CN118024708A - Multilayer thin-medium thick copper plate pressing device and pressing method thereof - Google Patents

Abstract

The invention relates to the technical field of thick copper plate processing and discloses a multilayer thin medium thick copper plate pressing device and a pressing method thereof, wherein the multilayer thin medium thick copper plate pressing device comprises a base, a square groove is formed in the top of the base, a plurality of table legs are fixedly connected to the periphery of the bottom of the base respectively, a pressing shell is fixedly connected to the top of the base, an access opening is formed in the bottom ends of two sides of the pressing shell respectively, the multilayer thin medium thick copper plate pressing device further comprises a rotating pressing mechanism, the rotating pressing mechanism comprises a motor fixedly connected to one end of the side wall of the base, the output end of the motor is fixedly connected with a rotating shaft, one end of the rotating shaft penetrates through the base and extends to the inside of the square groove, the square plate drives a toothed plate to fall, the toothed plate is arranged through teeth of the toothed plate and enables the toothed plate to fall down to enable the toothed plate to mesh and rotate, the toothed plate drives a limiting sleeve to rotate, the limiting sleeve drives an arc-shaped fan to rotate, and air flow is generated to clean dust impurities on the surface of a medium thick copper plate, and the impurities are prevented from being carbonized, and the appearance of the medium thick copper plate is influenced.

Description

Multilayer thin-medium thick copper plate pressing device and pressing method thereof

Technical Field

The invention relates to the technical field of thick copper plate processing, in particular to a multilayer thin-medium thick copper plate pressing device and a pressing method thereof.

Background

The thick copper plate has the advantages of carrying large current, reducing strain and being good in heat dissipation, and due to the characteristic that the copper thickness is thicker (more than or equal to 103 mm), a plurality of processing difficulties exist in the processing and production process of the PCB, and particularly, the multilayer thin dielectric layers and the thick copper plate are required to be pressed together in a high-temperature and high-pressure mode in the pressing procedure, so that the composite board is formed.

But current compression fittings does not have the clean up at the medium surface in the course of the work, perhaps has the space between medium and the copper, all can lead to bonding effect not good enough, and at the in-process of pressfitting machine at the pressfitting, pressure distribution is inhomogeneous, and the bonding effect that can lead to local region is relatively poor for medium or copper receive the damage.

Disclosure of Invention

The invention aims to provide a laminating device and a laminating method for a multilayer thin-medium thick copper plate, which are used for solving the problems in the background technology.

In order to solve the technical problems, the invention is realized by the following technical scheme:

The invention relates to a multilayer thin-medium thick copper plate pressing device and a pressing method thereof, wherein the pressing device comprises a base, a square groove is formed in the top of the base, a plurality of table feet are fixedly connected to the periphery of the bottom of the base respectively, a pressing shell is fixedly connected to the top of the base, an access opening is formed in the bottom ends of two sides of the pressing shell respectively, the pressing device further comprises a rotating pressing mechanism, the rotating pressing mechanism comprises a motor fixedly connected to one end of the side wall of the base, the output end of the motor is fixedly connected with a rotating shaft, one end of the rotating shaft penetrates through the base and extends into the square groove, a first rotating sleeve is sleeved and fixedly connected to the outer wall of the rotating shaft, a belt is sleeved and rotatably connected to the outer wall of the first rotating sleeve, a second rotating sleeve is sleeved and rotatably connected to the inner wall of one end of the belt, which is far away from the first rotating sleeve, a fixing rod is sleeved and contacted with the inner wall of the square groove respectively, and pressing components are arranged on the inner wall of the pressing shell.

Further, the pressing assembly comprises a telescopic rod fixedly connected to the top of the inner wall of the pressing shell, a heating shell is fixedly connected to the bottom of the telescopic rod, a first heating plate is fixedly connected to the top of the inner wall of the heating shell, and a plurality of clamping plates are fixedly connected to the periphery of the outer wall of the belt respectively.

Further, the second heating plate is fixedly connected with respectively to the inner wall both sides of pressfitting shell, and the outer wall top both sides of heating shell are hexagonal post respectively fixedly connected with, and the top fixedly connected with square board of hexagonal post, the bottom fixedly connected with montant of square board, the bottom fixedly connected with push pedal of montant.

