CN119636096A - A processing device for skin-feeling super-matte wear-resistant PET decorative plate - Google Patents

Abstract

The invention discloses a skin-feel ultra-dumb wear-resistant PET decorative plate processing device, which belongs to the technical field of decorative plate processing and comprises a conveying device, wherein the conveying device is used for heating, gluing and laminating decorative plates, a feeding device and a cutting device are arranged on the conveying device, the feeding device is used for continuously placing the decorative plates on the conveying device, the cutting device is used for cutting the decorative plates with laminated films, the feeding device can realize full-automatic continuous feeding of the decorative plates with different thicknesses, meanwhile, the fed decorative plates are subjected to full-automatic polishing, gluing before lamination is convenient to follow-up, the conveying device can automatically glue and laminate the polished decorative plates, then the PET film is firmly pressed on the decorative plates, and finally the decorative plates with laminated films are cut into specified sizes through the cutting device, so that the automatic degree is high, and the continuity is good.

Description

Ultra-dumb wear-resisting PET decorative board processingequipment is felt to skin

Technical Field

The invention relates to the technical field of decorative plate processing, in particular to a skin-feel ultra-dumb wear-resistant PET decorative plate processing device.

Background

The ultra-dumb wear-resistant PET decorative board is a novel decorative material and is commonly used for decoration of wall surfaces, furniture surfaces and the like in home, office space and commercial environments. It combines the skin-like feel with the visual effect of ultra-matte, has very good abrasion resistance and scratch resistance, and thus has a long service life in daily use. The skin feel means that the surface of the decorative plate is very smooth, the touch feeling is similar to skin, and the hand feeling is soft and fine. The surface treatment makes the board feel like leather or high-grade coating, and has extremely high texture. The surface of the ultra-matt PET decorative board has no luster, presents a low-tuning and elegant matt effect, can effectively reduce reflection, and is suitable for modern simple-style decoration. The skin-feel ultra-dumb wear-resistant PET decorative board processing device in the prior art generally cannot realize full-automatic film coating of the outer PET film, and preparation work before film coating of the PET film cannot be automatically carried out, continuous film coating cannot be realized at the same time, and the degree of automation is insufficient.

Disclosure of Invention

The technical scheme includes that the skin-feel ultra-dumb abrasion-resistant PET decorative plate processing device comprises a conveying device, wherein the conveying device comprises a frame body, the conveying device is used for heating, gluing and laminating the decorative plate, a feeding device and a cutting device are arranged on the conveying device, the feeding device comprises a front conveying motor, the front conveying motor is fixedly arranged on the frame body, the feeding device is used for continuously placing the decorative plate on the conveying device, the cutting device comprises a cutting motor, the cutting motor is fixedly arranged on the frame body, and the cutting device is used for cutting the decorative plate with the laminated film;

the conveying device comprises a film roll and a film sticking rotating frame, wherein the film sticking rotating frame is rotatably arranged with a frame body, three guide rollers are rotatably arranged on the film sticking rotating frame, the PET film on the film roll bypasses the uppermost guide roller at first, and then is pulled out from the lower ends of the two guide rollers at the lower end;

The feeding device comprises a pushing block and four placing plates, wherein limiting plates are slidably arranged on the two placing plates above the front conveying motor, an adjusting mechanism is arranged on the placing plates, the height of the limiting plates is adjusted through the adjusting mechanism, the pushing block is rotatably provided with a pushing triangular block, and a polishing mechanism is arranged on the frame body.

Further, the conveying device further comprises a plurality of conveying rollers rotatably mounted on a frame body, a heating box is fixedly mounted on the frame body, a heating pipe is arranged in the heating box, a film roll frame is fixedly mounted on the frame body, a film roll is rotatably mounted on the film roll frame, a limiting frame is fixedly mounted on the frame body, a conveying motor is fixedly mounted on the frame body, a driving wheel is arranged on a motor shaft of the conveying motor, an inclined driving belt is wound outside the conveying rollers and the driving wheel above the conveying motor, a conveying belt is wound outside the conveying rollers above the front conveying motor and the conveying rollers above the conveying motor, and a pushing plate block is fixedly mounted on the conveying belt.

Further, a glue box is fixedly arranged on the frame body, glue is filled in the glue box, a glue inlet pipe is fixedly arranged on the glue box, a glue coating sponge roller is rotatably arranged below the glue box, the glue coating sponge roller is communicated with the glue inlet pipe, and the glue enters the glue coating sponge roller from the glue box.

Further, a plurality of pressing frames are fixedly arranged on the frame body, pressing sliding frames are slidably arranged on the pressing frames, pressing rollers are rotatably arranged on the pressing sliding frames, and pressing springs are arranged between the pressing sliding frames and the pressing frames.

