CN216610429U - Heating dust removal platform and laminating machine - Google Patents

Abstract

The utility model discloses a heating dust removal platform and an attaching machine, wherein the heating dust removal platform comprises a rack, an upper attaching assembly, a lower attaching assembly and an aligning assembly, and the rack is provided with a coil feeding station, a sheet feeding station and an attaching station. The upper attaching assembly is arranged between the coil material feeding station and the attaching station and used for sucking the coil materials and conveying the coil materials to the attaching station to attach the coil materials and the sheet materials; the lower laminating assembly is arranged between the sheet material feeding station and the laminating station and used for adsorbing the sheet material and conveying the sheet material to the laminating station; the alignment assembly is arranged at the attaching station and used for detecting the attaching position of the coil stock and the sheet stock. The technical scheme of the utility model can improve the production efficiency of the laminating machine.

Description

Heating dust removal platform and laminating machine

Technical Field

The utility model relates to the technical field of laminating machines, in particular to a heating dust removal platform and a laminating machine.

Background

At present, in the field of printed circuit board production, the production of the printed circuit board always depends on manual operation, and particularly during laminating operation, a coil stock is generally cut firstly, then the cut coil stock is positioned and installed on a laminating machine manually, meanwhile, a sheet stock is positioned and installed on the laminating machine, and laminating is realized through the laminating machine. In the production steps, workers need to perform positioning installation and feeding operation on the coil stock and the sheet stock for many times, the automation degree is low, the labor intensity is high, and the production efficiency of the laminating machine is low.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a heating dust removal platform and aims to improve the production efficiency of a laminating machine.

In order to achieve the above object, the present invention provides a heating dust-removing platform applied to a laminating machine, the heating dust-removing platform comprising:

the device comprises a rack, a positioning device and a control device, wherein the rack is provided with a coil material feeding station, a sheet material feeding station and a laminating station;

the upper laminating assembly is arranged between the coil material feeding station and the laminating station and used for sucking the coil materials and conveying the coil materials to the laminating station so as to laminate the coil materials and the sheet materials;

the lower laminating assembly is arranged between the sheet material feeding station and the laminating station and used for adsorbing the sheet materials and conveying the sheet materials to the laminating station; and

and the alignment assembly is arranged at the laminating station and used for detecting the laminating position of the coil stock and the sheet stock.

Optionally, the upper bonding assembly comprises a first translation mechanism, a first lifting mechanism and an upper bonding platform, the first lifting mechanism is arranged on the first translation mechanism to translate between the coil feeding station and the bonding station under the driving of the first translation mechanism, the upper bonding platform is arranged on the first lifting mechanism to lift under the driving of the first lifting mechanism, and the upper bonding platform is used for sucking the coil;

the lower laminating assembly comprises a second translation mechanism and a lower laminating platform, the lower laminating platform is arranged on the second translation mechanism and is driven by the second translation mechanism to translate between the sheet material feeding station and the laminating station, the lower laminating platform is used for adsorbing the sheet materials, and the lower laminating platform is matched with the upper laminating platform to move up and down so as to complete laminating.

Optionally, the upper attaching platform includes:

the platform main body is fixedly connected to the first lifting mechanism;

the adsorption plate is used for adsorbing the coil stock and is matched with the lower laminating platform for laminating; and

and the elastic connecting part is positioned between the platform main body and the adsorption plate and elastically connects the adsorption plate to the lower part of the platform main body.

Optionally, the adsorption plate is kept away from the surface of platform main part is equipped with a plurality of holes that induced drafts, the adsorption plate orientation the surface of platform main part is equipped with the aspiration channel, the aspiration channel intercommunication the hole that induced drafts.

Optionally, the platform body comprises:

the frame body is fixedly connected to the first lifting mechanism; and

the rotary motor is fixedly connected with the frame body, the rotary motor passes through the elastic connecting part and the adsorption plate is elastically connected, and the rotary motor drives the adsorption plate to rotate.

