designing, the structural design of the mechanism 10 of tiling is rational, the course of tiling, can be with the upward movement of the cutting mechanism 9, finish the tiling to the membrane, thus make the apparatus, have uniformity, and the course of tiling, does not need manual operation, thus reduce the operation process of the apparatus, achieve the effects of time saving and labor saving.

In the tiling stage, in order to ensure the tiling effect, will tile board subassembly 106 right side fixed tiling board 1061 and remove tiling board 1062 relative motion setting during the design, like this at the tiling in-process, avoid tiling board subassembly 106 along with the upward movement of annular cutting knife 91 and break away from the membrane to ensure the high efficiency of tiling process, make the pad pasting process of aluminum alloy plate reach high-quality pad pasting effect.

The invention also provides a using method of the film sticking device for aluminum alloy anodic oxidation, which comprises the following steps:

after the aluminum alloy plate is placed on the bearing plate 2, a film to be attached is placed on the aluminum alloy plate;

then, the driving cylinder 6 is started, the cylinder arm 5 is driven to move downwards by the driving cylinder 6, the film sticking plate 4 is driven to move downwards by the cylinder arm 5, the downward movement of the film sticking plate 4 drives the pressing mechanism 8 to move downwards, and the downward movement of the pressing mechanism 8 can press the film, so that the film can be prevented from moving in the film sticking process of the film sticking plate 4;

when the pressing mechanism 8 moves downwards, the cutting mechanism 9 is driven to firstly abut against the film, the second support rod 94 is firstly enabled to abut against the film along with the downward movement of the pressing mechanism 8, the second support rod 94 is enabled to move upwards relative to the abutting frame 81 along with the continuous descending of the abutting frame 81, the annular cutting knife 91 is driven to move upwards through the transverse connecting plate 93 and the first support rod 92 along with the upward movement of the second support rod 94, the annular cutting knife 91 can be separated from the film along with the upward movement of the annular cutting knife 91, and therefore after the film laminating and sticking are completed through the film sticking plate 4, the damage of the annular cutting knife 91 to the film can be avoided; the film cutting process is as follows, when the film pasting plate 4 moves upwards, the conflict frame 81 can move upwards, the second support rod 94 can lose the conflict effect due to the movement of the conflict frame 81, so that under the effect of the second support spring 95, the second support rod 94 can be pushed to move downwards relative to the conflict frame 81, the first support rod 92 and the transverse connecting plate 93 can drive the annular cutting knife 91 to move downwards due to the downward movement of the second support rod 94, the film can be cut by the annular cutting knife 91, and therefore in the actual working process, the film can be cut integrally, and the efficient working effect can be achieved;

when the circular cutting knife 91 moves upward relative to the abutting frame 81, the two flat plate assemblies 106 are pulled by the two traction steel ropes 105 to move away from each other, and the movement of the flat plate assemblies 106 can push the flat film to prevent the film from generating folds, thereby preventing the film quality from being influenced, specifically, in the process of downward movement of the abutting frame 81, the second supporting rod 94 is abutted against the membrane in advance, then, as the downward movement proceeds, the annular cutting knife 91 is pushed by the second support rod 94 to move downward relative to the abutting frame 81, as the movement proceeds, the two flat board assemblies 106 are pulled by the traction steel rope 105 to move in the direction away from each other, as the flat board assemblies 106 move, the film is pushed flat, the film is prevented from being wrinkled, when the two flat laying plate assemblies 106 move to contact the inner side wall of the annular cutting knife 91, the abutting frames 81 complete the abutting on the film; with the continuous downward movement of the cylinder arm 5, the first L-shaped supporting plate 83 can move relative to the limiting supporting rod 84, so that the equipment can be prevented from being clamped;

in the tiling stage, in order to ensure the tiling effect, will tile board subassembly 106 right side fixed tiling board 1061 and remove tiling board 1062 relative motion setting during the design, like this at the tiling in-process, avoid tiling board subassembly 106 along with the upward movement of annular cutting knife 91 and break away from the membrane to ensure the high efficiency of tiling process, make the pad pasting process of aluminum alloy plate reach high-quality pad pasting effect.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.