The conveying motor rotates to drive the conveying roller through the inclined driving belt to rotate, thereby drive the conveying belt to rotate, promote the decorative board that is released from loading attachment through the push pedal piece and advance, the conveying roller provides the support for the removal of decorative board, the decorative board is at first entered into the heating cabinet and is heated, be convenient for tectorial membrane, the decorative board reaches rubber coating sponge roller below afterwards, the decorative board promotes rubber coating sponge roller and rotates, the decorative board is evenly smeared to the decorative board surface in the rubber coating sponge roller, the decorative board reaches the pad pasting revolving rack below afterwards, under the dehumidification state, the height of the guide roller of lowermost is less than the upper surface of decorative board, after the decorative board contacts with the PET membrane of guide roller below, the decorative board will guide roller and membrane jack-up, the pad pasting revolving rack rotates, the PET membrane laminating is on the decorative board after the rubber coating, afterwards, the decorative board carries the PET membrane together to advance, the membrane rolls up and the decorative board that has laminated the PET membrane reaches the laminating roller below, the laminating spring makes laminating roller and PET membrane compress tightly, make the PET membrane hug on the decorative board, then decorative board and PET membrane reach side cutting frame side.

Further, the feeding device further comprises a motor wheel fixedly arranged on a motor shaft of the front conveying motor, two bidirectional screw rods are rotatably arranged on the frame body, screw rod wheels are fixedly arranged on the bidirectional screw rods, a transmission belt is wound outside the motor wheel and the two screw rod wheels, and decorative plates are stacked in the four placement plates.

Further, an internal thread sleeve is fixedly arranged below the push-out block, an internal thread is arranged in the internal thread sleeve, the internal thread sleeve and the bidirectional screw rod form threaded transmission, a torsion spring is arranged between the push-out block and the push-out triangular block, a sliding rod is fixedly arranged on the frame body, and the internal thread sleeve and the sliding rod are in sliding installation.

Further, the adjusting mechanism comprises an adjusting motor fixedly installed on the placing plate, a worm is fixedly installed on a motor shaft of the adjusting motor, a turbine shaft is rotatably installed on the placing plate, a turbine and an upper bevel gear are fixedly installed on the turbine shaft, the turbine is meshed with the worm, an adjusting screw is rotatably installed on the placing plate, a butt-joint bevel gear is fixedly installed on the adjusting screw, the butt-joint bevel gear is meshed with the upper bevel gear, and a limiting plate and the adjusting screw form threaded transmission.

Further, the polishing mechanism comprises a polishing motor fixedly installed on a frame body, an output wheel is fixedly installed on a motor shaft of the polishing motor, a fixed side column is rotatably installed on the frame body, an inner wheel is fixedly installed on the fixed side column, a bevel gear is slidably installed on the fixed side column, a piece of spring piece is rotatably installed on the bevel gear, a piece of spring piece is rotatably installed on the inner wheel, a telescopic spring is arranged between the two spring pieces, an output belt is wound outside the inner wheel and the output wheel, an extrapolation triangular block is slidably installed on the frame body, an extrapolation spring is arranged between the extrapolation triangular block and the frame body, a fixing frame is fixedly installed on the frame body, a rotating rod is rotatably installed on the fixing frame, a pressing rod is fixedly installed on the rotating rod, a side frame is fixedly installed on the frame, a polishing wheel is rotatably installed on the polishing frame, a side bevel gear is fixedly installed on the polishing wheel, and the side bevel gear is meshed with the bevel gear.

The front conveying motor rotates to drive the motor wheel to rotate, the two screw rod wheels and the bidirectional screw rod are driven to rotate through the transmission belt, so that the two inner thread sleeves and the pushing-out blocks are driven to slide towards the direction of the side frame, the bottommost decorative plate is pushed out through the pushing-out triangular blocks, at the moment, the pushing-out triangular blocks cannot rotate clockwise relative to the pushing-out blocks, the decorative plate is pushed to the lower side of the polishing wheel through the pushing-out triangular blocks, at the moment, the pushing-out triangular blocks are pushed to move outwards, the pushing-out springs are compressed, at the moment, the pushing-out triangular blocks push the rotary rod to rotate, the lower pressure rod presses the polishing frame and the polishing wheel downwards, the lower pulling-out springs are stretched, the polishing wheel is attached to the upper surface of the decorative plate, the polishing motor rotates to drive the inner wheel, the fixed side bevel gear and the right bevel gear to rotate through the output belt, the side bevel gear and the polishing wheel are driven to polish the surface of the decorative plate, follow-up glue brushing is facilitated, the right bevel gear is always kept meshed with the side bevel gear, and the decorative plate is then put into the heating box.

When the pushing triangular block and the pushing triangular block push away the decorating plate at the lowest layer, at the moment, the upper decorating plate falls onto the conveying roller, and then the pushing triangular block slides towards the direction away from the side frame, the pushing triangular block cannot push the decorating plate in the placing plate, the pushing triangular block can rotate relative to the pushing triangular block, the torsion spring is twisted, and when the pushing triangular block and the pushing triangular block return to the initial positions, the torsion spring rebounds, so that the pushing triangular block is reset to perform the next action, and the reciprocating is achieved.

