CN114261108A - Laminating device and laminating method for continuously laminating glass fiber reinforced plastic material - Google Patents

Abstract

The invention discloses a laminating device and a laminating method for continuous laminating of glass fiber reinforced plastic materials, and relates to the field of processing of glass fiber reinforced plastic materials. According to the invention, by arranging the second hydraulic cylinder, after the raw materials in the placing plate are laminated, the pushing plate is pushed by the second hydraulic cylinder, the placing plate is pushed to the surface of the conveying belt, and then the placing plate which is laminated is conveyed out by the conveying belt.

Description

Laminating device and laminating method for continuously laminating glass fiber reinforced plastic material

Technical Field

The invention relates to the field of processing of glass fiber reinforced plastic materials, in particular to a laminating device and a laminating method for continuously laminating glass fiber reinforced plastic materials.

Background

Lamination is also known as lamination. The method is a molding method in which a plurality of layers of the same or different materials are integrally combined under heat and pressure. The lamination press processing pressure can be divided into a high pressure method (high pressure lamination forming) and a low pressure method (low pressure lamination forming), the lamination forming process is an open die forming method of the composite material, the process is developed earlier and mature, and the lamination press processing pressure is characterized by high product quality, stable process and needing to be laminated in the production process of the glass fiber reinforced plastic material to improve the strength.

The laminating device and the laminating method for the glass fiber reinforced plastic material in the prior art have the defects of incapability of continuous laminating, unstable laminating, low laminating efficiency and the like, and therefore a laminating device and a laminating method for the continuous laminating of the glass fiber reinforced plastic material are provided.

Disclosure of Invention

The invention mainly aims to provide a laminating device and a laminating method for continuously laminating glass fiber reinforced plastic materials, which can effectively solve the problems of incapability of continuously laminating, unstable laminating, low laminating efficiency and the like in the background art.

In order to solve the technical problems, the invention is realized by the following technical scheme: a laminating device for continuous laminating of glass fiber reinforced plastic materials comprises a supporting mechanism, a laminating mechanism, a damping mechanism, a pushing mechanism, a heating mechanism and a conveying mechanism, wherein the supporting mechanism comprises a supporting plate, the laminating mechanism comprises a protective box and a lower pressing plate, the damping mechanism comprises a fixed block and a connecting block, the pushing mechanism comprises a second hydraulic cylinder, a second hydraulic cylinder and a fixed box, the heating mechanism comprises a hot pressing plate, a gluing box and a placing plate, the conveying mechanism comprises a first fixed plate, a first driving roller, a transmission belt, a transmission motor box and a second fixed plate, the lower surface of the protective box and the lower surfaces of a plurality of fixed blocks are welded with the upper surface of the supporting plate, the lower surface of the lower pressing plate is connected with the upper surface of the hot pressing plate, the upper surface of the connecting block is welded with the lower surface of the fixed box, one side surface of the fixed box is provided with two round holes, protection case side surface is equipped with two spacing holes, two the second pneumatic cylinder is all installed in protection case side surface, two second pneumatic cylinder one end is passed two round holes and two spacing holes respectively and is connected with two second pneumatic cylinder one end, rubber coating box one side surface and protection case opposite side surface weld, first fixed plate lower surface and second fixed plate lower surface all with backup pad upper surface weld, transmission motor case installs in the backup pad upper surface, transmission motor case one end is equipped with the output shaft, first fixed plate side surface is equipped with rotatory hole, rotatory hole and output shaft are passed to first drive roller one end, place board lower surface and transmission belt upper surface connection.

Preferably, supporting mechanism still includes universal wheel, brake truckle and handle, two universal wheel and two brake truckles are all installed in the backup pad lower surface, two handle one end all with a backup pad side surface welding, the effect of universal wheel and brake truckle makes this device can remove, increases the practicality of this device, and the effect of handle is the convenient this device that removes, accords with human physiology, avoids too tired when removing this device.

