CN110450423B

CN110450423B - Plastic plate hot-melting splicing equipment and splicing process

Info

Publication number: CN110450423B
Application number: CN201910691451.7A
Authority: CN
Inventors: 张劼
Original assignee: Anhui Runxiang New Material Technology Co ltd
Current assignee: Anhui Runxiang New Material Technology Co ltd
Priority date: 2019-07-29
Filing date: 2019-07-29
Publication date: 2021-07-09
Anticipated expiration: 2039-07-29
Also published as: CN110450423A

Abstract

The invention relates to the technical field of plastic plate splicing, in particular to a plastic plate hot melting splicing device and a splicing process, which comprise a fixed frame, a feeding device, a splicing device and a hot melting device, wherein the left end surface of the fixed frame is fixedly connected with a discharge box, the top end of the left end surface of the discharge box is provided with the feeding device, the bottom end of the left end surface of the discharge box is hinged with a box cover, the inner side of the discharge box is connected with a supporting plate in a sliding way, the supporting plate is connected with the box cover in a sliding way, the bottom end surface of the supporting plate is fixedly connected with a first spring, and the other end of the first spring is fixedly connected with the discharge box. The strength of the plastic plate is enhanced, the control of the melting time of the plastic plate is facilitated, and the plastic plate is quickly shaped.

Description

Plastic plate hot-melting splicing equipment and splicing process

Technical Field

The invention relates to the technical field of plastic plate splicing, in particular to plastic plate hot-melting splicing equipment and a splicing process.

Background

The plastic plate is a plate made of plastic, the plastic is a synthesized high molecular compound, the shape and the style can be freely changed, the plastic is a material synthesized by monomer raw materials or polymerized by condensation reaction, the plastic is composed of synthetic resin, and additives such as filler, plasticizer, stabilizer, lubricant, pigment and the like, the main component of the plastic plate is the synthetic resin, along with the continuous development of the society, the application of the plastic plate is more and more, so the splicing equipment of the plastic plate is more and more, but some defects exist when the splicing equipment of the plastic plate is used, and the demand of the hot melting splicing equipment of the plastic plate is increasingly increased.

In the field of plastic plate splicing, the currently used partial plastic plate splicing equipment is easy to generate waste gas and waste residue when splicing plastic plates, the spliced plastic plates have poor strength, the melting time of the plastic plate is not easy to control, the bonded plastic plate can not be shaped quickly, the speed of partial plastic plate splicing equipment is lower when the plastic plate is spliced, the splicing strength is not easy to control, the continuous splicing of the plastic plates cannot be realized, the splicing quality and the splicing efficiency of the plastic plates are greatly reduced, and when part of plastic plate splicing equipment is used for feeding the plastic plates, workers are required to continuously assist in feeding, so that the labor intensity of workers is increased, although some devices can realize automatic feeding, the input cost is too high, and therefore, the plastic plate hot melting splicing device and the plastic plate hot melting splicing process are provided for solving the problems.

Disclosure of Invention

The invention aims to provide plastic plate hot-melting splicing equipment and a splicing process, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a plastic plate hot melting splicing device comprises a fixing frame, a feeding device, a splicing device and a hot melting device, wherein a discharge box is fixedly connected to the left end face of the fixing frame, the feeding device is arranged at the top end of the left end face of the discharge box, a box cover is hinged to the bottom end of the left end face of the discharge box, a supporting plate is slidably connected to the inner side of the discharge box and is slidably connected with the box cover, a first spring is fixedly connected to the bottom end face of the supporting plate, the other end of the first spring is fixedly connected with the discharge box, the splicing device is arranged on the inner side of the top end face of the fixing frame, the hot melting device is arranged at the center of the inner side of the fixing frame, a first conveying roller is arranged at the left end of the hot melting device, a second conveying roller is arranged at the right end of the hot melting device, the first conveying, the right end face of the fixing frame is fixedly connected with a material receiving box, and the right end of the inner side of the top end face of the fixing frame is fixedly connected with a first photoelectric sensor.

Preferably, loading attachment includes support, first motor, driving lever, push rod and ejector pad, blowing case left end face fixedly connected with support, the inboard fixedly connected with first motor of support terminal surface, the terminal fixedly connected with driving lever of main shaft of first motor, and driving lever and support sliding connection, the driving lever outside is rotated and is connected with the push rod, and push rod and support sliding connection, the push rod right-hand member is rotated through the pivot and is connected with the ejector pad, and the ejector pad runs through the blowing case, ejector pad and blowing case sliding connection.

Preferably, the splicing device comprises a loop bar, an inner rod, a second spring, a first resistance plate, a first electric telescopic rod, a second motor, a fixed box, a supporting plate, a pressing plate, a third spring, a pressure sensor, a second electric telescopic rod, a second resistance plate, a second photoelectric sensor, a third photoelectric sensor and a fourth photoelectric sensor, wherein the loop bar is rotatably connected to the center of the top end face of the fixing frame through a rotating shaft, the inner rod is slidably connected to the inner side of the loop bar, the top end face of the inner rod is fixedly connected with the second spring, the other end of the second spring is fixedly connected with the loop bar, the outer side of the loop bar is rotatably connected with the first electric telescopic rod through the rotating shaft, the other end of the first electric telescopic rod is rotatably connected with the fixing frame through the rotating shaft, and the inner side of the rear end face of the fixing frame is fixedly connected with the third photoelectric.

