CN216611771U - Covering machine suitable for soft board manufacturing - Google Patents

Abstract

The utility model discloses a taping machine suitable for manufacturing a soft board, which comprises a copper sheet feeding part; the copper sheet feeding part comprises a copper sheet conveying mechanism, a copper sheet upper pin mechanism and a first transfer mechanism, wherein the copper sheet conveying mechanism, the copper sheet upper pin mechanism and the first transfer mechanism are arranged in sequence; the copper sheet conveying mechanism comprises a roller type conveying line, and the roller type conveying line comprises rollers arranged in a staggered mode; the copper sheet upper pin mechanism comprises a first upper pin body and a drilling body arranged at the lower end of the first upper pin body; the first upper pin body and the drilling body operate on the same vertical line, and through the arrangement of the copper sheet feeding part, the problem that the copper sheet is easy to damage due to the fact that the thin copper sheet is too soft in the copper sheet feeding process is solved, the quality of the thin copper sheet in the thin copper sheet feeding process is effectively guaranteed, the damage rate of the thin copper sheet is reduced, the production yield of products is improved, the product quality is guaranteed, and resources are effectively saved.

Description

Covering machine suitable for soft board manufacturing

Technical Field

The utility model belongs to the technical field of covering machine equipment, and particularly relates to a covering machine suitable for manufacturing soft boards.

Background

The covering machine is a device for stacking copper sheets, aluminum sheets and wood base plates according to procedures and performing covering operation on four sides of the copper sheets, the aluminum sheets and the wood base plates.

When the taping machine in the prior art performs combined taping operation on thin copper sheets, the thin copper sheets are soft, the thin copper sheets are easy to fall in a roller gap in the conveying process, and in the process of installing pins after punching the imperforate thin copper sheets, the thin copper sheets need to be moved for many times in the punching operation and the pin installing operation, so that the positioning of the holes can generate deviation, the thin copper sheets are easy to crack when the pins are installed, the damage of the thin copper sheets is caused, the poor production rate of products is increased, and resources are wasted.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a be applicable to taping machine for the soft board manufacturing, through the setting of copper sheet material loading part, has solved the problem that the thin copper sheet is too soft and leads to the copper sheet material loading process fragile copper sheet, has realized effectively guaranteeing the quality of thin copper sheet material loading process, reduces the spoilage of thin copper sheet, improves the production yield of product, guarantees product quality, effectively saves the resource.

The technical scheme provided by the embodiment of the application is as follows:

a covering machine suitable for manufacturing soft boards comprises a copper sheet feeding component; the copper sheet feeding part comprises a copper sheet conveying mechanism, a copper sheet pin mechanism and a first transfer mechanism, wherein the copper sheet conveying mechanism and the copper sheet pin mechanism are sequentially arranged; the first transfer mechanism is movably arranged between the copper sheet conveying mechanism and the copper sheet upper pin mechanism; the copper sheet conveying mechanism comprises a roller type conveying line, and the roller type conveying line comprises rollers arranged in a staggered mode; the first transfer mechanism comprises a slide rail and an adjustable sucker movably connected with the slide rail; the copper sheet upper pin mechanism comprises a first upper pin body and a drilling body arranged at the lower end of the first upper pin body; the first upper pin body and the drilling body operate on the same vertical line.

The first transfer mechanism is used for moving the copper sheet from the copper sheet conveying mechanism to the pin mechanism on the copper sheet. The drilling body is used for drilling the copper sheet; the first upper pin body is used for carrying out upper pin operation on the copper sheet after drilling. The edge covering machine can be used for copper sheets with the thickness of 0.04mm-0.06 mm.

In the utility model, the copper sheet feeding operation flow comprises the following steps: the copper sheet conveying mechanism conveys the copper sheet to the lower end of the first transfer mechanism, and the first transfer mechanism moves the copper sheet to the copper sheet pin-mounting mechanism to perform drilling and pin-mounting operations. The first upper pin body moves downwards until the copper sheet is pressed, then the drilling body is started and moves upwards to drill the copper sheet, and after drilling is completed, the first upper pin body drives the pin into the hole of the copper sheet, so that the operation of drilling the pin on the copper sheet is completed. Through with the first body of going up the pin and the body of driling set up from top to bottom and operation on same perpendicular line, effectively reduce the copper sheet and remove, improve the precision of going up the pin operation, effectively prevent the copper sheet on the pin phenomenon of breaking away, guarantee the copper sheet quality, improve the production yield of product, effectively save the resource.

