CN112477094B - Double-sided laminating machine for gypsum board - Google Patents

Abstract

The invention relates to the technical field of laminating machines, and discloses a gypsum board double-sided laminating machine, which comprises a bogie, wherein a pushing device is arranged on the upper surface of the bogie, the left side of the bogie is fixedly connected with a lifting frame, and a switch is arranged on the surface of the lifting frame. This two-sided laminating machine of gypsum board reaches the upper surface of support frame through the gypsum board that passes through on the acceleration transition frame for when the gypsum board reached the inductor on crane rightmost side, two support frames were slided in the inside of crane around, and the gypsum board drops at the upper surface of lifter plate, when the gypsum board fell on the surface of lifter plate, because gravity can make lifter plate extrusion slide, because the shape of slide is trapezoidal, so because the gravity extrusion second spring of gypsum board, the gypsum board that has had the pvc paper of having ensured in this kind does not have great vibratory force when falling, has ensured the effect of the gypsum board that has the pvc paper of having adhered, easy and simple to handle, the tectorial membrane is effectual, and it is convenient to adjust.

Description

Double-sided laminating machine for gypsum board

Technical Field

The invention relates to the technical field of laminating machines, in particular to a gypsum board double-sided laminating machine.

Background

The film coating machine can be divided into a coating machine and a precoating type film coating machine. Is a special equipment for paper, board and film mounting, and is pressed together by a blanket cylinder and a heating cylinder to form a paper-plastic integrated product.

After the existing gypsum board laminating machine completes the process, certain vibration is generated on the finished gypsum board due to impact force when the finished gypsum board is placed, the existing placing distance is large, the gypsum board adhered with pvc paper cannot be better protected, the laminating effect is cracked, and the defective rate cannot be guaranteed.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a gypsum board double-sided laminating machine, which has the advantages of no larger vibration force, ensuring the effect of gypsum board adhered with pvc paper, being simple and easy to operate, having good laminating effect, being convenient to adjust and the like, solving the problems that the falling distance is larger, the gypsum board adhered with pvc paper cannot be better protected, the laminating effect is shattered, and the defective rate cannot be ensured.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a two-sided laminating machine of gypsum board, includes the bogie, the upper surface of bogie is provided with thrust unit, the left side fixedly connected with of bogie rises the frame, the upside of rising the frame is provided with elevating gear, the left side of rising the frame is provided with the L board, the upper surface fixedly connected with limiting plate of L board, the upper surface of limiting plate is provided with and colludes movable device, the notch has been seted up on the surface of L board, the inside transmission that is provided with of notch, the right side fixedly connected with of L board is the same rises the frame, the upper surface of L board right side rising frame is provided with speed change gear, the right side of L board right side rising frame is provided with mucous membrane device.

Preferably, the pushing device comprises a fixing frame, the downside fixed connection of fixing frame is at the upper surface of bogie, the inside of fixing frame is provided with the dwang, the front end fixedly connected with first gear of the inside dwang of fixing frame, the surface engagement of first gear is connected with first chain, the inboard fixedly connected with connecting rod of first chain, the left side fixedly connected with pushing plate of connecting rod, the lower surface sliding connection of pushing plate is at the upper surface of bogie, the upper surface fixedly connected with baffle of bogie.

Preferably, the lifting device comprises a hydraulic telescopic rod, wherein the lower end of the hydraulic telescopic rod is fixedly connected with the upper surface of the lifting frame, and the upper end of the hydraulic telescopic rod is fixedly connected with a top plate.

Preferably, the right side of the L plate is placed on the left side of the lifting frame, and the left side of the L plate is a striker plate.

Preferably, the hooking device comprises a supporting frame, the front side of the supporting frame is fixedly connected with the rear side of the limiting plate, a notch is formed in the upper surface of the supporting frame, a first spring is fixedly connected in the notch of the supporting frame, the rear end of the first spring is fixedly connected with the hooking plate, a threaded rod is rotationally connected in the notch of the supporting frame, the rear end of the threaded rod is in threaded connection with the front side of the hooking plate, a supporting rod is fixedly connected in the notch of the supporting frame, the rear end of the supporting rod is in sliding connection with the inside of the hooking plate, and the inside of the first spring is in sliding connection with the outer surface of the supporting rod.

Preferably, the transmission device comprises a conveying rod, the front end and the rear end of the conveying rod are rotatably connected in a notch on the upper surface of the L plate, the front end of the conveying rod is fixedly connected with a second gear, the outer surface of the second gear is connected with a second chain in a meshed mode, the front side of the second gear is fixedly connected with a motor, the motor is fixedly arranged in the L plate, and the second gear and the second chain are arranged in the L plate.

Preferably, the speed change device comprises a film frame, the downside fixed connection of film frame is at the upper surface of rising frame, the inside rotation of film frame is connected with the connecting axle, the fixed surface of connecting axle is connected with the rubberizing wheel, the upside screw thread of film frame rotates there is the lifter, the notch has likewise been seted up to the upper surface of the rising frame on L board right side, the inside rotation of notch is connected with the same connecting axle, the surface fixed connection of the connecting axle inside the notch has the rubberizing wheel down, the accessory plate has been placed to the upper surface of the rising frame on L board right side, the rear side rotation of accessory plate is connected with the auxiliary lever, the right side of the rising frame upper surface on L board right side is provided with the same speed change device.

