CN115674665A

CN115674665A - Aluminum-magnesium-manganese plate film coating process

Info

Publication number: CN115674665A
Application number: CN202211400489.2A
Authority: CN
Inventors: 任淑洁; 董红霞; 祁瑞琴
Original assignee: Tianjin Jizhou Xuedong Machinery Factory
Current assignee: Chongqing Zhongkun Aluminium Industry Co ltd
Priority date: 2022-11-09
Filing date: 2022-11-09
Publication date: 2023-02-03
Anticipated expiration: 2042-11-09
Also published as: CN115674665B

Abstract

The invention belongs to the field of aluminum magnesium manganese plate related manufacturing equipment, and particularly relates to an aluminum magnesium manganese plate film coating process which comprises a shell, wherein a feeding hole is formed in one end of the shell, first transmission belts are symmetrically and rotatably matched in a left-right and up-down mode in the shell on one side of the feeding hole, a discharging hole is formed in the other end of the shell, second transmission belts are symmetrically and rotatably matched in the left-right and up-down mode in the shell on one side of the discharging hole, a clamping cylinder is arranged on the side wall of the shell between the two first transmission belts, a fourth piston push rod is slidably arranged in the clamping cylinder, the outer side of one end, extending out of the side wall of the clamping cylinder, of the fourth piston push rod is connected with a rotating base, a plurality of clamping wheels are uniformly and rotatably arranged in the rotating base along the linear direction, a film coating bottom plate is fixedly arranged in the shell between the first transmission belts and the second transmission belts, a fixing transverse plate is fixedly arranged in the shell above the film coating bottom plate, and a film coating device is slidably arranged below the fixing transverse plate. The invention can effectively clean the end face and the corners of the plate.

Description

Aluminum-magnesium-manganese plate film coating process

Technical Field

The invention belongs to the field of aluminum magnesium manganese plate related manufacturing equipment, and particularly relates to an aluminum magnesium manganese plate film coating process.

Background

The aluminum-magnesium-manganese plate is a roof and outer wall material with high cost performance, and is widely applied to various large building places. Before the aluminium magnesium manganese board transports or uses, need carry out the tectorial membrane processing on aluminium magnesium manganese board surface before the production closes on the end, the tectorial membrane is handled except can guaranteeing that the aluminium magnesium manganese board can not appear the mar in transportation and rolling process, also can guarantee simultaneously that the operation workman can not take place to skid when walking on the top surface of being equipped with aluminium magnesium manganese board. There is a quantitative laminating equipment in the market at present, nevertheless all can't carry out effectual clearance to panel terminal surface and edge before the tectorial membrane for bubble bulge's the condition appears in the tectorial membrane process can have, also can't handle the bubble appear in the bubble, and the bubble can break in handling usually, leads to the unable formation protection in this position. Borrow this, design one kind and can carry out effective clearance and have important meaning to the laminating equipment that the bubble can be solved to panel terminal surface and edge.

Disclosure of Invention

The invention aims to provide a film coating process for an aluminum-magnesium-manganese plate, aiming at the problems in the prior art. The invention can effectively clean the end face and the edge of the board in the film covering process and solve the problem of bubbles generated by film covering.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an aluminium magnesium manganese board tectorial membrane equipment, includes the casing, the feed inlet, casing one end is provided with the feed inlet, feed inlet one side is provided with first drive belt in the casing longitudinal symmetry normal running fit, the casing other end is provided with the discharge gate, discharge gate one side is provided with the second drive belt in the casing longitudinal symmetry normal running fit, two be provided with the centre gripping cylinder on the casing lateral wall between the first drive belt, it is provided with fourth piston push rod to slide in the centre gripping cylinder, centre gripping cylinder lateral wall is stretched out to fourth piston push rod one end, fourth piston push rod stretches out centre gripping cylinder lateral wall one end outside and connects and be provided with the rotating base, it is provided with a plurality of centre gripping wheels to evenly rotate along the straight line direction in the rotating base, be provided with the tectorial membrane bottom plate in the casing between first drive belt and the second drive belt, the top of tectorial membrane bottom plate is provided with fixed diaphragm in the casing internal fixation, fixed diaphragm below slides and is provided with the tectorial membrane ware, tectorial membrane ware middle part both sides are provided with spring base, the elasticity is provided with the spring expansion plate, two it is provided with the pressure axle to rotate between the pressure axle outside the pressure axle, the tectorial membrane bottom plate stretches out, the tectorial membrane ware, the first dust removal storehouse is provided with first end face near first dust removal storehouse, the one end is provided with the dust removal storehouse.

Preferably, the first transmission belt is arranged on a first transmission belt wheel which is arranged in the shell in a symmetrical and rotating mode, a first transmission shaft is arranged at the circle center of the first transmission belt wheel in a rotating mode, the first transmission shaft is arranged on the inner side wall of the shell in a rotating mode, the second transmission belt is arranged on a second transmission belt wheel which is arranged in the shell in a symmetrical and rotating mode in a matching mode, a second transmission shaft is arranged at the circle center of the second transmission belt wheel in a rotating mode, and the second transmission shaft is arranged on the inner side wall of the shell in a rotating mode.

