CN117533578B - Aluminum plate tectorial membrane device - Google Patents

Abstract

The invention discloses an aluminum plate laminating device, which relates to the technical field of aluminum plate laminating equipment and comprises a main air pressure mechanism arranged above a conveying machine table; the side end of the bottom of the main air pressure mechanism is provided with a blank holder mechanism; the bottom of the edge pressing mechanism is provided with a noodle pressing mechanism; the side end of the main air pressure mechanism is provided with a secondary air pressure mechanism. According to the laminating device disclosed by the invention, the two rows of hollow piston rods which are independently arranged are arranged, and the hollow piston rods in the two rows can be lifted to different positions respectively, so that the corner wheels with special shapes and the leather sheath structure are driven to perform film pressing work on the corners and the planes on the upper and lower sides of the aluminum great wall plate respectively, the equipment structure is simpler, the working efficiency of the equipment is ensured, the corner wheels which are symmetrical can be pushed to horizontally move, and the leather sheath can be stretched while the corner wheels move, so that the extrusion range of the corner wheels and the leather sheath can be freely adjusted according to the specification of an aluminum plate, and the comprehensiveness of the equipment in working is improved.

Description

Aluminum plate tectorial membrane device

Technical Field

The invention relates to the technical field of aluminum plate laminating equipment, in particular to an aluminum plate laminating device.

Background

The coated aluminum plate is a layer of film coated on a common aluminum plate for protecting the aluminum plate, most of the coated aluminum plate is used for preventing the aluminum plate from being worn and scratched in the subsequent processing and carrying processes, the aim to be achieved is different according to the different types of the coated film, and some of the coated aluminum plate is used for enabling the appearance of the aluminum plate to be more attractive, and the coated aluminum plate has excellent durability (weather resistance, corrosion resistance and chemical resistance) and anti-fouling capability.

When the aluminum great wall plate (grating plate) with a special shape is coated in the existing equipment, the corners and the plane of the great wall plate are extruded by mutually matching a plurality of extrusion wheels, so that the adhesive film can be better attached to the surface of the plate, but when in actual use, the positions of the different extrusion wheels are required to be changed each time before the equipment is used because the widths of the aluminum great wall plates with different specifications are different, the number of the extrusion wheels (common press wheels and special corner press wheels) for position debugging in the equipment is too large, the labor capacity of a user can be greatly increased, and the convenience of the equipment can be reduced on the other hand.

Disclosure of Invention

The invention discloses an aluminum plate laminating device, and aims to solve the technical problems that the existing equipment for laminating an aluminum great wall plate is complicated and inconvenient in debugging steps before use.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

an aluminum plate laminating device comprises a conveying machine table, an aluminum great wall plate paved above the conveying machine table, and a glue film adhered above the aluminum great wall plate, wherein a main air pressure mechanism for vertically pushing and pressurizing is arranged in the middle of the upper part of the conveying machine table; the side end of the bottom of the main air pressure mechanism is provided with a blank holder mechanism for extruding the corners of the aluminum great wall plate; the bottom of the edge pressing mechanism is provided with a dough pressing mechanism for pressing the plane of the aluminum great wall plate; the side end of the main air pressure mechanism is provided with a secondary air pressure mechanism for pressurizing the noodle pressing mechanism.

Through being provided with special blank holder mechanism of shape and facing mechanism, utilize the cooperation of main pneumatic mechanism and vice pneumatic mechanism, through the mode of atmospheric pressure promotion, drive facing mechanism and blank holder mechanism extrude the plane and the corner of aluminium great wall board to under the prerequisite of guaranteeing equipment work efficiency, reduced the loaded down with trivial details degree when debugging before the equipment uses, make the tectorial membrane work of aluminium great wall board more quick convenient.

In a preferred scheme, the main pneumatic mechanism is including being fixed in the organism in conveyer table top middle part, the top of organism is fixed with two pumps, two pumps are mirror symmetry, and distribute in the top both sides of organism, two air cavities have been seted up to the inside of organism, and two the side of pump all link up in one the air cavity, every the bottom of air cavity is the sliding distribution has a plurality of cavity piston rod again, and a plurality of cavity piston rod is along evenly distributed in the horizontal direction, is located simultaneously two the inside a plurality of cavity piston rod of air cavity is for alternate distribution in the horizontal direction.

