CN210973027U - A stromatolite device for insulation board - Google Patents

Abstract

The utility model discloses a stromatolite device for insulation board belongs to insulation material production facility technical field. The automatic feeding device comprises a transverse rack, an input belt, a material stopping plate, a sliding plate, a longitudinal rack, a waiting belt, a laminated belt and an output belt, wherein at least one material stopping pressing plate capable of moving up and down is arranged above the rear side of the material stopping plate; the sliding plate can slide back and forth, a baffle plate is arranged on the rear side of the sliding plate in the left-right direction, a push plate capable of moving left and right is arranged above the sliding plate, the push plate can be driven by a sliding plate cylinder to abut against the rear side of the material stopping plate, and the push plate can be driven by a sliding plate cylinder to move backwards to enable the push plate to be aligned with the waiting belt left and right; two waiting clamp plates capable of moving in opposite directions are arranged above the front side and the rear side of the waiting belt; two laminated clamping plates capable of moving in opposite directions are arranged above the front side and the rear side of the laminated belt, and move in opposite directions to respectively push the front side and the rear side of the heat insulation plate on the laminated belt to clamp the heat insulation plate of the laminated belt and be driven by the lifting frame to lift upwards by a distance larger than the thickness of the heat insulation plate.

Description

A stromatolite device for insulation board

Technical Field

The utility model belongs to the technical field of insulation material production facility, in particular to a stromatolite device for insulation board especially relates to a stromatolite device for producing rock wool board and glass fiber board.

Background

The rock wool is an inorganic fiber prepared from natural rocks such as basalt, gabbon, dolomite, iron ore, bauxite and the like as main raw materials through high-temperature melting and fiberization. The fibrous regenerated mineral tissue made from the raw materials through high temperature and high pressure is called rock wool because the shape is exactly like the shape of the rock wool, and is a common industrial heat-insulating material. Rock wool is typically manufactured into rock wool panels for packaging and sale.

As shown in fig. 1, a certain number of rock wool boards are arranged side by side, then are laminated up and down to form a rectangular block structure, and finally are packaged by a heat shrinkable film to obtain the product. The patent provides a stromatolite that a stromatolite device for insulation board can realize insulation board with automizing.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the embodiment of the utility model provides a stromatolite device for insulation board can carry out automatic stromatolite to the polylith insulation board that sets up side by side. The technical scheme is as follows:

the embodiment of the utility model provides a stromatolite device for insulation board, the device include along the horizontal frame 7 that sets up of front and back to and from the front to back locate input belt 1 on horizontal frame 7 in proper order, stop flitch 2 and slide 9 and along the vertical frame 15 that sets up of left and right to and locate waiting for belt 16, stromatolite belt 17 and output belt 18 on vertical frame 15 from left to right in proper order, waiting for belt 16 to be located the adjacent right side of slide 9, input belt 1, stop flitch 2, slide 9, wait for belt 16, stromatolite belt 17 and output belt 18 are located same horizontal plane; at least one material stopping pressure plate 4 capable of moving up and down is arranged above the rear side of the material stopping plate 2 and used for stopping the heat preservation plates 14 on the material stopping plate from being conveyed backwards; the sliding plate 9 can slide back and forth to separate the heat insulation plate 14 on the sliding plate from the heat insulation plate 14 on the material stopping plate 2, a sliding plate cylinder 10 for driving the sliding plate to move back and forth is arranged between the sliding plate 9 and the transverse rack 7, a baffle plate 11 is arranged on the rear side of the transverse rack in the left-right direction, a push plate 13 capable of moving left and right and pushing the heat insulation plate 14 on the sliding plate to the waiting belt 16 is arranged above the sliding plate cylinder, the sliding plate cylinder 10 can be driven to abut against the rear side of the material stopping plate 2, and the sliding plate cylinder 10 can be driven to move back to be aligned with the waiting belt 16 left and right; a contact switch 12 is arranged on the baffle plate 11; two waiting splints 19 capable of moving in opposite directions are arranged above the front side and the rear side of the waiting belt 16, the two waiting splints 19 are arranged in the left-right direction and are driven by at least one waiting cylinder 20 to move in front and rear directions respectively, the waiting cylinders 20 are driven synchronously, and the two waiting splints 19 move in opposite directions and respectively push against the front side and the rear side of the heat insulation board 14 on the waiting belt 16 to stop and position the heat insulation board 14 of the waiting belt 16; the utility model discloses a heat preservation board 14 that can the stromatolite belt 17, including stromatolite belt 17, the top of both sides is equipped with two stromatolite splint 23 that can move in opposite directions, and two stromatolite splint 23 are all along controlling to setting up and respectively by at least one stromatolite cylinder 24 drive seesaw, and the stromatolite cylinder 24 of homonymy is located on the crane 22 that can vertical motion, crane 22 is located on vertical frame 15, stromatolite cylinder 24 synchronous drive, and two stromatolite splint 23 move in opposite directions respectively top press the heat preservation board 14 of stromatolite belt 17 around both sides press from both sides the heat preservation board 14 of stromatolite belt 17 tightly and upwards rise by crane 22 drive and be greater than the distance of heat preservation board 14 thickness, wait that the heat preservation board 14 that.