Through the dislocation set of gyro wheel, in the copper sheet data send process, effectively prevent that the copper sheet is too thin and the phenomenon between two gyro wheels around the too soft drippage, guarantee that the copper sheet in transportation process the gyro wheel reaches no point of drippage and even support to the copper sheet, improve the stable transportation of copper sheet, prevent that the copper sheet from being drawn into and lead to the copper sheet to damage in the roller type transfer chain, the copper sheet spoilage that significantly reduces.

Through setting up adjustable sucking disc, the copper sheet conveys the in-process of pin mechanism on the copper sheet from copper sheet conveying mechanism, and adjustable sucking disc can adjust the scope of sucking disc to the copper sheet adsorption affinity according to the copper sheet size, effectively improves the rigidity of copper sheet in the transportation, effectively prevents the copper sheet and droops, guarantees copper sheet horizontal migration, effectively reduces the spoilage of copper sheet. The actions are sequentially realized by the existing PLC control program.

The automatic code printing machine further comprises a wood base plate feeding component arranged on one side of the copper plate feeding component, an aluminum plate feeding component arranged on one side of the wood base plate feeding component, a rubber coating component arranged on one side of the aluminum plate feeding component, a laser code printing component arranged on one side of the rubber coating component, a discharging component arranged on one side of the laser code printing component, and a linear conveying component moving from the tail end of the pin mechanism on the copper plate to the laser code printing component.

The wood base plate feeding part is used for placing the wood base plate at the lower end of the copper sheet to stack the copper sheet and the wood base plate. The aluminum sheet feeding part is used for stacking the aluminum sheet to the upper end of the copper sheet. The rubber coating part is used for carrying out rubber coating operation on four sides of stacked copper sheets, aluminum sheets and wood base plates through using rubber coating to fix the copper sheets, the aluminum sheets and the wood base plates again. The laser coding component is used for performing laser coding on the aluminum sheet wrapped with the edge, and is convenient to identify. The blanking part is used for moving the board with the edge covered to a corresponding position for placing and waiting for conveying to the corresponding position. The linear conveying component is used for looping each link in each component and conveying the semi-finished products from one operating link to the next operating link. The operation of the above components is realized by the existing PLC control program. Through the arrangement of the parts, the copper sheets, the aluminum sheets and the wood base plates are stacked according to production requirements, the operation rhythm is compact, and the operation is stable. Effectively guarantee the preparation quality of product, the practicality is strong.

Furthermore, the copper sheet conveying mechanism also comprises a CCD positioning body, and a photosensitive sensor is arranged in the CCD positioning body; the copper sheet pin mechanism also comprises a second upper pin body; the interval between the adjacent rollers is 30-45 mm. The CCD positioning body is used for positioning the position of the copper sheet, and therefore subsequent pin operation on the copper sheet is facilitated. And conveying the copper sheet to a CCD positioning machine through a roller type conveying line to position the copper sheet so as to facilitate the accuracy of the moving part for moving the copper sheet. In the positioning process, the copper sheet is jacked up through a lifting cylinder in a copper sheet feeding part and is moved to a required position through an existing XY moving shaft below the roller type conveying line, so that the copper sheet is positioned. The method comprises the following steps that a photosensitive sensor is used for identifying the state of holes and holes of a copper sheet, the state of the copper sheet is effectively identified, and when the copper sheet is identified to be provided with holes, a first transfer mechanism transfers the copper sheet to a second upper pin body for pin mounting; when the copper sheet is identified to be holeless, the first transfer mechanism transfers the copper sheet to the first upper pin body to carry out drilling and pin loading operation, the operation area is flexibly selected according to different states of the copper sheet, the pin loading quality of the copper sheet is effectively guaranteed, and the operation is convenient.