Further, the top of base is provided with the removal subassembly, and the removal subassembly includes the square shell of fixed connection at base top both ends, and the square shell sets up in the inside of pressfitting shell, and the one end of montant runs through the square shell and extends to the inside of square shell, and the push pedal setting has seted up the square groove respectively in the inside of square shell, the inner wall both sides of square shell.

Further, sliding connection has the lifter between two square grooves, and the both ends outer wall cover of lifter is established and fixedly connected with bullet rope, and the one end fixed connection that the lifter was kept away from to the bullet rope is at the inner wall top of square shell, and the cover is established in the outer wall middle-end of lifter and is rotated and be connected with the elastic plate, and the one end lateral wall that the lifter was kept away from to the elastic plate runs through and fixedly connected with auxiliary rod, and the both ends outer wall of auxiliary rod all overlaps to be established and is rotated and be connected with the rubber sleeve.

Further, the lateral wall of square board is provided with the clearance subassembly, and the clearance subassembly includes fixed connection pinion rack in square board both sides, and inner wall one side both ends of pressfitting shell are a plurality of stop collar respectively fixedly connected with, and the inner wall of stop collar rotates and is connected with the dwang, and the one end outer wall cover of dwang is established and fixedly connected with gear, and the one end outer wall fixedly connected with arc fan that the dwang is close to the gear.

Further, the inner wall of square groove is provided with auxiliary assembly, and auxiliary assembly includes a plurality of gag lever post of fixed connection in square groove inner wall one side, and the outer wall middle pot head of gag lever post is established and fixedly connected with silicone rubber sleeve, and the outer wall both ends that the gag lever post is close to silicone rubber sleeve overlap respectively and establish and contact and have the connecting plate, one side fixedly connected with gasbag of connecting plate.

Further, one side both ends of gasbag are linked together respectively and are had the return bend, and the one end of return bend runs through the base and extends to the outside of base, and the one end intercommunication that the return bend kept away from the gasbag has the transfer box, and inner wall one side fixedly connected with reset spring of transfer box, the one end fixedly connected with reciprocating plate of reset spring, one side fixedly connected with reciprocating rod that reset spring was kept away from to the reciprocating plate.

Further, one end of the reciprocating rod penetrates through the conversion box and extends to the outside of the conversion box, one end of the reciprocating rod, which is far away from the reciprocating plate, is fixedly connected with an L-shaped plate, one side of the inner wall of the L-shaped plate penetrates through and is fixedly connected with a clamping rod, and one end outer wall of the clamping rod is sheathed with and rotationally connected with a rubber roller.

A laminating device and a laminating method of a multilayer thin-medium thick copper plate comprise the following steps:

Step one: firstly, a second heating plate is started, a preliminarily pressed medium thick copper plate is placed between two clamping plates, a motor is started, the motor drives a rotating shaft to rotate, the rotating shaft drives a first rotating sleeve to rotate, the first rotating sleeve drives a belt to rotate, the belt drives the clamping plates to rotate, when the medium thick copper plate moves to the center of the device, the motor is closed, a telescopic rod is started at the same time, the telescopic rod drives a heating shell to fall, the heating shell drives the first heating plate to fall, and the problem of uneven heating in the pressing process is solved;

Step two: the heating shell drives the hexagonal column to fall, the hexagonal column drives the square plate to fall, the square plate drives the vertical rod to fall, the vertical rod drives the push plate to fall, the push plate enables the elastic plate to fall, the elastic plate drives the lifting rod to fall, the auxiliary rod is driven to move to one side in the falling process of the elastic plate through the inclined arrangement of the elastic plate, the auxiliary rod drives the rubber sleeve to move to one side, and the problem that multilayer medium thick copper plates are not stacked accurately after transportation is solved;

Step three: the square plate drives the toothed plate to fall, the toothed plate falls to enable the toothed wheel to mesh and rotate through the toothed teeth of the toothed plate, the toothed wheel drives the rotating rod to rotate, and the rotating rod drives the arc-shaped fan to rotate, so that the problem of dust and impurities remained on the surface of the medium thick copper plate in the transportation process is solved;

Step four: through the setting of second hot plate and silicone rubber cover, the silicone rubber cover passes the connecting plate, and the connecting plate passes the gasbag, through return bend, the setting of transfer case, and the reciprocating plate moves to one end in the inside of transfer case, and the reciprocating plate drives the reciprocating rod and removes, and the reciprocating rod drives L template and removes, and L template drives the card pole and removes, and the card pole drives the rubber roller and removes, has solved the problem that medium thick copper edge exists the clearance.