Wherein, the input belt 1 in the embodiment of the utility model is arranged along the front and back direction; the material stopping plate 2 is positioned adjacent to the rear part of the input belt 1, is a rectangular plate arranged in the left-right direction, and has a smooth upper surface; a material stopping support 3 is arranged above the rear side of the material stopping plate 2, the material stopping support 3 is fixed on a transverse frame 7, two material stopping cylinders 6 are arranged on the material stopping support 3 side by side on the transverse frame, the two material stopping cylinders 6 are driven synchronously, the material stopping cylinders 6 are arranged vertically, and a material stopping pressure plate 4 is arranged at the lower end of a telescopic rod of the material stopping cylinders; the material stopping pressing plate 4 is arranged in the left-right direction, is positioned right above the heat insulation plate 14, can be driven by the material stopping cylinder 6 to move downwards to be pushed on the upper side of the heat insulation plate 14, and the rear side of the material stopping pressing plate is flush with the rear side of the material stopping plate 2.

Wherein, the rear part of the transverse frame 7 in the embodiment of the utility model is provided with two slide bars 8 along the front and back direction, and the two slide bars 8 are arranged side by side left and right; the sliding plate 9 is arranged on the sliding rod 8 in a sliding mode through a sliding seat at the bottom of the sliding plate, the sliding plate air cylinder 10 is arranged on the transverse rack 7 in the front-back direction, and the front end of a telescopic rod of the sliding plate air cylinder is connected with the bottom of the rear side of the sliding plate 9.

Wherein, the slide plate 9 in the embodiment of the utility model is a rectangular plate arranged in the left-right direction, the upper surface of the slide plate is smooth, and a push plate bracket 25 is arranged above the slide plate; the push plate support 25 is fixed on the transverse rack 7, a walking slide rail 26 is arranged on the push plate support in the left-right direction, a walking trolley 27 is arranged on the walking slide rail 26 in a sliding manner, a walking driving structure 28 for driving the walking trolley 27 to slide in the left-right direction is arranged between the walking trolley 27 and the push plate support 25, a walking cylinder 29 is arranged on the walking trolley 27 in the vertical direction, and a push plate 13 is arranged at the bottom end of a telescopic rod of the walking cylinder 29; the push plate 13 is arranged in the front-back direction, when the sliding plate 9 moves backwards to be level with the waiting belt 16 left and right, the rear end of the push plate 13 is positioned in front of the baffle plate 11, and the front end of the push plate 13 is positioned behind the front side of the sliding plate 9; when the walking cylinder 29 extends, the push plate 13 is positioned above the adjacent sliding plate 9, and when the walking cylinder 29 contracts, the push plate 13 is positioned above the thermal insulation plate 14.

Wherein, the waiting belt 16 in the embodiment of the utility model is arranged along the left-right direction, the left side of the waiting belt is positioned at the adjacent right side of the sliding plate 9, the length of the left-right direction of the waiting belt is greater than that of the heat preservation plate 14, and the width of the front-back direction of the waiting belt is greater than the distance between the front side of the sliding plate 9 and the baffle 11; the waiting cylinders 20 are arranged on the longitudinal frame 15 in the left-right direction, and the two waiting splints 19 are symmetrically arranged in the front and back direction of the heat preservation board 14 on the waiting belt 16 and are arranged at the inner ends of the telescopic rods of the waiting cylinders 20 on the corresponding sides.