The two rows of hollow piston rods are driven independently through the two independently existing pump machines, so that the inserted two rows of hollow piston rods can be lifted to different positions respectively, and the edge pressing mechanism and the face pressing mechanism are driven to press films respectively above and below the aluminum great wall plate, so that the comprehensiveness of equipment in working is guaranteed.

In a preferred scheme, the blank holder mechanism includes the slip and distributes in every the backing plate of cavity piston rod bottom both sides, two the backing plate horizontal symmetry distributes, and every simultaneously the outside of backing plate distributes again has a corner wheel of slope, the base extrusion laminating of corner wheel in the bottom corner of aluminium great wall board.

Through being provided with two symmetrical slope's corner wheel structures, utilize pivoted corner wheel to extrude the corner of aluminium great wall board to guarantee the fastness of aluminum plate tectorial membrane.

In a preferred scheme, the noodle pressing mechanism comprises L-shaped clamping plates vertically fixed at the bottom of each base plate, the two L-shaped clamping plates positioned at the bottom of the same hollow piston rod are symmetrically distributed, side hubs are rotatably installed on the inner side of the bottom of each L-shaped clamping plate, and leather sleeves are horizontally sleeved between the two side hubs distributed at the bottom of the same hollow piston rod.

Through the middle part below at two symmetrical distribution's side angle wheel structures, be provided with leather sheath structure, pivoted leather sheath can extrude the plane department of aluminium great wall board to guarantee the fastness and the comprehensiveness of aluminum plate tectorial membrane.

In a preferred scheme, the auxiliary pneumatic mechanism comprises air rows horizontally fixed on two sides of the machine body, each air row is respectively in through connection with one side end of the pump, a plurality of air pipes distributed at equal intervals are in through connection with the bottom of each air row, the other ends of the air pipes are respectively correspondingly in through connection with one side end of the hollow piston rod, an air passage is formed in the L-shaped clamping plate, and two ends of the air passage are respectively communicated with the top side end of the base plate and the bottom side end of the L-shaped clamping plate and are communicated with the inside of the leather sheath.

Through being provided with the air bar and the air pipe structure that communicate in the pump machine, the atmospheric pressure in the pump machine shunts to the bottom of cavity piston rod to promote two symmetrical corner wheels and take place horizontal migration, can tensile leather sheath in the time of corner wheel removal, the inside of leather sheath dashes into atmospheric pressure again simultaneously, causes the leather sheath to keep the state of tightening, thereby freely adjusts the extrusion scope of corner wheel and leather sheath according to aluminum plate's specification, improvement equipment's by a wide margin work efficiency.

In a preferred scheme, a connecting part is movably arranged between the backing plate and the corner wheel.

Through being provided with connecting portion and carrying out swing joint to the side angle wheel, the form of connecting portion is diversified, and the user can limit the angle of putting of side angle wheel according to the demand to further improvement equipment's functionality.

In a preferred scheme, the inboard of side angle wheel is provided with annular draw-in groove, annular draw-in groove can with the extrusion laminating takes place for the top corner of aluminium great wall board, the outside of side angle wheel with the interior concave part of annular draw-in groove is curved surface structure, the outside of side angle wheel with the interior concave part of annular draw-in groove is by a flexible material preparation.

Through being provided with annular draw-in groove structure in the inboard of corner wheel, this structure can extrude the top limit angle of aluminium great wall board, and the outside of corner wheel and the interior concave part of annular draw-in groove set up to curved surface structure again simultaneously, and make by flexible material, guarantee that the corner wheel takes place the laminating of deformation under the prerequisite of extrusion laminating aluminium great wall board according to the corner shape of panel to further improve the extrusion effect of corner wheel.

In a preferred scheme, the pump and the air cavity are connected with the outer side of the through connecting end in a sleeved mode, and meanwhile, the side end of the three-way regulating valve is connected with the inner through connecting end of the air row.

The three-way regulating valve is arranged to split the pressurized gas of the pump, so that one pump can drive the main air pressure mechanism and the auxiliary air pressure mechanism to work simultaneously, thereby ensuring the operation perfection of the equipment.