Preferably, the mucosa device comprises an upper film coating frame, the lower surface of the upper film coating frame is fixedly connected with the upper surface of the same lifting frame, the upper surface of the upper film coating frame is fixedly connected with a supporting plate, the left side of the supporting plate is rotationally connected with an aluminum film shaft, the left side of the supporting plate is rotationally connected with a rubberizing aluminizing roller, the left side of the supporting plate is rotationally connected with a rubberizing roller, the left side of the supporting plate is rotationally connected with a bending roller, the upper surface of the upper film coating frame is provided with an auxiliary ring, the rear side of the auxiliary ring is rotationally connected with a pressing plate rubber roller, the upper surface of the lifting frame of the lower surface of the upper film coating frame is also provided with a notch, the inside of the notch is rotationally connected with a supporting rubber roller, the right side of the supporting rubber roller is provided with a bubble pressing device, the right side of the bubble pressing device is fixedly connected with an acceleration transition frame, and the right side of the acceleration transition frame is provided with a storage device.

Preferably, the bubble pressing device comprises a lower film coating frame, an auxiliary plate is also arranged on the upper surface of the lower film coating frame, a longitudinal shaft is rotatably connected to the left side of the auxiliary plate, a transverse shaft is rotatably connected to the left side of the auxiliary plate, a brush is arranged on the surface of the longitudinal shaft, a brush is also arranged on the surface of the transverse shaft, and the right side of the lower film coating frame is fixedly connected to the left side of the acceleration transition frame.

Preferably, the storage device comprises a lifting frame, the left side of lifting frame is fixedly connected to the right side of the acceleration transition frame, a sliding opening is formed in the rear side of the lifting plate, a support frame is connected to the rear side sliding opening of the lifting plate in a sliding mode, an inlet and an outlet are formed in the left side of the lifting frame, a second spring is fixedly connected to the left inlet and the outlet of the lifting frame, a sliding plate is fixedly connected to the rear end of the second spring, the upper surface of the sliding plate is connected with the lifting plate in a lap joint mode, and the surface of the sliding plate is connected to the left inlet and the outlet of the lifting frame in a sliding mode.

(III) beneficial effects

Compared with the prior art, the invention provides a gypsum board double-sided laminating machine, which has the following beneficial effects:

1. this two-sided laminating machine of gypsum board reaches the upper surface of support frame through the gypsum board that passes through on the acceleration transition frame for when the gypsum board reached the inductor on crane rightmost, two support frames were slided in the inside of crane around, the gypsum board drops at the upper surface of lifter plate, when the gypsum board fell on the surface of lifter plate, because gravity can make lifter plate extrusion slide, because the shape of slide is trapezoidal, so because the gravity extrusion second spring of gypsum board, because the elasticity that every second spring set up is according to the quantity of gypsum board from top to bottom increase gradually, the decline of the next level of quantity increase of gypsum board at the lifter plate, until reaching the bottom and accomplish to transporting the gypsum board that is glued with pvc paper, the gypsum board that has had pvc paper has been ensured to have not great vibratory force when falling by such a mode, the effect of the gypsum board that has pvc paper, easy and simple to handle is easy to understand, the tectorial membrane effect is good, it is convenient to adjust.

2. This two-sided laminating machine of gypsum board is through placing the gypsum board at the upper surface of frame that rises for the height that the gypsum board placed is less than the lower surface of baffle, this control rises the switch on frame surface that rises, make the switch open the hydraulic telescoping tube that will control the frame upper surface that rises rise, then make the roof of frame upper end stare the gypsum board and rise, until the gypsum board of the upper strata reaches the lower surface of baffle, the inside inductor of baffle receives the instruction this moment, make the instruction pass hydraulic telescoping rod stop work, the induction time passes the power source machine work of bogie upside again this moment, this moment the power source machine drives first gear and rotates, the rotation of first gear drives first chain and connecting rod and moves, and then drive the same first gear and the first chain of bogie upside all move, and then when driving the connecting rod motion, left promotion board of connecting rod slides leftwards, make the left side and the gypsum promotion board of gypsum promotion board contact, and then the gypsum board promotion board reaches the surface of L board, when the connecting rod reaches the first gear of bogie left side promotion board, the inductor of L side promotion board when the last left side of gypsum board of side of gypsum promotion board reaches the moment, the completion of the side of the same, the completion of the side of the gypsum board has reached the completion of the side of the same, the flexible way of arriving the lower side of the baffle of the completion of the thrust board of the side of the thrust that the platform, the completion of the platform has reached the simple and easy, the effect of the platform has reached the completion.