Preferably, the inner side of the rear end surface of the fixing frame is fixedly connected with a fourth photoelectric sensor, the left end of the inner side of the top end surface of the fixing frame is fixedly connected with a second motor and a second photoelectric sensor which are arranged left and right, the tail end of the main shaft of the second motor is fixedly connected with a fixed box, the inner side of the fixed box is connected with a supporting plate and a pressing plate which are arranged up and down in a sliding way, the top end surface of the supporting plate is fixedly connected with a third spring, the other end of the third spring is fixedly connected with the fixed box, the bottom end surface of the supporting plate is fixedly connected with a pressure sensor, the pressure sensor is connected with the pressure plate in a sliding way, the bottom end surface of the pressure plate is fixedly connected with a second electric telescopic rod, and a second electric telescopic rod penetrates through the fixed box, the second electric telescopic rod is connected with the fixed box in a sliding way, and the bottom end face of the second electric telescopic rod is fixedly connected with a second resistance plate, and the second resistance plate is made of a rubber material plate.

Preferably, the hot melting device includes support frame, third motor, gear, rack, slider, electric heating board, third electric telescopic handle and fixed plate, the inboard central point of mount puts and is equipped with the support frame, and support frame and mount fixed connection, support frame left end face fixedly connected with third motor, and the main shaft of third motor runs through the support frame, the main shaft and the support frame of third motor rotate to be connected, the terminal fixedly connected with gear of main shaft of third motor, the meshing of the gear outside is connected with the rack, rack outside fixedly connected with slider, and slider and support frame sliding connection, slider top end face fixedly connected with electric heating board, and electric heating board runs through the support frame, electric heating board and support frame sliding connection.

Preferably, the bottom end of the inner rod is rotatably connected with a first resistance plate through a rotating shaft, and the first resistance plate is made of a rubber plate.

Preferably, the inner side of the top end face of the electric heating plate is fixedly connected with a third electric telescopic rod, the bottom end face of the third electric telescopic rod is fixedly connected with a fixed plate, and the fixed plate is connected with the electric heating plate in a sliding manner.

Preferably, the splicing step of the plastic plates:

the method comprises the following steps: an operator opens the box cover firstly, then presses the supporting plate downwards, and then places plastic plates to be spliced on the inner side of the material placing box and the top end of the supporting plate;

step two: the operator starts the device through the controller;

step three: the feeding device can feed the plastic plate in the discharge box at the moment, and the plastic plate can be pushed to the top end of the first conveying roller;

step four: under the conveying of the first conveying roller and the second conveying roller, plastic plates to be spliced can be conveyed to the left side and the right side of the hot melting device, and if the plastic plates are transversely spliced, the plastic plates can be subjected to position adjustment by the splicing device before being conveyed to the left side and the right side of the hot melting device;

step five: the splicing device can position and compress the plastic plate at the moment;

step six: the hot melting device can perform hot melting treatment on the plastic plate at the moment;

step seven: the splicing device can splice the plastic plates, and meanwhile, the hot melting device can shape the plastic plates;

step eight: under the transport of first conveying roller and second conveying roller, the plastic slab that splices can be carried unloading arm bottom to press from both sides by the unloading arm and put in the collection box.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the plastic plate shaping device, the arrangement is matched with the meshing connection of the gear and the rack, the sliding connection of the electric heating plate and the support frame and the sliding connection of the fixed plate and the electric heating plate through the arranged electric heating plate, so that the phenomenon of waste gas and waste residues generated by splicing the plastic plates is avoided under the control of the controller, the strength of the plastic plates is enhanced, the control of the melting time of the plastic plates is facilitated, and the rapid shaping of the plastic plates is realized;

2. according to the plastic plate splicing device, through the arranged first resistance plate, the arrangement is matched with the rotary connection of the first electric telescopic rod and the sleeve rod, the sliding connection of the sleeve rod and the inner rod and the elasticity of the second spring to the inner rod, when the plastic plates are longitudinally spliced, the plastic plates are quickly spliced under the control of the controller, the control of splicing force is facilitated, the continuous splicing of the plastic plates is realized, and therefore the splicing efficiency of the plastic plates is improved on the premise of ensuring the splicing quality of the plastic plates;

3. according to the plastic plate splicing device, the first resistance plate and the second resistance plate are arranged, the arrangement is matched with the rotary connection of the first electric telescopic rod and the sleeve rod, the sliding connection of the sleeve rod and the inner rod, the elastic force of the second spring to the inner rod, the fixed connection of the second electric telescopic rod and the second resistance plate and the elastic force of the third spring to the support plate, when the plastic plates are transversely spliced, the plastic plates are quickly spliced under the control of the controller, the control of the splicing force is facilitated, the continuous splicing of the plastic plates is realized, and therefore the splicing efficiency of the plastic plates is improved on the premise that the splicing quality of the plastic plates is guaranteed;

4. according to the automatic feeding device, the push block is arranged, the arrangement is matched with the rotating connection of the driving lever and the push rod, the rotating connection of the push rod and the push block and the sliding connection of the push block and the discharge box, the automatic feeding of the plastic plates is realized under the control of the controller, the labor intensity of workers is reduced, and the cost input caused by the feeding of the plastic plates is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the installation structure of the push rod of the present invention;

FIG. 3 is a schematic view of the mounting structure of the pallet of the present invention;

FIG. 4 is a schematic view of the mounting structure of the rack of the present invention;

fig. 5 is a schematic view of the mounting structure of the fixing plate of the present invention.