Furthermore, the adjustable sucker comprises a tray body, a driving body arranged at the upper end of the tray body, a first sucker fixedly connected to one side of the tray body, and a second sucker adjacent to the first sucker and movably connected to the other side of the tray body; the first suction body is arranged symmetrically to the tray body, and the second suction body is arranged symmetrically to the tray body. The driving body and the second suction body are in threaded fit, so that the second suction body can slide left and right to rotate the driving body to meet the requirement of size change. The movable distance between the second suction body and the tray body is 10-200 mm. Through this setting, can suitably adjust according to not unidimensional panel, satisfy the variety, the practicality is strong.

Further, the first upper pin body and the second upper pin body are identical in structure; the first upper pin body comprises a first support frame, an upper pin block movably connected with the first support frame and a feeding tank arranged at the rear end of the first support frame; the drilling body comprises a second support frame fixedly connected to the lower end of the first support frame and a drilling machine connected with the second support frame in a sliding mode. Wherein, the movable connection of first support frame and last dowel piece can adopt the slide rail slider to cooperate and carry out sliding connection.

Through the above setting, the pin operation process on the copper sheet drilling is: after the copper sheet is placed into the first upper pin body by the first transfer mechanism, the upper pin block slides towards the copper sheet until the copper sheet is fixed, the drilling machine upwards drills from the bottom of the copper sheet through the second support frame, and after the drilling machine penetrates through the copper sheet, the drilling machine downwards moves to the original position through the second support frame, so that the drilling operation is completed; then, the pin is driven into the copper sheet hole through the upper pin block; after the pins are arranged on the copper sheets, the upper pin block returns to the original position upwards, the upper pin block is connected with the feeding tank, and the feeding tank feeds the pins into the upper pin block to prepare for next operation of the pins on the copper sheets, and the operation is carried out in a circulating and reciprocating mode. The operation of the pin on drilling is effectively and stably accomplished, and the pin precision on guaranteeing to drill improves the quality of the pin on the copper sheet drilling, and guarantees operating efficiency, and the operation links up smoothly, and compact structure effectively improves the operation convenience.

Furthermore, the wood base plate feeding part comprises a first stacking body arranged on one side of the pin mechanism on the copper sheet, a first plate placing body arranged on the other side of the first stacking body, and a first plate conveying body movable between the first stacking body and the first plate placing body. Wherein, the first board placing body is used for placing a wood base board. The first stacking body is used for a working area where copper sheets and wood base plates are stacked. The first conveying plate body is used for conveying the wood base plates to the first stacking body. Through this setting, with the wooden backing plate by first fortune plate body remove to first stack the body on, place the first stack body with the copper sheet again on, effectively accomplish copper sheet and wooden backing plate and stack the operation, stack the completion back, deliver to aluminum sheet material loading part with it through sharp conveyor parts, the operation flow is compact, efficient, stack the action simple and practical.

Furthermore, the aluminum sheet feeding part comprises a second stacking body arranged on one side of the wood base plate feeding part, a second plate placing body arranged on the other side of the second stacking body, and a second plate conveying body movable between the second stacking body and the second plate placing body. Wherein, the second placing plate body is used for placing an aluminum sheet. The second stacking body is used in an operation area for stacking aluminum sheets, copper sheets and wood base plates. The second conveying plate body is used for conveying the aluminum sheet to the second stacking body and stacking the aluminum sheet to the copper sheet. Through this setting, copper sheet and wooden backing plate transport through sharp conveying part and stack the board to the second on, transport the plate body with the aluminum sheet by the second and remove to copper sheet and wooden backing plate top, accomplish the aluminum sheet and stack the operation, stack the completion back, deliver to the rubber coating part with it through sharp conveying part, the operation flow is compact, and is efficient, stacks the simple and practical of action.