3. This two-sided laminating machine of gypsum board, reach the L board through the gypsum board after, the gypsum board striking L board left-most striker plate for the inductor on striker plate surface receives the instruction, make the inside power supply of strut receive the signal, and then the inside power supply machine of strut gives the threaded rod instruction, make threaded rod rotate and then control collude the board and reach the front side of L board with the gypsum board, first spring and the inside bracing piece of first spring in the support upper surface notch are colluded the board and are slided when playing a firm effect, and such mode is simple and convenient arrives limiting plate department with the gypsum board, and is quick convenient.

4. This two-sided laminating machine of gypsum board, when the gypsum board reachd the L board front side, because the motor in the L board received the instruction of inductor on the limiting plate for the motor begins work, the motor drives the second gear and rotates, under the pivoted effect of second gear, make second chain and conveyer rod carry out rotary motion, and then make the gypsum board change to the right and begin the motion, the limiting plate not only has the effect of response instruction this moment, also makes the gypsum board carry out the diversion motion, and such mode is high-efficient nimble carries out the diversion with the gypsum board, has ensured going on of next technology.

5. This two-sided laminating machine of gypsum board, through the gypsum board phase change motion back, begin to move to the right for the gypsum board enters into the inboard of rubberizing wheel and lower rubber tyer, because the inside power supply machine of film frame of the same elevating rack upper surface begins work, make rising and decline control rubberizing wheel and lower rubber tyer to the extrusion control speed of gypsum board of rotatory lifter, make the gypsum board move to the right, reach the surface rotation of auxiliary rod, the auxiliary rod is playing when this makes the gypsum board keep parallel state when the motion, and then advance the inboard motion of the same rubberizing wheel of rear side and lower rubber tyer, such mode is convenient for adjust the speed control to the gypsum board, and is simple high-efficient.

6. This two-sided laminating machine of gypsum board, get the upside of next rising frame through the gypsum board after passing through speed change gear, owing to the upper side at this rising frame has placed the upper tectorial membrane frame, the slope crossing has been seted up to the left side of upper tectorial membrane frame, make the crossing get into accurate plane with the gypsum board, can not produce the skew, and then make the power supply on here rising frame surface continue to remove the gypsum board right, the pvc paper pulls out from the aluminium membrane epaxial of backup pad rear side this moment, make the lower surface of pvc paper slide at the upper right surface of rubberizing aluminizing roller and rubberizing roller, and then make the upper surface of pvc paper pass through at the lower surface of bending roller, and then make the gypsum board that is passing through contact the lower surface of pvc paper at the lower side of bending roller, make pvc paper glue on the gypsum board, the gypsum board passes through the clamp plate rubber roller behind the upper tectorial membrane frame this moment and the inboard of supporting rubber roller, and then carry out better fixation to the pvc paper that covers, such mode can be quick high-efficient carries out simple and stable gypsum board.

Drawings

FIG. 1 is a schematic diagram of a two-sided laminating machine for gypsum boards according to the present invention;

FIG. 2 is a schematic view of the structure of the lifting frame of the present invention;

FIG. 3 is a schematic view of a support bar according to the present invention;

FIG. 4 is a schematic view of the structure of the conveying rod of the present invention;

FIG. 5 is a schematic view of a structure of a lifting frame according to the present invention;

FIG. 6 is a schematic view of a skateboard structure according to the present invention.

