CN216100417U - Novel cladding machine - Google Patents

Abstract

The utility model discloses a novel cladding machine, which comprises: the film pressing device and the edge sealing conveying device are mounted on the frame. The film pressing device and the edge sealing conveying device are arranged in front and back. The film pressing device comprises a film pressing roller and a conveying roller. The film pressing roller is arranged above the conveying roller and tightly supports the conveying roller downwards. The edge sealing conveying device comprises a conveying assembly and an edge sealing assembly. The conveying assembly has a conveying surface extending in a front-rear direction for conveying the foreign material. The banding subassembly has two, and two banding subassemblies are located conveying assembly's left and right sides in opposite directions. The edge sealing component is provided with a plurality of edge sealing pinch rollers which are arranged along the front and back directions. According to the novel cladding machine, the decorative film is attached and cladded on the upper decorative surface of the plate in the conveying process of the plate through the film pressing roller and the conveying roller; and then the edge sealing pinch rollers on the two sides of the conveying assembly are used for downwards folding and laminating the decorative films on the left side and the right side of the plate on the two side surfaces of the plate. The utility model can be applied to film coating production.

Description

Novel cladding machine

Technical Field

The utility model relates to the technical field of film coating production, in particular to a novel coating machine.

Background

The coating machine can simulate manual veneering action, and attach surface decorative materials (such as PVC, decorative paper, wood veneer and the like) to the surface of a base material made of wood, aluminum-plastic sectional materials, foaming materials and the like, so that the working efficiency is improved, the labor cost is saved, the coating machine can replace the traditional paint process, and the coating machine is widely applied to various surface veneering production.

Taking the example of coating the decorative film on the plate, the coating machine can press the decorative film on the plate conveyed by the steel roller through the rubber pressing roller, so as to coat the decorative surface of the plate. However, the cladding machine in the prior art is not compact enough in structure and single in function, and only can clad one decorative surface of a plate.

SUMMERY OF THE UTILITY MODEL

The present invention aims to provide a novel cladding machine which solves one or more of the technical problems in the prior art and provides at least one useful choice or creation.

The technical scheme adopted for solving the technical problems is as follows:

a novel cladding machine comprising: the film pressing device and the edge sealing conveying device are mounted on the frame; the film pressing device and the edge sealing conveying device are arranged in front and back; the film pressing device comprises a film pressing roller and a conveying roller, the film pressing roller is arranged above the conveying roller and is pressed against the conveying roller downwards, and the film pressing roller and the conveying roller are arranged along the left-right direction in the axial direction; the edge sealing conveying device comprises a conveying assembly and an edge sealing assembly; the conveying assembly is provided with a conveying surface for conveying the foreign materials, and the conveying surface extends along the front-back direction; the banding subassembly has two, two the banding subassembly is located in opposite directions the left and right sides of conveying component, the banding subassembly is equipped with a plurality of banding pinch rollers of arranging the setting along the fore-and-aft direction.

The novel coating machine provided by the utility model at least has the following beneficial effects: the conveying roller can bear and convey the plate. The film pressing roller is tightly supported downwards, so that the decorative film and the board between the film pressing roller and the conveying roller can be mutually attached, and the decorative film is coated on the upper side of the board. The plate with the upper side surface coated is conveyed continuously through the conveying surface of the conveying assembly, and the edge sealing assemblies on the two sides of the conveying assembly are attached to the decorative films extending outwards from the upper side surface to the left side surface and the right side surface of the plate through the edge sealing pressing wheels. According to the novel coating machine, the decorative film is coated on the upper decorative surface of the plate in a pressing manner through the film pressing roller and the conveying roller, and meanwhile, the decorative film can be coated on the left side surface and the right side surface of the plate in a fitting manner through the edge sealing pressing rollers of the left edge sealing assembly and the right edge sealing assembly when the conveying assembly conveys the plate; the cladding process of three decorative surfaces of the plate is completed once, the cladding efficiency is greatly improved, and coherent decorative films can be further wrapped on each decorative surface of the plate, so that decorative lines can be unified, and the cladding effect is better.