The invention has the following beneficial effects:

(1) According to the invention, the square plate drives the toothed plate to fall, the toothed plate is arranged through the toothed teeth of the toothed plate and the toothed gear, the toothed plate falls to enable the toothed gear to mesh and rotate, the toothed gear drives the rotating rod to rotate, the rotating rod drives the arc-shaped fan to rotate, air flow is generated, dust and impurities on the surface of the medium thick copper plate are cleaned by the air flow, and the impurities are prevented from being carbonized, so that the attractive appearance of the medium thick copper plate is influenced.

(2) According to the invention, the heating shell drives the hexagonal column to fall, the hexagonal column drives the square plate to fall, the square plate drives the vertical rod to fall, the vertical rod drives the push plate to fall, the push plate drives the elastic plate to fall, the elastic plate drives the lifting rod to fall, the auxiliary rod is driven to slide at the top of the base in the falling process of the elastic plate through the inclined arrangement of the elastic plate, the auxiliary rod drives the rubber sleeve to slide at the top of the base, and the rubber sleeve pushes the edge of the medium thick copper plate, so that the medium thick copper plate is more accurate to be overlapped, and the pressure is uniform when the medium thick copper plate is pressed conveniently.

(3) According to the invention, the second heating plate is started to preheat the inside of the pressing shell, the preliminarily pressed medium thick copper plate is placed between the two clamping plates, the motor is started to drive the rotating shaft to rotate, the rotating shaft drives the first rotating sleeve to rotate, the first rotating sleeve drives the belt to rotate, the belt drives the clamping plates to rotate, when the medium thick copper plate moves to the center of the device, the motor is closed, the telescopic rod is started at the same time, the telescopic rod drives the heating shell to fall, the heating shell drives the first heating plate to fall, the first heating plate conducts heat to the outer wall of the heating shell, and the medium thick copper plate is heated while being pressed, so that the bonding efficiency of the medium thick copper plate is improved.

(4) According to the invention, when the heating shell is used for pressing the medium thick copper plate, the medium thick copper plate causes pressure on the belt, the belt causes pressure on the silicone rubber sleeve, the silicone rubber sleeve is deformed through the heating arrangement of the second heating plate, and meanwhile, the property of the silicone rubber sleeve has a good heat conduction effect, so that the bonding efficiency of the medium thick copper plate is improved, the medium thick copper plate is carried, and the pressure distribution effect of the device on the medium thick copper plate is improved.

(5) According to the invention, the silicon rubber sleeve deforms to push the connecting plate, the connecting plate pushes the air bag, internal air flow enters the inside of the conversion box through the bent pipe, the air flow pushes the reciprocating plate, the reciprocating plate moves in the conversion box, the reciprocating plate drives the reciprocating rod to move, the reciprocating rod drives the L-shaped plate to move, the L-shaped plate drives the clamping rod to move, the clamping rod drives the rubber roller to move, the rubber roller rolls the edge of the medium thick copper plate in the moving process, gaps are prevented from being formed between the medium thick copper plates, and the bonding effect of the medium thick copper plate is enhanced.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic overall sectional view of the present invention;

FIG. 3 is a schematic diagram of the overall side half-section structure of the present invention;

FIG. 4 is a schematic view of the present invention from the bottom with its interior section;

FIG. 5 is a schematic view of the internal semi-sectioned side view of the present invention;

FIG. 6 is a schematic side cross-sectional view of a rotary press-fit mechanism according to the present invention;

FIG. 7 is an enlarged view of FIG. 5A in accordance with the present invention;

FIG. 8 is an enlarged view of B of FIG. 6 in accordance with the present invention;

fig. 9 is a schematic diagram of the lamination method of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