In the figure: the device comprises a supporting plate 1, an aluminum film shaft 2, a glue-coated aluminum plating roller 3, a glue-coated roller 4, a bending roller 5, a film-coated frame 6, a pressing plate rubber roller 7, a supporting rubber roller 8, a longitudinal shaft 9, a transverse shaft 10, a lower film-coated frame 11, a first gear 12, an acceleration transition frame 13, a supporting frame 14, a lifting frame 15, a lifting plate 16, a connecting rod 17, a pushing plate 18, a bogie 19, a lifting frame 20, a baffle 21, a hook plate 22, a first chain 23, a plate 24L, a first spring 25, a supporting frame 26, a limiting plate 27, a conveying rod 28, a film frame 29, a lifting rod 30, a glue-coated wheel 31, a connecting shaft 32, a lower rubber wheel 33, an auxiliary rod 34, a hydraulic telescopic rod 35, a top plate 36, a threaded rod 37, a supporting rod 38, a motor 39, a second chain 40, a second gear 41, a sliding plate 42, a second spring 43 and a fixing frame 44.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides a technical solution: the gypsum board double-sided laminating machine comprises a bogie 19, wherein a pushing device is arranged on the upper surface of the bogie 19, the pushing device comprises a fixing frame 44, the lower side of the fixing frame 44 is fixedly connected to the upper surface of the bogie 19, a rotating rod is arranged in the fixing frame 44, the front end of the rotating rod in the fixing frame 44 is fixedly connected with a first gear 12, the number of the fixing frames 44 is two, the two fixing frames 44 are identical in structure, the two fixing frames 44 are arranged on the upper surface of the bogie 19 in a left-right mode, the surface of the first gear 12 is in meshed connection with a first chain 23, the front side of the first gear 12 is fixedly connected with a power source machine, the inner side of the first chain 23 is fixedly connected with a connecting rod 17, when the first gear 12 rotates, the first chain 23 is further driven to rotate, and the first chain 23 is further driven to move leftwards by the rotation of the first chain 23, when the connecting rod 17 moves to the left first gear 12, the first gear 12 is reversed, the connecting rod 17 is driven to reset, the connecting rod 17 is not in contact with the first gear 12, the left side of the connecting rod 17 is fixedly connected with a pushing plate 18, the lower surface of the pushing plate 18 is slidably connected to the upper surface of a bogie 19, the upper surface of the bogie 19 is fixedly connected with a baffle 21, an inductor is arranged in the baffle 21, the left side of the bogie 19 is fixedly connected with a lifting frame 20, the surface of the lifting frame 20 is provided with a switch, the upper side of the lifting frame 20 is provided with a lifting device, the lifting device comprises a hydraulic telescopic rod 35, the hydraulic telescopic rod 35 is of an existing structure, the lower end of the hydraulic telescopic rod 35 is fixedly connected to the upper surface of the lifting frame 20, the upper end of the hydraulic telescopic rod 35 is fixedly connected with a top plate 36, the left side of the lifting frame 20 is provided with an L plate 24, the lower surface of the L plate 24 is provided with supporting legs, the left side of the L plate 24 is provided with a striker plate, the surface of the striker plate is provided with an inductor, the inductor is of an existing structure, the upper surface of the L plate 24 is fixedly connected with a limiting plate 27, the lower surface of the limiting plate 27 is fixedly connected to the front side of the upper surface of the L plate 24, the inside of the limiting plate 27 is also provided with an inductor, the inductor is of an existing structure, the upper surface of the lifting frame 20 is firstly provided with a gypsum board, the placing height of the gypsum board is lower than the lower surface of the baffle 21, the switch on the surface of the lifting frame 20 is controlled, the switch is opened to control the hydraulic telescopic rod 35 on the upper surface of the lifting frame 20 to lift, then the top plate 36 at the upper end of the lifting frame 20 is enabled to lift against the gypsum board until the gypsum board at the uppermost layer reaches the lower surface of the baffle 21, at the moment, the inductor in the baffle 21 receives instructions, the command is transmitted to the hydraulic telescopic rod 35 to stop working, the power source machine is transmitted to the upper side of the bogie 19 again after induction, the power source machine drives the first gear 12 to rotate, the rotation of the first gear 12 drives the first chain 23 to rotate, the rotation of the first chain 23 drives the connecting rod 17 to move leftwards, when the connecting rod 17 moves, the pushing plate 18 is pushed leftwards, the left side of the pushing plate 18 is contacted with the gypsum board, the gypsum board is pushed by the pushing plate 18 to reach the surface of the L plate 24, when the connecting rod 17 reaches the first gear 12 at the leftmost side on the bogie 19, the gypsum board completely reaches the surface of the L plate 24 to carry out the next pushing action, at the moment, the hydraulic telescopic rod 35 continues to push the gypsum board upwards to reach the lower side of the baffle 21, the upper surface of the limiting plate 27 is provided with a hooking device, the hooking device comprises a bracket 26, the front side of the support frame 26 is fixedly connected with the rear side of the limiting plate 27, the upper surface of the support frame 26 is provided with a notch, the notch of the support frame 26 is internally fixedly connected with a first spring 25, the rear end of the first spring 25 is fixedly connected with a hook plate 22, the notch of the support frame 26 is rotationally connected with a threaded rod 37, the threaded rod 37 rotates through an external rotating mechanism, the rear end of the threaded rod 37 is in threaded connection with the front side of the hook plate 22, the notch of the support frame 26 is internally fixedly connected with a supporting rod 38, the rear end of the supporting rod 38 is in sliding connection with the inside of the hook plate 22, the inside of the first spring 25 is in sliding connection with the outer surface of the supporting rod 38, after the gypsum board reaches the L plate 24, the gypsum board impacts the baffle plate on the leftmost side of the L plate 24, an inductor on the surface of the baffle plate receives an instruction, the threaded rod 37 in the support frame 26 receives a signal to rotate, the threaded rod 37 rotates to control the hook plate 22 to reach the foremost side of the L plate 24, at this time, when the first spring 25 in the notch on the upper surface of the bracket 26 and the supporting rod 38 in the first spring 25 slide in the hook plate 22, the function of stabilizing the hook plate 22 is achieved, the surface of the L plate 24 is also provided with a notch, a transmission device is arranged in the notch, the transmission device comprises a conveying rod 28, the front end and the rear end of the conveying rod 28 are rotatably connected in the notch on the upper surface of the L plate 24, the front end of the conveying rod 28 is fixedly connected with a second gear 41, the outer surface of the second gear 41 is in meshed connection with a second chain 40, the front side of the second gear 41 is fixedly connected with a motor 39, the motor 39 is fixedly arranged in the L plate 24, the second gear 41 and the second chain 40 are also arranged in the L plate 24, the right side of the L plate 24 is fixedly connected with the same lifting bracket 20, when the gypsum plate reaches the forefront side of the L plate 24, because the motor 39 in the L plate 24 receives the instruction of the inductor on the limiting plate 27, the motor 39 starts to work, the motor 39 drives the second gear 41 to rotate, under the action of the rotation of the second gear 41, the second chain 40 and the conveying rod 28 rotate, and further the gypsum board starts to move rightwards, at the moment, the limiting plate 27 has the action of induction