As a further improvement of the technical scheme, the novel coating machine further comprises a gluing device; the rubber coating device is located the top of press mold device, the rubber coating device includes: the device comprises a film supporting component, a gluing component and a gluing driving unit. Prop the membrane module and include that two are the membrane pole that props that sets up from top to bottom, two prop the membrane pole all along left right direction extend and with frame fixed connection, the rubber coating subassembly along the fore-and-aft direction slide set up in prop the rear of membrane module, the rubber coating drive unit be equipped with the transmission of rubber coating subassembly is connected, and is made the rubber coating subassembly is relative prop the rubber coating drive end of membrane module back-and-forth movement. The gluing assembly comprises a gluing seat and two width adjusting pieces, a gluing cavity is arranged in the gluing seat, a glue outlet seam is arranged at the front end of the gluing seat, the glue outlet seam is communicated with the gluing cavity and extends along the left-right direction, the two width adjusting pieces are slidably inserted at the left end and the right end of the gluing seat, opposite end portions of the two width adjusting pieces are adjustably inserted into the gluing cavity and the glue outlet seam, and a glue inlet communicated with the gluing cavity is formed in the middle of the gluing seat.

By the technical scheme, the film supporting component can smoothly arrange the decorative film between the two film supporting rods; glue can enter the gluing cavity from the glue inlet and flow out from the glue outlet. The gluing driving unit can drive the gluing component to move back and forth, so that the glue outlet seam on the gluing base can be forwards abutted to the decorative film between the two film supporting rods, and the glue in the gluing cavity can be uniformly coated on the binding surface of the decorative film, so that the coating is conveniently carried out. Two the position of width adjustment spare can be adjusted according to the size and specification on the decorative film left and right sides direction for the width of going out the gluey seam can be unanimous and align each other with the width of decorative film, realizes the cladding that adapts to different specification panels, avoids the effect of extravagant glue.

As a further improvement of the technical scheme, the novel coating machine further comprises a film supply device; the film supply device is arranged in front of the gluing device and comprises: the film guiding assembly and the two film releasing assemblies are arranged on the film guiding assembly; two put the membrane module and be the front and back setting, it locates two to lead the membrane module put the below between the membrane module. The membrane guiding assembly comprises: the film guide device comprises a fixed film guide roller, a movable film guide roller and a film guide driving unit; the fixed film guide roller is rotatably connected with the rack, the movable film guide roller is arranged in front of the fixed film guide roller in a sliding mode along the front-back direction, and the film guide driving unit is provided with a film guide driving end which is in transmission connection with the movable film guide roller and enables the movable film guide roller to move back and forth relative to the fixed film guide roller. Put the membrane module including putting the membrane roller and putting membrane drive unit, put the membrane roller with the frame rotates and connects, put membrane drive unit with put membrane roller drive and connect.

Through the technical scheme, the film placing driving unit can drive the film placing roller shaft to rotate, so that the decorative film can be continuously and stably supplied to the film. The film guide driving unit can drive the movable film guide roller to be tightly abutted against the fixed film guide roller. Two put the decorating film of membrane module can pass through lead the membrane module laminating together, make two put the membrane module and can supply the membrane in turn.

As a further improvement of the above technical solution, the film pressing device further comprises a lifting frame body, a film pressing lifting driving unit and a conveying driving unit; the conveying roller is rotatably arranged on the rack, and the conveying driving unit is in driving connection with the conveying roller; the film pressing roller is rotatably installed on the lifting frame body, the lifting frame body is slidably installed on the frame in the up-down direction, and the film pressing lifting driving unit is provided with a film pressing lifting driving end which is in transmission connection with the lifting frame body and enables the lifting frame body to move up and down relative to the conveying roller.

Through the technical scheme, the film pressing lifting driving unit can drive the lifting frame body and the film pressing roller to move up and down, so that the film pressing roller can be pressed tightly downwards in the coating process, and the decorative film is pressed on the plate to coat the decorative surface on the plate; the film pressing lifting driving unit can drive the die pressing roller to rise upwards, and the maintenance and the replacement of plate feeding or the die pressing roller and the conveying roller are conveniently carried out.