Optionally, the elastic connection member comprises:

a connecting plate connected to the rotating electric machine;

the connecting part penetrates through the connecting plate and is fixedly connected to the adsorption plate; and

and the spring penetrates through the connecting part and is clamped between the connecting plate and the adsorption plate.

Optionally, the alignment assembly includes:

the first aligning mechanism is arranged at the laminating station and used for detecting the laminating position of the coil materials adsorbed on the upper laminating platform; and

and the second aligning mechanism is arranged at the laminating station and used for detecting the laminating position of the sheet material adsorbed on the lower laminating platform.

Optionally, the first aligning mechanism comprises a first CCD camera and a first moving member, the first CCD camera is arranged on the first moving member to be driven by the first moving member to translate in a direction perpendicular to the conveying direction of the coil stock, and the first CCD camera is used for capturing the attachment position of the coil stock of the upper attachment platform;

the second alignment mechanism comprises a second CCD camera and a second moving piece, the second CCD camera is arranged on the second moving piece and is driven by the second moving piece to move horizontally in the direction perpendicular to the conveying direction of the sheet materials, and the second CCD camera is used for capturing the adhering position of the sheet materials of the lower adhering platform.

Optionally, heating dust removal platform still is equipped with the dust removal subassembly, the dust removal subassembly includes dust removal roller and second elevating system, the dust removal roller rotate connect in second elevating system to be located between sheet stock material loading station and the laminating station, second elevating system installs in the frame, the drive of second elevating system the dust removal roller goes up and down, in order to cooperate the subassembly that laminates down removes dust to the sheet stock.

The utility model also provides a laminating machine, which comprises a laminating machine main body and a heating and dust removing platform, wherein the heating and dust removing platform comprises:

the device comprises a rack, a control device and a control system, wherein the rack is provided with a coil material feeding station, a sheet material feeding station and a laminating station;

the upper laminating assembly is arranged between the coil material feeding station and the laminating station and used for sucking the coil materials and conveying the coil materials to the laminating station so as to laminate the coil materials and the sheet materials;

the lower laminating assembly is arranged between the sheet material feeding station and the laminating station and used for adsorbing the sheet materials and conveying the sheet materials to the laminating station; and

and the alignment assembly is arranged at the laminating station and used for detecting the laminating position of the coil stock and the sheet stock.

According to the technical scheme, the cut coil stock is sucked by the upper laminating assembly, and the sheet stock is placed by the lower laminating assembly. The upper laminating assembly carries the coil stock to move to the laminating station and the lower laminating assembly carries the sheet stock to move to the laminating station. The alignment assembly detects the bonding positions of the roll material and the sheet material, if deviation exists, the deviation is fed back to the upper bonding assembly and the lower bonding assembly, and the upper bonding assembly and the lower bonding assembly are correspondingly adjusted according to feedback information, so that the bonding positions of the roll material and the sheet material are aligned, and the bonding precision is ensured. The coil stock can be drawn automatically to heating dust removal platform to remove corresponding laminating position, do not need artifical material loading many times, and can automated inspection and rectify the laminating position, accomplish the laminating voluntarily, do not need artifical location installation, thereby can practice thrift the cost of labor, and degree of automation is high, and then can improve the production efficiency of rigging machine effectively.

Drawings

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

FIG. 1 is a schematic view of an overall structure of a heating and dust-removing platform according to an embodiment of the present invention;

FIG. 2 is a schematic view of a partial structure of a thermal dust removal platform according to an embodiment of the present invention;

FIG. 3 is an exploded view of an embodiment of a heated dust removal platform according to the present invention;

FIG. 4 is an exploded view of an embodiment of the upper bonding assembly of the present invention;

FIG. 5 is a schematic structural view of an embodiment of an upper bonding stage according to the present invention;

FIG. 6 is a schematic structural diagram of a first alignment mechanism according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a second alignment mechanism according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a dust removing assembly according to an embodiment of the present invention.

The reference numbers indicate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a heating dust removal platform.