Preferably, the laminating mechanism further comprises first hydraulic cylinders, first hydraulic rods and a controller, the two first hydraulic cylinders are all installed on the upper surface of the protection box, the protection box is provided with two through holes, one ends of the two first hydraulic rods penetrate through the two through holes respectively to be connected with one ends of the two first hydraulic cylinders, the other ends of the two first hydraulic rods are all welded with the upper surface of the lower pressing plate, the controller is installed on the surface of the other side of the protection box, the first hydraulic cylinders are used for providing power for the extension and retraction of the first hydraulic rods, and the first hydraulic rods are used for driving the lower pressing plate to lift so as to achieve laminating.

Preferably, damper still includes spring and telescopic link, and is a plurality of telescopic link one end and a plurality of spring one end respectively with a plurality of fixed block upper surface connection, a plurality of the telescopic link other end and a plurality of spring other end respectively with a plurality of connecting block lower surface connection, a plurality of the spring is installed respectively in a plurality of telescopic link side surfaces, and wherein, fixed block and connecting block all have four, and a plurality of springs and telescopic link all have sixteen, and the effect of spring is when the holding down plate carries out the pressfitting, exerts a reaction force to fixed box, comes to carry out the pressfitting to raw and other materials better.

Preferably, push mechanism still includes the push pedal, two the second hydraulic cylinder other end all with push pedal one side surface welding, the effect of second hydraulic cylinder is for the flexible power that provides of second hydraulic cylinder, the effect of second hydraulic cylinder is that the push pedal that provides flexible promoter removes, realizes the removal to placing the board.

Preferably, heating mechanism still includes copper slab, iron slab, conducting strip, first terminal and second terminal, copper slab upper surface and the inside lower surface of hot pressboard are connected, conducting strip lower surface and the inside upper surface of hot pressboard are connected, iron slab upper surface and copper slab lower surface are connected, iron slab lower surface and conducting strip upper surface are connected, two first terminal one end all with copper slab side surface connection, two second terminal one end all with iron slab side surface connection, the effect of copper slab can obtain the heat through the electricity, the effect of conducting strip is with heat transmission to hot pressboard lower surface, carry out the lamination.

Preferably, transport mechanism still includes second drive roller and transmission roller, the first drive roller other end and the rotatory cooperation of second fixed plate side surface, second drive roller one end and a plurality of transmission roller one end all with the rotatory cooperation of first fixed plate side surface, the second drive roller other end and a plurality of transmission roller other end all with the rotatory cooperation of second fixed plate side surface, transmission belt one end and the rotatory cooperation of first drive roller, the transmission belt other end and the rotatory cooperation of second drive roller, a plurality of the transmission roller all with the rotatory cooperation of transmission belt, the effect of transmission motor case is for the rotatory power that provides of first drive roller, the effect of transmission belt is transported the board of placing that will need to press the layer, also can transport out the board of placing after accomplishing the layer of pressing.

Preferably, the controller passes through electric wire electric connection with first pneumatic cylinder, second pneumatic cylinder and transmission motor case respectively, through the switch of first pneumatic cylinder, second pneumatic cylinder and transmission motor case of controller control.

A laminating method for a laminating apparatus for continuously laminating glass fiber reinforced plastic materials, comprising the steps of:

the method comprises the following steps: placing a material to be laminated on the upper surface of a placing plate, placing the placing plate on the surface of a transmission belt, opening a device through a controller to enable a transmission motor box to work, driving a first driving roller to rotate by the transmission motor box, driving a transmission belt and a second driving roller to rotate by the first driving roller, driving the placing plate to automatically transmit by the transmission belt, and gluing the material in the placing plate through a gluing box;