From the above, it can be seen that. Compared with the prior art, the device for coating the film by using the aluminum plate provided by the invention has the following improvement and advantages:

the method comprises the following steps: the two independent pump machines are arranged to drive the two rows of hollow piston rods respectively, so that the two rows of inserted hollow piston rods can be lifted to different positions respectively, and the corner wheels and the leather sheath structure with specific shapes are driven to respectively press the film on the corners and the planes of the upper and lower sides of the aluminum great wall plate, so that the structure of the equipment is simpler, and meanwhile, the working efficiency of the equipment is ensured.

And two,: the air exhaust and air pipe structure communicated with the pump is arranged, air pressure in the pump is distributed to the bottom of the hollow piston rod, so that two symmetrical corner wheels are pushed to horizontally move, the leather sheath can be stretched while the corner wheels move, and the air pressure is flushed into the leather sheath, so that the leather sheath is kept in a tight state, the extrusion range of the corner wheels and the leather sheath is freely adjusted according to the specification of the aluminum plate, and the comprehensiveness of the equipment in operation is improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an aluminum plate laminating device provided by the invention.

Fig. 2 is a schematic diagram of a side end structure of an aluminum plate laminating device according to the present invention.

Fig. 3 is a schematic diagram of an aluminum plate laminating device in operation.

Fig. 4 is a schematic diagram of a machine body structure of an aluminum plate laminating device according to the present invention.

Fig. 5 is a cross-sectional view of the top structure of the machine body of the aluminum plate laminating device provided by the invention.

Fig. 6 is a cross-sectional view of a side end structure of an aluminum plate film laminating device according to the present invention.

Fig. 7 is a schematic diagram of a secondary air pressure mechanism of an aluminum plate laminating device according to the present invention.

Fig. 8 is a cross-sectional view of a hollow piston rod structure of an aluminum plate film coating device provided by the invention.

Fig. 9 is a structural cross-sectional view of a beading mechanism of an aluminum plate laminating device provided by the invention.

Fig. 10 is an exploded view of a trimming mechanism of an aluminum plate laminating device according to the present invention.

Fig. 11 is a cross-sectional view of a corner wheel structure of an aluminum plate laminating device provided by the invention.

In the figure: 1. a conveyor table; 2. an aluminum great wall plate; 3. an adhesive film; 4. a main air pressure mechanism; 401. a body; 402. a pump machine; 403. an air cavity; 404. a hollow piston rod; 5. edge pressing mechanism; 501. a backing plate; 502. a corner wheel; 503. a connection part; 504. an annular clamping groove; 6. a dough pressing mechanism; 601. an L-shaped clamping plate; 602. a side hub; 603. leather sheath; 7. an auxiliary air pressure mechanism; 701. air exhaust; 702. an air pipe; 703. an airway; 704. and a three-way regulating valve.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments.

The invention discloses an aluminum plate film coating device which is mainly applied to an aluminum plate film coating scene.

Referring to fig. 1 to 11, an aluminum plate laminating device comprises a conveyor table 1, an aluminum great wall plate 2 laid above the conveyor table 1, a glue film 3 adhered above the aluminum great wall plate 2, and a main air pressure mechanism 4 for vertically pushing and pressurizing arranged in the middle of the upper part of the conveyor table 1; the side end of the bottom of the main air pressure mechanism 4 is provided with a blank holder mechanism 5 for extruding the corners of the aluminum great wall plate 2; the bottom of the edge pressing mechanism 5 is provided with a noodle pressing mechanism 6 for pressing the plane of the aluminum great wall plate 2; the side end of the main air pressure mechanism 4 is provided with a secondary air pressure mechanism 7 for pressurizing the noodle press mechanism 6.

In this embodiment: when the aluminum wall plate is used, a user firstly feeds the side end of the aluminum wall plate 2 from the side end of the conveyor table 1, synchronously attaches the side end of the adhesive film 3 to the side end of the aluminum wall plate 2, and along with the running of the conveyor table 1, the aluminum wall plate 2 and the adhesive film 3 slowly reach the lower part of the main air pressure mechanism 4, at the moment, the main air pressure mechanism 4 is started to drive the edge pressing mechanism 5 and the face pressing mechanism 6 to move downwards, so that the adhesive film is attached to the upper surfaces of the aluminum wall plate 2 and the adhesive film 3 in an extrusion mode, and the plane and corners of the aluminum wall plate 2 are extruded, so that the adhesive film 3 is completely attached to the upper surface of the aluminum wall plate 2, and the film covering operation is completed; in the process, the auxiliary air pressure mechanism 7 is started to drive the edge pressing mechanism 5 and the noodle pressing mechanism 6 to freely adjust the gap width according to the specification of the aluminum great wall plate 2.