As a further improvement of the above technical solution, the film pressing device is further provided with a lifting adjustment assembly, and the lifting adjustment assembly is provided with a lifting adjustment driving end which is in transmission connection with the film pressing lifting driving unit and enables the film pressing lifting driving unit to move along the up-down direction.

Through the technical scheme, the lifting adjusting assembly can drive the film pressing lifting driving unit to lift, so that the distance between the film pressing roller and the conveying roller can be adjusted according to the thickness of the plate, and the adaptability of the cladding machine to different specification plates is greatly enhanced.

As a further improvement of the technical scheme, the conveying rollers, the film pressing rollers, the lifting frame body, the film pressing lifting driving unit and the lifting adjusting assembly which are arranged in a one-to-one correspondence mode are used as a film pressing unit, the film pressing units are multiple, the film pressing units are arranged in the front-back direction, and the conveying rollers of the film pressing units are mutually connected in a synchronous mode.

Through the technical scheme, the film pressing device extrudes the plate and the decorative plate for multiple times through the plurality of film pressing units, and the laminating degree and the leveling degree of the decorative film are ensured to meet the requirements. The conveying rollers are synchronously connected, so that the plate can be stably conveyed.

As a further improvement of the technical scheme, the two edge sealing assemblies are arranged in the rack in a left-right direction in an adjustable mode, the rotating axial direction of the edge sealing pinch roller is perpendicular to the front-back direction, and the edge sealing pinch roller is arranged on the left side and the right side of the conveying assembly in an adjustable mode.

Through the technical scheme, the two edge sealing assemblies are adjustable in the left and right directions, so that the distance between the two edge sealing assemblies can be adjusted according to plates with different widths, sizes and specifications. The rotation axial direction of the edge sealing pinch roller is perpendicular to the front-back direction, so that when the plate moves in the front-back direction, the edge sealing pinch roller can roll and abut against the plate, and the decorative film on the side surface of the plate is attached and coated. The adjustable installation of banding pinch roller, the convenience is adjusted according to the panel edge shape of difference the installation angle of banding pinch roller, strengthens the adaptability of banding subassembly to different panels greatly.

As a further improvement of the above technical scheme, the frame is provided with a width adjusting assembly, the width adjusting assembly comprises a first adjusting screw rod and a second adjusting screw rod with opposite screw thread turning directions, and a first nut connecting seat and a second nut connecting seat which are respectively in threaded connection with the first adjusting screw rod and the second adjusting screw rod, the first adjusting screw rod and the second adjusting screw rod are rotatably installed on the frame and are in transmission connection with each other in a synchronous manner, the two edge sealing assemblies are slidably installed on the frame along the left and right directions, and the first nut connecting seat and the second nut connecting seat are respectively in transmission connection with the two edge sealing assemblies.

Through the technical scheme, first accommodate the lead screw and second accommodate the lead screw synchronous transmission are connected, rotate during first accommodate the lead screw and second accommodate the lead screw, first nut connecting seat and second nut connecting seat can be close to the motion in opposite directions or keep away from the motion mutually on the back mutually, thereby make two the banding subassembly can realize the adjustment placed in the middle of in the left and right sides orientation.

As a further improvement of the technical scheme, a plurality of conveying pinch rollers are further adjustably arranged on the upper side of the conveying assembly, and the rotating axial directions of the conveying pinch rollers are arranged along the left-right direction.

Through the technical scheme, the conveying pressing wheel can be pressed on the upper side face of the plate, so that the plate is limited in the front-back conveying process between the conveying pressing wheel and the conveying assembly, the plate can be stably conveyed, and the coating effect is prevented from being influenced by the tilting of the plate.

As a further improvement of the above technical solution, the novel cladding machine further includes a protective film pasting device, the protective film pasting device includes: the protection film unreels roller, protection film unreels drive unit and protection film compression roller, the protection film unreels the axial of roller and protection film compression roller and all sets up along controlling the direction, the protection film compression roller is located carry the downstream end top of face and with the frame is along adjustable connection from top to bottom, the protection film unreels the roller and locates the front side of protection film compression roller, the protection film unreel drive unit with the protection film unreels the roller drive and connects.