step two: when the placing plate is conveyed to the upper surface of the fixing box by the conveying belt, the first hydraulic cylinder is started through the controller, the first hydraulic cylinder pushes the first hydraulic rod to move downwards, the pressing plate starts to descend under the pushing of the first hydraulic rod, when the pressing plate starts to descend, the first wiring terminal and the second wiring terminal are electrified, the copper plate and the iron plate start to generate heat, the heat is transmitted to the lower surface of the hot pressing plate through the heat conducting sheet, and materials in the placing plate are laminated;

step three: when lamination is carried out, the fixed box moves downwards under the extrusion of the lower pressing plate, the lamination efficiency and effect can be effectively improved through the reaction force of the spring and the telescopic rod, after lamination is completed, the second hydraulic cylinder is started through the controller, the second hydraulic cylinder drives the second hydraulic rod to move, the second hydraulic rod drives the push plate to move, and the placing plate is pushed to the surface of the conveying belt again;

step four: the transmission motor box is started again through the controller and is reversely rotated, and the transmission belt is used for conveying the placing plate to leave the device.

The invention has the following beneficial effects:

1. the conveying belt is arranged to convey the placing plates, the placing plates to be laminated are conveyed into the protection box to be laminated, and the laminated placing plates can be conveyed out of the protection box to realize automatic and continuous lamination;

2. according to the invention, the spring is arranged, so that when the placing plate is laminated, a reaction force can be applied to the fixed box by the spring when the fixed box descends, the stability of the placing plate in laminating can be improved, the telescopic rod can prevent the spring from being dislocated when the spring is stretched, and the error of the placing plate in laminating can be avoided;

3. according to the invention, by arranging the second hydraulic cylinder, after the raw materials in the placing plate are laminated, the second hydraulic cylinder pushes the push plate, the placing plate is pushed to the surface of the transmission belt, the conveying belt transports the laminated placing plate out, and then the conveying belt transports the placing plate to be laminated into the protection box, so that the efficiency is increased.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view showing the overall structure of a laminating apparatus for continuously laminating a FRP material according to the present invention;

FIG. 2 is a schematic structural view of another embodiment of a laminating apparatus for continuous lamination of FRP materials according to the present invention;

FIG. 3 is a schematic view showing the internal structure of a protective case of a laminating apparatus for continuously laminating glass fiber reinforced plastics according to the present invention;

FIG. 4 is a schematic view showing the internal structure of a transportation mechanism of a laminating apparatus for continuously laminating FRP materials according to the present invention;

FIG. 5 is a schematic view showing the internal structure of a hot press plate of a laminating apparatus for continuously laminating FRP materials according to the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 3 according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a support mechanism; 110. a support plate; 120. a universal wheel; 130. braking the caster; 140. a handle; 200. a laminating mechanism; 210. a protection box; 220. a first hydraulic cylinder; 230. a first hydraulic lever; 240. a lower pressing plate; 250. a controller; 300. a damping mechanism; 310. a fixed block; 320. a spring; 330. a telescopic rod; 340. connecting blocks; 400. a pushing mechanism; 410. a second hydraulic cylinder; 420. a second hydraulic rod; 430. pushing the plate; 440. a fixing box; 500. a heating mechanism; 510. a copper sheet; 520. an iron sheet; 530. a heat conductive sheet; 540. a first terminal post; 550. a second terminal; 560. hot pressing plate; 570. gluing boxes; 580. placing the plate; 600. a transport mechanism; 610. a first fixing plate; 620. a first driving roller; 630. a second driving roller; 640. a transfer roller; 650. a transfer belt; 660. a transmission motor box; 670. and a second fixing plate.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element 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" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The first embodiment is as follows:

referring to fig. 1-6, the present invention is a laminating apparatus for continuously laminating glass fiber reinforced plastic materials and a laminating method thereof, including a supporting mechanism 100, a laminating mechanism 200, a damping mechanism 300, a pushing mechanism 400, a heating mechanism 500 and a transporting mechanism 600, wherein the supporting mechanism 100 includes a supporting plate 110, the laminating mechanism 200 includes a protecting box 210 and a lower pressing plate 240, the damping mechanism 300 includes a fixing block 310 and a connecting block 340, the pushing mechanism 400 includes a second hydraulic cylinder 410, a second hydraulic cylinder 420 and a fixing box 440, the heating mechanism 500 includes a hot pressing plate 560, a glue applying box 570 and a placing plate 580, the transporting mechanism 600 includes a first fixing plate 610, a first driving roller 620, a transporting belt 650, a transporting motor box 660 and a second fixing plate 670, lower surfaces of the supporting plate 110 and the fixing blocks 310 are welded to an upper surface of the supporting plate 110, a lower surface of the lower pressing plate 240 is connected to an upper surface of the hot pressing plate 560, the upper surfaces of the connecting blocks 340 are welded to the lower surface of the fixing box 440, one side surface of the fixing box 440 is provided with two round holes, one side surface of the protection box 210 is provided with two limit holes, the two second hydraulic cylinders 410 are mounted on one side surface of the protection box 210, one ends of the two second hydraulic cylinders 420 penetrate through the two round holes and the two limit holes respectively to be connected with one ends of the two second hydraulic cylinders 410, one side surface of the gluing box 570 is welded to the other side surface of the protection box 210, the lower surfaces of the first fixing plate 610 and the second fixing plate 670 are welded to the upper surface of the supporting plate 110, the transmission motor box 660 is mounted on the upper surface of the supporting plate 110, one end of the transmission motor box 660 is provided with an output shaft, one side surface of the first fixing plate 610 is provided with a rotating hole, one end of the first driving roller 620 penetrates through the rotating hole to be connected with the output shaft, and the lower surface of the placing plate 580 is connected with the upper surface of the transmission belt 650.

Further, supporting mechanism 100 still includes universal wheel 120, brake truckle 130 and handle 140, two universal wheels 120 and two brake truckles 130 are all installed in backup pad 110 lower surface, two handle 140 one ends all with backup pad 110 side surface welding, universal wheel 120 and brake truckle 130's effect makes this device can remove, increases the practicality of this device, handle 140's effect is the convenient this device of removal, accords with human physiology, avoids too tired when removing this device.

Further, the laminating mechanism 200 further includes first hydraulic cylinders 220, first hydraulic rods 230 and a controller 250, the two first hydraulic cylinders 220 are all installed on the upper surface of the protection box 210, the protection box 210 is provided with two through holes, one ends of the two first hydraulic rods 230 respectively penetrate through the two through holes to be connected with one ends of the two first hydraulic cylinders 220, the other ends of the two first hydraulic rods 230 are all welded with the upper surface of the lower pressing plate 240, the controller 250 is installed on the other side surface of the protection box 210, the first hydraulic cylinders 220 are used for providing power for the extension and retraction of the first hydraulic rods 230, and the first hydraulic rods 230 are used for driving the lower pressing plate 240 to lift so as to realize the laminating.

Further, damper 300 still includes spring 320 and telescopic link 330, a plurality of telescopic link 330 one end and a plurality of spring 320 one end respectively with a plurality of fixed block 310 surface connection, a plurality of telescopic link 330 other ends and a plurality of spring 320 other ends respectively with a plurality of connecting block 340 surface connection, a plurality of springs 320 are installed respectively in a plurality of telescopic link 330 side surface, wherein, fixed block 310 and connecting block 340 all have four, a plurality of springs 320 and telescopic link 330 all have sixteen, the effect of spring 320 is when holding down plate 240 carries out the lamination, exert a reaction force to fixed box 440, come to press the layer to raw and other materials better.

Further, the pushing mechanism 400 further includes a pushing plate 430, the other ends of the two second hydraulic rods 420 are welded to the surface of one side of the pushing plate 430, the second hydraulic cylinder 410 is used for providing power for the extension and retraction of the second hydraulic rods 420, and the second hydraulic rods 420 are used for providing the extension and retraction of the pushing plate 430 for movement, so as to realize the movement of the placing plate 580.