Wherein, the laminated belt 17 in the embodiment of the utility model is arranged along the left and right direction, and the length of the left and right direction is larger than that of the thermal insulation board 14; the laminated cylinder 24 is arranged on the lifting frame 22 at the corresponding side along the left-right direction, and the laminated clamping plates 23 are symmetrically arranged in the front-back direction of the heat insulation plates 14 on the laminated belt 17 and are arranged on the inner ends of the telescopic rods of the laminated cylinder 24 at the corresponding side; the front side and the rear side of the longitudinal frame 15 are provided with lifting guide rails 21 along the vertical direction, the lifting frame 22 is arranged on the lifting guide rails 21 in a sliding mode, and a lifting cylinder used for driving the lifting frame to slide up and down is arranged at the bottom of the lifting frame.

The embodiment of the utility model provides a beneficial effect that technical scheme brought is: the embodiment of the utility model provides a laminating device for heat preservation plates, which can automatically laminate a plurality of heat preservation plates arranged side by side, thereby saving time and labor; meanwhile, the lamination is neat, and the subsequent process treatment is easy.

Drawings

FIG. 1 is a schematic view of a laminate of insulation boards;

fig. 2 is a schematic structural diagram of a laminating device for insulation boards according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the construction of the pusher machine drive;

fig. 4 is a schematic view of the structure of the contact switch.

In the figure: the device comprises an input belt 1, a material stopping plate 2, a material stopping bracket 3, a material stopping pressure plate 4, a guide rod 5, a material stopping cylinder 6, a transverse rack 7, a sliding rod 8, a sliding plate 9, a sliding plate cylinder 10, a baffle 11, a contact switch 12, a push plate 13, a heat insulation plate 14, a longitudinal rack 15, a waiting belt 16, a laminated belt 17, an output belt 18, a waiting clamp plate 19, a waiting cylinder 20, a lifting guide rail 21, a lifting frame 22, a laminated clamp plate 23, a laminated cylinder 24, a push plate bracket 25, a walking slide rail 26, a walking trolley 27, a walking driving structure 28 and a walking cylinder 29.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 2-4, the embodiment of the present invention provides a laminating device for insulation boards, the device includes a horizontal frame 7 disposed along the front-back direction, an input belt 1 disposed on the horizontal frame 7 in sequence from front to back, a stop board 2, a sliding plate 9, a vertical frame 15 disposed along the left-right direction, a waiting belt 16, a laminating belt 17, an output belt 18, and the like disposed on the vertical frame 15 in sequence from left to right, the horizontal frame 7 is perpendicular to the vertical frame 15, the input belt 1, the waiting belt 16, the laminating belt 17, and the output belt 18 are driven by corresponding motors respectively for transporting insulation boards 14, the stop board 2 and the sliding plate 9 can be specifically stainless steel plates, the front-back width of the stop board 2 can be 10-25cm, and the front-back width of the sliding plate 9 is determined according to the number of the insulation boards 14 side by side. The waiting belt 16 is located adjacent to the right side of the sliding plate 9, and the input belt 1, the material stopping plate 2, the sliding plate 9, the waiting belt 16, the laminated belt 17 and the output belt 18 are located on the same horizontal plane to ensure the conveyance of the insulation board 14. At least one material stopping pressure plate 4 capable of moving up and down is arranged above the rear side of the material stopping plate 2 and used for stopping the backward conveying of the heat preservation plates 14 on the material stopping plate so as to separate the heat preservation plates 14 which are arranged side by side from front to back. The sliding plate 9 can slide back and forth to separate the thermal insulation plate 14 on the sliding plate from the thermal insulation plate 14 on the material stopping plate 2, a sliding plate cylinder 10 for driving the sliding plate to move back and forth is arranged between the sliding plate 9 and the transverse frame 7, a baffle plate 11 (specifically, a rectangular plate which can be vertically arranged) is arranged on the rear side of the sliding plate in the left and right directions, a push plate 13 which can move left and right and push all the thermal insulation plates 14 on the sliding plate to a waiting belt 16 is arranged above the sliding plate, the sliding plate cylinder 10 can be driven to abut against the rear side of the material stopping plate 2, and the sliding plate cylinder 10 can be driven to move back to be aligned with the waiting belt 16. Specifically, the sliding plate 9 can move 3-5cm backward relative to the material stopping plate 2, and the baffle 11 is provided with a contact switch 12 (preferably, the left-right movement of the thermal insulation plate 14 is not affected, and the structure of the contact switch is shown in fig. 4, and the V-shaped contact plate (the baffle 11 is provided with a through hole for the rotation of the baffle and a photoelectric sensor at the rear side) rotatably arranged on the baffle 11 is used for controlling the actions of the sliding plate cylinder 10, the walking driving structure 28 (delay) and the walking cylinder 29 (delay), and the distance between the sliding plate cylinder 10 and the front side of the sliding plate 9 is preferably the sum of the forward and backward widths of the N thermal insulation plates 14 (required by packaging design. The pusher plate 13 is aligned side-to-side against the right side of the insulation panel 14 and its leftward movement pushes the left portion (preferably over 1/3) of the insulation panel 14 (at which point the sled cylinder 10 retracts) onto the waiting belt 16.