When the height of the limiting plate needs to be adjusted, the adjusting motor rotates to drive the worm to rotate, so that the turbine, the turbine shaft and the upper bevel gear are driven to rotate, the butt-joint bevel gear and the adjusting screw rod are driven to rotate, and the limiting plate is driven to slide up and down to adapt to decorative plates with different thicknesses.

Further, the cutting device comprises two output bevel gears fixedly arranged on a motor shaft of the cutting motor, two side screw rod frames are fixedly arranged on the frame body, a transverse bidirectional screw rod is rotatably arranged on the side screw rod frames, a screw rod bevel gear is fixedly arranged on the transverse bidirectional screw rod, the screw rod bevel gear is meshed with the output bevel gear, a transverse rail is fixedly arranged on the side screw rod frames, an internal thread sliding sleeve is slidably arranged on the transverse rail, the internal thread sliding sleeve and the transverse bidirectional screw rod form thread transmission, and a cutter is fixedly arranged on the internal thread sliding sleeve.

Further, two side cutting frames are fixedly arranged on the frame body, side cutting motors are fixedly arranged on the side cutting frames, motor output wheels are fixedly arranged on motor shafts of the side cutting motors, sliding frames are fixedly arranged on the side cutting frames, transmission shafts are rotatably arranged on the sliding frames, an upper transmission wheel and a lower transmission wheel are fixedly arranged on the transmission shafts, an upper transmission belt is wound outside the upper transmission wheel and the motor output wheels, cutting lines are rotatably arranged on the side cutting frames and the sliding frames, an outer transmission wheel is fixedly arranged on the cutting lines, and cutting transmission belts are wound outside the outer transmission wheels and the lower transmission wheels.

The side cutting motor rotates to drive the motor output wheel to rotate, drives the upper driving wheel, the driving shaft and the lower driving wheel to rotate through the upper driving belt, drives the outer driving wheel and the cutting line to rotate at a high speed through the cutting driving belt, cuts two sides of the decorative board on which the PET film is attached through the cutting line, and drives the output bevel gear to rotate when the decorative board reaches the lower part of the transverse bidirectional screw rod, so that the screw rod bevel gear and the transverse bidirectional screw rod are driven to rotate, and the internal thread sliding sleeve and the cutter are driven to slide back and forth along the transverse rail, the front end and the rear end of the decorative board are cut, and the decorative board after the subsequent film coating is completed pushes away the decorative board after the cutting.

Compared with the prior art, the feeding device has the advantages that (1) the feeding device can realize full-automatic continuous feeding of decorative plates with different thicknesses, meanwhile, the fed decorative plates can be polished fully automatically, glue spreading before film coating is convenient to follow-up, the conveying device can conduct automatic glue spreading and film coating on the polished decorative plates, then the PET film is firmly pressed on the decorative plates, finally, the decorative plates with the film coating are cut into specified sizes through the cutting device, the degree of automation is high, the continuity is good, and (3) the cutting device can cut the coated decorative plates in the front-back direction and the left-right direction, can cut the decorative plates into specified sizes, and is convenient for follow-up processing.

Drawings

Fig. 1 is a schematic view of the whole structure of the present invention (first view angle).

Fig. 2 is a schematic diagram of the overall structure of the present invention (second view angle).

Fig. 3 is a schematic structural view of a conveying device according to the present invention.

Fig. 4 is a schematic structural diagram of a conveying device according to the present invention.

Fig. 5 is a schematic diagram of a conveying device according to the third embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a feeding device according to the present invention.

Fig. 7 is a schematic structural diagram of a feeding device according to the second embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a feeding device according to the present invention.

Fig. 9 is a schematic structural diagram of a feeding device according to the present invention.

Fig. 10 is a schematic structural diagram of a feeding device according to the present invention.

Fig. 11 is a schematic structural diagram of a feeding device according to the present invention.

Fig. 12 is a schematic view of a partial structure at a in fig. 11.

Fig. 13 is a schematic structural view of a cutting device according to the present invention.

Fig. 14 is a schematic view of a partial structure at B in fig. 13.