Furthermore, the rubber coating component comprises a jacking block and a rubber coating machine which is arranged symmetrically to the jacking block; the rubber coating machine is provided with 4. The jacking block is used for switching the encapsulation position, so that four-side encapsulation is completed. The rubber coating machine can be connected with the existing sliding block sliding rail in a sliding fit manner to deal with different plate length and plate width, rubber coating is carried out at the proper position, and the corresponding position of the rubber coating machine is realized by obtaining the plate length and plate width information through a PLC (programmable logic controller) so as to control the adjusting degree. The linear conveying component conveys aluminum sheets, copper sheets and wood base plates which are sequentially arranged up and down to the jacking block, two sides of each plate correspond to 2 rubber coating machines respectively, rubber coating is carried out on two sides of each plate firstly, after the rubber coating is finished, the jacking block rises for a certain distance and rotates for 90 degrees to descend to the plane of the rubber coating machine, and rubber coating operation is carried out on the other two sides of each plate, so that rubber coating operation is finished. Through this setting, effectively guarantee the rubber coating quality, improve rubber coating distribution uniformity.

Furthermore, the laser coding component comprises a fixed plate body and a laser coder arranged on one side of the fixed plate body. The straight line transport part conveys the good product of rubber coating to the laser coding part on, wherein decide the plate body and press from both sides the board steady, the laser coding ware is carried out laser coding to the board to accomplish the laser coding operation. Wherein the tightness of the fixed plate body is controlled by the existing PLC program. Through the setting, can know the corresponding information of every board, convenient and practical.

Furthermore, the blanking part comprises a mechanical arm and loading bodies arranged on four sides of the mechanical arm. After grabbing the board through the manipulator, the translation certain distance leaves the fixed plate body until the board, and on the dress carrier was placed with the board to the rethread manipulator, the unloading was swift convenient.

The utility model has the beneficial effects that:

through the arrangement of the copper sheet feeding part, the problem that the copper sheet is easy to damage in the copper sheet feeding process due to the fact that the thin copper sheet is too soft is solved, the quality of the thin copper sheet in the thin copper sheet feeding process is effectively guaranteed, the damage rate of the thin copper sheet is reduced, the production yield of products is improved, the product quality is guaranteed, and resources are effectively saved.

Drawings

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

FIG. 2 is a schematic structural view of a copper sheet feeding part according to the present invention;

FIG. 3 is a schematic view of an adjustable suction cup according to the present invention;

FIG. 4 is a schematic view of the first upper pin body and the drilling body of the present invention;

FIG. 5 is a schematic structural view of a loading part of the wood pallet of the present invention;

FIG. 6 is a schematic structural diagram of an aluminum sheet feeding part in the utility model;

FIG. 7 is a schematic view of the structure of the encapsulated component of the present invention;

FIG. 8 is a schematic view of a laser coding component according to the present invention;

FIG. 9 is a schematic view of the structure of the blanking member of the present invention.

The labels in the figure are: the copper sheet feeding device comprises a copper sheet feeding component 1, a copper sheet conveying mechanism 11, a roller type conveying line 111, a CCD positioning body 112, a copper sheet pin feeding mechanism 12, a first upper pin body 121, a first support frame 1211, an upper pin block 1212, a feeding tank 1213, a drilling body 122, a second support frame 1221, a drilling machine 1222, a second upper pin body 123, a first transfer mechanism 13, a slide rail 131, an adjustable sucker 132, a tray body 1321, a driving body 1322, a first sucker 1323 and a second sucker 1324; the wood base plate feeding part 2, a first stacking body 21, a first plate placing body 22 and a first plate conveying body 23; an aluminum sheet feeding part 3, a second stacking body 31, a second placing body 32, a second conveying body 33; the rubber coating component 4, the jacking block 41 and the rubber coating machine 42; a laser coding member 5, a fixed plate body 51, a laser coder 52; a blanking member 6, a robot 61, and a loading body 62.

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.

Examples

To facilitate an understanding of the present invention for those skilled in the art, the present invention will be described in further detail below with reference to specific embodiments and accompanying drawings.