Through the technical scheme, the protective film unwinding driving unit can drive the protective film unwinding roller to rotate, so that a protective film coil stock arranged on the protective film unwinding roller can continuously supply a protective film along with the conveying of the plates, the mounting height of the protective film compression roller is adjusted along the vertical direction, and the protective film compression roller can compress the protective film on the plates conveyed by the conveying assembly.

Drawings

The utility model is further described with reference to the accompanying drawings and examples;

fig. 1 is a perspective view of an embodiment of the novel cladding machine provided by the utility model;

FIG. 2 is a perspective view of one embodiment of the novel cladding machine of the present invention;

FIG. 3 is a side view of one embodiment of the novel cladding machine provided by the present invention;

FIG. 4 is a side cross-sectional view of one embodiment of the novel cladding machine provided by the present invention;

FIG. 5 is a schematic perspective view of an embodiment of a frame, a film pressing device and an edge banding conveying device provided by the present invention;

fig. 6 is a partially enlarged view of the area a in fig. 4.

In the figure, 100, a frame, 110, a width adjusting component, 111, a first adjusting screw rod, 112, a second adjusting screw rod, 120, a conveying pinch roller, 200, a film pressing device, 210, a film pressing roller, 220, a conveying roller, 230, a lifting frame body, 240, a film pressing lifting driving unit, 250, a conveying driving unit, 260, a lifting adjusting component, 300, an edge sealing conveying device, 310, a conveying component, 320, an edge sealing component, 321, an edge sealing pinch roller, 400, a gluing device, 410, a film supporting component, 411, a film supporting rod, 420, a gluing component, 421, a gluing seat, 422, a width adjusting component, 430, a gluing driving unit, 500, a film supplying device, 510, a film guiding component, 511, a fixed film guiding roller, 512, a movable film guiding roller, 513, a film guiding driving unit, 520, a film releasing component, 521, a film releasing roller shaft, 522, a film releasing driving unit, 600, a protective film pasting device, 610, a protective film releasing roller, 620. protection film unreels drive unit, 630, protection film compression roller.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are described, the meaning is one or more, the meaning of a plurality is two or more, more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

With reference to fig. 1 to 6, the novel cladding machine of the present invention makes the following embodiments:

a novel cladding machine comprising: the film laminating machine comprises a frame 100, a film supply device 500, a gluing device 400, a film pressing device 200, an edge sealing and conveying device 300 and a protective film laminating device 600.

The film supply device 500, the gluing device 400, the film pressing device 200, the edge sealing and conveying device 300 and the protective film pasting device 600 are all installed on the rack 100. Banding conveyor 300 locates press mold device 200's the place ahead, rubber coating device 400 locates press mold device 200's top, it locates to supply membrane device 500 the place ahead of rubber coating device 400, protection film pad pasting device 600 locates banding conveyor 300's front end.

The film supply apparatus 500 includes: a fixed film guide roller 511, a movable film guide roller 512, a film guide driving unit 513 and two film placing assemblies 520.

The two membrane modules 520 are arranged in tandem. The film placing assembly 520 comprises a film placing roller 521 and a film placing driving unit 522. The film releasing roll shaft 521 is rotatably connected with the frame 100, and the rotation axis of the film releasing roll shaft 521 is arranged along the left-right direction. The film placing driving unit 522 is provided with a film placing driving end which is in transmission connection with the film placing roller shaft 521 and enables the film placing roller shaft 521 to rotate around the axis of the film placing driving end.

Fixed film guide roller 511 and activity film guide roller 512 are the front and back setting and locate two put the below between the membrane module 520, fixed film guide roller 511 with frame 100 rotates and is connected, activity film guide roller 512 slides along the fore-and-aft direction and locates fixed film guide roller 511's the place ahead. The film guide driving unit 513 is provided with a film guide driving end which is in transmission connection with the movable film guide roller 512 and enables the movable film guide roller 512 to move back and forth relative to the fixed film guide roller 511.

The glue spreading device 400 includes: a film supporting assembly 410, a glue applying assembly 420 and a glue applying driving unit 430.