In the figure: 1. a base; 2. a square groove; 3. a table leg; 4. pressing the shell; 5. an access opening; 6. rotating the pressing mechanism; 61. a motor; 62. a rotating shaft; 63. a first rotating sleeve; 64. a belt; 65. a fixed rod; 66. a second rotating sleeve; 67. a pressing assembly; 68. a moving assembly; 69. cleaning the assembly; 60. an auxiliary component; 671. a telescopic rod; 672. heating the shell; 673. a first heating plate; 674. a clamping plate; 675. a second heating plate; 676. hexagonal columns; 677. a square plate; 678. a vertical rod; 679. a push plate; 681. a square shell; 682. a square groove; 683. a rope is sprung; 684. a lifting rod; 685. an elastic plate; 686. an auxiliary lever; 687. a rubber sleeve; 691. a toothed plate; 692. a gear; 693. a rotating lever; 694. a limit sleeve; 695. arc-shaped fans; 601. a limit rod; 602. a silicone rubber sleeve; 603. a connecting plate; 604. an air bag; 605. bending the pipe; 606. a transfer box; 607. a reset spring; 608. a shuttle plate; 609. a reciprocating lever; 6010. an L-shaped plate; 6011. a clamping rod; 6012. rubber roller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention relates to a lamination device and a lamination method for a multilayer thin-medium thick copper plate, comprising a base 1, wherein a square groove 682 is provided at the top of the base 1, a plurality of table legs 3 are fixedly connected to the periphery of the bottom of the base 1, the purpose of the arrangement is to carry out a bearing device, the top of the base 1 is fixedly connected with a lamination shell 4, and the bottom ends of two sides of the lamination shell 4 are respectively provided with an inlet and an outlet 5, and the lamination device further comprises;

The rotating and pressing mechanism 6 comprises a motor 61 fixedly connected to one end of the side wall of the base 1, the output end of the motor 61 is fixedly connected with a rotating shaft 62, one end of the rotating shaft 62 penetrates through the base 1 and extends to the inside of the square groove 682, the outer wall of the rotating shaft 62 is sleeved with a first rotating sleeve 63 fixedly connected with a belt 64, the outer wall of the first rotating sleeve 63 is sleeved with a belt 64 and is rotatably connected with a second rotating sleeve 66, one end inner wall of the belt 64, far from the first rotating sleeve 63, is sleeved with and is rotatably connected with a fixing rod 65, the purpose of the arrangement is to prevent the second rotating sleeve 66 from falling, two ends of the fixing rod 65 are fixedly connected with the inner wall of the square groove 682, and the inner wall of the pressing shell 4 is provided with a pressing assembly 67.

The pressing assembly 67 comprises a telescopic rod 671 fixedly connected to the top of the inner wall of the pressing shell 4, a heating shell 672 is fixedly connected to the bottom of the telescopic rod 671, a first heating plate 673 is fixedly connected to the top of the inner wall of the heating shell 672, a plurality of clamping plates 674 are fixedly connected to the periphery of the outer wall of the belt 64 respectively, and the purpose of the arrangement is that the medium thickness copper plate is limited.

The second heating plates 675 are fixedly connected to the two sides of the inner wall of the pressing shell 4 respectively, the purpose of the arrangement is to conduct heat to the heating shell 672, hexagonal columns 676 are fixedly connected to the two sides of the top of the outer wall of the heating shell 672 respectively, square plates 677 are fixedly connected to the tops of the hexagonal columns 676, vertical rods 678 are fixedly connected to the bottoms of the square plates 677, and pushing plates 679 are fixedly connected to the bottoms of the vertical rods 678.

The top of the base 1 is provided with a moving component 68, the moving component 68 comprises square shells 681 fixedly connected to two ends of the top of the base 1, the square shells 681 are arranged in the pressing shell 4, one end of a vertical rod 678 penetrates through the square shells 681 and extends to the inside of the square shells 681, a push plate 679 is arranged in the square shells 681, square grooves 682 are respectively formed in two sides of the inner wall of the square shells 681, and the purpose of the arrangement is to limit a falling track.

The lifter 684 is slidably connected between the two square grooves 682, elastic ropes 683 are sleeved and fixedly connected to the outer walls of the two ends of the lifter 684, the purpose of the arrangement is to reset, one end of each elastic rope 683, which is far away from the lifter 684, is fixedly connected to the top of the inner wall of the square shell 681, the middle end of the outer wall of the lifter 684 is sleeved and rotatably connected with an elastic plate 685, the purpose of the arrangement is to facilitate deformation, the elastic plate 685 is far away from the side wall of one end of the lifter 684, penetrates through and is fixedly connected with an auxiliary rod 686, and the outer walls of the two ends of the auxiliary rod 686 are sleeved and rotatably connected with rubber sleeves 687.