As shown in fig. 1 to 3, in an embodiment of the present invention, the heating and dust removing platform 500 includes a frame 51, an upper attaching assembly 53, a lower attaching assembly 55, and an aligning assembly 57, wherein the frame 51 is provided with a roll material loading station, a sheet material loading station, and an attaching station. The upper attaching assembly 53 is arranged between the coil material feeding station and the attaching station and used for sucking the coil material and conveying the coil material to the attaching station so as to attach the coil material and the sheet material. The lower attaching assembly 55 is disposed between the sheet material feeding station and the attaching station, and is used for adsorbing the sheet material and conveying the sheet material to the attaching station. The alignment assembly 57 is disposed at the bonding station and used for detecting the bonding position of the roll material and the sheet material.

The upper lamination assembly 53 sucks the cut roll material, and the lower lamination assembly 55 places the sheet material. The upper application assembly 53 carries the web to the application station and the lower application assembly 55 carries the sheet to the application station. The upper attaching component 53 and the lower attaching component 55 are arranged opposite to each other in the vertical direction. The aligning assembly 57 detects the bonding position of the roll material and the sheet material, if deviation exists, the deviation is fed back to the upper bonding assembly 53 and the lower bonding assembly 55, and the upper bonding assembly 53 and the lower bonding assembly 55 are correspondingly adjusted according to the feedback information, so that the bonding positions of the roll material and the sheet material are aligned, and the bonding precision is ensured. At the same time, lower bonding assembly 55 heats the sheet material for bonding. So set up, heating dust removal platform 500 can absorb the coil stock automatically to remove corresponding laminating position, do not need artifical material loading many times, and can automated inspection and proofreaies and correct the laminating position, accomplish the laminating voluntarily, do not need artifical location installation, can practice thrift the cost of labor, and degree of automation is high, can promote the laminating efficiency of coil stock and sheet stock effectively.

In addition, it should be noted that the upper attaching component 53 may be a vacuum suction roll, an adhesive suction roll, or other effective suction roll.

The alignment assembly 57 can detect the bonding position by setting a CCD camera, can detect the bonding position by setting a photoelectric sensor, and can also be other effective ways of detecting the bonding position.

Go up laminating subassembly 53 transport coil stock can be through linear electric motor drive, also can drive the lead screw through the rotating electrical machines and drive, can also be other effectual transport modes.

The lower laminating assembly 55 can be driven by a linear motor or a rotary motor to drive a screw rod, and can also be driven by other effective carrying modes.

Go up laminating subassembly 53 laminating coil stock and sheet stock can be through linear electric motor drive laminating, also can drive the lead screw through the rotating electrical machines and come the drive laminating, can also be other effectual laminating modes.

As shown in fig. 1, 3 and 4, in an embodiment of the present invention, the upper bonding assembly 53 includes a first translation mechanism 531, a first lifting mechanism 533 and an upper bonding platform 535, the first lifting mechanism 533 is disposed on the first translation mechanism 531 to translate between the coil loading station and the bonding station under the driving of the first translation mechanism 531, the upper bonding platform 535 is disposed on the first lifting mechanism 533 to lift and lower under the driving of the first lifting mechanism 533, and the upper bonding platform 535 is used for sucking the coil.

The lower pasting component 55 comprises a second translation mechanism 551 and a lower pasting platform 553, the lower pasting platform 553 is arranged on the second translation mechanism 551 to translate between the sheet material feeding station and the pasting station under the driving of the second translation mechanism 551, the lower pasting platform 553 is used for adsorbing the sheet material, and the lower pasting platform 553 is matched with the lifting motion of the upper pasting platform 535 to finish pasting.

The first translation mechanism 531 drives the first lifting mechanism 533 to move horizontally to the feeding station, the first lifting mechanism 533 drives the upper bonding platform 535 to move downwards, and the upper bonding platform 535 sucks the coil. After the upper attaching platform 535 sucks the coil, the first lifting mechanism 533 drives the upper attaching platform 535 to move upwards, and the first translation mechanism 531 drives the first lifting mechanism 533 to horizontally move to the attaching station. A sheet is placed on the lower bonding stage 553, and the second translation mechanism 551 drives the lower bonding stage 553 to horizontally move to the bonding station. After the aligning assembly 57 corrects the bonding position of the roll material and the sheet material, the first lifting mechanism 533 drives the upper bonding platform 535 to move downward, so that the roll material and the sheet material are bonded. So set up, only need two translation mechanisms and a elevating system just can accomplish the elevating movement, coil stock transport, the sheet stock transport of coil stock absorption and the laminating motion of coil stock and sheet stock to the structure has been simplified, and reliable and stable.