Further, the heating mechanism 500 further includes a copper plate 510, an iron plate 520, a heat conducting plate 530, a first terminal 540 and a second terminal 550, the upper surface of the copper plate 510 is welded to the inner lower surface of the hot pressing plate 560, the lower surface of the heat conducting plate 530 is welded to the inner upper surface of the hot pressing plate 560, the upper surface of the iron plate 520 is welded to the lower surface of the copper plate 510, the lower surface of the iron plate 520 is welded to the upper surface of the heat conducting plate 530, one ends of the two first terminals 540 are connected to one side surface of the copper plate 510, one ends of the two second terminals 550 are connected to one side surface of the iron plate 520, the copper plate 510 functions to obtain heat through electricity, and the heat conducting plate 530 functions to transmit the heat to the lower surface of the hot pressing plate 560 to perform lamination.

Further, the transportation mechanism 600 further comprises a second driving roller 630 and a transmission roller 640, the other end of the first driving roller 620 is in rotating fit with one side surface of a second fixing plate 670, one end of the second driving roller 630 and one ends of a plurality of transmission rollers 640 are in rotating fit with one side surface of the first fixing plate 610, the other end of the second driving roller 630 and the other ends of the plurality of transmission rollers 640 are in rotating fit with one side surface of the second fixing plate 670, one end of the transmission belt 650 is in rotating fit with the first driving roller 620, the other end of the transmission belt 650 is in rotating fit with the second driving roller 630, the plurality of transmission rollers 640 are in rotating fit with the transmission belt 650, the transmission motor box 660 is used for providing power for the rotation of the first driving roller 620, the transmission belt 650 is used for transporting a placement plate 580 required to be pressed, and also can transport the placement plate 580 after the pressing.

Further, the controller 250 is electrically connected to the first hydraulic cylinder 220, the second hydraulic cylinder 410 and the transmission motor box 660 through electric wires, and the controller 250 controls the switches of the first hydraulic cylinder 220, the second hydraulic cylinder 410 and the transmission motor box 660, wherein the models of the first hydraulic cylinder 220 and the second hydraulic cylinder 410 are SC-D50X30T, and the model of the transmission motor box 660 is 30 ISWR-001.

Example two:

a laminating method for continuous lamination of glass fibre reinforced plastic material, comprising the steps of:

the method comprises the following steps: placing a material to be laminated on the upper surface of the placing plate 580, then placing the placing plate 580 on the surface of the transmission belt 650, opening the device through the controller 250 to enable the transmission motor box 660 to work, driving the first driving roller 620 to rotate by the transmission motor box 660, driving the transmission belt 650 and the second driving roller 630 to rotate by the first driving roller 620, driving the placing plate 580 to automatically transmit by the transmission belt 650, and gluing the material in the placing plate 580 through the gluing box 570;

step two: when the placing plate 580 is conveyed to the upper surface of the fixing box 440 by the conveying belt 650, the controller 250 activates the first hydraulic cylinder 220, so that the first hydraulic cylinder 220 pushes the first hydraulic rod 230 to move downward, the lower pressing plate 240 also starts to descend under the pushing of the first hydraulic rod 230, when the lower pressing plate 240 starts to descend, the first binding post 540 and the second binding post 550 are electrified, so that the copper plate 510 and the iron plate 520 start to generate heat, the heat is transmitted to the lower surface of the hot pressing plate 560 through the heat conducting sheet 530, and the materials in the placing plate 580 are pressed;

step three: during lamination, the fixing box 440 moves downward under the extrusion of the lower pressing plate 240, and the reaction force of the spring 320 and the expansion link 330 can effectively increase the lamination efficiency and effect, after lamination, the controller 250 starts the second hydraulic cylinder 410, so that the second hydraulic cylinder 410 drives the second hydraulic rod 420 to move, and the second hydraulic rod 420 drives the pushing plate 430 to move, and the placing plate 580 is pushed onto the surface of the conveying belt 650 again;