As shown in fig. 1-9, an embodiment of the present invention provides a taping machine suitable for soft board manufacturing, which comprises a copper sheet feeding part 1; the copper sheet feeding part 1 comprises a copper sheet conveying mechanism 11, a copper sheet upper pin mechanism 12 and a first transfer mechanism 13, wherein the copper sheet conveying mechanism 11 and the copper sheet upper pin mechanism 12 are sequentially arranged; the first transfer mechanism 13 is movably arranged between the copper sheet conveying mechanism 11 and the copper sheet upper pin mechanism 12; the copper sheet conveying mechanism 11 comprises a roller type conveying line 111, and the roller type conveying line 111 comprises rollers arranged in a staggered mode; the first transfer mechanism 13 comprises a slide rail 131 and an adjustable suction cup 132 movably connected with the slide rail 131; the copper sheet pin mechanism 12 comprises a first upper pin body 121 and a drilling body 122 arranged at the lower end of the first upper pin body 121; the first upper pin body 121 and the drilling body 122 operate on the same vertical line.

The first transfer mechanism 13 is used for transferring the copper sheet from the copper sheet conveying mechanism 11 to the copper sheet upper pin mechanism 12. The drilling body 122 is used for drilling the copper sheet; the first upper pin body 121 is used for performing an upper pin operation on the copper sheet after the hole drilling. The edge covering machine can be used for copper sheets with the thickness of 0.04mm-0.06 mm.

In the utility model, the copper sheet feeding operation flow comprises the following steps: the copper sheet conveying mechanism 11 conveys the copper sheets to the lower end of the first transfer mechanism 13, and the first transfer mechanism 13 moves the copper sheets to the copper sheet pin-on-pin mechanism 12 to perform drilling and pin-on-pin operation. The first upper pin body 121 moves downwards until the copper sheet is pressed, then the drilling body 122 is started to move upwards and drill the copper sheet, and after drilling is completed, the first upper pin body 121 drives pins into the holes of the copper sheet, so that the operation of drilling and nailing the copper sheet is completed. Through setting up and operating on same vertical line about with first last pin body 121 and drilling body 122, effectively reducing the copper sheet and removing, improve the precision of going up the pin operation, effectively prevent the copper sheet on the pin phenomenon of breaking, guarantee the copper sheet quality, improve the production yield of product, effectively save the resource.

Through the dislocation set of gyro wheel, in the copper sheet data send process, effectively prevent that the copper sheet is too thin and the phenomenon between two gyro wheels around the too soft drippage, guarantee that the copper sheet in transportation process the gyro wheel reaches no point of drippage and even support to the copper sheet, improve the stable transportation of copper sheet, prevent that the copper sheet from being drawn into and lead to the copper sheet to damage in the roller type transfer chain, the copper sheet spoilage that significantly reduces.

Through setting up adjustable sucking disc, the copper sheet conveys the in-process of 12 on the copper sheet pin mechanisms from copper sheet conveying mechanism 11, and adjustable sucking disc can adjust the scope of sucking disc to the copper sheet adsorption affinity according to the copper sheet size, effectively improves the rigidity of copper sheet in the transportation, effectively prevents that the copper sheet from droing, guarantees copper sheet horizontal migration, effectively reduces the spoilage of copper sheet. The actions are sequentially realized by the existing PLC control program.

In one embodiment, the device further comprises a wood pad feeding part 2 arranged on one side of the copper pad feeding part 1, an aluminum sheet feeding part 3 arranged on one side of the wood pad feeding part 2, an encapsulating part 4 arranged on one side of the aluminum sheet feeding part 3, a laser coding part 5 arranged on one side of the encapsulating part 4, a blanking part 6 arranged on one side of the laser coding part 5, and a linear conveying part moving between the tail end of the pin mechanism 12 on the copper pad and the laser coding part 5.

The wood base plate feeding part 2 is used for placing the wood base plate at the lower end of the copper sheet to stack the copper sheet and the wood base plate. The aluminum sheet feeding part 3 is used for stacking an aluminum sheet to the upper end of the copper sheet. The rubber coating part 4 is used for gluing the four sides of stacked copper sheets, aluminum sheets and wood base plates by using adhesive to fix the copper sheets, the aluminum sheets and the wood base plates again. The laser coding component 5 is used for performing laser coding on the aluminum sheet wrapped with the edge, and is convenient to identify. The blanking part 6 is used for moving the board with the edge covered to the corresponding position for placing and waiting to be conveyed to the corresponding position. The linear conveying component is used for looping each link in each component and conveying the semi-finished products from one operating link to the next operating link. The operation of the above components is realized by the existing PLC control program. Through the arrangement of the parts, the copper sheets, the aluminum sheets and the wood base plates are stacked according to production requirements, the operation rhythm is compact, and the operation is stable. Effectively guarantee the preparation quality of product, the practicality is strong.