As shown in fig. 4 and 5, in an embodiment of the utility model, the upper attaching platform 535 includes a platform body 5351, an absorbing plate 5353 and an elastic connecting member 5355, and the platform body 5351 is fixedly connected to the first lifting mechanism 533. The adsorption plate 5353 adsorbs a coil material and is attached to the lower attachment platform 553. The elastic connection member 5355 is located between the platform body 5351 and the suction plate 5353, and elastically connects the suction plate 5353 to a lower portion of the platform body 5351.

When the roll and the sheet are bonded, the suction plate 5353 carries the roll, and the suction plate 5353 is moved downward by the driving of the first lifting mechanism 533 to be bonded to the lower bonding platform 553. The adsorption plate 5353 stops moving after contacting the lower bonding platform 553, at this time, the first lifting mechanism 533 continues to drive the platform body 5351 to move downward, the platform body 5351 presses the elastic connection member 5355 to compress the elastic connection member 5355, and at this time, the elastic connection member 5355 generates an elastic force, which is applied to the adsorption plate 5353, so that the adsorption plate 5353 and the lower bonding platform 553 have a bonding force to bond the roll material and the sheet material. At the same time, the lower bonding stage 553 heats the sheet to facilitate bonding. With this arrangement, the adhering force of the first cutting plate can be controlled by controlling the elastic force of the elastic connecting member 5355, so that the stable adhering force can be maintained in the roll material cutting device, and the damage of the roll material or the sheet material due to the excessive adhering force can be effectively avoided. The heating dust removal platform 500 can effectively prevent overlarge bonding force, ensure that roll materials and sheet materials are not damaged, and further effectively reduce the reject ratio of bonded products.

In addition, the elastic connection member 5355 may be provided with a spring 5355c, and the elastic force of the spring 5355c may control the bonding force between the adsorption plate 5353 and the lower bonding element 55; the elastic rubber may be provided to control the bonding force between the adsorption plate 5353 and the lower bonding member 55 by the elastic force of the elastic rubber; the bonding force between the suction plate 5353 and the lower bonding member 55 can be controlled in other effective manners.

As shown in fig. 4 and 5, in an embodiment of the utility model, a plurality of air suction holes 5353a are disposed on a surface of the absorption plate 5353 away from the platform body 5351, an air suction pipe 5353b is disposed on a surface of the absorption plate 5353 facing the platform body 5351, and the air suction pipe 5353b is communicated with the air suction holes 5353 a.

The vacuum pump pumps air in the air suction pipe 5353b to make the pressure in the air suction hole 5353a lower than the external atmospheric pressure, and when the adsorption plate 5353 contacts with the coiled material, the air suction hole 5353a on the adsorption plate 5353 sucks the coiled material. Compare and snatch the coil stock in the manipulator, this adsorption plate 5353 adopts vacuum adsorption's mode, not only can avoid extruding the coil stock effectively and lead to the condition of coil stock deformation to take place, can also make the coil stock keep leveling, even curled state appears in the coil stock, a plurality of holes 5353a of induced drafting on through adsorption plate 5353, can automatically flatten the coil stock, make the coil stock expand on adsorption plate 5353 completely, thereby can make the coil stock be in the leveling state effectively, and then can reduce the defective rate of laminating product effectively. In addition, the adsorption plate 5353 is stable, reliable, convenient and fast, can effectively improve the production efficiency, has a simple structure, and can effectively improve and save the manufacturing cost.