step four: the conveyor motor cabinet 660 is again activated by the controller 250 and reversed to allow the conveyor belt 650 to transport the holding plate 580 away from the apparatus.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A laminating apparatus for continuous lamination of glass fibre reinforced plastic material, characterised by: including supporting mechanism (100), lamination mechanism (200), damper (300), push mechanism (400), heating mechanism (500) and transport mechanism (600), supporting mechanism (100) includes backup pad (110), lamination mechanism (200) includes guard box (210) and holding down plate (240), damper (300) includes fixed block (310) and connecting block (340), push mechanism (400) includes second pneumatic cylinder (410), second pneumatic cylinder (420) and fixed box (440), heating mechanism (500) includes hot pressboard (560), rubber coating box (570) and places board (580), transport mechanism (600) includes first fixed plate (610), first drive roller (620), transmission belt (650), transmission case (660) and second fixed plate (670), guard box (210) lower surface and a plurality of motor lower surface all with backup pad (110) upper surface welding, the lower surface of the lower pressing plate (240) is connected with the upper surface of the hot pressing plate (560), the upper surfaces of the connecting blocks (340) are welded with the lower surface of the fixing box (440), one side surface of the fixing box (440) is provided with two round holes, one side surface of the protection box (210) is provided with two limiting holes, two second hydraulic cylinders (410) are arranged on one side surface of the protection box (210), one end of each second hydraulic cylinder (420) penetrates through the two round holes and the two limiting holes respectively to be connected with one end of each second hydraulic cylinder (410), one side surface of the glue coating box (570) is welded with the other side surface of the protection box (210), the lower surfaces of the first fixing plate (610) and the second fixing plate (670) are welded with the upper surface of the supporting plate (110), the transmission motor box (660) is arranged on the upper surface of the supporting plate (110), one end of the transmission motor box (660) is provided with an output shaft, the surface of one side of the first fixing plate (610) is provided with a rotating hole, one end of the first driving roller (620) penetrates through the rotating hole to be connected with the output shaft, and the lower surface of the placing plate (580) is connected with the upper surface of the transmission belt (650).

2. A laminating apparatus for continuous laminating of glass fibre reinforced plastic material according to claim 1, characterised in that: the supporting mechanism (100) further comprises a universal wheel (120), brake trundles (130) and a handle (140), the universal wheel (120) and the two brake trundles (130) are mounted on the lower surface of the supporting plate (110), and one end of the handle (140) is welded to the surface of one side of the supporting plate (110).

3. A laminating apparatus for continuous laminating of glass fibre reinforced plastic material according to claim 1, characterised in that: the laminating mechanism (200) further comprises first hydraulic cylinders (220), first hydraulic rods (230) and a controller (250), wherein the first hydraulic cylinders (220) are installed on the upper surface of the protection box (210), the protection box (210) is provided with two through holes, one ends of the first hydraulic rods (230) penetrate through the two through holes respectively to be connected with one ends of the two first hydraulic cylinders (220), the other ends of the first hydraulic rods (230) are welded to the upper surface of the lower pressing plate (240), and the controller (250) is installed on the other side surface of the protection box (210).

4. A laminating apparatus for continuous laminating of glass fibre reinforced plastic material according to claim 1, characterised in that: damper (300) still include spring (320) and telescopic link (330), and is a plurality of telescopic link (330) one end and a plurality of spring (320) one end respectively with a plurality of fixed block (310) upper surface connection, a plurality of telescopic link (330) other end and a plurality of spring (320) other end respectively with a plurality of connecting block (340) lower surface connection, a plurality of spring (320) are installed respectively in a plurality of telescopic link (330) side surface.