instruction, and also enables the gypsum board to move downwards, the upper surface of the lifting frame 20 on the right side of the L plate 24 is provided with a speed changing device, the speed changing device comprises a film frame 29, the lower side of the film frame 29 is fixedly connected to the upper surface of the same lifting frame 20, a power source is arranged in the film frame 29, a connecting shaft 32 is rotationally connected to the inner part of the film frame 29, an upper rubber wheel 31 is fixedly connected to the surface of the connecting shaft 32, a lifting rod 30 is rotationally arranged on the upper side of the film frame 29, a notch is also formed on the upper surface of the lifting frame 20 on the right side of the L plate 24, the same connecting shaft 32 is rotationally connected in the notch, the lower rubber wheel 33 is fixedly connected on the outer surface of the connecting shaft 32 in the notch, a power source is also arranged in the film frame 29, the upper surface of the lifting frame 20 on the right side of the L plate 24 is fixedly connected with an auxiliary plate, the rear side of the auxiliary plate is rotationally connected with an auxiliary rod 34, the right side of the upper surface of the lifting frame 20 on the right side of the L plate 24 is provided with the same speed changing device, when the plasterboard moves rightwards after being changed in phase, the plasterboard enters the inner sides of the upper rubber wheel 31 and the lower rubber wheel 33, as the power source machine in the film frame 29 on the upper surface of the same lifting frame 20 starts to work, the extrusion force of the upper rubber wheel 31 and the lower rubber wheel 33 is controlled by the lifting and descending of the lifting rod 30, the rightwards moving speed of the plasterboard is controlled, and the plasterboard is enabled to move rightwards, the gypsum board reaches the surface of the auxiliary rod 34, the auxiliary rod 34 keeps the parallel state when the gypsum board moves, and then moves to the inner side of the upper rubber wheel 31 and the lower rubber wheel 33 which are the same at the rear side, a mucous membrane device is arranged at the right side of the lifting frame 20 at the right side of the L board 24, the mucous membrane device comprises an upper film coating frame 6, the lower surface of the upper film coating frame 6 is fixedly connected with the upper surface of the same lifting frame 20, the upper surface of the upper film coating frame 6 is fixedly connected with a supporting plate 1, the left side of the supporting plate 1 is rotatably connected with an aluminum film shaft 2, pvc paper can be sleeved on the outer surface of the aluminum film shaft 2 through the arranged aluminum film shaft 2, the left side of the supporting plate 1 is rotatably connected with a rubberizing aluminizing roller 3, the left side of the supporting plate 1 is rotatably connected with a rubberizing roller 4, the left side of the supporting plate 1 is rotatably connected with a bending roller 5, the upper surface of the upper film coating frame 6 is provided with an auxiliary ring, the rear side of the auxiliary ring is rotatably connected with a pressing plate rubber roller 7, the upper surface of the rising frame 20 on the lower surface of the upper film coating frame 6 is also provided with a notch, the inside of the notch is rotationally connected with a supporting rubber roller 8, when the gypsum board passes through a speed changing device and then reaches the upper side of the next rising frame 20, as the upper side of the rising frame 20 is provided with the upper film coating frame, the left side of the upper film coating frame 6 is provided with an inclined crossing, so that the crossing enables the gypsum board to enter an accurate plane without deviation, further a power source on the surface of the rising frame 20 continuously moves the gypsum board rightward, at the moment, pvc paper is pulled out from the aluminum film shaft 2, one side of the Pvc paper is contacted with the outer surfaces of the rubberizing aluminizing roller 3 and the rubberizing roller 4, further one end of the Pvc paper passes through the lower surface of the bending roller 5, further the passing gypsum board is contacted with the lower surface of the Pvc paper on the lower side of the bending roller 5, so that the Pvc paper is adhered on the gypsum board, at this time, the gypsum board passes through one side of the opposite sides of the pressing plate rubber roller 7 and the supporting rubber roller 8, and then the pressure on the covered Pvc paper, which is generated by the pressing plate rubber roller 7 and the supporting rubber roller 8, is higher in adhesion degree to the gypsum board and the Pvc paper, and further the gypsum board and the Pvc paper are more stable, a bubble pressing device is arranged on the right side of the supporting rubber roller 8, the bubble pressing device comprises a lower film coating frame 11, the upper surface of the lower film coating frame 11 is also provided with an auxiliary plate, the left side of the auxiliary plate on the upper surface of the lower film coating frame 11 is rotationally connected with a longitudinal shaft 9, the left side of the auxiliary plate on the upper surface of the lower film coating frame 11 is rotationally connected with a transverse shaft 10, the surface of the longitudinal shaft 9 is also provided with a brush, the right side of the lower film coating frame 11 is fixedly connected with an acceleration transition frame 13, the gypsum board adhered with the Pvc paper reaches the upper surface of the lower film coating frame 11, the upper surface of the lower film coating frame 11 is also provided with a power source for rightward transmission, when the gypsum board adhered with Pvc paper reaches the leftmost side of the lower film coating frame 11, the hairbrushes on the surfaces of the longitudinal shaft 9 and the transverse shaft 10 are used for extrusion flattening and bubble removal, so that the air on the surface of the gypsum board adhered with Pvc paper is removed to a certain extent, after the finished gypsum board is treated, the gypsum board is separated from the lower film coating frame 11 and reaches the surface of the acceleration transition frame 13, the acceleration transition frame 13 accelerates the gypsum board one time, so that two gypsum boards which are originally close together are separated for the next action, a storage device is arranged on the right side of the acceleration transition frame 13, the storage device comprises a lifting frame 15, the left side of the lifting frame 15 is fixedly connected to the right side of the acceleration transition frame 13, a sliding opening is formed in the rear side of the lifting frame 15, a support frame 14 is connected in a sliding manner in the rear side sliding opening of the lifting frame 15, an inlet and an outlet are formed in the left side of the lifting frame 15, the inside fixedly connected with second spring 43 of import and export in the left side of crane 15, the rear end fixedly connected with slide 42 of second spring 43, slide 42's upper surface overlap joint has lifter plate 16, the surface of slide 42 is in the import and export inside sliding connection in crane 15 left side, the gypsum board that passes through on the acceleration transition frame 13 reaches the upper surface of support frame 14, when making the gypsum board reach the inductor in crane 15 rightmost, two support frames 14 slide into the inside of crane 15 in front and back both sides, the gypsum board drops on the upper surface of lifter plate 16, when the gypsum board falls on the surface of lifter plate 16, because gravity can make lifter plate 16 extrude slide 42, because slide 42's shape is trapezoidal, because the gravity extrusion second spring 43 of gypsum board, because the elasticity that every second spring 43 set up is according to the quantity of gypsum board from top to bottom gradually increases, the decline of the next level of gypsum board 16 in the quantity increase of gypsum board, until reaching the bottom and carrying out the gypsum board that glues pvc paper.