As shown in fig. 1 and 4, in an embodiment of the utility model, the platform body 5351 includes a frame body 5351a and a rotating motor 5351b, and the frame body 5351a is fixedly connected to the first lifting mechanism 533. The rotating motor 5351b is fixedly connected to the frame body 5351a, the rotating motor 5351b is elastically connected to the suction plate 5353 through the elastic connection member 5355, and the rotating motor 5351b drives the suction plate 5353 to rotate.

When the alignment assembly 57 corrects the bonding position of the roll material and the sheet material, the rotary motor 5351b can drive the adsorption plate 5353 to rotate along the horizontal plane, so that the bonding position of the roll material is aligned with the bonding position of the sheet material, thereby effectively improving the bonding precision of the bonding machine and further effectively reducing the fraction defective of the bonded product. Particularly for products with high requirements on the attaching accuracy, the heating and dust removing platform 500 can be adjusted left and right, front and back and rotated to ensure an accurate attaching position.

As shown in fig. 4, in an embodiment of the utility model, the elastic connection member 5355 includes a connection plate 5355a, a connection member 5355b and a spring 5355c, and the connection plate 5355a is connected to the rotating motor 5351 b. The connection member 5355b passes through the connection plate 5355a and is fixedly connected to the adsorption plate 5353. The spring 5355c is inserted through the connecting member 5355b and interposed between the connecting plate 5355a and the adsorption plate 5353.

When the heated dust removing platform 500 is used to bond the web and the sheet, the suction plate 5353 is driven by the first elevating mechanism 533 to move downward and bond the web and the sheet to the lower bonding platform 553. The adsorption plate 5353 stops moving after contacting the lower bonding platform 553, the first lifting mechanism 533 continues to drive the platform body 5351 to move downwards, the platform body 5351 drives the connecting plate 5355a to move downwards, the connecting plate 5355a extrudes the spring 5355c, the spring 5355c generates elastic deformation to generate elastic force, and the elastic force is applied to the adsorption plate 5353, so that the bonding force between the coil material and the sheet material can be effectively controlled. So set up, not only reliable and stable, simple structure easily manufacturing, can reduce manufacturing cost effectively.

As shown in fig. 1, 3, 6 and 7, in an embodiment of the present invention, the alignment assembly 57 includes: the first aligning mechanism 571 is arranged at the fitting station, and is used for detecting the fitting position of the coil adsorbed on the upper fitting platform 535. The second aligning mechanism 573 is provided at the bonding station, and detects the bonding position of the sheet adsorbed on the lower bonding stage 553.

The first aligning mechanism 571 and the second aligning mechanism 573 are both arranged at the attaching station, the first aligning mechanism 571 detects the position of the coil adsorbed on the upper attaching platform 535, the second aligning mechanism 573 detects the position of the sheet placed on the second aligning mechanism 573, and the two aligning mechanisms are arranged to effectively improve the position detection accuracy of the coil and the sheet, so that the attaching accuracy of the heating dust removing platform 500 can be effectively improved. When the heating and dust removing platform 500 corrects the bonding position, the first aligning mechanism 571 and the second aligning mechanism 573 perform joint detection, so that the heating and dust removing platform 500 can detect the positions of the coil and the sheet in real time, and the detection of the positions of the coil and the sheet is performed synchronously and simultaneously, thereby synchronously and simultaneously feeding back the position information of the coil and the sheet, further, when the heating and dust removing platform 500 corrects the bonding position, the bonding positions of the coil and the sheet can be synchronously and respectively corrected in real time, the synchronous and simultaneous detection of the two different positions can better assist the heating and dust removing platform 500 to rapidly adjust the coil and the sheet to the optimal bonding position, thereby effectively improving the alignment efficiency, and further effectively improving the bonding efficiency of the heating and dust removing platform 500.

Note that the first aligning mechanism 571 may detect the bonding position by providing a CCD camera, may detect the bonding position by providing a photosensor, or may effectively detect the bonding position.

The second aligning mechanism 573 may detect the bonding position by providing a CCD camera, may detect the bonding position by providing a photosensor, or may detect the bonding position in other effective ways.