In the above-mentioned scheme, considering the influence of the special shape of the aluminum great wall plate 2, the plurality of edge pressing mechanisms 5 and the noodle pressing mechanisms 6 need to be capable of compacting the upper corners of the upper plane and the lower corners of the lower plane of the aluminum great wall plate 2 respectively, so that the heights of the edge pressing mechanisms 5 and the noodle pressing mechanisms 6 at different positions need to be adjusted independently, and the specific operation is as follows.

Referring to fig. 1 to 8, in a preferred embodiment, the main air pressure mechanism 4 includes a machine body 401 fixed in the middle above the conveyor table 1, two pump machines 402 are fixed at the top of the machine body 401, the two pump machines 402 are mirror symmetry and distributed on two sides of the top of the machine body 401, two air chambers 403 are provided in the interior of the machine body 401, side ends of the two pump machines 402 are all connected with one air chamber 403 in a penetrating manner, a plurality of hollow piston rods 404 are slidably distributed at the bottom of each air chamber 403, the plurality of hollow piston rods 404 are uniformly distributed along the horizontal direction, and a plurality of hollow piston rods 404 located in the two air chambers 403 are alternately distributed along the horizontal direction.

In this embodiment: when the aluminum great wall plate 2 and the adhesive film 3 slowly reach the lower part of the machine body 401, at this time, the two pump machines 402 are started and respectively blow air into the two independent air cavities 403 according to preset amounts, high-pressure air entering the air cavities 403 can push a plurality of hollow piston rods 404 below the two pump machines, the hollow piston rods 404 can push the edge pressing mechanisms 5 and the face pressing mechanisms 6 below the hollow piston rods 404 to synchronously push the hollow piston rods, the hollow piston rods 404 are pressed and attached to the upper part of the aluminum great wall plate 2, and the hollow piston rods 404 inside the two air cavities 403 can have different downward movement degrees due to different air pressure amounts inside the two air cavities 403, so that the edge pressing mechanisms 5 and the face pressing mechanisms 6 below the hollow piston rods 404 are driven to be attached to the corner faces above and below the aluminum great wall plate 2 respectively.

In the above-described scheme, the following is a specific operation in consideration of ensuring the film-coating firmness in order to press the corners of the aluminum great wall plate 2.

Referring to fig. 1 to 11, in a preferred embodiment, the edge pressing mechanism 5 includes two pads 501 slidably disposed on two sides of the bottom of each hollow piston rod 404, two pads 501 are horizontally symmetrically disposed, and an inclined corner wheel 502 is disposed on the outer side of each pad 501, and the bottom edge of the corner wheel 502 is pressed against the bottom corner of the aluminum great wall plate 2.

In this embodiment: along with the downward movement of the hollow piston rod 404, two symmetrical corner wheels 502 located below the hollow piston rod can be respectively attached to corners of the aluminum great wall plate 2, at this time, along with the horizontal movement of the aluminum great wall plate 2 driven by the conveyor table 1, the moving aluminum great wall plate 2 can drive the corner wheels 502 to rotate, so that the corner wheels 502 rotate and squeeze the aluminum great wall plate 2.

In the above-described scheme, the following is a specific operation in consideration of ensuring the film-coating firmness in order to press the plane of the aluminum great wall plate 2.

Referring to fig. 1 to 10, in a preferred embodiment, the noodle press mechanism 6 includes an L-shaped clamping plate 601 vertically fixed to the bottom of each backing plate 501, two L-shaped clamping plates 601 located at the bottom of the same hollow piston rod 404 are symmetrically distributed, a side hub 602 is rotatably mounted on the inner side of the bottom of each L-shaped clamping plate 601, and a leather sheath 603 is horizontally sleeved between the two side hubs 602 distributed at the bottom of the same hollow piston rod 404.