Preferably, the first material receiving shaft is arranged on the inner wall, close to the feed inlet, of the shell above the fixed transverse plate in a rotating mode, one end of the first material receiving shaft extends out of the side wall of the shell and is connected with an output end provided with a first driving motor, the second material receiving shaft is arranged below the first material receiving shaft and is arranged on the side wall of the shell in a rotating mode, one end of the second material receiving shaft extends out of the side wall of the shell and is connected with an output end provided with a third driving motor, the first material receiving shaft and the other end of the second material receiving shaft are arranged on the second disassembling plate in a rotating mode, the second disassembling plate is detachably arranged on the side wall of the shell in a sliding mode, one side of the first material receiving shaft is arranged on the other side of the fixed transverse plate in a rotating mode, one end of the material discharging shaft extends out of the side wall of the shell, one end of the material discharging shaft extends out of the side wall and is connected with an output end provided with a second driving motor, the other end of the discharging shaft is arranged on the first disassembling plate in a sliding mode.

Preferably, the symmetry both sides are rotated and are provided with the third drive belt in the tectorial membrane bottom plate, third drive belt both ends are all rotated and are provided with the third transmission shaft, the third transmission shaft symmetry sets up in the inside both ends of casing, is close to second drive belt one side third transmission shaft one end stretches out the casing lateral wall, the third transmission shaft stretches out casing lateral wall one end and connects and be provided with the second driving motor output.

Preferably, the last item of film is provided with the membrane mouth of arranging in the tectorial membrane ware top intercommunication above the pressure shaft is close to feed inlet one side, tectorial membrane ware top both sides intercommunication is provided with into the membrane mouth, it all is provided with the centre gripping base in the tectorial membrane ware with membrane mouth both sides to advance the membrane mouth, it is provided with first piston push rod to slide in the centre gripping base, first piston push rod connects in the centre gripping base one end and is provided with first spring, the first spring other end is connected and is set up in centre gripping base bottom, centre gripping base bottom one side is provided with centre gripping base air inlet, the first piston push rod other end stretches out centre gripping base lateral wall, first piston push rod stretches out centre gripping base lateral wall one end outside and is provided with the rotation mainboard, it is provided with the axis of rotation to rotate between the mainboard, it is provided with the butt base in pinch roller one side to arrange membrane mouth below, butt base fixed connection sets up between two spring expansion plates, butt base top is provided with the base butt air inlet, butt base air inlet slides in spring expansion plate below is provided with second piston push rod, second piston push rod one end stretches out the butt base bottom, the second piston push rod stretches out base bottom is provided with the butt, the spring is provided with the oblique cutting edge before two spring cutting edge separation in the pinch roller to one side.

Preferably, the other end of the film covering device is provided with a detection base, a plurality of detection blocks are uniformly arranged at the bottom of the detection base along the linear direction, a pressing base is arranged in the film covering device on one side of the detection base, the top of the pressing base is communicated with a pressing base air inlet, a fifth piston push rod is arranged below the pressing base air inlet in the pressing base in a sliding manner, one end of the fifth piston push rod in a third spring is connected with a third spring, the other end of the third spring is connected and arranged at the top of the pressing base, the other end of the fifth piston push rod extends out of the bottom of the pressing base, one end of the fifth piston push rod extending out of the bottom of the pressing base is connected with a heating inner plate, the hot nail base comprises a heating inner plate, a hot nail base body, an air outlet, an elastic plate, a plurality of elastic nails, a fourth spring, a plurality of air inlets and a heating block, wherein the heating inner plate is communicated with one side of the heating inner plate, the plurality of hot nail bases are uniformly arranged at the bottom of the heating inner plate along the linear direction, the air outlet is arranged at the bottom of the hot nail base body in a communicated manner, the elastic plate is arranged above the air outlet and slides in the hot nail bases, one end of the bottom of the elastic plate is connected and provided with the elastic nails, one end of the bottom of the elastic nail is extended out of the bottom of the air outlet, the bottom of the elastic plate is connected and provided with the fourth spring outside the elastic nail, the other end of the fourth spring is connected and arranged at the bottom of the hot nail base body, the plurality of air inlets are arranged on the side wall of the hot nail base body, and the heating block is arranged at the bottom of the heating inner plate between each hot nail base body.

Preferably, the bottom of the clamping cylinder is provided with a fifth spring in a connected manner, the other end of the fifth spring is connected and arranged at the bottom of the fourth piston push rod, a scraper is arranged between every two clamping wheels in the rotating base on one side of the fourth piston push rod, the edge of the scraper faces one side of the first driving belt wheel and is in an inclined inverted inner groove type, and a slag discharge port is formed in the position of the inner groove angle of the scraper.