As shown in fig. 6 and 7, in an embodiment of the present invention, the first aligning mechanism 571 includes a first CCD camera 5711 and a first moving member 5713, the first CCD camera 5711 is disposed on the first moving member 5713 to move in a translational manner perpendicular to the conveying direction of the roll material under the driving of the first moving member 5713, and the first CCD camera 5711 is used for capturing the adhering position of the roll material of the upper adhering platform 535.

The second aligning mechanism 573 includes a second CCD camera 5731 and a second moving member 5733, the second CCD camera 5731 being provided to the second moving member 5733 to be translated in a direction perpendicular to the conveying direction of the sheet under the driving of the second moving member 5733, the second CCD camera 5731 being for capturing the sticking position of the sheet on the lower sticking table 553.

The CCD camera is a semiconductor imaging device and has the advantages of high sensitivity, strong light resistance, small distortion, small volume, long service life, vibration resistance and the like. The first moving member 5713 drives the first CCD camera to move horizontally along a direction perpendicular to the conveying direction of the roll material, so that the first CCD camera can completely capture the image of the entire roll material. The second moving member 5733 causes the second CCD camera to translate in a direction perpendicular to the direction of conveyance of the sheet, so that the second CCD camera can capture an image of the entire sheet completely. Through the mutual cooperation and movement of the first moving piece 5713 and the second moving piece 5733, the first CCD camera and the second CCD camera can be mutually matched to simultaneously and accurately capture any position of a coil stock and any position of a sheet stock, so that the heating and dust removing platform 500 can more accurately adjust the coil stock and the sheet stock to the optimal attaching position, and the attaching precision of the heating and dust removing platform 500 can be further improved. Particularly, the high precision is required for the bonding of the flexible circuit board, and the two CCD cameras can be quickly positioned to the positions of the roll materials and the sheet materials required to be collected through the matching of the two moving members, so that the position images of the roll materials and the sheet materials can be accurately and clearly collected, and the high bonding precision of the flexible circuit board can be further met.

As shown in fig. 2 and 8, in an embodiment of the present invention, the heated dust-removing platform 500 is further provided with a dust-removing assembly 59, the dust-removing assembly 59 includes a dust-removing roller 591 and a second lifting mechanism 593, the dust-removing roller 591 is rotatably connected to the second lifting mechanism 593 and is located between the sheet material feeding station and the laminating station, the second lifting mechanism 593 is installed on the frame 51, and the second lifting mechanism 593 drives the dust-removing roller 591 to lift and lower the laminating assembly 55 to remove dust from the sheet material.

When the second moving mechanism drives the lower bonding platform 553 to move towards the bonding station, the second lifting mechanism 593 drives the dust removal roller 591 to move downwards, so that the dust removal roller 591 contacts with the sheet materials placed on the lower bonding platform 553, and along with the movement of the second moving mechanism, the dust removal roller 591 rolls on the sheet materials to stick dust or other pollutants on the sheet materials, so that the dust removal roller 591 can roll over the whole sheet materials completely, and the cleanness of the sheet materials can be effectively kept. Through so setting up, can carry out complete cleanness to the binding face of sheet stock before the laminating, sheet stock second elevating system 593 gets into the laminating station at once and laminates, can avoid the sheet stock after the cleanness to be infected with dust or other pollutants because of the dwell time is long effectively to can ensure the cleanliness factor of sheet stock binding face effectively, and then can reduce the defective rate of laminating the product.

In addition, it should be noted that the second lifting mechanism 593 may drive the dust removal roller 591 by arranging an air cylinder, may drive the dust removal roller 591 by arranging a linear motor, and may also be in other effective driving manners.

The utility model further provides a laminating machine, which comprises a laminating machine main body and a heating dust removal platform 500, the specific structure of the heating dust removal platform 500 refers to the above embodiments, and the laminating machine adopts all technical schemes of all the above embodiments, so that at least all the beneficial effects brought by the technical schemes of the above embodiments are achieved, and the details are not repeated herein.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a heating dust removal platform, its characterized in that is applied to the rigging machine, heating dust removal platform includes:

the device comprises a rack, a positioning device and a control device, wherein the rack is provided with a coil material feeding station, a sheet material feeding station and a laminating station;

the upper laminating assembly is arranged between the coil material feeding station and the laminating station and used for sucking the coil materials and conveying the coil materials to the laminating station so as to laminate the coil materials and the sheet materials;

the lower laminating assembly is arranged between the sheet material feeding station and the laminating station and used for adsorbing the sheet materials and conveying the sheet materials to the laminating station; and

and the alignment assembly is arranged at the laminating station and used for detecting the laminating position of the coil stock and the sheet stock.