The film supporting component 410 includes two film supporting rods 411 arranged up and down. The two membrane supporting rods 411 extend along the left-right direction and are fixedly connected with the machine frame 100. The glue spreading component 420 is slidably disposed behind the film supporting component 410 along the front-back direction.

The gluing assembly 420 comprises a gluing seat 421 and two width adjusting members 422. The gluing base 421 is internally provided with a gluing cavity, and the front end of the gluing base 421 is provided with a glue outlet seam which is communicated with the gluing cavity and extends along the left-right direction. On the projection plane perpendicular to the front-back direction, the glue outlet seam is arranged between the two membrane supporting rods 411. The two width adjusting pieces 422 are slidably inserted into the left end and the right end of the gluing base 421, and opposite ends of the two width adjusting pieces 422 are adjustably inserted into the gluing cavity. The middle part of the gluing base 421 is provided with a glue inlet communicated with the gluing cavity. The left end and the right end of the gluing seat 421 are both provided with width adjusting screws extending along the left direction and the right direction, and the width adjusting pieces 422 are respectively in threaded connection with the two width adjusting screws.

The gluing driving unit 430 is provided with a gluing driving end which is in transmission connection with the gluing component 420 and enables the gluing component 420 to move back and forth relative to the film supporting component 410.

In other embodiments, the decorative film is pre-coated with hot melt adhesive, and the adhesive coating device 400 adopts another technical solution as follows: the gluing assembly 420 comprises a gluing base 421 and a gluing scraper, the gluing scraper extends in the left-right direction, the gluing scraper is arranged at the front end of the gluing base 421, the gluing base 421 is slidably mounted on the frame 100 in the front-back direction, and the gluing driving unit 430 is used for driving the gluing assembly 420 to move back and forth relative to the film supporting assembly 410. The upper part of the film supporting component 410 is also provided with a heating lamp component which is provided with a heating lamp used for irradiating and heating the decorative film. The hot melt adhesive precoated on the decorative film is heated through the heating lamp assembly, so that the hot melt adhesive is melted; the gluing driving unit 430 can drive the gluing component 420 to move back and forth, so that the gluing blade on the gluing base 421 can be pushed forward against the decorative film between the two film supporting rods 411, and the coating of the hot melt adhesive on the decorative film is uniform and smooth.

The film pressing device 200 comprises: a conveying roller 220, a film pressing roller 210, a lifting frame body 230, a film pressing lifting driving unit 240 and a conveying driving unit 250.

The feed roller 220 is rotatably mounted to the frame 100. The conveyance driving unit 250 is drivingly connected to the conveyance roller 220. The squeeze film roller 210 is rotatably installed on the elevator body 230, and the elevator body 230 is slidably installed on the frame 100 in the up-down direction. The film pressing lifting driving unit 240 is provided with a film pressing lifting driving end which is in transmission connection with the lifting frame body 230 and enables the lifting frame body 230 to move up and down relative to the conveying roller 220.

In order to press the squeeze film roller 210 downward, the squeeze film lifting driving unit 240 in this embodiment is an air cylinder. In other embodiments, the squeeze film lifting driving unit 240 may employ a linear driving member such as a hydraulic cylinder, an electric push rod, a hydraulic push rod, or a screw nut driving assembly.

In order to adjust the up-and-down movement range of the film pressing roller 210 to adapt to the wrapping of the boards with different thickness sizes, in some embodiments, the film pressing device 200 is further provided with a lifting adjusting assembly 260. The lifting adjusting component 260 is provided with a lifting adjusting driving end which is in transmission connection with the film pressing lifting driving unit 240 and enables the film pressing lifting driving unit 240 to move along the up-down direction. The lifting adjusting assembly 260 comprises a lifting speed reducer, the lifting speed reducer is provided with a lifting screw installed along the upper direction and the lower direction, the lifting screw is connected with the film pressing lifting driving unit 240, the lifting speed reducer is further provided with a rotating handle connected with the lifting screw in a transmission mode, and the rotating handle can drive the lifting screw to rotate, so that the position of the lifting screw in the upper direction and the lower direction is changed.