In one embodiment, the copper sheet conveying mechanism 11 further comprises a CCD positioning body 112, and a photosensitive sensor is arranged in the CCD positioning body 112; the copper sheet pin mechanism 12 further comprises a second upper pin body 123; the interval between the adjacent rollers is 30-45 mm. The CCD positioning body 112 is used for positioning the position of the copper sheet, so that the subsequent pin operation on the copper sheet is facilitated. And conveying the copper sheet to a CCD positioning machine through a roller type conveying line to position the copper sheet so as to facilitate the accuracy of the moving part for moving the copper sheet. In the positioning process, the copper sheet is jacked up through a lifting cylinder in a copper sheet feeding part and is moved to a required position through an existing XY moving shaft below the roller type conveying line, so that the copper sheet is positioned. The state of the copper sheet with holes and holes is identified through the photosensitive sensor, the state of the copper sheet is effectively identified, and when the copper sheet is identified to be with holes, the first transfer mechanism 13 transfers the copper sheet to the second upper pin body 123 for pin mounting; when the copper sheet is identified to have no hole, the first transferring mechanism 13 transfers the copper sheet to the first upper pin body 121 to perform drilling and pin mounting operations, and the operation area is flexibly selected according to different states of the copper sheet, so that the pin mounting quality of the copper sheet is effectively ensured, and the operation is convenient.

In one embodiment, the adjustable suction cup 132 comprises a tray 1321, a driving body 1322 arranged at the upper end of the tray 1321, a first suction body 1323 fixedly connected to one side of the tray, and a second suction body 1324 adjacent to the first suction body 1323 and movably connected to the other side of the tray; the first suckers 1323 are arranged symmetrically with respect to the tray 1321, and the second suckers 1324 are arranged symmetrically with respect to the tray 1321. The driving body 1322 and the second suction body 1324 are engaged with each other by a screw, so that the driving body 1322 is rotated to slide the second suction body 1324 left and right to meet the size change. The movable distance between the second sucker 1324 and the tray 1321 is 10-200 mm. Through this setting, can suitably adjust according to not unidimensional panel, satisfy the variety, the practicality is strong.

In one embodiment, the first upper pin body 121 and the second upper pin body 123 are identical in structure; the first upper pin body 121 comprises a first support 1211, an upper pin block 1212 movably connected with the first support 1211, and a feeding tank 1213 disposed at the rear end of the first support 1211; the drilling body 123 includes a second support 1221 fixedly connected to a lower end of the first support 1211, and a drilling machine 1222 slidably connected to the second support 1221. The movable connection between the first support 1211 and the upper pin block 1212 may be a sliding connection by a sliding rail and a sliding block.

Through the above setting, the pin operation process on the copper sheet drilling is: after the first shifting mechanism 13 puts the copper sheet into the first upper pin body 121, the upper pin block 1212 slides towards the copper sheet until the copper sheet is fixed, the drilling machine 1222 starts to drill a hole from the bottom of the copper sheet upwards through the second support frame 1221, after the drilling machine 1222 penetrates through the copper sheet, the drilling machine 1222 moves downwards through the second support frame 1221 until the drilling machine 1222 reaches the original position, and thus the drilling operation is completed; then, the pin is driven into the copper sheet hole through the upper pin block 1212; after the pins on the copper sheet are finished, the upper pin block 1212 returns to the original position upwards, the upper pin block 1212 is connected with the feeding tank 1213, and the feeding tank 1213 sends the pins into the upper pin block 1212 to prepare for the next pin loading operation on the copper sheet, and the operation is performed in a reciprocating manner. The operation of the pin on drilling is effectively and stably accomplished, and the pin precision on guaranteeing to drill improves the quality of the pin on the copper sheet drilling, and guarantees operating efficiency, and the operation links up smoothly, and compact structure effectively improves the operation convenience.