In the figure: 1-fixed frame, 2-discharge box, 3-feeding device, 301-support, 302-first motor, 303-deflector rod, 304-push rod, 305-push block, 4-box cover, 5-supporting plate, 6-first spring, 7-splicing device, 701-loop bar, 702-inner bar, 703-second spring, 704-first resistance plate, 705-first electric telescopic rod, 706-second motor, 707-fixed box, 708-supporting plate, 709-pressing plate, 710-third spring, 711-pressure sensor, 712-second electric telescopic rod, 713-second resistance plate, 714-second photoelectric sensor, 715-third photoelectric sensor, 716-fourth photoelectric sensor, 8-hot melting device, 801-supporting frame, 802-third motor, 803-gear, 804-rack, 805-sliding block, 806-electric heating plate, 807-third electric telescopic rod, 808-fixing plate, 9-first conveying roller, 10-second conveying roller, 11-controller, 12-blanking mechanical arm, 13-material collecting box and 14-first photoelectric sensor.

Detailed Description

Example 1:

referring to fig. 1, fig. 2, fig. 4 and fig. 5, the present invention provides a technical solution:

a hot melting splicing device for plastic plates comprises a fixed frame 1, a feeding device 3, a splicing device 7 and a hot melting device 8, wherein the left end face of the fixed frame 1 is fixedly connected with a discharging box 2, the top end of the left end face of the discharging box 2 is provided with the feeding device 3, the feeding device 3 comprises a support 301, a first motor 302, a deflector rod 303, a push rod 304 and a push block 305, the left end face of the discharging box 2 is fixedly connected with the support 301, the inner side of the top end face of the support 301 is fixedly connected with the first motor 302, the tail end of a main shaft of the first motor 302 is fixedly connected with the deflector rod 303, the deflector rod 303 is in sliding connection with the support 301, the outer side of the deflector rod 303 is rotatably connected with the push rod 304, the push rod 304 is in sliding connection with the support 301, the right end of the push rod 304 is rotatably connected with the push block 305 through a rotating shaft, the push block 305 penetrates through the discharging, the cost input caused by feeding of the plastic plates is also reduced, the bottom end of the left end face of the feeding box 2 is hinged with the box cover 4, the inner side of the feeding box 2 is connected with the supporting plate 5 in a sliding way, the supporting plate 5 is connected with the box cover 4 in a sliding way, the bottom end face of the supporting plate 5 is fixedly connected with the first spring 6, the other end of the first spring 6 is fixedly connected with the feeding box 2, the inner side of the top end face of the fixing frame 1 is provided with a splicing device 7, the splicing device 7 comprises a loop bar 701, an inner bar 702, a second spring 703, a first resistance plate 704, a first electric telescopic rod 705 and a third photoelectric inductor 715, the central position of the inner side of the top end face of the fixing frame 1 is rotatably connected with a loop bar 701 through a rotating shaft, the inner bar 702 is slidably connected with the inner side of the loop bar 701 through a rotating shaft, the bottom end of the inner bar 702, thereby being convenient for driving the plastic plates to be positioned and spliced, the top end surface of the inner rod 702 is fixedly connected with a second spring 703, the other end of the second spring 703 is fixedly connected with a loop bar 701, the outer side of the loop bar 701 is rotatably connected with a first electric telescopic rod 705 through a rotating shaft, the other end of the first electric telescopic rod 705 is rotatably connected with a fixed frame 1 through a rotating shaft, the inner side of the rear end surface of the fixed frame 1 is fixedly connected with a third photoelectric sensor 715, when the arrangement is used for longitudinally splicing the plastic plates, the control of splicing force is convenient, the continuous splicing of the plastic plates is realized, thereby ensuring the splicing quality of the plastic plates, the splicing efficiency of the plastic plates is improved, the hot melting device 8 is arranged at the center of the inner side of the fixed frame 1, the hot melting device 8 comprises a support frame 801, a third motor 802, a gear 803, a rack 804, a supporting frame 801 is arranged at the center of the inner side of the fixing frame 1, the supporting frame 801 is fixedly connected with the fixing frame 1, a third motor 802 is fixedly connected with the left end face of the supporting frame 801, a main shaft of the third motor 802 penetrates through the supporting frame 801, a main shaft of the third motor 802 is rotatably connected with the supporting frame 801, a gear 803 is fixedly connected with the tail end of the main shaft of the third motor 802, a rack 804 is meshed with the outer side of the gear 803, a sliding block 805 is fixedly connected with the outer side of the rack 804, the sliding block 805 is slidably connected with the supporting frame 801, an electric heating plate 806 is fixedly connected with the top end face of the sliding block 805, the electric heating plate 806 penetrates through the supporting frame 801, a third electric telescopic rod 807 is fixedly connected with the inner side of the top end face of the electric heating plate 806, a fixing plate 808 is fixedly connected with the bottom end face, this kind of phenomenon that the plastic slab concatenation produced waste gas waste residue has been avoided in this kind of setting, the intensity of plastic slab has still been strengthened, the control of plastic slab melting time has been made things convenient for, the quick plastic of plastic slab has been realized, 8 left ends of hot melting device are equipped with first conveying