Reference numeral 101-frame body; 102-heating box, 103-capsule, 104-rubber inlet tube, 105-rubber coating sponge roller, 106-conveying roller, 107-conveying motor, 108-oblique driving belt, 109-pressing frame, 110-pressing carriage, 111-pressing spring, 112-pressing roller, 113-film pasting rotary frame, 114-film rolling frame, 115-film rolling, 116-PET film, 117-limiting frame, 118-guiding roller, 119-conveying belt, 120-pushing plate, 201-front conveying motor, 202-motor wheel, 203-driving belt, 204-bidirectional screw rod, 205-screw rod wheel, 206-sliding rod, 207-pushing block, 208-pushing triangular block, 209-torsion spring, 210-internal thread sleeve, 211-placing plate, 212-adjusting motor, 213-worm, 214-turbine shaft, 215-turbine, 216-upper bevel gear, 217-adjusting screw rod, 218-butt bevel gear, 219-limiting plate, 220-side frame, 221-polishing motor, 222-output wheel, 223-output belt, 224-inner wheel, 225-304-fixed side column, 227-spring rod, 227-pushing block, 208-pushing triangular block, 209-torsion spring, 210-internal thread sleeve, 211-placing plate, 212-adjusting motor, 213-worm gear, 213-side bevel gear, 220-side bevel gear, and 35-hanging frame, and cutting bevel gear, and 35-rotating frame The device comprises a sliding sleeve with internal threads, 307-cutters, 308-side cutting frames, 309-carriages, 310-side cutting motors, 311-motor output wheels, 312-upper driving belts, 313-upper driving wheels, 314-driving shafts, 315-lower driving wheels, 316-cutting driving belts, 317-outer driving wheels, 318-cutting lines, 319-transverse rails and 4-decorative plates.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Referring to fig. 1-14, a skin-feel ultra-dummy wear-resistant PET decorative board processing device comprises a conveying device, wherein the conveying device comprises a frame body 101, the conveying device is used for heating, gluing and laminating a decorative board 4, a feeding device and a cutting device are arranged on the conveying device, the feeding device comprises a front conveying motor 201, the front conveying motor 201 is fixedly arranged on the frame body 101, the feeding device is used for continuously placing the decorative board 4 on the conveying device, the cutting device comprises a cutting motor 301, the cutting motor 301 is fixedly arranged on the frame body 101, and the cutting device is used for cutting the decorative board 4 with the laminated film;

The conveying device comprises a film roll 115 and a film pasting rotary frame 113, the film pasting rotary frame 113 is rotatably arranged with the frame body 101, three guide rollers 118 are rotatably arranged on the film pasting rotary frame 113, the PET film 116 on the film roll 115 firstly bypasses the uppermost guide roller 118, and then is pulled out from the lower ends of the two guide rollers 118 at the lower end;

The feeding device comprises a push-out block 207 and four placing plates 211, wherein limiting plates 219 are slidably arranged on the two placing plates 211 above the front conveying motor 201, an adjusting mechanism is arranged on the placing plates 211, the height of the limiting plates 219 is adjusted through the adjusting mechanism, a push-out triangular block 208 is rotatably arranged on the push-out block 207, and a polishing mechanism is arranged on the frame body 101.

As shown in fig. 3-5, the conveying device further includes a plurality of conveying rollers 106 rotatably mounted on the frame 101, a heating box 102 is fixedly mounted on the frame 101, a heating pipe is disposed in the heating box 102, a film roll frame 114 is fixedly mounted on the frame 101, a film roll 115 is rotatably mounted on the film roll frame 114, a limit frame 117 is fixedly mounted on the frame 101, a conveying motor 107 is fixedly mounted on the frame 101, a driving wheel is disposed on a motor shaft of the conveying motor 107, an inclined driving belt 108 is wound outside the conveying rollers 106 and the driving wheel above the conveying motor 107, a conveying belt 119 is wound outside the conveying rollers 106 above the front conveying motor 201 and the conveying rollers 106 above the conveying motor 107, and a pushing plate 120 is fixedly mounted on the conveying belt 119.

As shown in fig. 3-5, a glue box 103 is fixedly installed on the frame 101, glue is filled in the glue box 103, a glue inlet pipe 104 is fixedly installed on the glue box 103, a glue coating sponge roller 105 is rotatably installed below the glue box 103, the glue coating sponge roller 105 is communicated with the glue inlet pipe 104, and the glue enters the glue coating sponge roller 105 from the glue box 103.

As shown in fig. 3-5, a plurality of pressing frames 109 are fixedly mounted on the frame 101, a pressing carriage 110 is slidably mounted on the pressing frames 109, a pressing roller 112 is rotatably mounted on the pressing carriage 110, and a pressing spring 111 is disposed between the pressing carriage 110 and the pressing frames 109.

The conveying motor 107 rotates to drive the conveying roller 106 to rotate through the inclined driving belt 108 so as to drive the conveying belt 119 to rotate, the conveying roller 106 pushes the decorative plate 4 pushed out of the feeding device to advance, the conveying roller 106 provides support for movement of the decorative plate 4, the decorative plate 4 firstly enters the heating box 102 to be heated so as to facilitate film coating, then the decorative plate 4 reaches the lower part of the gluing sponge roller 105, the decorative plate 4 pushes the gluing sponge roller 105 to rotate, glue in the gluing sponge roller 105 is uniformly smeared on the surface of the decorative plate 4, then the decorative plate 4 reaches the lower part of the laminating rotary frame 113, in a dehumidification state, the height of the lowest guide roller 118 is lower than the upper surface of the decorative plate 4, after the decorative plate 4 contacts with the PET film 116 below the guide roller 118, the decorative plate 4 jacks up the guide roller 118 and the film, the laminating rotary frame 113 rotates, the PET film 116 is attached to the PET film 4 after the gluing, then the decorative plate 4 advances together with the PET film 116, the film roll 115 rotates, the decorative plate 4 attached to the PET film 116 reaches the lower part of the laminating roller 112, the laminating spring 111 is pressed tightly with the film 116, and the decorative plate 116 is enabled to be tightly pressed on the upper surface of the decorative plate 4 and the PET film 116 side of the PET film 308.