In this embodiment: along with the downward movement of the hollow piston rod 404, the L-shaped clamping plates 601 positioned at the bottom of the backing plate 501 synchronously move downward, so as to drive the leather sheath 603 positioned between the two L-shaped clamping plates 601 to move downward, the downward-moved leather sheath 603 can be respectively attached to the plane of the aluminum great wall plate 2, at this time, along with the horizontal movement of the aluminum great wall plate 2 driven by the conveyor table 1, the moving aluminum great wall plate 2 can drive the leather sheath 603 to rotate, and the leather sheath 603 can rotate and squeeze the aluminum great wall plate 2.

In the above-mentioned scheme, considering that when the equipment performs the film coating operation on the aluminum great wall plates 2 with different specifications, the extrusion range of the equipment is correspondingly changed, the specific operation is as follows.

Referring to fig. 1 to 2 and fig. 4 to 10, in a preferred embodiment, the auxiliary pneumatic mechanism 7 includes air rows 701 horizontally fixed on two sides of the machine body 401, each air row 701 is respectively connected with a side end of one pump 402 in a penetrating manner, a plurality of air pipes 702 distributed at equal intervals are connected with a bottom of each air row 701 in a penetrating manner, the other end of each air pipe 702 is correspondingly connected with a side end of one hollow piston rod 404 in a penetrating manner, an air passage 703 is formed in the L-shaped clamping plate 601, and two ends of the air passage 703 respectively penetrate through a top side end of the backing plate 501 and a bottom side end of the L-shaped clamping plate 601 and are communicated with the interior of the leather sheath 603.

In this embodiment: when the pump 402 works, a part of high-pressure gas rushing out of the pump 402 enters the air exhaust 701, the gas entering the air exhaust 701 enters the corresponding hollow piston rod 404 through the air pipes 702 respectively, the side ends of the cushion plate 501 are pushed to enable the cushion plate 501 to slide outwards horizontally, the cushion plate 501 slides and simultaneously drives the corner wheels 502 arranged at the side ends of the cushion plate 501 to synchronously move, the distance between the two corner wheels 502 is changed, the edge wheels 502 relatively move and simultaneously stretch the leather sheath 603 through the edge wheel hub 602, the leather sheath 603 stretches, the length is synchronously changed, and the air pressure pushing the cushion plate 501 enters the leather sheath 603 through the air passage 703 and the edge wheel hub 602, so that the leather sheath 603 is tightly stretched; when two corner wheels 502 are positioned in the grooves of the aluminum great wall plate 2, the corner wheels 502 which move relatively cannot move continuously when finally extruding to the side edges of the aluminum great wall plate 2, so that shaping is finished; when two corner wheels 502 are located at the top of the aluminum great wall plate 2, when the corner wheels 502 which move relatively slide to the side edge of the aluminum great wall plate 2, the air pressure in the air cavity 403 also reaches a set value, the pump 402 stops the pressure supply work in the air cavity 403, the corner wheels 502 which lose the pressure function stop running, and therefore the corner wheels are clamped at the outer edges of the two sides of the top of the aluminum great wall plate 2, and the corners at the top of the aluminum great wall plate 2 are extruded and coated along with the horizontal movement of the aluminum great wall plate 2.

The supplementary explanation is that: the inner side of the corner wheel 502 is provided with an annular clamping groove 504, referring to fig. 9 to 11 specifically, when two corner wheels 502 are located at the top of the aluminum great wall plate 2, the corner wheel 502 which moves relatively slides to the side edge of the aluminum great wall plate 2, so that the annular clamping groove 504 is clamped at the outer edges of the two sides of the top of the aluminum great wall plate 2, and along with the horizontal movement of the aluminum great wall plate 2, the annular clamping groove 504 can squeeze and cover the corners of the top of the aluminum great wall plate.

In the above-described scheme, the specific operation is as follows in view of further improving the squeezable range of the corner wheel 502.

Referring to fig. 2 to 3 and 6 to 10, in a preferred embodiment, a connection 503 is movably mounted between the pad 501 and the corner wheel 502.

In this embodiment: when the type of the aluminum great wall plate 2 is changed, the degree of the corners of the plates in different types is correspondingly changed, and at this time, the user can adjust the connecting part 503 to change the inclination angle of the corner wheel 502.

The supplementary explanation is that: the connection portion 503 may be movably connected to the pad 501, so as to adjust an inclination angle of the connection portion 503, and may be fixed in angle by a bolt (not shown).