The conveying roller 220, the film pressing roller 210, the lifting frame body 230, the film pressing lifting driving unit 240 and the lifting adjusting assembly 260 which are arranged in a one-to-one correspondence manner are taken as a film pressing unit. The film pressing units are arranged in the front-back direction, and the conveying rollers 220 of the film pressing units are mutually and synchronously connected.

The banding conveyor 300 includes a conveyor assembly 310 and a banding assembly 320. The conveyor assembly 310 has a conveying surface for conveying foreign material, the conveying surface extending in a front-to-rear direction. The banding subassembly 320 has two, two the banding subassembly 320 is located in opposite directions the left and right sides of conveyor assembly 310, the banding subassembly 320 is equipped with a plurality of banding pinch rollers 321 of arranging the setting along the fore-and-aft direction.

The two edge sealing assemblies 320 are slidably mounted on the frame 100 in the left-right direction. The rotation axis of the sealing pressing wheel 321 is perpendicular to the front and back direction, and the sealing pressing wheel 321 is adjustable at the left and right sides of the conveying assembly 310.

A width adjusting component 110 is arranged below the edge sealing conveying device 300. The width adjustment assembly 110 includes a first adjustment screw 111 and a second adjustment screw 112 with opposite screw threads, and a first nut connecting seat and a second nut connecting seat respectively connected with the first adjustment screw 111 and the second adjustment screw 112 by screw threads. The first adjusting screw 111 and the second adjusting screw 112 are rotatably mounted on the frame 100 and are in synchronous transmission connection with each other. The first nut connecting seat and the second nut connecting seat are in transmission connection with the two edge sealing assemblies 320 respectively.

The edge sealing assembly 320 further includes a base plate, a plurality of adjusting rods, and a plurality of fixing rods disposed in an up-and-down direction. The base plate is slidably mounted to the frame 100 in the left-right direction. The first nut connecting seat or the second nut connecting seat is in transmission connection with the bottom plate. The fixing rods are arranged and installed on the bottom plate along the front-back direction. The end of the adjusting rod is rotatably provided with the edge sealing pinch roller 321.

The adjusting rod is adjustably arranged on the fixing rod through a connecting block. The adjusting rod and the fixing rod are both in a shape of a long strip cylinder. The connecting block is provided with two mutually perpendicular mounting holes. The adjusting rod and the fixed rod are respectively arranged in the two mounting holes in a penetrating mode. The mounting hole is provided with a locking groove, and two sides of the locking groove are respectively provided with a screw mounting hole and a screw hole which correspond to each other. The screw mounting holes and the screw holes can be locked through screws, so that the adjusting rods or the fixing rods in the mounting holes are locked and fixed. The edge sealing pinch roller 321 can be adjusted freely relative to the installation angle of the fixing rod through the connecting blocks.

The upper side of the conveying component 310 is also adjustably provided with a plurality of conveying pressing wheels 120, and the rotating axial directions of the conveying pressing wheels 120 are arranged along the left-right direction. The plurality of conveying rollers 120 are arranged in the front-rear direction. The mounting structure of the conveying roller 120 can be implemented by referring to the above-mentioned embodiment of the edge sealing roller 321, and will not be described in detail herein.

In some embodiments, the edge sealing rollers 321 of the edge sealing assembly 320 are arranged in a front-back direction, and the rotation axes of the edge sealing rollers 321 gradually incline from horizontal to vertical from back to front. The rolling surface of the edge sealing pinch roller 321 is parallel to the rotation axis of the edge sealing pinch roller 321, and the decorative films on the left side and the right side of the plate are downwards folded and attached to two side faces of the plate in the forward conveying process of the plate through the edge sealing pinch roller 321 which gradually overturns towards the vertical direction.

In some embodiments, there are multiple width adjustment assemblies 110. The first adjusting screw 111 and the second adjusting screw 112 are coaxially arranged and synchronously connected with each other through a transmission case, and the transmission cases of the plurality of width adjusting assemblies 110 are synchronously connected with each other in a transmission manner. The transmission case can adopt transmission modes such as gear transmission, chain transmission, belt transmission or worm and gear transmission.