Wherein, referring to fig. 2, the two waiting splints 19 (rectangular plates, vertical arrangement) capable of moving in opposite directions are disposed above the front and back sides of the waiting belt 16 in the embodiment of the present invention, the two waiting splints 19 are all disposed in left and right directions and are driven by at least one waiting cylinder 20 to move back and forth respectively, the waiting cylinders 20 are driven synchronously, the two waiting splints 19 are respectively disposed at the front and back sides of the thermal insulation board 14 on the waiting belt 16, and the two waiting splints 19 move in opposite directions (waiting for the belt 16 to stop at this time) and respectively press against the front and back sides (clamping the thermal insulation board 14) of the thermal insulation board 14 on the waiting belt 16 to stop and position the thermal insulation board 14 of the waiting belt. Two laminated clamp plates 23 (rectangular plates and vertically arranged) capable of moving in opposite directions are arranged above the front side and the rear side of the laminated belt 17, the two laminated clamp plates 23 are arranged in the left-right direction and are driven to move in front and rear directions by at least one laminated cylinder 24 (preferably, two laminated cylinders 24 are arranged side by side on the left side and the right side) respectively, the laminated cylinder 24 on the same side is arranged on a lifting frame 22 capable of moving in vertical direction to drive the laminated clamp plates 23 to move up and down, the lifting frame 22 is arranged on a longitudinal frame 15 and is driven to move up and down by a corresponding structure, the laminated cylinders 24 are synchronously driven, the two laminated clamp plates 23 are respectively arranged on the front side and the rear side of the heat preservation plate 14 on the laminated belt 17, the two laminated clamp plates 23 move in opposite directions (at the moment, the laminated belt 17 stops) and respectively push the front side and the rear side of the heat preservation plate 14 on the laminated belt 17 to clamp the heat preservation The distance larger than the thickness of the heat insulation board 14 achieves lifting of the layer of heat insulation board 14, the laminated belt 17 is continuously fed into the layer of heat insulation board 14 to be right below the layer of heat insulation board 14 clamped by the laminated clamping plate 23, and then the laminated clamping plate 23 is loosened to achieve lamination. The thermal insulation boards 14 clamped by the waiting plywood 19 are aligned with the thermal insulation boards 14 clamped by the laminated plywood 23 (front and rear sides are aligned, respectively).