In the above-described scheme, considering that when the type of the aluminum great wall plate 2 is changed, the corner shapes (corners, rounded corners, chamfers) of the different types of plates are also changed accordingly, the following operations are performed in order to increase the range of use of the corner wheel 502.

Referring to fig. 9-11, in a preferred embodiment, the outer edge of the corner wheel 502 and the inner recess of the annular channel 504 are each curved, with the outer edge of the corner wheel 502 and the inner recess of the annular channel 504 being made of a flexible material.

In this embodiment: when the annular clamping groove 504 performs extrusion coating on the corner of the aluminum great wall plate 2, the outer edge of the extruded corner wheel 502 and the inner concave part of the annular clamping groove 504 deform no matter what the corner shape of the aluminum great wall plate 2 is, so that the aluminum great wall plate 2 is tightly attached.

In the above-described scheme, the following is a specific operation in order to ensure that the sub-barometer 7 and the main barometer 4 can be operated in synchronization.

Referring to fig. 1 to 2, 4, and 6 to 7, in a preferred embodiment, a three-way regulating valve 704 is sleeved outside the through connection end of the pump 402 and the air chamber 403, and the side end of the three-way regulating valve 704 is connected with the inside of the air row 701.

In this embodiment: as pump 402 operates, a portion of the air pressure drawn from pump 402 is diverted into the interior of air displacement 701 through three-way regulator 704.

Working principle: when in use, a user firstly feeds the side end of the aluminum great wall plate 2 from the side end of the conveyor table 1, synchronously attaches the side end of the adhesive film 3 to the side end of the aluminum great wall plate 2, along with the operation of the conveyor table 1, the aluminum great wall plate 2 and the adhesive film 3 slowly reach the lower part of the machine body 401, at the moment, the two pumps 402 are started and respectively blow air into the two independent air cavities 403 according to preset amounts, high-pressure air entering the air cavities 403 can push a plurality of hollow piston rods 404 below the air cavities 403 to synchronously press down, the hollow piston rods 404 press down and simultaneously drive a blank pressing mechanism 5 and a face pressing mechanism 6 below the hollow piston rods 404 to synchronously press down, the blank pressing mechanism is pressed and attached to the upper part of the aluminum great wall plate 2, and the hollow piston rods 404 inside the two air cavities 403 can have different downward movement degrees due to different air pressure amounts inside the two air cavities 403, thereby driving the corner wheel 502 and the leather sheath 603 below the hollow piston rod 404 to be respectively attached to the corner surfaces above and below the aluminum great wall plate 2, when the pump 402 works, part of high-pressure air rushing out from the pump 402 enters the air exhaust 701, the air entering the air exhaust 701 enters the corresponding hollow piston rod 404 through a plurality of air pipes 702 respectively, and pushes the side end of the backing plate 501, so that the backing plate 501 slides outwards horizontally, the backing plate 501 slides and simultaneously drives the corner wheel 502 arranged at the side end thereof to synchronously move, the distance between the two corner wheels 502 is changed, the leather sheath 603 is stretched through the side hub 602 while the relative movement of the corner wheels 502 is carried out, the leather sheath 603 is stretched, the length is synchronously changed, and part of air pressure pushing the backing plate 501 enters the inside of the leather sheath 603 through the air passage 703 and the side hub 602, causing the holster 603 to tighten; when two corner wheels 502 are positioned in the grooves of the aluminum great wall plate 2, the corner wheels 502 which move relatively cannot move continuously when finally extruding to the side edges of the aluminum great wall plate 2, so that shaping is finished; when two corner wheels 502 are located at the top of the aluminum great wall plate 2, when the corner wheels 502 which move relatively slide to the side edge of the aluminum great wall plate 2, the air pressure in the air cavity 403 also reaches a set value, the pump 402 stops the pressure supply work in the air cavity 403, the corner wheels 502 which lose the pressure effect stop running, and are clamped at the outer edges of the two sides of the top of the aluminum great wall plate 2, at the moment, the conveyor table 1 drives the aluminum great wall plate 2 to horizontally move, the moving aluminum great wall plate 2 drives the corner wheels 502 and the leather sheath 603 to rotate, so that the corner wheels 502 and the leather sheath 603 rotate and squeeze the aluminum great wall plate 2, and the whole film squeezing process is completed.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (7)