roller

9, 8 right-hand members of hot melting device are equipped with second conveying roller 10, and first conveying roller 9 and second conveying roller 10 all with 1 fixed connection of mount, 1 top end face fixedly connected with controller 11 of mount, 1 inboard right-hand member fixedly connected with unloading arm 12 of mount, 1 right-hand member face fixedly connected with of mount receives

workbin

13, 1 inboard right-hand member fixedly connected with first photoelectric sensing ware 14 of mount top end face, the concatenation step of plastic: the method comprises the following steps: an operator firstly opens the box cover 4, then presses the supporting plate 5 downwards, and then places plastic plates to be spliced on the inner side of the material placing box 2 and the top end of the supporting plate 5; step two: the operator starts the device through the controller 11; step three: the feeding device 3 can feed the plastic plates in the discharging box 2 at the moment, and the plastic plates are pushed to the top end of the first conveying roller 9; step four: under the conveying of the first conveying roller 9 and the second conveying roller 10, plastic plates to be spliced are conveyed to the left side and the right side of the hot melting device 8, and if the plastic plates are transversely spliced, the splicing device 7 adjusts the positions of the plastic plates before the plastic plates are conveyed to the left side and the right side of the hot melting device 8; step five: the splicing device 7 can position and compress the plastic plates at the moment; step six: the hot melting device 8 performs hot melting treatment on the plastic plate; step seven: the splicing device 7 then splices the plastic plates, and meanwhile, the hot melting device 8 shapes the plastic plates; step eight: under the transport of first conveying roller 9 and second conveying roller 10, the plastic slab that splices can be carried unloading arm 12 bottom to press from both sides by unloading arm 12 and put in receiving the workbin 13, the serialization concatenation of plastic slab has been realized in this kind of setting, has not only improved the concatenation efficiency of plastic slab, has still reduced artificial participation, and has also avoided the phenomenon that the environment suffered the pollution.

The model of first motor 302 is 775 motor, the model of first electric telescopic handle 705 is XTL100 electric telescopic handle, third photoelectric sensing ware 715 is E3Z-LS61-TB photoelectric sensing ware, the model of third motor 802 is Y90L-4 motor, the model of electric heating board 806 is BST002 motor hot plate, the model of third electric telescopic handle 807 is wxtg electric telescopic handle, the model of first conveying roller 9 and second conveying roller 10 is the Ernio9 conveying roller, the model of controller 11 is the 900U controller, the model of unloading arm 12 is RB-13K012 arm.

The working process is as follows: all electrical appliances in the device are external power supplies, when the device is used for longitudinally splicing plastic plates, the box cover 4 is firstly opened, then the supporting plate 5 is pressed downwards and the plastic plates to be spliced are placed in the material placing box 2, the device is started through the controller 11 after the plastic plates are placed, at the moment, the first motor 302 can drive the driving lever 303 to rotate by three hundred sixty degrees, the driving lever 3 can be continuously and rotatably connected with the push rod 304, the push rod 304 can continuously push the push block 305 rightwards, so that the plastic plates are pushed to the top end of the first conveying roller 9 through the push block 305, finally, the push block 305 can reset, then the first conveying roller 9 and the second conveying roller 10 can convey the plastic plates rightwards, when the plastic plates block the second third photoelectric sensor 715, the second conveying roller 10 stops rotating, the telescopic rod of the first electric motor 705 on the right side can stretch out of a fixed length, and the telescopic rod 701 on the right, thereby compress tightly the plastic slab through the first resistance plate 704 on the right side, and drive the plastic slab to move a certain length to the left, the inner rod 702 on the right side can slide into the loop bar 701 on the right side continuously at this moment, the second spring 703 on the right side can be compressed continuously, after the plastic slab is positioned, the controller 11 can continue to control the first motor 302 to rotate, thereby continue to feed the second plastic slab, when the second plastic slab blocks the first third photoelectric sensor 715, the first conveying roller 9 can stop rotating, the first electric telescopic rod 705 on the left side can stretch out the same length at this moment, and push the left plastic slab to move the same length to the right, thereby position and compress the second plastic slab through the same way, after the two plastic slabs are all compressed, the electricity 806 can be electrified, and the third motor 802 can drive the gear 803 to be meshed with the rack 804 at this moment and be connected, thereby driving the electric heating plate 806 at the top end of the sliding block 805 to slide upwards, at the same time, the first electric telescopic rods 705 at the left and right sides can continue to extend out with the same length, thereby continuing to push the loop bar 701 to rotate ten degrees, at the same time, the plastic plates at the left and right sides can continue to slide towards the direction close to the electric heating plate 806, when the plastic plates just contact with the electric heating plate 806, the first electric telescopic rods 705 just stop extending out, when the electric heating plate 806 slides to the top end and resets, the plastic plates at the left and right sides just complete the melting work, then the first electric telescopic rods 705 extend out again with the fixed length, the loop bar 701 continues to rotate ten degrees, at the moment, the plastic plates at the left and right sides can be extruded to be spliced together, and in the splicing process, the third electric telescopic rod 807 can drive the fixed plate 808 to move downwards, thereby reshaping the extruded convex, when the spliced plastic plates block the third photoelectric sensor 715, the second conveying roller 10 stops rotating again, the first electric telescopic rod 705 on the right side extends out again to compress the spliced plastic plates, then the first motor 302 rotates again to feed materials, when the third plastic plates block the first photoelectric sensor 715, the first conveying roller 9 stops rotating again, the first electric telescopic rod 705 on the left side extends out again to compress the plastic plates, then the operations are repeated to continue splicing, when the plastic plates are spliced, the spliced plastic plates just block the first photoelectric sensor 14 on the right side, the first photoelectric sensor 14 on the right side is blocked, the blanking mechanical arm 12 clamps the spliced plastic plates into the material collecting box 13 firstly, the device then performs an initialization operation under the control of the controller 11, at which point the device resumes the above splicing operation, thereby continuing to splice the plastic panels.