Working principle: when the gypsum board double-sided laminating machine is in use;

the first step: firstly, placing the gypsum board on the upper surface of the lifting frame 20, making the placing height of the gypsum board be lower than the lower surface of the baffle plate 21, controlling a switch on the surface of the lifting frame 20, opening the switch to control a hydraulic telescopic rod 35 on the upper surface of the lifting frame 20 to lift, then enabling a top plate 36 on the upper end of the lifting frame 20 to lift against the gypsum board until the gypsum board on the uppermost layer reaches the lower surface of the baffle plate 21, receiving an instruction by an inductor in the baffle plate 21, enabling the instruction to be transmitted to the hydraulic telescopic rod 35 to stop working, sensing the next time, transmitting the instruction to a power source machine on the upper side of the bogie 19 to work, driving a first gear 12 to rotate at the moment, driving a first chain 23 to move by the rotation of the first gear 12, the rotation of the first chain 23 drives the connecting rod 17 to move leftwards, so that the same first gear 12 and the first chain 23 on the upper side of the bogie 19 are driven to move, and then when the connecting rod 17 is driven to move, the pushing plate 18 on the left side of the connecting rod 17 is pushed leftwards to slide leftwards, so that the left side of the pushing plate 18 contacts with the gypsum board, the gypsum board is pushed by the pushing plate 18 to reach the surface of the L plate 24, when the connecting rod 17 reaches the leftmost first gear 12 on the bogie 19, the gypsum board completely reaches the surface of the L plate 24, the pushing plate 18 starts to reset the sensor on the baffle 21, and the next pushing action is carried out, and at the moment, the gypsum board is continuously pushed upwards by the hydraulic telescopic rod 35 to reach the lower side of the baffle 21;

and a second step of: after the gypsum board reaches the L board 24, the gypsum board impacts the baffle plate at the leftmost side of the L board 24, so that an inductor on the surface of the baffle plate receives a signal, a power source in the support frame 26 receives a signal, a power source machine in the support frame 26 gives a threaded rod 37 an instruction, the threaded rod 37 rotates to control the hook plate 22 to reach the gypsum board at the foremost side of the L board 24, and at the moment, a first spring 25 in a notch on the upper surface of the support frame 26 and a supporting rod 38 in the first spring 25 play a role of stabilizing the hook plate 22 when the hook plate 22 slides;

and a third step of: when the gypsum board reaches the forefront side of the L board 24, the motor 39 in the L board 24 receives the instruction of the inductor on the limiting board 27, so that the motor 39 starts to work, the motor 39 drives the second gear 41 to rotate, and under the action of the rotation of the second gear 41, the second chain 40 and the conveying rod 28 perform rotary motion, so that the gypsum board turns right to start to move, and at the moment, the limiting board 27 has the action of induction instruction and also enables the gypsum board to perform turning motion;