1. The aluminum plate laminating device comprises a conveying machine table (1), an aluminum great wall plate (2) laid above the conveying machine table (1) and a glue film (3) adhered above the aluminum great wall plate (2), and is characterized in that a main air pressure mechanism (4) for vertically pushing and pressurizing is arranged in the middle of the upper part of the conveying machine table (1);

the side end of the bottom of the main air pressure mechanism (4) is provided with a blank holder mechanism (5) for extruding and molding the adhesive film (3) at the corner of the aluminum great wall plate (2);

the bottom of the edge pressing mechanism (5) is provided with a dough pressing mechanism (6) for extruding and molding the adhesive film (3) at the plane of the aluminum great wall plate (2);

the side end of the main air pressure mechanism (4) is provided with a secondary air pressure mechanism (7) for pressurizing the noodle pressing mechanism (6);

the main air pressure mechanism (4) comprises a machine body (401) fixed at the middle part above the conveying machine table (1), two pump machines (402) are fixed at the top of the machine body (401), the two pump machines (402) are in mirror symmetry and distributed on two sides of the top of the machine body (401), two air cavities (403) are formed in the machine body (401), the side ends of the two pump machines (402) are all connected with one air cavity (403) in a penetrating way, a plurality of hollow piston rods (404) are distributed at the bottom of each air cavity (403) in a sliding way, the hollow piston rods (404) are uniformly distributed along the horizontal direction, and meanwhile, the hollow piston rods (404) in the two air cavities (403) are distributed alternately along the horizontal direction;

the edge pressing mechanism (5) comprises base plates (501) which are slidably distributed on two sides of the bottom of each hollow piston rod (404), the two base plates (501) are horizontally and symmetrically distributed, an inclined corner wheel (502) is distributed on the outer side of each base plate (501), and the bottom edges of the corner wheels (502) are extruded and attached to the bottom corners of the aluminum great wall plates (2);

the noodle pressing mechanism (6) comprises L-shaped clamping plates (601) vertically fixed at the bottoms of each backing plate (501), two L-shaped clamping plates (601) located at the bottoms of the same hollow piston rods (404) are symmetrically distributed, side hubs (602) are rotatably mounted on the inner sides of the bottoms of the L-shaped clamping plates (601), and leather sleeves (603) are horizontally sleeved between the two side hubs (602) distributed at the bottoms of the same hollow piston rods (404).

2. An aluminum plate laminating device according to claim 1, wherein the auxiliary air pressure mechanism (7) comprises air rows (701) horizontally fixed on two sides of the machine body (401), each air row (701) is respectively and thoroughly connected with one side end of the pump (402), a plurality of air pipes (702) which are equidistantly distributed are respectively and thoroughly connected with the bottom of each air row (701), the other end of each air pipe (702) is correspondingly and thoroughly connected with one side end of the hollow piston rod (404), an air passage (703) is further formed in the L-shaped clamping plate (601), and two ends of the air passage (703) respectively penetrate through the top side end of the backing plate (501) and the bottom side end of the L-shaped clamping plate (601) and are communicated with the interior of the leather sheath (603).

3. An aluminium sheet laminating apparatus according to claim 2, wherein a connecting portion (503) is movably mounted between the backing plate (501) and the corner wheel (502).

4. An aluminum plate laminating device according to claim 3, wherein an annular clamping groove (504) is formed in the inner side of the corner wheel (502), and the annular clamping groove (504) can be in extrusion fit with the top corner of the aluminum great wall plate (2).

5. The aluminum plate laminating apparatus of claim 4, wherein the outer edges of said corner wheel (502) and the inner recesses of said annular clamping groove (504) are each of arcuate curved surface configuration.

6. An aluminium plate laminating apparatus according to claim 2, characterized in that the pump (402) and the air chamber (403) are connected by a three-way regulating valve (704) in a sleeved manner outside the through connection end, and the side end of the three-way regulating valve (704) is connected by a through connection with the inside of the air row (701).

7. An aluminium sheet laminating apparatus according to claim 5, wherein the outer edge of the corner wheel (502) and the inner recess of the annular clamping groove (504) are each made of a flexible material.