Example 2:

referring to fig. 1, fig. 3, fig. 4 and fig. 5, the present invention provides a technical solution:

a hot melting splicing device for plastic plates comprises a fixed frame 1, a feeding device 3, a splicing device 7 and a hot melting device 8, wherein the left end face of the fixed frame 1 is fixedly connected with a discharging box 2, the top end of the left end face of the discharging box 2 is provided with the feeding device 3, the feeding device 3 comprises a support 301, a first motor 302, a deflector rod 303, a push rod 304 and a push block 305, the left end face of the discharging box 2 is fixedly connected with the support 301, the inner side of the top end face of the support 301 is fixedly connected with the first motor 302, the tail end of a main shaft of the first motor 302 is fixedly connected with the deflector rod 303, the deflector rod 303 is in sliding connection with the support 301, the outer side of the deflector rod 303 is rotatably connected with the push rod 304, the push rod 304 is in sliding connection with the support 301, the right end of the push rod 304 is rotatably connected with the push block 305 through a rotating shaft, the push block 305 penetrates through the discharging, the cost input caused by feeding of plastic plates is also reduced, the bottom end of the left end face of the discharging box 2 is hinged with the box cover 4, the inner side of the discharging box 2 is connected with the supporting plate 5 in a sliding manner, the supporting plate 5 is connected with the box cover 4 in a sliding manner, the bottom end face of the supporting plate 5 is fixedly connected with the first spring 6, the other end of the first spring 6 is fixedly connected with the discharging box 2, the inner side of the top end face of the fixing frame 1 is provided with a splicing device 7, the splicing device 7 comprises a loop bar 701, an inner rod 702, a second spring 703, a first resistance plate 704, a first electric telescopic rod 705, a second motor 706, a fixing box 707, a supporting plate 708, a pressing plate 709, a third spring 710, a pressure sensor 711, a second electric telescopic rod 712, a second resistance plate 713, a second photoelectric sensor 714 and a fourth photoelectric sensor 716, the center position of the inner side of the top end face of the fixing frame, the bottom end of the inner rod 702 is rotatably connected with a first resistance plate 704 through a rotating shaft, the first resistance plate 704 is made of a rubber plate, the setting utilizes the characteristic of large friction of rubber, so that plastic plates can be conveniently driven to be positioned and spliced, the top end face of the inner rod 702 is fixedly connected with a second spring 703, the other end of the second spring 703 is fixedly connected with a loop bar 701, the outer side of the loop bar 701 is rotatably connected with a first electric telescopic rod 705 through the rotating shaft, the other end of the first electric telescopic rod 705 is rotatably connected with a fixing frame 1 through the rotating shaft, the inner side of the rear end face of the fixing frame 1 is fixedly connected with a fourth photoelectric sensor 716, the left end of the inner side of the top end face of the fixing frame 1 is fixedly connected with a second motor 706 and a second photoelectric sensor 714 which are arranged left and right, the tail end of a main shaft of the second motor 706 is fixedly connected with a fixing box 707, the top end face of the supporting plate 708 is fixedly connected with a third spring 710, the other end of the third spring 710 is fixedly connected with a fixed box 707, the bottom end face of the supporting plate 708 is fixedly connected with a pressure sensor 711, the pressure sensor 711 is slidably connected with a pressure plate 709, the bottom end face of the pressure plate 709 is fixedly connected with a second electric telescopic rod 712, the second electric telescopic rod 712 penetrates through the fixed box 707, the second electric telescopic rod 712 is slidably connected with the fixed box 707, the bottom end face of the second electric telescopic rod 712 is fixedly connected with a second resistance plate 713, the second resistance plate 713 is made of a rubber material plate, when the plastic plates are transversely spliced, the control of splicing force is facilitated, the continuous splicing of the plastic plates is realized, the splicing quality of the plastic plates is ensured, the splicing efficiency of the plastic plates is improved, the hot melting device 8 is arranged at the center of the inner side of the fixing frame 1, the hot, A third motor 802, a gear 803, a rack 804, a sliding block 805, an electric heating plate 806, a third electric telescopic rod 807 and a fixing plate 808 are arranged at the center position of the inner side of the fixing frame 1, the supporting frame 801 is fixedly connected with the fixing frame 1, the left end surface of the supporting frame 801 is fixedly connected with the third motor 802, the main shaft of the third motor 802 penetrates through the supporting frame 801, the main shaft of the third motor 802 is rotatably connected with the supporting frame 801, the tail end of the main shaft of the third motor 802 is fixedly connected with the gear 803, the outer side of the gear 803 is engaged and connected with the rack 804, the outer side of the rack 804 is fixedly connected with the sliding block 805, the sliding block 805 is slidably connected with the supporting frame 801, the top end surface of the sliding block 805 is fixedly connected with the electric heating plate 806, the electric heating plate 806 penetrates through the supporting frame 801, the, and fixed plate 808 and electric heating plate 806 sliding connection, this kind of quick plastic of plastic slab has been realized in the setting, electric heating plate 806 and support frame 801 sliding connection, the phenomenon that the plastic slab concatenation produced waste gas waste residue has been avoided in this kind of setting, the intensity of plastic slab has still been strengthened, the control of plastic slab melting time has been made things convenient for, the quick plastic of plastic slab has been realized, 8 left ends of hot melting device are equipped with