fourth step: when the plasterboard moves in a phase-changing manner, the plasterboard starts to move rightward, so that the plasterboard enters the inner sides of the upper rubber wheel 31 and the lower rubber wheel 33, and as the power source machine in the film frame 29 on the upper surface of the same lifting frame 20 starts to work, the extrusion force of the upper rubber wheel 31 and the lower rubber wheel 33 on the plasterboard is controlled through the lifting and lowering of the lifting rod 30, the rightward movement speed of the plasterboard is controlled, the plasterboard is further moved rightward, the surface of the auxiliary rod 34 is reached to rotate, the auxiliary rod 34 keeps a parallel state when the plasterboard moves, and the plasterboard moves to the inner sides of the upper rubber wheel 31 and the lower rubber wheel 33 on the rear side;

fifth step: when the gypsum board passes through the speed change device and then reaches the upper side of the next lifting frame 20, as the upper side of the lifting frame 20 is provided with the upper film coating frame, the left side of the upper film coating frame 6 is provided with the inclined crossing, so that the crossing enables the gypsum board to enter an accurate plane, no deviation is generated, further, a power source on the surface of the lifting frame 20 continuously moves the gypsum board to the right, at the moment, pvc paper is pulled out of the aluminum film shaft 2 on the rear side of the supporting plate 1, the lower surface of the Pvc paper is enabled to contact with the outer surfaces of the rubberizing roller 3 and the rubberizing roller 4, the upper surface of the Pvc paper is enabled to pass through the lower surface of the bending roller 5, and further, the passing gypsum board is enabled to contact with the lower surface of the Pvc paper on the lower side of the bending roller 5, at the moment, the gypsum board passes through the opposite side of the pressing plate rubber roller 7 and the supporting rubber roller 8, and the Pvc paper is enabled to be more stable with the Pvc paper due to the pressure generated on the Pvc paper by the pressing plate rubber roller 7 and the supporting rubber roller 8;

fifth step: when the gypsum board adhered with the pvc paper reaches the leftmost side of the lower film coating frame 11, the gypsum board is extruded and flattened through the hairbrushes on the surfaces of the longitudinal shaft 9 and the transverse shaft 10 to remove bubbles, so that the gas on the surface of the gypsum board adhered with the pvc paper is removed to a certain extent;

sixth step: when the finished gypsum board is separated from the lower film coating frame 11 and reaches the surface of the acceleration transition frame 13, the acceleration transition frame 13 accelerates the gypsum board so as to separate two gypsum boards which are originally close together and prepare for the next action;

seventh step: when the gypsum boards passing through the transition frame 13 reach the upper surface of the supporting frame 14, so that the gypsum boards reach the sensor on the rightmost side of the lifting frame 15, the two supporting frames 14 slide into the lifting frame 15 from front to back, the gypsum boards fall on the upper surface of the lifting board 16, when the gypsum boards fall on the surface of the lifting board 16, the lifting board 16 presses the sliding plate 42 due to gravity, the sliding plate 42 is trapezoid, the second springs 43 are pressed due to the gravity of the gypsum boards, and the elastic force of each second spring 43 is gradually increased from top to bottom according to the quantity of the gypsum boards, so that the lifting board 16 descends at the next stage of the quantity increase of the gypsum boards until the gypsum boards adhered with pvc paper reach the bottommost layer to be transported.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The gypsum board double-sided laminating machine comprises a bogie (19), and is characterized in that: the lifting device is characterized in that a pushing device is arranged on the upper surface of the bogie (19), a lifting frame (20) is fixedly connected to the left side of the bogie (19), a lifting device is arranged on the upper side of the lifting frame (20), an L plate (24) is arranged on the left side of the lifting frame (20), a limiting plate (27) is fixedly connected to the upper surface of the L plate (24), a hooking device is arranged on the upper surface of the limiting plate (27), a notch is formed in the surface of the L plate (24), a transmission device is arranged in the notch, the same lifting frame (20) is fixedly connected to the right side of the L plate (24), a speed changing device is arranged on the upper surface of the lifting frame (20) on the right side of the L plate (24), and a mucous membrane device is arranged on the right side of the lifting frame (20) on the right side of the L plate (24); the mucosa device comprises an upper tectorial membrane frame (6), the lower surface of the upper tectorial membrane frame (6) is fixedly connected with the upper surface of the same ascending frame (20), the upper surface of the upper tectorial membrane frame (6) is fixedly connected with a supporting plate (1), the left side of the supporting plate (1) is rotationally connected with an aluminum film shaft (2), the left side of the supporting plate (1) is rotationally connected with a rubberizing aluminizing roller (3), the left side of the supporting plate (1) is rotationally connected with an rubberizing roller (4), the left side of the supporting plate (1) is rotationally connected with a bending roller (5), the upper surface of the upper tectorial membrane frame (6) is provided with an auxiliary ring, the rear side of the auxiliary ring is rotationally connected with a pressing plate rubber roller (7), the upper surface of the ascending frame (20) of the lower surface of the upper tectorial membrane frame (6) is also provided with a notch, the notch is rotationally connected with a supporting rubber roller (8), the right side of the supporting rubber roller (8) is provided with a bubble pressing device, the right side of the bubble pressing device is rotationally connected with a transition frame (13), and the transition frame (13) is provided with a storage device; the storage device comprises a lifting frame (15), the left side of the lifting frame (15) is fixedly connected to the right side of an acceleration transition frame (13), a sliding opening is formed in the rear side of the lifting frame (15), a support frame (14) is connected to the rear side sliding opening of the lifting frame (15) in a sliding mode, an inlet and an outlet are formed in the left side of the lifting frame (15), a second spring (43) is fixedly connected to the left side of the lifting frame (15) in the inlet and outlet, a sliding plate (42) is fixedly connected to the rear end of the second spring (43), a lifting plate (16) is connected to the upper surface of the sliding plate (42) in a lap joint mode, and the surface of the sliding plate (42) is connected to the left side of the lifting frame (15) in a sliding mode in the inlet and outlet mode.