Preferably, a plurality of fourth driving motors are uniformly arranged at the top of the dedusting bin along the linear direction, the output ends of the fourth driving motors are rotatably connected with rotating impellers, and second heating rods are arranged on the inner side walls of the outlets of the Fang Yudi and the first dedusting port below the rotating impellers.

Preferably, the fixed transverse plate is symmetrically and fixedly provided with pushing cylinders, pushing rods are arranged in the pushing cylinders in a sliding manner, one ends of the pushing rods extend out of the bottoms of the pushing cylinders, and one ends of the pushing rods extend out of the bottoms of the pushing cylinders and are connected with film coating devices; and a pump is arranged at the bottom of the shell below the film laminating device.

Has the advantages that:

1. according to the invention, through the linkage design of the second heating rod in the dust removal bin and the scraper, burrs at the corners of the plate can be cleaned in the transportation process, and meanwhile, the end face dust removal and the plate preheating can be carried out during film coating, so that the laminating degree of the film coating can be effectively improved.

2. According to the invention, through the linkage design of the detection base, the elastic nail and the heating block, when bubbles exist in the plate coating film at the detection position of the equipment, the bubbles can be punctured and deflated and then reheated to be attached to the surface of the plate, so that the film is not difficult to tear and the situation that the local part is not protected is avoided.

3. According to the invention, through the design of the clamping base, the separation inclined knife and the like, the equipment can smoothly complete the film coating work, and meanwhile, the film material can be clamped to avoid slipping when the equipment is suspended to operate or the bubbles are treated, so that the workload of operators is effectively reduced.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 isbase:Sub>A cross-sectional view taken at A-A of FIG. 2;

FIG. 5 is a cross-sectional view taken at B-B of FIG. 3;

FIG. 6 is a cross-sectional view taken at C-C of FIG. 4;

FIG. 7 is an enlarged view of a portion of FIG. 4 at D;

FIG. 8 is an enlarged view of a portion of FIG. 7 at G;

FIG. 9 is an enlarged view of a portion of FIG. 5 at E;

FIG. 10 is an enlarged view of a portion of FIG. 6 at F;

in the figure: the device comprises a shell 10, a feed inlet 11, a first transmission belt 12, a second transmission belt 20, a clamping cylinder 27, a fourth piston push rod 74, a rotating base 75, a clamping wheel 76, a film covering bottom plate 79, a fixed transverse plate 19, a film covering device 34, a spring base 45, a spring expansion plate 46, a pressing shaft 48, a pressing wheel 47, a dust removing bin 55, a first dust removing port 58, a second dust removing port 59, a first transmission belt wheel 14, a first transmission shaft 13, a second transmission belt wheel 21, a second transmission shaft 22, a first material receiving shaft 15, a first driving motor 28, a second material receiving shaft 16, a third driving motor 33, a second disassembling plate 25, a discharging shaft 17, a second driving motor 29, a first disassembling plate 24, a third transmission belt 30, a third transmission shaft 81, a second driving motor 29, a film discharging port 36 and a film inlet 35, the device comprises a clamping base 37, a first piston push rod 41, a first spring 38, a clamping base air inlet 31, a rotating main plate 42, a rotating shaft 43, an abutting base 49, an abutting base air inlet 39, a second piston push rod 50, a hot cutter 51, a second spring 52, a separating inclined cutter 82, a first heating rod 44, a detection base 61, a detection block 65, a pressing base 62, a pressing base air inlet 40, a fifth piston push rod 80, a third spring 63, a heating inner plate 66, an inner plate air inlet 53, a hot nail base 54, an air outlet 69, an elastic plate 67, an elastic nail 68, a fourth spring 71, an air inlet 70, a heating block 72, a fifth spring 73, a scraping plate 77, a slag outlet 78, a fourth driving motor 56, a rotating impeller 57, a second heating rod 60, a pushing cylinder 18, a pushing rod 32 and a pump 26.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

With reference to the attached drawings 1-10, an aluminum magnesium manganese plate film coating device comprises a shell 10, a feed port 11 arranged at one end of the shell 10, first transmission belts 12 symmetrically arranged in the shell 10 at one side of the feed port 11 in a left-right and up-down symmetrical manner in a rotating manner, a discharge port 23 arranged at the other end of the shell 10, a second transmission belt 20 symmetrically arranged in the shell 10 at one side of the discharge port 23 in a left-right and up-down symmetrical manner in a rotating manner, a clamping cylinder 27 arranged on the side wall of the shell 10 between the two first transmission belts 12, a fourth piston push rod 74 arranged in the clamping cylinder 27 in a sliding manner, one end of the fourth piston push rod 74 extending out of the side wall of the clamping cylinder 27 and connected with a rotating base 75, a plurality of clamping wheels 76 uniformly arranged in the rotating base 75 in a straight line direction in a rotating manner, a film covering bottom plate 79 is fixedly arranged in the shell 10 between the first transmission belt 12 and the second transmission belt 20, a fixed transverse plate 19 is fixedly arranged above the film covering bottom plate 79 in the shell 10, a film covering device 34 is slidably arranged below the fixed transverse plate 19, two sides of the middle of the film covering device 34 are provided with spring bases 45, spring expansion plates 46 are elastically arranged in the spring bases 45, a pressing shaft 48 is rotatably arranged between the two spring expansion plates 46, a pressing wheel 47 is rotatably arranged on the outer side of the pressing shaft 48, the outer circular surface of the pressing wheel 47 extends out of the bottom end surface of the film covering device 34, a dust removing bin 55 is arranged on one side wall of the film covering device 34 close to the feed inlet 11, one end of the dust removing bin 55 close to the feed inlet 11 is provided with a first dust removing port 58, and one end of the dust removing bin 55 close to the film covering bottom plate 79 is provided with a second dust removing port 59.