2. The heating and dust removing platform according to claim 1, wherein the upper attaching assembly comprises a first translation mechanism, a first lifting mechanism and an upper attaching platform, the first lifting mechanism is arranged on the first translation mechanism and is driven by the first translation mechanism to translate between the coil feeding station and the attaching station, the upper attaching platform is arranged on the first lifting mechanism and is driven by the first lifting mechanism to lift, and the upper attaching platform is used for sucking the coil;

the lower laminating assembly comprises a second translation mechanism and a lower laminating platform, the lower laminating platform is arranged on the second translation mechanism and is driven by the second translation mechanism to translate between the sheet material feeding station and the laminating station, the lower laminating platform is used for adsorbing the sheet materials, and the lower laminating platform is matched with the upper laminating platform to move up and down so as to complete laminating.

3. The heated dusting platform of claim 2, wherein the upper attachment platform comprises:

the platform main body is fixedly connected to the first lifting mechanism;

the adsorption plate is used for adsorbing the coil stock and is matched with the lower laminating platform for laminating; and

and the elastic connecting part is positioned between the platform main body and the adsorption plate and elastically connects the adsorption plate to the lower part of the platform main body.

4. The heated dust removal platform of claim 3, wherein the surface of the adsorption plate away from the platform body is provided with a plurality of air suction holes, and the surface of the adsorption plate facing the platform body is provided with air suction pipes, and the air suction pipes are communicated with the air suction holes.

5. The heated dusting platform of claim 4, wherein the platform body comprises:

the frame body is fixedly connected to the first lifting mechanism; and

the rotary motor is fixedly connected with the frame body, the rotary motor passes through the elastic connecting part and the adsorption plate is elastically connected, and the rotary motor drives the adsorption plate to rotate.

6. The heated dust extraction platform of claim 5, wherein the resilient connecting member comprises:

a connection plate connected to the rotating motor;

the connecting part penetrates through the connecting plate and is fixedly connected to the adsorption plate; and

and the spring penetrates through the connecting part and is clamped between the connecting plate and the adsorption plate.

7. The heated dust extraction platform of claim 6, wherein the alignment assembly comprises:

the first aligning mechanism is arranged at the laminating station and used for detecting the laminating position of the coil adsorbed on the upper laminating platform; and

and the second aligning mechanism is arranged at the laminating station and used for detecting the laminating position of the sheet material adsorbed on the lower laminating platform.

8. The heated dust removal platform of claim 7, wherein the first alignment mechanism comprises a first CCD camera and a first moving member, the first CCD camera is arranged on the first moving member to translate in a direction perpendicular to the conveying direction of the coil under the driving of the first moving member, and the first CCD camera is used for capturing the attaching position of the coil of the upper attaching platform;

the second alignment mechanism comprises a second CCD camera and a second moving piece, the second CCD camera is arranged on the second moving piece and is driven by the second moving piece to move horizontally in the direction perpendicular to the conveying direction of the sheet materials, and the second CCD camera is used for capturing the adhering position of the sheet materials of the lower adhering platform.

9. The heating dust removal platform according to claim 1, further comprising a dust removal assembly, wherein the dust removal assembly comprises a dust removal roller and a second lifting mechanism, the dust removal roller is rotatably connected to the second lifting mechanism and is located between the sheet material feeding station and the laminating station, the second lifting mechanism is installed on the frame, and the second lifting mechanism drives the dust removal roller to lift and lower the laminating assembly to remove dust from the sheet material.

10. A laminator comprising a laminator body and a heated dusting table according to any of claims 1 to 9.

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