first conveying roller

9, 8 right-hand members of hot melting device are equipped with second conveying roller 10, and first conveying roller 9 and second conveying roller 10 all with 1 fixed connection of mount, 1 top end fixedly connected with controller 11 of mount, 1 inboard right-hand member fixedly connected with unloading arm 12 of mount, 1 right-hand member fixedly connected with of mount receives

workbin

13, 1 inboard right-hand member fixedly connected with of top end 14 of mount, the concatenation step of: the method comprises the following steps: an operator firstly opens the box cover 4, then presses the supporting plate 5 downwards, and then places plastic plates to be spliced on the inner side of the material placing box 2 and the top end of the supporting plate 5; step two: the operator starts the device through the controller 11; step three: the feeding device 3 can feed the plastic plates in the discharging box 2 at the moment, and the plastic plates are pushed to the top end of the first conveying roller 9; step four: under the conveying of the first conveying roller 9 and the second conveying roller 10, plastic plates to be spliced are conveyed to the left side and the right side of the hot melting device 8, and if the plastic plates are transversely spliced, the splicing device 7 adjusts the positions of the plastic plates before the plastic plates are conveyed to the left side and the right side of the hot melting device 8; step five: the splicing device 7 can position and compress the plastic plates at the moment; step six: the hot melting device 8 performs hot melting treatment on the plastic plate; step seven: the splicing device 7 then splices the plastic plates, and meanwhile, the hot melting device 8 shapes the plastic plates; step eight: under the transport of first conveying roller 9 and second conveying roller 10, the plastic slab that splices can be carried unloading arm 12 bottom to press from both sides by unloading arm 12 and put in receiving the workbin 13, the serialization concatenation of plastic slab has been realized in this kind of setting, has not only improved the concatenation efficiency of plastic slab, has still reduced artificial participation, and has also avoided the phenomenon that the environment suffered the pollution.

The model of the first motor 302 is 775 motor, the model of the first electric telescopic rod 705 is XTL100 electric telescopic rod, the model of the second motor 706 is Y90S-4 motor, the model of the pressure sensor 711 is CYYZ11 pressure sensor, the model of the second electric telescopic rod 712 is tg electric telescopic rod, the model of the second photoelectric sensor 714, the models of the fourth photoelectric sensor 716 and the first photoelectric sensor 14 are both E3Z-LS61-TB photoelectric sensors, the model of the third motor 802 is Y90L-4 motor, the model of the electric heating plate 806 is BST002 motor hot plate, the model of the third electric telescopic rod 807 is wxtg electric telescopic rod, the models of the first conveying roller 9 and the second conveying roller 10 are Ernio9, the model of the conveying roller controller 11 is 900U controller, and the model of the blanking mechanical arm 12 is RB-13K012 mechanical arm.