Further, the first transmission belt 12 is arranged on the first transmission belt wheel 14 which is symmetrically and rotatably arranged in the shell 10 in a matched mode, a first transmission shaft 13 is arranged at the center of a circle of the first transmission belt wheel 14 in a rotating mode, the first transmission shaft 13 is arranged on the inner side wall of the shell 10 in a rotating mode, the second transmission belt 20 is arranged on the second transmission belt wheel 21 which is symmetrically and rotatably arranged in the shell 10 in a matched mode, a second transmission shaft 22 is arranged at the center of a circle of the second transmission belt wheel 21 in a rotating mode, and the second transmission shaft 22 is rotatably arranged on the inner side wall of the shell 10.

Further, a first material receiving shaft 15 is rotatably arranged on the inner wall of the shell 10, which is close to one side of the feed port 11, above the fixed transverse plate 19, one end of the first material receiving shaft 15 extends out of the side wall of the shell 10, one end of the first material receiving shaft 15, which extends out of the side wall of the shell 10, is connected with the output end of a first driving motor 28, a second material receiving shaft 16 is rotatably arranged on the side wall of the shell 10 below the first material receiving shaft 15, one end of the second material receiving shaft 16 extends out of the side wall of the shell 10, one end of the second material receiving shaft 16, which extends out of the side wall of the shell 10, is connected with the output end of a third driving motor 33, the first material receiving shaft 15 and the other end of the second material receiving shaft 16 are rotatably arranged on a second disassembling plate 25, the second disassembling plate 25 is slidably disassembled on the side wall of the shell 10, one side of the first material receiving shaft 15 is rotatably arranged on the side wall of the shell 10, one end of the discharging shaft 17 extends out of the side wall of the shell 10, one end of the discharging shaft 17, which extends out of the side wall of the shell 10, is connected with the output end of a second driving motor 29, and is rotatably arranged on the side wall of the first disassembling plate 24.

Further, the interior symmetry both sides of tectorial membrane bottom plate 79 are rotated and are provided with third drive belt 30, and third drive belt 30 both ends are all rotated and are provided with third transmission shaft 81, and third transmission shaft 81 symmetry sets up in the inside both ends of casing 10, and the third transmission shaft 81 one end that is close to second drive belt 20 one side stretches out the casing 10 lateral wall, and third transmission shaft 81 stretches out casing 10 lateral wall one end and connects and be provided with second driving motor 29 output.

Further, a film discharging port 36 is communicated and arranged on the top of the film covering device 34 above one side of the pressing shaft 48 close to the feed port 11, film inlet ports 35 are communicated and arranged on two sides of the top of the film covering device 34, clamping bases 37 are arranged on two sides of the film inlet ports 35 and the film discharging port 36 in the film covering device 34, first piston push rods 41 are arranged in the clamping bases 37 in a sliding mode, first springs 38 are connected and arranged at one ends of the first piston push rods 41 in the clamping bases 37, the other ends of the first springs 38 are connected and arranged at the bottom of the clamping bases 37, clamping base air inlets 31 are arranged on one sides of the bottoms of the clamping bases 37, the other ends of the first piston push rods 41 extend out of the side walls of the clamping bases 37, rotating main plates 42 are arranged on the outer sides of one ends of the first piston push rods 41 extending out of the side walls of the clamping bases 37, and rotating shafts 43 are arranged between the rotating main plates 42 in a rotating mode, arrange membrane mouth 36 below and be provided with butt base 49 in pinch roller 47 one side, butt base 49 fixed connection sets up between two spring expansion plates 46, butt base 49 top is provided with butt base air inlet 39, butt base air inlet 39 below is slided in spring expansion plate 46 and is provided with second piston push rod 50, butt base 49 bottom is stretched out to second piston push rod 50 one end, second piston push rod 50 stretches out butt base 49 bottom one end and is provided with hot cutter 51 outward, second piston push rod 50 other end connection is provided with second spring 52, the second spring 52 other end connection sets up in butt base 49 top, pinch roller 47 opposite side is connected before pinch roller 47 and is provided with separation inclined sword 82, separation inclined sword 82 blade is towards into membrane mouth 35 one side, pinch roller 47 top is provided with a plurality of first heating rods 44 between two spring bases 45.