Referring to fig. 2, the input belt 1 in the embodiment of the present invention is arranged in the front-back direction; the material stopping plate 2 is positioned at the adjacent rear part of the input belt 1, is a rectangular plate arranged in the left-right direction, has a smooth upper surface, and is fixed on a transverse rack 7 at the left end and the right end. The material stopping support 3 (in a rectangular door type structure) is arranged above the rear side of the material stopping plate 2, the material stopping support 3 is fixed on the transverse rack 7, two material stopping cylinders 6 (arranged symmetrically left and right along the central line of the input belt 1) are arranged on the left side and the right side of the material stopping support, and the two material stopping cylinders 6 are driven synchronously. The material stopping cylinder 6 is vertically arranged (the cylinder body is fixed on the material stopping support 3), and the lower end of a telescopic rod of the material stopping cylinder is provided with a material stopping pressing plate 4. The material stopping pressing plate 4 is arranged in the left-right direction, is positioned right above the heat insulation plate 14 on the material stopping plate 2, can be driven by the material stopping cylinder 6 to move downwards to be pushed on the upper side of the heat insulation plate 14, is flush with the rear side of the material stopping plate 2 at the rear side, and is a rectangular plate in the left-right direction.

Referring to fig. 2, the rear portion of the transverse frame 7 in the embodiment of the present invention is provided with two sliding rods 8 (specifically, smooth round rods, which are symmetrically arranged around the center line of the input belt 1) along the front-back direction, and the two sliding rods 8 are arranged side by side on the left and right sides. The slide 9 is arranged on the slide bars 8 through the slide of the bottom of the slide, the slide cylinder 10 is arranged on the transverse frame 7 (the rear part is arranged below the slide 9 and between the two slide bars 8) along the front-back direction, and the front end of the telescopic rod is connected with the bottom of the rear side of the slide 9.

Referring to fig. 2, the slide plate 9 in the embodiment of the present invention is a rectangular plate disposed in the left-right direction, the upper surface of which is smooth, and a push plate support 25 (frame structure) is disposed above the upper surface. The push plate bracket 25 is fixed on the transverse frame 7, and walking slide rails 26 (specifically two, are arranged symmetrically in front and back direction of the central line of the waiting belt 16) are arranged on the push plate bracket along the left-right direction; a walking trolley 27 is arranged on the walking slide rail 26 in a sliding manner (through a slide seat), and a walking driving structure 28 (such as a motor, a walking belt (sleeved on two belt pulleys and two ends of the belt pulleys are connected with the left side and the right side of the walking trolley 27), belt pulleys on the left side and the right side of the push plate support 25 and the like) for driving the walking trolley 27 to slide left and right is arranged between the walking trolley 27 and the push plate support 25. The walking trolley 27 is vertically provided with a walking cylinder 29, and the bottom end of a telescopic rod of the walking cylinder 29 is provided with a push plate 13. Push pedal 13 is along the forward and backward setting (specifically is the rectangular plate of vertical setting), when slide 9 rearward movement to with wait for belt 16 about the parallel and level, the rear end of push pedal 13 is located the adjacent the place ahead of baffle 11, the front end of push pedal 13 is located the adjacent rear of slide 9 front side to guarantee to push away thermal insulation board 14 entirely. When the walking cylinder 29 is extended, the push plate 13 is positioned above the adjacent part of the sliding plate 9 (can be abutted against the left side of the thermal insulation plate 14), and when the walking cylinder 29 is contracted, the push plate 13 is positioned above the thermal insulation plate 14.

Referring to fig. 2, the waiting belt 16 in the embodiment of the present invention is disposed in a left-right direction, the left side of the waiting belt is located on the adjacent right side of the sliding plate 9, the left-right direction length of the waiting belt is greater than the length of the thermal insulation board 14, and the front-back direction width of the waiting belt is greater than the distance between the front side of the sliding plate 9 and the baffle 11 (aligned with the center line of the sliding plate 9 (when leaning against the rear side)). The waiting cylinders 20 are arranged on the longitudinal frame 15 in the left-right direction, and the two waiting splints 19 are symmetrically arranged in front and back of the heat preservation board 14 on the waiting belt 16 and are arranged at the inner ends of the telescopic rods of the waiting cylinders 20 on the corresponding sides. The waiting clamp 19 is embodied as a vertically arranged rectangular plate which is located adjacently above the waiting belt 16.