The working process is as follows: all electrical appliances in the device are external power supplies, when the device is used for transversely splicing plastic plates, the box cover 4 is firstly opened, then the supporting plate 5 is pressed downwards and the plastic plates to be spliced are placed in the material placing box 2, the device is started through the controller 11 after the plastic plates are placed, at the moment, the first motor 302 can drive the driving lever 303 to rotate by three hundred sixty degrees, the driving lever 3 can be continuously and rotatably connected with the push rod 304 at the moment, the push rod 304 can continuously push the push block 305 rightwards, so that the plastic plates are pushed to the top end of the first conveying roller 9 through the push block 305, finally, the push block 305 can reset, then the first conveying roller 9 and the second conveying roller 10 can convey the plastic plates rightwards, when the plastic plates move to the bottom end of the second photoelectric sensor 714, the plastic plates are just under the second resistance plate 713, the first conveying roller 9 stops rotating at the moment, the second electric telescopic rod 712 can continuously, thereby compress tightly the plastic slab through second resistance plate 713, in the plastic slab compresses tightly the in-process, third spring 710 can constantly be compressed, backup pad 708 and clamp plate 709 can constantly upwards slide, the pressure value that pressure sensor 711 responds to can constantly grow, when the pressure value reaches a certain degree, second motor 706 can drive fixing box 707 to rotate ninety degrees, thereby drive the plastic slab through second resistance plate 713 and rotate ninety degrees, at this moment the plastic slab transversely slides at the top of first conveying roller 9, after adjusting the position of the plastic slab, second electric telescopic handle 712 resets, first conveying roller 9 continues to rotate, when the plastic slab blocks second fourth photoelectric inductor 716, second conveying roller 10 stops running, first electric telescopic handle 705 that is located on the right side can stretch out the fixed length, loop 701 that is located on the right side can rotate ten degrees at this moment, thereby compress tightly the plastic slab through first resistance plate 704 on the right side, and drive the plastic plate to move a certain length leftwards, the inner rod 702 at the right side will continuously slide into the loop bar 701 at the right side at this time, the second spring 703 at the right side will be continuously compressed, after the positioning of the plastic plate is completed, the controller 11 will continue to control the first motor 302 to rotate, thereby continuing to feed the second plastic plate, when the second plastic plate blocks the first fourth photoelectric sensor 716 after the position adjustment, the first conveying roller 9 will stop rotating, the first electric telescopic rod 705 at the left side will extend out the same length at this time, and push the left plastic plate to move rightwards the same length, thereby positioning and compressing the second plastic plate in the same way, after the two plastic plates are compressed, the electric heating plate 806 will be powered on, and the third motor 802 will drive the gear 803 to engage with the rack 804, thereby driving the electric heating plate 806 at the top end of the slider 805 to slide upwards, meanwhile, the first electric telescopic rods 705 on the left side and the right side can continue to extend out to the same length, so as to continue to push the loop bar 701 to rotate ten degrees, at the moment, the plastic plates on the left side and the right side can continue to slide towards the direction close to the electric heating plate 806, when the plastic plates just contact with the electric heating plate 806, the first electric telescopic rods 705 just stop extending out, when the electric heating plate 806 slides to the topmost end and resets, the plastic plates on the left side and the right side just complete the melting work, then the first electric telescopic rods 705 extend out again to the fixed length, the loop bar 701 continues to rotate ten degrees, at the moment, the plastic plates on the left side and the right side can be extruded and spliced together, in the splicing process, the third electric telescopic rods 807 can drive the fixed plate 808 to move downwards, so as to shape the extruded convex parts, after the above operations are completed, the first electric telescopic rods can, thereby driving the spliced plastic boards to move rightwards, when the spliced plastic boards block the third and fourth photoelectric sensors 716, the second conveying roller 10 stops rotating again, the first electric telescopic rod 705 on the right side extends out again to compress the spliced plastic boards, then the first motor 302 rotates again to carry out feeding work, when the third plastic boards block the first and fourth photoelectric sensors 716 after the position is adjusted, the first conveying roller 9 stops rotating again, the first electric telescopic rod 705 on the left side extends out again to compress the spliced plastic boards, then the operations are repeated to continue the splicing work, when the plastic boards are spliced, the first photoelectric sensor 14 on the right side of the spliced plastic boards is just right, after the first photoelectric sensor 14 on the right side is blocked, the blanking mechanical arm 12 firstly clamps the spliced plastic boards into the material receiving box 13, the device then performs an initialization operation under the control of the controller 11, at which point the device resumes the above splicing operation, thereby continuing to splice the plastic panels.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the technical features described above may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.