Further, the other end of the film covering device 34 is provided with a detection base 61, the bottom of the detection base 61 is uniformly provided with a plurality of detection blocks 65 along the linear direction, one side of the detection base 61 is provided with a pressing base 62 in the film covering device 34, the top of the pressing base 62 is provided with a pressing base air inlet 40 in a communicating manner, a fifth piston push rod 80 is arranged below the pressing base air inlet 40 in the pressing base 62 in a sliding manner, the fifth piston push rod 80 is provided with a third spring 63 in one end of the third spring 63 in a connecting manner, the other end of the third spring 63 is arranged at the top of the pressing base 62 in a connecting manner, the other end of the fifth piston push rod 80 extends out of the bottom of the pressing base 62, the fifth piston push rod 80 extends out of one end of the bottom of the pressing base 62 and is provided with a heating inner plate 66 in a connecting manner, one side of the heating inner plate 66 is provided with an inner plate air inlet 53 in a communicating manner, the bottom of the heating inner plate 66 is provided with a plurality of hot nail bases 54 along the linear direction, the bottom of the hot nail bases 54 in a communicating manner, an inner plate 69 is provided with an exhaust hole 69 in the hot nail bases 54 above the exhaust hole 69 in the hot nail bases 54, one end of the bottom of the hot nail bases 70 is provided with a hot nail bases 71 connected with a fourth hot nail bases 70, one end of the hot nail bases 70 connected in a connecting manner, one side wall of the hot nail bases 70, one side of the hot nail bases 70, one end of the hot nail bases 70 connected with a hot nail bases 70.

Furthermore, the bottom of the clamping cylinder 27 is connected with a fifth spring 73, the other end of the fifth spring 73 is connected with the bottom of a fourth piston push rod 74, a scraper 77 is arranged between every two clamping wheels 76 in a rotating base 75 on one side of the fourth piston push rod 74, the cutting edge of the scraper 77 faces one side of the first driving pulley 14 and is in an inclined type with an inverted inner groove, and a slag discharge port 78 is arranged at the inner groove angle of the scraper 77.

Furthermore, a plurality of fourth driving motors 56 are uniformly arranged on the top of the dust removing bin 55 along the linear direction, the output ends of the fourth driving motors 56 are rotatably connected with a rotating impeller 57, and second heating rods 60 are arranged on the inner side walls of the outlets of the Fang Yudi and the second dust removing port 59 below the rotating impeller 57 and the first dust removing port 58.

Further, the fixed transverse plate 19 is symmetrically and fixedly provided with a push cylinder 18, a push rod 32 is slidably arranged in the push cylinder 18, one end of the push rod 32 extends out of the bottom of the push cylinder 18, and one end of the push rod 32 extending out of the bottom of the push cylinder 18 is connected with a film coating device 34; a pump 26 is provided below the laminator 34 at the bottom of the housing 10.

The working principle is as follows: after the second disassembling plate 25 and the first disassembling plate 24 are disassembled and taken down by an operator, a raw material film cylinder is placed on the discharging shaft 17, a waste paper cylinder of the film cylinder is placed on the second material receiving shaft 16, the waste film cylinder is placed on the first material receiving shaft 15, the raw material film is pulled in through the film inlet 35, the film and the sticker are torn off, the film is wound around the bottom of the pressing wheel 47, the sticker is wound above the separation inclined knife 82, the cutting edge of the separation inclined knife 82 is located between the sticker and the film, the sticker and the film are pulled out from the film outlet 36, one end of the sticker is adhered to the waste paper cylinder, and the film is adhered to the waste film cylinder.

At this moment, the starting device is started, at this moment, the first transmission shaft 13 arranged in the housing 10 rotates, so as to drive the first transmission belt wheel 14 arranged on the first transmission shaft 13 to rotate, so as to drive the first transmission belt 12 arranged on the first transmission belt wheel 14 to rotate towards the pushing cylinder 18, at this moment, an operator places the aluminum-magnesium-manganese plate between the two first transmission belts 12 through the feeding port 11, then the plate is conveyed inwards by pinching the two first transmission belts 12 which are symmetrically arranged up and down, at this moment, the clamping cylinders 27 arranged at the two sides of the first transmission belt 12 start, the clamping cylinders 27 start to intake air, and then the fourth piston push rods 74 arranged inside are pushed to move outwards, so as to push the rotating bases 75 arranged at one ends of the fourth piston push rods 74 to move inwards, so as to push the clamping wheels 76 arranged in the rotating bases 75 to gradually approach the plate, so that the outer circular surfaces of the clamping wheels 76 can be attached to the edges of the plate, so as to perform limit processing on the plate, during the limit processing, the cutting edges of the scraper 77 arranged between the clamping wheels 76 can also contact with the edges of the plate, so as to remove burrs, and the edges of the plate, and the edge of the plate can be discharged outwards through the slag outlet 78.