As shown in fig. 6-12, the feeding device further comprises a motor wheel 202 fixedly mounted on a motor shaft of the front conveying motor 201, two bidirectional screw rods 204 are rotatably mounted on the frame 101, screw rod wheels 205 are fixedly mounted on the bidirectional screw rods 204, a transmission belt 203 is wound outside the motor wheel 202 and the two screw rod wheels 205, and decorative plates 4 are stacked in the four placement plates 211.

As shown in fig. 6-12, an internal thread sleeve 210 is fixedly installed below the push-out block 207, an internal thread is arranged in the internal thread sleeve 210, the internal thread sleeve 210 and the bidirectional screw rod 204 form a threaded transmission, a torsion spring 209 is arranged between the push-out block 207 and the push-out triangular block 208, a sliding rod 206 is fixedly installed on the frame body 101, and the internal thread sleeve 210 and the sliding rod 206 are slidably installed.

As shown in fig. 6 to 12, the adjusting mechanism includes an adjusting motor 212 fixedly installed on a placing plate 211, a worm 213 fixedly installed on a motor shaft of the adjusting motor 212, a turbine shaft 214 rotatably installed on the placing plate 211, a turbine 215 and an upper bevel gear 216 fixedly installed on the turbine shaft 214, the turbine 215 being engaged with the worm 213, an adjusting screw 217 rotatably installed on the placing plate 211, a docking bevel gear 218 fixedly installed on the adjusting screw 217, the docking bevel gear 218 being engaged with the upper bevel gear 216, and a limiting plate 219 forming a screw transmission with the adjusting screw 217.

As shown in fig. 6 to 12, the polishing mechanism includes a polishing motor 221 fixedly installed on a frame 101, an output wheel 222 fixedly installed on a motor shaft of the polishing motor 221, a fixed side post 226 rotatably installed on the frame 101, an inner wheel 224 fixedly installed on the fixed side post 226, a spur bevel gear 228 slidably installed on the fixed side post 226, a piece of spring piece 225 rotatably installed on the spur bevel gear 228, a piece of spring piece 225 rotatably installed on the inner wheel 224, a telescopic spring 227 provided between the two spring pieces 225, an output belt 223 wound around the inner wheel 224 and the output wheel 222, an outer triangular block 230 slidably installed on the frame 101, an outer triangular block 230 provided with an outer push spring 229 provided between the outer triangular block 230 and the frame 101, a fixed frame 231 fixedly installed on the frame 101, a rotating rod 232 rotatably installed on the fixed frame 231, a pressing rod 233 fixedly installed on the rotating rod 232, a side frame 220 fixedly installed on the frame 101, a polishing frame 235 slidably installed on the side frame 235, a pulling down spring 234 provided between the polishing frame 235 and the side frame 220, a polishing wheel 236 rotatably installed on the polishing frame 236, a side bevel gear 237 fixedly installed on the side bevel gear 236, and the spur bevel gear 228 meshed with the spur bevel gear 228.

The front conveying motor 201 rotates to drive the motor wheel 202 to rotate, the two screw rod wheels 205 and the bidirectional screw rod 204 are driven to rotate through the transmission belt 203, the two inner threaded sleeves 210 and the pushing block 207 are driven to slide towards the side frame 220, the lowest decorative plate 4 is pushed out through the pushing triangular block 208, at the moment, the pushing triangular block 208 cannot rotate clockwise relative to the pushing block 207, the decorative plate 4 is pushed to the lower side of the polishing wheel 236 through the pushing triangular block 208, at the moment, the decorative plate 4 pushes the pushing triangular block 230 to move outwards, the pushing spring 229 is compressed, at the moment, the pushing triangular block 230 pushes the rotating rod 232 to rotate, the pressing rod 233 rotates, the polishing frame 235 and the polishing wheel 236 are pressed downwards, the pulling spring 234 is stretched, the polishing wheel 236 is attached to the upper surface of the decorative plate 4, the polishing motor 221 rotates to drive the inner wheel 224, the fixed side bevel gear 226 and the positive bevel gear 236 to rotate through the output belt 223, the polishing wheel 236 polishes the surface of the decorative plate 4, the subsequent brushing is facilitated, the bevel gear 227 always keeps the positive bevel gear 228 and the side bevel gear 228 meshed with the bevel gear 102, and the subsequent heating box 102 is meshed with the bevel gear 4.

When the push-out triangular block 208 and the push-out block 207 push away the lowermost decorative plate 4, at this time, the upper decorative plate 4 falls down onto the conveying roller 106, and then the push-out block 207 slides in a direction away from the side frame 220, the push-out triangular block 208 cannot push the decorative plate 4 in the placement plate 211, the push-out triangular block 208 rotates relative to the push-out block 207, the torsion spring 209 is twisted, and when the push-out block 207 and the push-out triangular block 208 return to the initial positions, the torsion spring 209 rebounds, so that the push-out triangular block 208 is reset to perform the next action, and thus the reciprocation is performed.