Claims

1. The utility model provides a plastic slab hot melt concatenation equipment, includes mount (1), loading attachment (3), splicing apparatus (7) and hot melt device (8), its characterized in that: the automatic feeding device is characterized in that a discharge box (2) is fixedly connected to the left end face of the fixing frame (1), a feeding device (3) is arranged at the top end of the left end face of the discharge box (2), a box cover (4) is hinged to the bottom end of the left end face of the discharge box (2), a supporting plate (5) is slidably connected to the inner side of the discharge box (2), the supporting plate (5) is slidably connected with the box cover (4), a first spring (6) is fixedly connected to the bottom end face of the supporting plate (5), the other end of the first spring (6) is fixedly connected with the discharge box (2), a splicing device (7) is arranged on the inner side of the top end face of the fixing frame (1), a hot melting device (8) is arranged at the center of the inner side of the fixing frame (1), a first conveying roller (9) is arranged at the left end of the hot melting device (8), a second conveying roller (10) is arranged at the right, the top end face of the fixing frame (1) is fixedly connected with a controller (11), the right end of the inner side of the fixing frame (1) is fixedly connected with a blanking mechanical arm (12), the right end face of the fixing frame (1) is fixedly connected with a material receiving box (13), and the right end of the inner side of the top end face of the fixing frame (1) is fixedly connected with a first photoelectric sensor (14); the feeding device (3) comprises a support (301), a first motor (302), a driving lever (303), a push rod (304) and a push block (305), the support (301) is fixedly connected to the left end face of the discharging box (2), the first motor (302) is fixedly connected to the inner side of the top end face of the support (301), the driving lever (303) is fixedly connected to the tail end of a main shaft of the first motor (302), the driving lever (303) is slidably connected with the support (301), the push rod (304) is rotatably connected to the outer side of the driving lever (303), the push rod (304) is slidably connected with the support (301), the push block (305) is rotatably connected to the right end of the push rod (304) through a rotating shaft, the push block (305) penetrates through the discharging box (2), and the push block (305) is slidably connected with the discharging box (2; the splicing device (7) comprises a loop bar (701), an inner bar (702), a second spring (703), a first resistance plate (704), a first electric telescopic rod (705), a second motor (706), a fixed box (707), a support plate (708), a pressure plate (709), a third spring (710), a pressure sensor (711), a second electric telescopic rod (712), a second resistance plate (713), a second photoelectric sensor (714), a third photoelectric sensor (715) and a fourth photoelectric sensor (716), the central position of the inner side of the top end face of the fixed frame (1) is rotatably connected with the loop bar (701) through a rotating shaft, the inner bar (702) is slidably connected to the inner side of the loop bar (701), the second spring (703) is fixedly connected to the top end face of the inner bar (702), the other end of the second spring (703) is fixedly connected with the loop bar (701), the outer side of the loop bar (701) is rotatably connected with the first electric telescopic rod (705) through the rotating shaft, the other end of the first electric telescopic rod (705) is rotatably connected with a fixed frame (1) through a rotating shaft, and a third photoelectric sensor (715) is fixedly connected to the inner side of the rear end face of the fixed frame (1); the inner side of the rear end face of the fixing frame (1) is fixedly connected with a fourth photoelectric sensor (716), the left end of the inner side of the top end face of the fixing frame (1) is fixedly connected with a second motor (706) and a second photoelectric sensor (714) which are arranged left and right, the tail end of a main shaft of the second motor (706) is fixedly connected with a fixing box (707), the inner side of the fixing box (707) is slidably connected with a supporting plate (708) and a pressing plate (709) which are arranged up and down, the top end face of the supporting plate (708) is fixedly connected with a third spring (710), the other end of the third spring (710) is fixedly connected with the fixing box (707), the bottom end face of the supporting plate (708) is fixedly connected with a pressure sensor (711), the pressure sensor (711) is slidably connected with the pressing plate (709), the bottom end face of the pressing plate (709) is fixedly connected with a second electric telescopic rod (712), and, the second electric telescopic rod (712) is connected with the fixed box (707) in a sliding mode, a second resistance plate (713) is fixedly connected to the bottom end face of the second electric telescopic rod (712), and the second resistance plate (713) is made of a rubber plate; the hot melting device (8) comprises a support frame (801), a third motor (802), a gear (803), a rack (804), a sliding block (805), an electric heating plate (806), a third electric telescopic rod (807) and a fixing plate (808), wherein the support frame (801) is arranged at the center of the inner side of the fixing frame (1), the support frame (801) is fixedly connected with the fixing frame (1), the third motor (802) is fixedly connected with the left end face of the support frame (801), a main shaft of the third motor (802) penetrates through the support frame (801), a main shaft of the third motor (802) is rotatably connected with the support frame (801), the gear (803) is fixedly connected with the tail end of the main shaft of the third motor (802), the rack (804) is engaged with the outer side of the gear (803), the sliding block (805) is fixedly connected with the outer side of the rack (804), and the sliding block (805), the top end face of the sliding block (805) is fixedly connected with an electric heating plate (806), the electric heating plate (806) penetrates through the supporting frame (801), and the electric heating plate (806) is connected with the supporting frame (801) in a sliding mode; the bottom end of the inner rod (702) is rotatably connected with a first resistance plate (704) through a rotating shaft, and the first resistance plate (704) is made of a rubber plate; the inner side of the top end face of the electric heating plate (806) is fixedly connected with a third electric telescopic rod (807), the bottom end face of the third electric telescopic rod (807) is fixedly connected with a fixing plate (808), and the fixing plate (808) is in sliding connection with the electric heating plate (806).

2. A hot-melt splicing method of the plastic plate hot-melt splicing device according to claim 1, characterized in that: splicing the plastic plates:

the method comprises the following steps: an operator opens the box cover (4) firstly, then presses the supporting plate (5) downwards, and then places plastic plates to be spliced on the inner side of the material placing box (2) and the top end of the supporting plate (5);

step two: the operator starts the device through the controller (11);

step three: the feeding device (3) can feed the plastic plates in the discharge box (2) at the moment, and the plastic plates are pushed to the top end of the first conveying roller (9);

step four: under the conveying of the first conveying roller (9) and the second conveying roller (10), plastic plates to be spliced can be conveyed to the left side and the right side of the hot melting device (8), and if the plastic plates are transversely spliced, the splicing device (7) can adjust the positions of the plastic plates before the plastic plates are conveyed to the left side and the right side of the hot melting device (8);

step five: the splicing device (7) can position and compress the plastic plate at the moment;

step six: the hot melting device (8) can perform hot melting treatment on the plastic plate at the moment;

step seven: the splicing device (7) splices the plastic plates, and meanwhile, the hot melting device (8) shapes the plastic plates;

step eight: under the conveying of the first conveying roller (9) and the second conveying roller (10), the spliced plastic plates are conveyed to the bottom end of the blanking mechanical arm (12) and are clamped in the material receiving box (13) by the blanking mechanical arm (12).