In one embodiment, the wood pallet feeding part 2 includes a first stacking body 21 disposed on one side of the copper sheet dowel mechanism 12, a first stacking body 22 disposed on the other side of the first stacking body 21, and a first conveying body 23 movable between the first stacking body 21 and the first stacking body 22. Wherein, the first board placing body 22 is used for placing a wood tie board. The first stacking body 21 is used in a working area where copper sheets and wood mats are stacked. The first pallet body 23 is used to transport the wooden pallets onto the first stacking body. Through this setting, with the wooden backing plate by first fortune plate body 23 remove to first stack body 21 on, place the copper sheet again on the first stack body 21, effectively accomplish copper sheet and wooden backing plate and stack the operation, stack the completion back, deliver to aluminum sheet material loading part 3 with it through sharp conveyor components, the operation flow is compact, efficient, stack the action simple and practical.

In one embodiment, the aluminum sheet feeding part 3 includes a second stacking body 31 disposed on one side of the wood pallet feeding part 2, a second placing body 32 disposed on the other side of the second stacking body 31, and a second conveying body 33 movable between the second stacking body 31 and the second placing body 32. Wherein, the second plate placing body 32 is used for placing an aluminum sheet. The second stacking body 31 is used in a working area where aluminum sheets, copper sheets and wood mats are stacked. The second transporting plate body 33 is used for transporting the aluminum sheets to the second stacking body 31 for stacking to the copper sheets. Through this setting, copper sheet and wooden backing plate transport through sharp conveyor parts and stack the board 31 to the second on, transport the plate body 33 with the aluminum sheet by the second and remove to copper sheet and wooden backing plate top, accomplish the aluminum sheet and stack the operation, stack the completion back, deliver to rubber coating part 4 with it through sharp conveyor parts, the operation flow is compact, and is efficient, stacks and moves simple and practical.

In one embodiment, the encapsulating component 4 includes a jacking block 41, and an encapsulating machine 42 arranged symmetrically to the jacking block 41; the rubber coating machine 42 is provided with 4. Wherein, the jacking block 41 is used for switching the encapsulation position, thereby completing the four-side encapsulation. The rubber coating machine 42 can be connected in a sliding fit manner through the existing sliding block sliding rail to deal with different plate length and plate width, rubber coating is carried out at a proper position, and the corresponding position of the rubber coating machine 42 is realized by obtaining plate length and plate width information through a PLC (programmable logic controller) so as to control the adjusting degree. The straight line conveying part sends aluminum sheet, copper sheet, the wooden backing plate that accomplish from top to bottom arrange in proper order to the jacking piece on, and the both sides of board correspond 2 rubber coating machines 42 respectively, carry out the rubber coating to the both sides of board earlier, after accomplishing, the jacking piece rises certain distance to rotatory 90 degrees and descends to rubber coating machine plane again, carries out the rubber coating operation to the other both sides of board to accomplish the rubber coating operation. Through this setting, effectively guarantee the rubber coating quality, improve rubber coating distribution uniformity.

In one embodiment, the laser coding component 5 includes a fixed plate 51, and a laser coder 52 disposed on one side of the fixed plate 51. The linear conveying component conveys the encapsulated product to the laser coding component 52, wherein the plate is clamped and stabilized by the fixed plate body 51, and the laser coding component 52 performs laser coding on the plate, so that the laser coding operation is completed. Wherein the tightness of the fixed plate body 51 is controlled by the existing PLC program. Through the setting, can know the corresponding information of every board, convenient and practical.

In one embodiment, the blanking member 6 includes a robot 61, and loading bodies 62 disposed on four sides of the robot 61. After grabbing the board through the manipulator, the translation certain distance leaves the fixed plate body until the board, and on the dress carrier was placed with the board to the rethread manipulator, the unloading was swift convenient.