When the height of the limiting plate 219 needs to be adjusted, the adjusting motor 212 rotates to drive the worm 213 to rotate, so as to drive the turbine 215, the turbine shaft 214 and the upper bevel gear 216 to rotate, so as to drive the abutting bevel gear 218 and the adjusting screw 217 to rotate, and further drive the limiting plate 219 to slide up and down, so that the decorative plate 4 with different thicknesses is adapted.

As shown in fig. 13 and 14, the cutting device comprises two output bevel gears 302 fixedly mounted on a motor shaft of a cutting motor 301, two side screw rod frames 303 are fixedly mounted on the frame body 101, a transverse bidirectional screw rod 304 is rotatably mounted on the side screw rod frames 303, a screw rod bevel gear 305 is fixedly mounted on the transverse bidirectional screw rod 304, the screw rod bevel gear 305 is meshed with the output bevel gear 302, a transverse rail 319 is fixedly mounted on the side screw rod frames 303, an internal thread sliding sleeve 306 is slidably mounted on the transverse rail 319, the internal thread sliding sleeve 306 and the transverse bidirectional screw rod 304 form thread transmission, and a cutter 307 is fixedly mounted on the internal thread sliding sleeve 306.

As shown in fig. 13 and 14, two side cutting frames 308 are fixedly mounted on the frame body 101, a side cutting motor 310 is fixedly mounted on the side cutting frames 308, a motor output wheel 311 is fixedly mounted on a motor shaft of the side cutting motor 310, a carriage 309 is fixedly mounted on the side cutting frames 308, a transmission shaft 314 is rotatably mounted on the carriage 309, an upper transmission wheel 313 and a lower transmission wheel 315 are fixedly mounted on the transmission shaft 314, an upper transmission belt 312 is wound outside the upper transmission wheel 313 and the motor output wheel 311, cutting lines 318 are rotatably mounted on the side cutting frames 308 and the carriage 309, an outer transmission wheel 317 is fixedly mounted on the cutting lines 318, and a cutting transmission belt 316 is wound outside the outer transmission wheel 317 and the lower transmission wheel 315.

The side cutting motor 310 rotates to drive the motor output wheel 311 to rotate, the upper driving wheel 313, the driving shaft 314 and the lower driving wheel 315 are driven to rotate through the upper driving belt 312, the outer driving wheel 317 and the cutting line 318 are driven to rotate at a high speed through the cutting driving belt 316, two sides of the decorative board 4 attached with the PET film 116 are cut through the cutting line 318, when the decorative board 4 reaches the lower part of the transverse bidirectional screw rod 304, the cutting motor 301 rotates to drive the output bevel gear 302 to rotate, thereby driving the screw rod bevel gear 305 and the transverse bidirectional screw rod 304 to rotate, and driving the inner thread sliding sleeve 306 and the cutter 307 to slide back and forth along the transverse rail 319, the front end and the rear end of the decorative board 4 are cut, and the decorative board 4 after the subsequent film coating is completed pushes away the cut decorative board 4.