In this embodiment, the conveying assemblies 310 are two chain and sprocket assemblies symmetrically arranged left and right. And a synchronizing shaft is arranged between the two chain and sprocket assemblies, and the two chain and sprocket assemblies are mutually and synchronously connected through the synchronizing shaft. The two chain and chain wheel assemblies are respectively connected with the two edge sealing assemblies 320, and the two chain and chain wheel assemblies respectively move along with the two edge sealing assemblies 320 in the left-right direction.

And a supporting wheel set is also arranged between the two chain and sprocket assemblies. The supporting wheel set is installed on the frame 100, and the supporting wheel set includes a plurality of supporting rollers arranged in a front-rear direction. The supporting rollers are axially arranged along the left and right directions, so that a supporting surface is formed on the upper side of the supporting wheel set. The support surface is flush with the conveyor assembly 310.

The protective film pasting device 600 includes: a protective film unwinding roller 610, a protective film unwinding drive unit 620, and a protective film pressing roller 630. The protective film unwinding roller 610 and the protective film pressing roller 630 are arranged in the left-right direction along the axial direction. The protective film pressing roller 630 is provided above the downstream end of the conveying surface. The left end and the right end of the protective film pressing roller 630 are mounted on the frame 100 in an up-down direction. Protection film unreeling roller 610 is located the front side of protection film compression roller 630, protection film unreel drive unit 620 with protection film unreeling roller 610 drive is connected.

In consideration of convenience in controlling the speed and accuracy of the conveyance, the film unwinding driving unit 522, the conveyance driving unit 250, and the protective film unwinding driving unit 620 in the present embodiment all employ servo motors. In other embodiments, the film unwinding driving unit 522, the conveying driving unit 250, and the protective film unwinding driving unit 620 may respectively employ a stepping motor or a pneumatic motor.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. A novel cladding machine is characterized in that: the method comprises the following steps: the film squeezing device comprises a rack (100), and a film squeezing device (200) and a sealing edge conveying device (300) which are arranged on the rack (100);

the film pressing device (200) and the edge sealing conveying device (300) are arranged in front and back;

the film pressing device (200) comprises a film pressing roller (210) and a conveying roller (220), the film pressing roller (210) is arranged above the conveying roller (220) and is abutted against the conveying roller (220) downwards, and the axial directions of the film pressing roller (210) and the conveying roller (220) are arranged along the left-right direction;

the edge sealing conveying device (300) comprises a conveying assembly (310) and an edge sealing assembly (320); the conveying assembly (310) is provided with a conveying surface for conveying the foreign materials, and the conveying surface extends along the front-back direction; banding subassembly (320) have two, two banding subassembly (320) are located in opposite directions the left and right sides of conveying component (310), banding subassembly (320) are equipped with a plurality of banding pinch rollers (321) of arranging the setting along the fore-and-aft direction.

2. The novel cladding machine as claimed in claim 1, wherein: the novel coating machine further comprises a gluing device (400); rubber coating device (400) are located press mold device (200)'s top, rubber coating device (400) include: a film supporting component (410), a gluing component (420) and a gluing driving unit (430);

the film supporting component (410) comprises two film supporting rods (411) which are arranged up and down, the two film supporting rods (411) extend along the left-right direction and are fixedly connected with the rack (100), the gluing component (420) is arranged behind the film supporting component (410) in a sliding mode along the front-back direction, and the gluing driving unit (430) is provided with a gluing driving end which is in transmission connection with the gluing component (420) and enables the gluing component (420) to move back and forth relative to the film supporting component (410);

the gluing assembly (420) comprises a gluing seat (421) and two width adjusting pieces (422), a gluing cavity is arranged in the gluing seat (421), a gluing seam is arranged at the front end of the gluing seat (421), the gluing seam is communicated with the gluing cavity and extends in the left-right direction, the width adjusting pieces (422) are slidably inserted at the left end and the right end of the gluing seat (421), opposite end portions of the width adjusting pieces (422) are adjustably inserted into the gluing cavity and the gluing seam, and a glue inlet communicated with the gluing cavity is formed in the middle of the gluing seat (421).