Referring to fig. 2, the laminated belt 17 according to the embodiment of the present invention is disposed in the left-right direction, the length of the left-right direction is greater than that of the thermal insulation board 14, and the length of the front-back direction corresponds to the waiting belt 16 (the central line coincides). The laminating cylinders 24 (specifically, two are arranged in bilateral symmetry by the lifting guide rails 21) are arranged on the lifting frames 22 on the corresponding sides in the bilateral direction, and the laminating clamping plates 23 (specifically, vertically arranged rectangular plates) are arranged in front-back symmetry by the heat preservation plates 14 on the laminating belts 17 and are arranged on the inner ends of the telescopic rods of the laminating cylinders 24 on the corresponding sides. The front side and the rear side of the longitudinal frame 15 are provided with lifting guide rails 21 along the vertical direction, the lifting frame 22 (specifically, a rectangular block or a frame structure which can be arranged in the left-right direction) is arranged on the inner side of the lifting guide rails 21 in a sliding manner (through a sliding seat) and the bottom of the lifting frame is provided with a lifting cylinder (arranged along the vertical direction, the cylinder body of the lifting frame is fixed on the ground, and the upper end of a telescopic rod of the lifting frame is fixedly connected with the lower side of the lifting frame 22).

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (6)

1. The laminating device for the heat-insulating board is characterized by comprising a transverse rack (7) arranged in the front-back direction, an input belt (1), a material stopping plate (2), a sliding plate (9) and a longitudinal rack (15) arranged in the left-right direction from front to back in sequence on the transverse rack (7), and a waiting belt (16), a laminating belt (17) and an output belt (18) which are arranged on the longitudinal rack (15) from left to right in sequence, wherein the waiting belt (16) is positioned on the adjacent right side of the sliding plate (9), and the input belt (1), the material stopping plate (2), the sliding plate (9), the waiting belt (16), the laminating belt (17) and the output belt (18) are positioned on the same horizontal plane;

at least one material stopping pressing plate (4) capable of moving up and down is arranged above the rear side of the material stopping plate (2) and used for stopping the heat preservation plates (14) on the material stopping plate from being conveyed backwards;

the sliding plate (9) can slide back and forth to separate a heat insulation plate (14) on the sliding plate from the heat insulation plate (14) on the material stopping plate (2), a sliding plate cylinder (10) for driving the sliding plate to move back and forth is arranged between the sliding plate and the transverse rack (7), a baffle plate (11) is arranged on the rear side of the sliding plate in the left-right direction, a push plate (13) capable of moving left and right and pushing the heat insulation plate (14) on the sliding plate to a waiting belt (16) is arranged above the sliding plate, the sliding plate cylinder (10) can be driven to abut against the rear side of the material stopping plate (2), and the sliding plate cylinder (10) can be driven to move back to align the waiting belt (16) left and right; a contact switch (12) is arranged on the baffle (11);

two waiting splints (19) capable of moving in opposite directions are arranged above the front side and the rear side of the waiting belt (16), the two waiting splints (19) are arranged in the left-right direction and are driven by at least one waiting cylinder (20) to move in front and rear directions respectively, the waiting cylinders (20) are driven synchronously, and the two waiting splints (19) move in opposite directions and respectively push the front side and the rear side of the heat insulation board (14) on the waiting belt (16) to stop and position the heat insulation board (14) of the waiting belt (16);

two laminated clamping plates (23) capable of moving in opposite directions are arranged above the front side and the rear side of the laminated belt (17), the two laminated clamping plates (23) are arranged in the left-right direction and are respectively driven by at least one laminated cylinder (24) to move in front and rear directions, the laminated cylinders (24) on the same side are arranged on a lifting frame (22) capable of moving vertically, the lifting frame (22) is arranged on the longitudinal frame (15), the laminated air cylinders (24) are driven synchronously, the two laminated clamping plates (23) move oppositely and respectively jack the front side and the rear side of the heat insulation plate (14) pressed on the laminated belt (17) to clamp the heat insulation plate (14) of the laminated belt (17) and are driven by the lifting frame (22) to lift upwards by a distance larger than the thickness of the heat insulation plate (14), the heat insulation board (14) clamped by the waiting clamp plate (19) is aligned with the heat insulation board (14) clamped by the laminated clamp plate (23).