2. The gypsum board double-sided laminating machine of claim 1, wherein: the pushing device comprises a fixing frame (44), the lower side of the fixing frame (44) is fixedly connected to the upper surface of a bogie (19), a rotating rod is arranged in the fixing frame (44), a first gear (12) is fixedly connected to the front end of the rotating rod in the fixing frame (44), a first chain (23) is connected to the surface of the first gear (12) in a meshed mode, a connecting rod (17) is fixedly connected to the inner side of the first chain (23), a pushing plate (18) is fixedly connected to the left side of the connecting rod (17), the lower surface of the pushing plate (18) is slidably connected to the upper surface of the bogie (19), and a baffle (21) is fixedly connected to the upper surface of the bogie (19).

3. The gypsum board double-sided laminating machine of claim 1, wherein: the lifting device comprises a hydraulic telescopic rod (35), the lower end of the hydraulic telescopic rod (35) is fixedly connected with the upper surface of the lifting frame (20), and the upper end of the hydraulic telescopic rod (35) is fixedly connected with a top plate (36).

4. The gypsum board double-sided laminating machine of claim 1, wherein: the right side of the L plate (24) is arranged on the left side of the lifting frame (20), and the left side of the L plate (24) is a striker plate.

5. The gypsum board double-sided laminating machine of claim 1, wherein: the utility model provides a collude movable device includes strut (26), the front side fixed connection of strut (26) is at the rear side of limiting plate (27), the notch has also been seted up to the upper surface of strut (26), the notch internal fixation of strut (26) has first spring (25), the rear end fixedly connected with of first spring (25) colludes board (22), the notch rotation of strut (26) is connected with threaded rod (37), the rear end threaded connection of threaded rod (37) is at the front side of colluding board (22), the notch internal fixation of strut (26) has bracing piece (38), the rear end of bracing piece (38) is at the inside sliding connection who colludes board (22), the inside sliding sleeve of first spring (25) is at the surface of bracing piece (38).

6. The gypsum board double-sided laminating machine of claim 1, wherein: the transmission device comprises a conveying rod (28), the front end and the rear end of the conveying rod (28) are rotatably connected in a notch on the upper surface of the L plate (24), the front end of the conveying rod (28) is fixedly connected with a second gear (41), the outer surface of the second gear (41) is in meshed connection with a second chain (40), the front side of the second gear is fixedly connected with a motor (39), the motor (39) is fixedly arranged in the L plate (24), and the second gear (41) and the second chain (40) are arranged in the L plate (24).

7. The gypsum board double-sided laminating machine of claim 1, wherein: the speed change device comprises a film frame (29), the downside fixed connection of film frame (29) is at the upper surface of rising frame (20), the inside rotation of film frame (29) is connected with connecting axle (32), the fixed surface of connecting axle (32) is connected with rubberizing wheel (31), the upside screw thread of film frame (29) rotates has lifter (30), notch has likewise been seted up to the upper surface of rising frame (20) on L board (24) right side, the inside rotation of notch is connected with same connecting axle (32), the surface fixed connection of connecting axle (32) inside the notch has lower rubberizing wheel (33), the accessory plate has been placed to the upper surface of rising frame (20) on L board (24) right side, the rear side rotation of accessory plate is connected with auxiliary lever (34), the right side of rising frame (20) upper surface on L board (24) right side is provided with same speed change device.

8. The gypsum board double-sided laminating machine of claim 1, wherein: the bubble pressing device comprises a lower film coating frame (11), an auxiliary plate is also arranged on the upper surface of the lower film coating frame (11), a longitudinal shaft (9) is rotatably connected to the left side of the auxiliary plate, a transverse shaft (10) is rotatably connected to the left side of the auxiliary plate, a hairbrush is arranged on the surface of the longitudinal shaft (9), a hairbrush is also arranged on the surface of the transverse shaft (10), and the right side of the lower film coating frame (11) is fixedly connected to the left side of an acceleration transition frame (13).