After panel passes through die clamping cylinder 27, just can move tectorial membrane bottom plate 79 top, set up the second driving motor 29 on the casing 10 lateral wall afterwards and start, second driving motor 29 output drives third transmission shaft 81 and rotates, thereby it moves forward to drive the third drive belt 30 that sets up in third transmission shaft 81 top, thereby it makes the panel that moves tectorial membrane bottom plate 79 top can outwards move to drive, set up the promotion cylinder 18 on fixed diaphragm 19 this moment and start, promotion cylinder 18 promotes inside catch bar 32 and moves down, thereby promote to set up tectorial membrane ware 34 that sets up in catch bar 32 bottom and move down, thereby promote to set up pinch roller 47 that sets up in tectorial membrane ware 34 bottom and laminate gradually on the panel surface, thereby carry out the work of tectorial membrane.

Before the tectorial membrane, at the in-process that panel removed, set up the fourth driving motor 56 in the dust removal storehouse 55 and start, fourth driving motor 56 output drives and rotates impeller 57 and rotate, thereby make second dust removal mouth 59 and first dust removal mouth 58 on fourth driving motor 56 bottom and the lateral wall to blow off gas, thereby get rid of the dust on panel surface, set up second heating rod 60 in dust removal storehouse 55 simultaneously and also can begin to heat, thereby make the gas that blows off be hot-blast, thereby can make panel surface heating, thereby the membrane can in time be pasted when making things convenient for the tectorial membrane and go.

After panel process dust removal storehouse 55, just can remove pinch roller 47 below, thereby laminate the membrane on the panel surface through pinch roller 47, at the in-process of laminating, set up in the butt base 49 start-up of pinch roller 47 one side, butt base 49 begins to admit air through the butt base air inlet 39 at top, promote afterwards to set up the second piston push rod 50 pushing down in butt base 49, thereby promote to set up in the hot knife 51 pushing down of second piston push rod 50 bottom, this design, on the one hand can scrape even processing to the membrane of laminating and avoid the bubble to produce, on the other hand can end cutting off the processing after the tectorial membrane at panel. In the laminating process, the first heating rod 44 arranged between the spring bases 45 is also heated, so that the film and the sticker can be separated more quickly by the cooperation of heat and the separation inclined knife 82.

After the plate film covering is finished, the plate film is driven to the position below the detection base 61, the detection block 65 arranged at the bottom of the detection base 61 checks the plate, if bubbles appear on the surface film of the plate, the third transmission belt 30 reverses at the moment, so that the plate is backed up, so that a bubble point is moved to the position below the pressing base 62, at the moment, the pressing base 62 starts to admit air through the pressing base air inlet 40 at the top, then the fifth piston push rod 80 inside is pushed to move downwards, so that the heating inner plate 66 arranged at the bottom of the fifth piston push rod 80 is pushed to move downwards, so that the elastic nail 68 arranged at the bottom of the heating inner plate 66 is pushed to contact with the bubbles, so that the bubbles are punctured, at the moment, the inner plate air inlet 53 arranged at one side of the heating inner plate 66 starts to admit air, so that the gas in the heating inner plate 66 is full of the gas, then the gas inlet 70 arranged at the outer circular surface of the hot nail base 54 enters the hot nail base 54, then the elastic nail is ejected outwards through the opening 69 arranged at the bottom of the hot nail base 54, so that the elastic nail can not puncture the external film, and the elastic nail can still puncture the external spring 71, and the elastic nail can not puncture the fourth bubble.

When the bubble is punctured, the clamping base 37 arranged at the two sides of the film discharging port 36 and the rotating shaft 43 is started, the clamping base 37 starts to intake air through the clamping base air inlet 31, so that the first piston push rod 41 inside the clamping base is pushed to move outwards, the rotating main plate 42 arranged at one end of the first piston push rod 41 is pushed to move outwards, the rotating shaft 43 arranged at one end of the rotating main plate 42 is pushed to move outwards, the film is clamped, the motor is driven to stop moving at the moment, and the film sticking overlapping is prevented.

Finally, the finished board is discharged through the discharge port 23 while being held and conveyed by the second belt 20.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly or indirectly applied to other related technical fields are also included in the scope of the present invention.