The utility model has the beneficial effects that:

through the arrangement of the copper sheet feeding part, the problem that the copper sheet is easy to damage in the copper sheet feeding process due to the fact that the thin copper sheet is too soft is solved, the quality of the thin copper sheet in the thin copper sheet feeding process is effectively guaranteed, the damage rate of the thin copper sheet is reduced, the production yield of products is improved, the product quality is guaranteed, and resources are effectively saved.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art. It should be noted that the technical features not described in detail in the present invention can be implemented by any prior art.

Claims (10)

1. A covering machine suitable for manufacturing soft boards is characterized by comprising a copper sheet feeding part; the copper sheet feeding part comprises a copper sheet conveying mechanism, a copper sheet pin mechanism and a first transfer mechanism, wherein the copper sheet conveying mechanism and the copper sheet pin mechanism are sequentially arranged; the first transfer mechanism is movably arranged between the copper sheet conveying mechanism and the copper sheet upper pin mechanism; the copper sheet conveying mechanism comprises a roller type conveying line, and the roller type conveying line comprises rollers arranged in a staggered mode; the first transfer mechanism comprises a slide rail and an adjustable sucker movably connected with the slide rail; the copper sheet upper pin mechanism comprises a first upper pin body and a drilling body arranged at the lower end of the first upper pin body; the first upper pin body and the drilling body operate on the same vertical line.

2. The covering machine suitable for the soft board manufacturing according to claim 1, further comprising a wood base plate feeding part arranged on one side of the copper plate feeding part, an aluminum plate feeding part arranged on one side of the wood base plate feeding part, an encapsulating part arranged on one side of the aluminum plate feeding part, a laser coding part arranged on one side of the encapsulating part, a blanking part arranged on one side of the laser coding part, and a linear conveying part moving between the tail end of the pin mechanism on the copper plate and the laser coding part.

3. The covering machine suitable for manufacturing the soft board according to claim 1, wherein the copper sheet conveying mechanism further comprises a CCD positioning body, and a photosensitive sensor is arranged in the CCD positioning body; the copper sheet pin mechanism also comprises a second upper pin body; the interval between the adjacent rollers is 30-45 mm.

4. The taping machine for manufacturing soft boards according to claim 1, wherein the adjustable sucker comprises a tray body, a driving body arranged at the upper end of the tray body, a first suction body fixedly connected to one side of the tray body, and a second suction body adjacent to the first suction body and movably connected to the other side of the tray body; the second suction body is adjacent to the first suction body and is movably connected to the other side of the tray body; the first suction body is arranged symmetrically to the tray body, and the second suction body is arranged symmetrically to the tray body.

5. The hemming machine for manufacturing flexible boards according to claim 3 wherein the first upper pin body and the second upper pin body are identical in structure; the first upper pin machine comprises a first support frame, an upper pin block movably connected with the first support frame and a feeding tank arranged at the rear end of the first support frame; the drilling body comprises a second support frame fixedly connected to the lower end of the first support frame and a drilling machine connected with the second support frame in a sliding mode.

6. The covering machine suitable for the soft board manufacturing according to claim 2, wherein the wood cushion board feeding part comprises a first stacking body arranged on one side of the pin mechanism on the copper sheet, a first placing body arranged on the other side of the first stacking body, and a first transporting body moving between the first stacking body and the first placing body.

7. The covering machine for manufacturing the soft board according to claim 2, wherein the aluminum sheet feeding part comprises a second stacking body arranged on one side of the wood liner feeding part, a second board placing body arranged on the other side of the second stacking body, and a second board conveying body movable between the second stacking body and the second board placing body.

8. The taping machine suitable for soft board manufacturing according to claim 2, wherein the taping component comprises a jacking block, a taping machine arranged symmetrically to the jacking block; the rubber coating machine is provided with 4.

9. The covering machine for manufacturing the soft board according to claim 2, wherein the laser coding component comprises a fixed board body and a laser coder arranged on one side of the fixed board body.

10. The hemming machine for manufacturing flexible boards according to claim 2 wherein the blanking member includes a robot arm, and a carrying body provided on four sides of the robot arm.

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