2. The laminating device for insulation boards according to claim 1, wherein the input belt (1) is arranged in a front-back direction; the material stopping plate (2) is positioned at the adjacent rear part of the input belt (1), is a rectangular plate arranged in the left-right direction, and has a smooth upper surface; a material stopping support (3) is arranged above the rear side of the material stopping plate (2), the material stopping support (3) is fixed on a transverse rack (7) and is provided with two material stopping cylinders (6) side by side on the left side and the right side, the two material stopping cylinders (6) are driven synchronously, the material stopping cylinders (6) are arranged vertically, and the lower ends of telescopic rods of the material stopping cylinders are provided with material stopping pressing plates (4); the material stopping pressing plate (4) is arranged in the left-right direction, is positioned right above the heat insulation plate (14), can be driven by the material stopping cylinder (6) to move downwards to be pressed on the upper side of the heat insulation plate (14), and the rear side of the material stopping pressing plate is flush with the rear side of the material stopping plate (2).

3. The laminating device for the heat preservation plates as claimed in claim 1, wherein two sliding rods (8) are arranged at the rear part of the transverse frame (7) along the front and rear directions, and the two sliding rods (8) are arranged side by side left and right; the sliding plate (9) is arranged on the sliding rod (8) in a sliding mode through a sliding seat at the bottom of the sliding plate, the sliding plate air cylinder (10) is arranged on the transverse rack (7) in the front-back direction, and the front end of a telescopic rod of the sliding plate air cylinder is connected with the bottom of the rear side of the sliding plate (9).

4. The laminating device for the insulation boards as claimed in claim 1, wherein the sliding plate (9) is a rectangular plate arranged in the left-right direction, the upper surface of the rectangular plate is smooth, and a push plate bracket (25) is arranged above the rectangular plate;

the push plate support (25) is fixed on the transverse rack (7), a walking slide rail (26) is arranged on the push plate support in the left-right direction, a walking trolley (27) is arranged on the walking slide rail (26) in a sliding manner, a walking driving structure (28) for driving the walking trolley (27) to slide in the left-right direction is arranged between the walking trolley (27) and the push plate support (25), a walking cylinder (29) is arranged on the walking trolley (27) in the vertical direction, and a push plate (13) is arranged at the bottom end of a telescopic rod of the walking cylinder (29); the push plate (13) is arranged in the front-back direction, when the sliding plate (9) moves backwards to be level with the waiting belt (16) left and right, the rear end of the push plate (13) is positioned in front of the baffle (11) and the front end of the push plate (13) is positioned behind the front side of the sliding plate (9); when the walking cylinder (29) is extended, the push plate (13) is positioned above the adjacent sliding plate (9), and when the walking cylinder (29) is contracted, the push plate (13) is positioned above the heat-insulating plate (14).

5. The laminating device for the thermal insulation boards as claimed in claim 1, wherein the waiting belt (16) is arranged in a left-right direction, the left side of the waiting belt is positioned at the adjacent right side of the sliding plate (9), the left-right direction length of the waiting belt is greater than the length of the thermal insulation board (14), and the front-back direction width of the waiting belt is greater than the distance between the front side of the sliding plate (9) and the baffle plate (11); waiting cylinder (20) are along controlling to locating on vertical frame (15), two wait that splint (19) with wait for insulation board (14) on belt (16) around symmetry set up and all locate on the inner end of the telescopic link that waits for cylinder (20) of corresponding side.

6. The laminating device for the insulation boards according to claim 1, wherein the laminating belt (17) is arranged in the left-right direction, and the length of the left-right direction is larger than that of the insulation board (14); the laminated cylinder (24) is arranged on the lifting frame (22) on the corresponding side in the left-right direction, and the laminated clamping plates (23) are symmetrically arranged in the front-back direction of the heat insulation plates (14) on the laminated belt (17) and are arranged on the inner ends of the telescopic rods of the laminated cylinder (24) on the corresponding side; the front side and the rear side of the longitudinal rack (15) are provided with lifting guide rails (21) along the vertical direction, the lifting frame (22) is slidably arranged on the lifting guide rails (21) and the bottom of the lifting frame is provided with a lifting cylinder for driving the lifting frame to slide up and down.

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