Claims

1. The aluminum magnesium manganese plate film coating equipment comprises a shell (10) and a feeding hole (11), and is characterized in that the feeding hole (11) is formed in one end of the shell (10), a first transmission belt (12) is arranged in the shell (10) in a bilateral and vertical symmetrical rotation fit mode on one side of the feeding hole (11), a discharging hole (23) is formed in the other end of the shell (10), a second transmission belt (20) is arranged in the shell (10) in a bilateral and vertical symmetrical rotation fit mode on one side of the feeding hole (11), a clamping cylinder (27) is arranged between the first transmission belt (12) and the side wall of the shell (10), a fourth piston push rod (74) is arranged in the clamping cylinder (27) in a sliding mode, one end of the fourth piston push rod (74) extends out of the side wall of the clamping cylinder (27) and is connected with a rotating base (75), a plurality of clamping wheels (76) are uniformly and rotatably arranged in the rotating base (75) along the straight line direction, a film coating bottom plate (79) is arranged above a fixed bottom plate (19) fixed above the shell (19), and a transverse plate (79) is arranged in the sliding base (34), tectorial membrane ware (34) middle part both sides are provided with spring base (45), springing is provided with spring expansion plate (46) in spring base (45), two it is provided with pressure axle (48) to rotate between spring expansion plate (46), it is provided with pinch roller (47) to press axle (48) outside to rotate, press roller (47) outer disc stretches out tectorial membrane ware (34) bottom terminal surface, tectorial membrane ware (34) are close to and are provided with dust removal storehouse (55) on feed inlet (11) a lateral wall, dust removal storehouse (55) are close to feed inlet (11) one end and are provided with first dust removal mouth (58), dust removal storehouse (55) are close to tectorial membrane bottom plate (79) one end and are provided with second dust removal mouth (59).

2. The aluminum magnesium manganese plate film coating equipment according to claim 1, wherein the first transmission belt (12) is arranged on a first transmission belt wheel (14) which is symmetrically and rotatably arranged in the shell (10) in a matching manner, a first transmission shaft (13) is rotatably arranged at the center of the circle of the first transmission belt wheel (14), the first transmission shaft (13) is rotatably arranged on the inner side wall of the shell (10), the second transmission belt (20) is arranged on a second transmission belt wheel (21) which is symmetrically and rotatably arranged in the shell (10) in a matching manner, a second transmission shaft (22) is rotatably arranged at the center of the circle of the second transmission belt wheel (21), and the second transmission shaft (22) is rotatably arranged on the inner side wall of the shell (10).

3. The aluminum magnesium manganese plate film coating equipment according to claim 1, wherein a first material receiving shaft (15) is rotatably arranged on the inner wall of the shell (10) on one side close to the feed port (11) above the fixed transverse plate (19), one end of the first material receiving shaft (15) extends out of the side wall of the shell (10), one end of the first material receiving shaft (15) extending out of the side wall of the shell (10) is connected with an output end provided with a first driving motor (28), a second material receiving shaft (16) is rotatably arranged on the side wall of the shell (10) below the first material receiving shaft (15), one end of the second material receiving shaft (16) extends out of the side wall of the shell (10), one end of the second material receiving shaft (16) extending out of the side wall of the shell (10) is connected with an output end provided with a third driving motor (33), the other ends of the first material receiving shaft (15) and the second material receiving shaft (16) are rotatably arranged on a second disassembling plate (25), the second disassembling plate (25) can be disassembled on the side wall of the shell (10) in a sliding manner, one end of the first material receiving shaft (15) extends out of the side wall of the shell (10), one side wall of the second material receiving shaft (17) is connected with an output end of the second material receiving shaft (17), one side wall of the second disassembling plate (17) which is provided with the second disassembling plate (17), the other end of the discharging shaft (17) is matched and rotatably arranged on a first disassembling plate (24), and the first disassembling plate (24) can be disassembled on the side wall of the shell (10) in a sliding mode.

4. The aluminum magnesium manganese plate film coating equipment according to claim 1, wherein a third transmission belt (30) is rotatably arranged at two symmetrical sides in the film coating bottom plate (79), a third transmission shaft (81) is rotatably arranged at each of two ends of the third transmission belt (30), the third transmission shafts (81) are symmetrically arranged at two ends in the shell (10), one end of the third transmission shaft (81) close to one side of the second transmission belt (20) extends out of the side wall of the shell (10), and one end of the third transmission shaft (81) extending out of the side wall of the shell (10) is connected with an output end of a second driving motor (29).