The invention discloses a skin-feel ultra-dumb abrasion-resistant PET decorative plate processing device, which has the working principle that a front conveying motor 201 rotates to drive a motor wheel 202 to rotate, a transmission belt 203 drives two screw rods 205 and a bidirectional screw rod 204 to rotate, so that two internal thread sleeves 210 and a push-out block 207 are driven to slide towards the direction of a side frame 220, a decorative plate 4 at the lowest layer is pushed out through a push-out triangular block 208, at the moment, the push-out triangular block 208 cannot rotate clockwise relative to the push-out block 207, the decorative plate 4 is pushed below a polishing wheel 236 through the push-out triangular block 208, at the moment, the decorative plate 4 pushes the push-out triangular block 230 to move outwards, an push-out spring 229 is compressed, at the moment, the push-out triangular block 230 pushes a rotary rod 232 to rotate, so that a push-down rod 233 is driven to rotate, a polishing frame 235 and the polishing wheel 236 are pushed down by the push-down spring 234, so that the polishing wheel 236 is attached to the upper surface of the decorative plate 4, an output wheel 222 is driven to rotate by the rotation of the polishing motor 221, and an inner wheel 224 is driven by an output belt 223, the fixed side post 226 and the bevel gear 228 rotate, so that the side bevel gear 237 and the polishing wheel 236 are driven to rotate, the surface of the decorative plate 4 is polished through the polishing wheel 236, subsequent brushing is facilitated, the bevel gear 228 and the bevel gear 237 are always meshed through the telescopic spring 227, and then the decorative plate 4 enters the heating box 102. When the push-out triangular block 208 and the push-out block 207 push away the lowermost decorative plate 4, at this time, the upper decorative plate 4 falls down onto the conveying roller 106, and then the push-out block 207 slides in a direction away from the side frame 220, the push-out triangular block 208 cannot push the decorative plate 4 in the placement plate 211, the push-out triangular block 208 rotates relative to the push-out block 207, the torsion spring 209 is twisted, and when the push-out block 207 and the push-out triangular block 208 return to the initial positions, the torsion spring 209 rebounds, so that the push-out triangular block 208 is reset to perform the next action, and thus the reciprocation is performed. The conveying motor 107 rotates to drive the conveying roller 106 to rotate through the inclined driving belt 108 so as to drive the conveying belt 119 to rotate, the conveying roller 106 pushes the decorative plate 4 pushed out of the feeding device to advance, the conveying roller 106 provides support for movement of the decorative plate 4, the decorative plate 4 firstly enters the heating box 102 to be heated so as to facilitate film coating, then the decorative plate 4 reaches the lower part of the gluing sponge roller 105, the decorative plate 4 pushes the gluing sponge roller 105 to rotate, glue in the gluing sponge roller 105 is uniformly smeared on the surface of the decorative plate 4, then the decorative plate 4 reaches the lower part of the laminating rotary frame 113, in a dehumidification state, the height of the lowest guide roller 118 is lower than the upper surface of the decorative plate 4, after the decorative plate 4 contacts with the PET film 116 below the guide roller 118, the decorative plate 4 jacks up the guide roller 118 and the film, the laminating rotary frame 113 rotates, the PET film 116 is attached to the PET film 4 after the gluing, then the decorative plate 4 advances together with the PET film 116, the film roll 115 rotates, the decorative plate 4 attached to the PET film 116 reaches the lower part of the laminating roller 112, the laminating spring 111 is pressed tightly with the film 116, and the decorative plate 116 is enabled to be tightly pressed on the upper surface of the decorative plate 4 and the PET film 116 side of the PET film 308. The side cutting motor 310 rotates to drive the motor output wheel 311 to rotate, the upper driving wheel 313, the driving shaft 314 and the lower driving wheel 315 are driven to rotate by the upper driving belt 312, the outer driving wheel 317 and the cutting line 318 are driven to rotate at high speed by the cutting driving belt 316, two sides of the decorative board 4 attached with the PET film 116 are cut by the cutting line 318, when the decorative board 4 reaches the lower part of the transverse bidirectional screw rod 304, the cutting motor 301 rotates to drive the output bevel gear 302 to rotate, thereby driving the screw rod bevel gear 305 and the transverse bidirectional screw rod 304 to rotate, thereby driving the inner thread sliding sleeve 306 and the cutter 307 to slide back and forth along the transverse rail 319, and the front part of the decorative board 4 is processed, the rear end is cut, and the decorative board 4 with the film covered later pushes away the decorative board 4 with the cut.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the technical scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. The skin-feel ultra-dumb wear-resistant PET decorative plate processing device comprises a conveying device and is characterized by comprising a frame body (101), wherein the conveying device is used for heating, gluing and laminating decorative plates (4), a feeding device and a cutting device are arranged on the conveying device, the feeding device comprises a front conveying motor (201), the front conveying motor (201) is fixedly arranged on the frame body (101), the feeding device is used for continuously placing the decorative plates (4) on the conveying device, the cutting device comprises a cutting motor (301), the cutting motor (301) is fixedly arranged on the frame body (101), and the cutting device is used for cutting the decorative plates (4) with laminated films;

The conveying device comprises a film roll (115) and a film pasting rotary frame (113), wherein the film pasting rotary frame (113) is rotatably arranged with a frame body (101), three guide rollers (118) are rotatably arranged on the film pasting rotary frame (113), a PET film (116) on the film roll (115) firstly bypasses the uppermost guide roller (118), and then is pulled out from the lower ends of the two guide rollers (118) at the lower end;

The feeding device comprises a pushing block (207) and four placing plates (211), wherein limiting plates (219) are slidably arranged on the two placing plates (211) above the front conveying motor (201), adjusting mechanisms are arranged on the placing plates (211), the height of the limiting plates (219) is adjusted through the adjusting mechanisms, pushing triangular blocks (208) are rotatably arranged on the pushing block (207), and polishing mechanisms are arranged on the frame body (101).

2. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 1, further comprising a plurality of conveying rollers (106) rotatably mounted on a frame body (101), wherein a heating box (102) is fixedly mounted on the frame body (101), a heating pipe is arranged in the heating box (102), a film roll frame (114) is fixedly mounted on the frame body (101), a film roll (115) is rotatably mounted on the film roll frame (114), a limiting frame (117) is fixedly mounted on the frame body (101), a conveying motor (107) is fixedly mounted on the frame body (101), a driving wheel is arranged on a motor shaft of the conveying motor (107), an inclined driving belt (108) is wound outside the conveying rollers (106) and the driving wheel which are arranged above the conveying motor (107), a conveying belt (119) is wound outside the conveying rollers (106) which are arranged above the front conveying motor (201), and a pushing plate (120) is fixedly mounted on the conveying belt (119).

3. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 1, wherein a glue box (103) is fixedly arranged on the frame body (101), glue is filled in the glue box (103), a glue inlet pipe (104) is fixedly arranged on the glue box (103), a glue coating sponge roller (105) is rotatably arranged below the glue box (103), the glue coating sponge roller (105) is communicated with the glue inlet pipe (104), and the glue enters the glue coating sponge roller (105) from the glue box (103).

4. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 1, wherein a plurality of pressing frames (109) are fixedly arranged on the frame body (101), pressing sliding frames (110) are slidably arranged on the pressing frames (109), pressing rollers (112) are rotatably arranged on the pressing sliding frames (110), and pressing springs (111) are arranged between the pressing sliding frames (110) and the pressing frames (109).

5. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 1, wherein the feeding device further comprises a motor wheel (202) fixedly arranged on a motor shaft of a front conveying motor (201), two bidirectional screw rods (204) are rotatably arranged on the frame body (101), screw rod wheels (205) are fixedly arranged on the bidirectional screw rods (204), a transmission belt (203) is wound outside the motor wheel (202) and the two screw rod wheels (205), and decorative boards (4) are stacked in four placing plates (211).

6. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 5, wherein an inner thread sleeve (210) is fixedly arranged below the pushing-out block (207), an inner thread is arranged in the inner thread sleeve (210), the inner thread sleeve (210) and the bidirectional screw rod (204) form a thread transmission, a torsion spring (209) is arranged between the pushing-out block (207) and the pushing-out triangular block (208), a sliding rod (206) is fixedly arranged on the frame body (101), and the inner thread sleeve (210) and the sliding rod (206) are slidably arranged.

7. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 1, wherein the adjusting mechanism comprises an adjusting motor (212) fixedly installed on a placing plate (211), a worm (213) is fixedly installed on a motor shaft of the adjusting motor (212), a turbine shaft (214) is rotatably installed on the placing plate (211), a turbine (215) and an upper bevel gear (216) are fixedly installed on the turbine shaft (214), the turbine (215) is meshed with the worm (213), an adjusting screw (217) is rotatably installed on the placing plate (211), a butt bevel gear (218) is fixedly installed on the adjusting screw (217), the butt bevel gear (218) is meshed with the upper bevel gear (216), and a limiting plate (219) and the adjusting screw (217) form threaded transmission.

8. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 1, wherein the polishing mechanism comprises a polishing motor (221) fixedly mounted on a frame body (101), an output wheel (222) is fixedly mounted on a motor shaft of the polishing motor (221), a fixed side column (226) is rotatably mounted on the frame body (101), an inner wheel (224) is fixedly mounted on the fixed side column (226), a spur bevel gear (228) is slidably mounted on the fixed side column (226), a leaf spring (225) is rotatably mounted on the spur bevel gear (228), a leaf spring (225) is rotatably mounted on the inner wheel (224), an extension spring (227) is arranged between the two leaf springs (225), an output belt (223) is wound outside the inner wheel (224) and the output wheel (222), an extrapolation triangular block (230) is slidably mounted on the frame body (101), an extrapolation spring (229) is arranged between the extrapolation triangular block (230) and the frame body (101), a rotary rod fixing frame (231) is fixedly mounted on the frame body (101), a rotary rod (232) is rotatably mounted on the fixing frame (231), a rotary rod (225) is rotatably mounted on the fixing frame body (232), a rotary rod (220) is fixedly mounted on the frame body (220), a pull-down spring (234) is arranged between the polishing frame (235) and the side frame (220), a polishing wheel (236) is rotatably arranged on the polishing frame (235), a side bevel gear (237) is fixedly arranged on the polishing wheel (236), and the side bevel gear (237) is meshed with the spur bevel gear (228).

9. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 1, wherein the cutting device comprises two output bevel gears (302) fixedly installed on a motor shaft of a cutting motor (301), two side screw rod frames (303) are fixedly installed on a frame body (101), a transverse bidirectional screw rod (304) is rotatably installed on the side screw rod frames (303), screw rod bevel gears (305) are fixedly installed on the transverse bidirectional screw rod (304), the screw rod bevel gears (305) are meshed with the output bevel gears (302), transverse rails (319) are fixedly installed on the side screw rod frames (303), an internal thread sliding sleeve (306) is slidably installed on the transverse rails (319), the internal thread sliding sleeve (306) and the transverse bidirectional screw rod (304) form thread transmission, and a cutter (307) is fixedly installed on the internal thread sliding sleeve (306).

10. The skin-feel ultra-dummy wear-resistant PET decorative board processing device according to claim 9, wherein two side cutting frames (308) are fixedly arranged on the frame body (101), a side cutting motor (310) is fixedly arranged on the side cutting frames (308), a motor output wheel (311) is fixedly arranged on a motor shaft of the side cutting motor (310), a sliding frame (309) is fixedly arranged on the side cutting frames (308), a transmission shaft (314) is rotatably arranged on the sliding frame (309), an upper transmission wheel (313) and a lower transmission wheel (315) are fixedly arranged on the transmission shaft (314), an upper transmission belt (312) is wound outside the upper transmission wheel (313) and the motor output wheel (311), cutting lines (318) are rotatably arranged on the side cutting frames (308) and the sliding frame (309), an outer transmission wheel (317) is fixedly arranged on the cutting lines (318), and a cutting transmission belt (316) is wound outside the outer transmission wheel (317) and the lower transmission wheel (315).