5. A laminating apparatus for continuous laminating of glass fibre reinforced plastic material according to claim 1, characterised in that: the pushing mechanism (400) further comprises a push plate (430), and the other ends of the two second hydraulic rods (420) are welded to the surface of one side of the push plate (430).

6. A laminating apparatus for continuous laminating of glass fibre reinforced plastic material according to claim 1, characterised in that: heating mechanism (500) still includes copper plate piece (510), iron plate piece (520), conducting strip (530), first terminal (540) and second terminal (550), copper plate piece (510) upper surface and hot pressboard (560) inside lower surface are connected, conducting strip (530) lower surface and hot pressboard (560) inside upper surface are connected, iron plate piece (520) upper surface and copper plate piece (510) lower surface are connected, iron plate piece (520) lower surface and conducting strip (530) upper surface are connected, two first terminal (540) one end all is connected with copper plate piece (510) a side surface, two second terminal (550) one end all is connected with iron plate piece (520) a side surface.

7. A laminating apparatus for continuous laminating of glass fibre reinforced plastic material according to claim 1, characterised in that: transport mechanism (600) still includes second drive roller (630) and transmission roller (640), first drive roller (620) other end and second fixed plate (670) a side surface normal running fit, second drive roller (630) one end and a plurality of transmission roller (640) one end all with first fixed plate (610) a side surface normal running fit, second drive roller (630) other end and a plurality of transmission roller (640) other end all with second fixed plate (670) a side surface normal running fit, transmission belt (650) one end and first drive roller (620) normal running fit, transmission belt (650) other end and second drive roller (630) normal running fit, a plurality of transmission roller (640) all with transmission belt (650) normal running fit.

8. Laminating device for the continuous lamination of glass fibre reinforced plastic material according to any one of claims 1-7, characterised in that: the controller (250) is electrically connected with the first hydraulic cylinder (220), the second hydraulic cylinder (410) and the transmission motor box (660) through electric wires.

9. The laminating method of the laminating apparatus for continuously laminating glass fiber reinforced plastic materials according to any one of claims 1 to 8, wherein: the method comprises the following steps:

the method comprises the following steps: placing a material to be laminated on the upper surface of a placing plate (580), then placing the placing plate (580) on the surface of a transmission belt (650), opening a device through a controller (250), enabling a transmission motor box (660) to work, driving a first driving roller (620) to rotate by the transmission motor box (660), driving the transmission belt (650) and a second driving roller (630) to rotate by the first driving roller (620), driving the placing plate (580) to automatically transmit by the transmission belt (650), and gluing the material in the placing plate (580) through a gluing box (570);

step two: when the placing plate (580) is conveyed to the upper surface of the fixing box (440) by the conveying belt (650), the controller (250) starts the first hydraulic cylinder (220), so that the first hydraulic cylinder (220) pushes the first hydraulic rod (230) to move downwards, the pressing plate (240) starts to descend under the pushing of the first hydraulic rod (230), when the pressing plate (240) starts to descend, the first binding post (540) and the second binding post (550) are electrified, so that the copper plate sheet (510) and the iron plate sheet (520) start to generate heat, the heat is transmitted to the lower surface of the hot pressing plate (560) through the heat conducting sheet (530), and the material in the placing plate (580) is laminated;

step three: when lamination is carried out, the fixed box (440) can move downwards under the extrusion of the lower pressing plate (240), and the lamination efficiency and effect can be effectively increased through the reaction force of the spring (320) and the telescopic rod (330), after lamination is finished, the second hydraulic cylinder (410) is started through the controller (250), so that the second hydraulic cylinder (410) drives the second hydraulic rod (420) to move, the second hydraulic rod (420) drives the push plate (430) to move, and the placing plate (580) is pushed to the surface of the transmission belt (650) again;

step four: the conveyor motor cabinet (660) is again activated by the controller (250) and reversed to allow the conveyor belt (650) to transport the holding plate (580) away from the apparatus.

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