3. The novel cladding machine as claimed in claim 2, wherein: the novel coating machine also comprises a film supply device (500); the film supply device (500) is arranged in front of the gluing device (400), and the film supply device (500) comprises: a membrane guiding assembly (510) and two membrane releasing assemblies (520); the two film placing assemblies (520) are arranged in a front-back mode, and the film guiding assembly (510) is arranged below the space between the two film placing assemblies (520);

the film guide assembly (510) comprises: a fixed film guide roller (511), a movable film guide roller (512) and a film guide driving unit (513); the fixed film guide roller (511) is rotatably connected with the rack (100), the movable film guide roller (512) is arranged in front of the fixed film guide roller (511) in a sliding manner along the front-back direction, and the film guide driving unit (513) is provided with a film guide driving end which is in transmission connection with the movable film guide roller (512) and enables the movable film guide roller (512) to move back and forth relative to the fixed film guide roller (511);

put membrane subassembly (520) including putting membrane roller (521) and putting membrane drive unit (522), put membrane roller (521) with frame (100) rotate and be connected, put membrane drive unit (522) with put membrane roller (521) drive connection.

4. The novel cladding machine as claimed in claim 1, wherein: the film laminating device (200) further comprises a lifting frame body (230), a film laminating lifting driving unit (240) and a conveying driving unit (250); the conveying roller (220) is rotatably arranged on the rack (100), and the conveying driving unit (250) is in driving connection with the conveying roller (220); film pressing roller (210) rotate install in lifting frame body (230), lifting frame body (230) along upper and lower direction slidable mounting in frame (100), film pressing lift drive unit (240) be equipped with lifting frame body (230) transmission is connected, and make lifting frame body (230) are relative the film pressing lift drive end that conveying roller (220) reciprocated.

5. The novel cladding machine as claimed in claim 4, wherein: film pressing device (200) still are equipped with lift adjustment subassembly (260), lift adjustment subassembly (260) be equipped with film pressing lift drive unit (240) transmission is connected, and makes film pressing lift drive unit (240) move along the lift adjustment drive end of upper and lower direction.

6. The novel cladding machine as claimed in claim 5, wherein: with the one-to-one setting conveying roller (220), press mold roller (210), lifting frame body (230), press mold lift drive unit (240) and lift adjusting part (260) are a press mold unit, the press mold unit has a plurality ofly, and is a plurality of the press mold unit is arranged along the fore-and-aft direction and is set up, and is a plurality of press mold unit's conveying roller (220) mutual synchronization is connected.

7. The novel cladding machine as claimed in claim 1, wherein: two banding subassembly (320) all along left right direction adjustable install in frame (100), the rotation axial perpendicular to fore-and-aft direction of banding pinch roller (321), banding pinch roller (321) adjustable set up in the left and right sides of conveyor components (310).

8. The novel cladding machine as claimed in claim 7, wherein: frame (100) is equipped with width adjustment subassembly (110), width adjustment subassembly (110) include that the screw thread revolves to opposite first accommodate the lead screw (111) and second accommodate the lead screw (112), and respectively with first accommodate the lead screw (111), second accommodate the lead screw (112) threaded connection's first nut connecting seat and second nut connecting seat, first accommodate the lead screw (111) and second accommodate the lead screw (112) rotate install in frame (100) and synchronous transmission each other connect, two banding subassembly (320) all follow left right direction slidable mounting in frame (100), first nut connecting seat and second nut connecting seat respectively with two banding subassembly (320) transmission is connected.

9. The novel cladding machine as claimed in claim 1, wherein: the upper side of the conveying assembly (310) is also adjustably provided with a plurality of conveying pressing wheels (120), and the rotating axial directions of the conveying pressing wheels (120) are arranged along the left-right direction.

10. The novel cladding machine as claimed in claim 1, wherein: novel cladding machine still includes protection film pad pasting device (600), protection film pad pasting device (600) include: protective film unreels roller (610), protective film and unreels drive unit (620) and protective film compression roller (630), the axial that roller (610) and protective film compression roller (630) were unreeled to the protective film all sets up along left right direction, protective film compression roller (630) are located the downstream end top of conveying surface and with frame (100) are along upper and lower adjustable connection, protective film unreels roller (610) and locates the front side of protective film compression roller (630), protective film unreel drive unit (620) with roller (610) drive connection is unreeled to the protective film.

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