5. The aluminum magnesium manganese plate film covering equipment according to claim 1, wherein a film discharging port (36) is arranged above one side of the pressing shaft (48) close to the feed port (11) and communicated with the top of the film covering device (34), film inlet ports (35) are arranged on two sides of the top of the film covering device (34) and communicated with each other, clamping bases (37) are arranged in the film covering device (34) on two sides of the film inlet ports (35) and the film discharging port (36), a first piston push rod (41) is arranged in the clamping bases (37) in a sliding manner, one end of the first piston push rod (41) in the clamping bases (37) is provided with a first spring (38) in a connecting manner, the other end of the first spring (38) is arranged at the bottom of the clamping bases (37) in a connecting manner, a clamping base air inlet (31) is arranged on one side of the bottom of the clamping bases (37), the other end of the first piston push rod (41) extends out of the side wall of the clamping bases (37), a rotating main plate (42) is arranged between the rotating main plate (43), a fixed base (49) is arranged between the two telescopic bases (49) in a abutting manner, and a pressing shaft (47) is arranged on one side of the bottom of the clamping bases (49), the utility model discloses a film cutting device, including butt base air inlet (39), second piston push rod (50) is provided with in the slip of spring expansion plate (46) below butt base air inlet (39), butt base (49) bottom is stretched out to second piston push rod (50) one end, second piston push rod (50) stretch out butt base (49) bottom one end and be provided with hot cutter (51) outward, second piston push rod (50) other end connection is provided with second spring (52), second spring (52) other end connection sets up in butt base (49) top, pinch roller (47) opposite side is connected before pinch roller (47) and is provided with separation raking knife (82), separation raking knife (82) blade is towards into membrane mouth (35) one side, pinch roller (47) top is provided with a plurality of first heating rod (44) between two spring base (45).

6. The aluminum magnesium manganese plate film coating equipment according to claim 5, wherein a detection base (61) is arranged at the other end of the film coating device (34), a plurality of detection blocks (65) are uniformly arranged at the bottom of the detection base (61) along a linear direction, a pressing base (62) is arranged in the film coating device (34) at one side of the detection base (61), a pressing base air inlet (40) is communicated with the top of the pressing base (62), a fifth piston push rod (80) is arranged below the pressing base air inlet (40) and slides in the pressing base (62), a third spring (63) is connected and arranged at one end of the fifth piston push rod (80) in the third spring (63), the other end of the third spring (63) is connected and arranged at the top of the pressing base (62), the other end of the fifth piston push rod (80) extends out of the bottom of the pressing base (62), a heating inner plate (66) is connected and arranged at one end of the fifth piston push rod (80) extending out of the bottom of the pressing base (62), a heating inner plate (66) is communicated and arranged at one side of the heating inner plate (54), a plurality of hot air exhaust nail nails (54) are uniformly arranged above the linear direction of the hot nail base (69), the elastic plate is characterized in that an elastic moving nail (68) is connected to one end of the bottom of the elastic plate (67), one end of the bottom of the elastic moving nail (68) stretches out of the bottom of an air outlet (69), a fourth spring (71) is connected and arranged on the outer side of the elastic moving nail (68) at the bottom of the elastic plate (67), the other end of the fourth spring (71) is connected and arranged at the bottom of the hot nail base (54), a plurality of air inlets (70) are formed in the side wall of the hot nail base (54), and a heating block (72) is arranged between each hot nail base (54) and the bottom of the heating inner plate (66) below the hot nail base (54).

7. The aluminum magnesium manganese plate film coating equipment according to claim 1, wherein a fifth spring (73) is connected to the bottom of the clamping cylinder (27), the other end of the fifth spring (73) is connected to the bottom of a fourth piston push rod (74), a scraper (77) is arranged between each clamping wheel (76) in a rotating base (75) on one side of the fourth piston push rod (74), the cutting edge of the scraper (77) faces one side of the first transmission belt wheel (14) and is in an inverted inner groove inclined type, and a slag discharge opening (78) is arranged at the inner groove angle of the scraper (77).

8. The aluminum magnesium manganese plate film covering equipment according to claim 1, wherein a plurality of fourth driving motors (56) are uniformly arranged on the top of the dust removing bin (55) along a linear direction, the output ends of the fourth driving motors (56) are rotatably connected with a rotating impeller (57), and second heating rods (60) are arranged on the inner side walls of the outlets of the Fang Yudi and the first dust removing port (58) below the rotating impeller (57).

9. The aluminum magnesium manganese plate film coating equipment according to claim 1, wherein the fixed transverse plate (19) is symmetrically and fixedly provided with a pushing cylinder (18), a pushing rod (32) is arranged in the pushing cylinder (18) in a sliding manner, one end of the pushing rod (32) extends out of the bottom of the pushing cylinder (18), and one end of the pushing rod (32) extending out of the bottom of the pushing cylinder (18) is connected with a film coating device (34); and a pump (26) is arranged at the bottom of the shell (10) below the film laminating device (34).

10. The aluminum magnesium manganese plate film coating process using the aluminum magnesium manganese plate film coating equipment according to any one of claims 1 to 9, characterized in that the process flow comprises the following steps:

s1, an operator tears off the film paper and then winds the film paper through a limited route and then starts the equipment;

s2, an operator places the aluminum-magnesium-manganese plate between two first conveyor belts, and the burrs at the corners of the first conveyor belts are cleaned in the conveying process;

s3, after cleaning, the equipment removes dust on the end face of the plate and preheats the plate;

s4, the equipment starts to coat the film and cuts the film according to the length of the plate to ensure that the film paper is not wasted;

s5, detecting the coated plate by using equipment, if bubbles are found, retreating the plate, and continuously pushing after the bubbles are punctured and ironed;

and S6, taking the coated plate from one side by an operator.