The lateral wall of square plate 677 is provided with clearance subassembly 69, clearance subassembly 69 includes rack 691 of fixed connection in square plate 677 both sides, and inner wall one side both ends of pressfitting shell 4 are fixedly connected with a plurality of stop collar 694 respectively, and the inner wall rotation of stop collar 694 is connected with dwang 693, and the one end outer wall cover of dwang 693 is established and fixedly connected with gear 692, and dwang 693 is close to one end outer wall fixedly connected with a plurality of arc fan 695 of gear 692.

The inner wall of square slot 682 is provided with auxiliary assembly 60, and auxiliary assembly 60 includes a plurality of gag lever post 601 of fixed connection in square slot 682 inner wall one side, and the outer wall middle end cover of gag lever post 601 is established and fixedly connected with silicone rubber cover 602, and the outer wall both ends that gag lever post 601 is close to silicone rubber cover 602 overlap respectively and are established and contact with connecting plate 603, and one side fixedly connected with gasbag 604 of connecting plate 603.

One side both ends of gasbag 604 are linked together respectively and are had return bend 605, and the one end of return bend 605 runs through base 1 and extends to the outside of base 1, and the one end intercommunication that return bend 605 kept away from gasbag 604 has transfer case 606, and the inner wall one side fixedly connected with reset spring 607 of transfer case 606, the purpose of setting like this is to reset, and one end fixedly connected with reciprocating plate 608 of reset spring 607, and one side fixedly connected with reciprocating rod 609 that reset spring 607 was kept away from to reciprocating plate 608.

One end of the reciprocating lever 609 penetrates through the conversion box 606 and extends to the outside of the conversion box 606, one end of the reciprocating lever 609 away from the reciprocating plate 608 is fixedly connected with an L-shaped plate 6010, one side of the inner wall of the L-shaped plate 6010 penetrates through and is fixedly connected with a clamping lever 6011, and one end outer wall of the clamping lever 6011 is sleeved with and rotationally connected with a rubber roller 6012.

A laminating device and a laminating method of a multilayer thin-medium thick copper plate comprise the following steps:

Step one: firstly, a second heating plate 675 is started, a preliminarily pressed medium thick copper plate is placed between two clamping plates 674, a motor 61 is started, the motor 61 drives a rotating shaft 62 to rotate, the rotating shaft 62 drives a first rotating sleeve 63 to rotate, the first rotating sleeve 63 drives a belt 64 to rotate, the belt 64 drives the clamping plates 674 to rotate, when the medium thick copper plate moves to the center of the device, the motor 61 is closed, meanwhile, a telescopic rod 671 is started, the telescopic rod 671 drives a heating shell 672 to fall, the heating shell 672 drives a first heating plate 673 to fall, and the problem of uneven heating in the lamination process is solved;

Step two: the heating shell 672 drives the hexagonal column 676 to fall, the hexagonal column 676 drives the square plate 677 to fall, the square plate 677 drives the vertical rod 678 to fall, the vertical rod 678 drives the push plate 679 to fall, the push plate 679 enables the elastic plate 685 to fall, the elastic plate 685 drives the lifting rod 684 to fall, the auxiliary rod 686 is driven to move to one side in the falling process of the elastic plate 685 through the inclined arrangement of the elastic plate 685, the auxiliary rod 686 drives the rubber sleeve 687 to move to one side, and the problem that multilayer medium thick copper plates are not stacked accurately after transportation is solved;

Step three: the square plate 677 drives the toothed plate 691 to fall, the toothed plate 691 falls to enable the toothed plate 692 to be meshed and rotated through the arrangement of the toothed wheel 692 and the teeth of the toothed plate 691, the toothed wheel 692 drives the rotating rod 693 to rotate, and the rotating rod 693 drives the arc-shaped fan 695 to rotate, so that the problem of dust and impurities remained on the surface of the medium thick copper plate in the transportation process is solved;

Step four: through the setting of second hot plate 675 and silicone rubber cover 602, silicone rubber cover 602 passes connecting plate 603, and connecting plate 603 passes gasbag 604, through return bend 605, the setting of transfer case 606, and reciprocating plate 608 moves to one end in the inside of transfer case 606, and reciprocating plate 608 drives reciprocating lever 609 and moves, and reciprocating lever 609 drives L template 6010 and moves, and L template 6010 drives clamping lever 6011 and moves, and clamping lever 6011 drives rubber roller 6012 and moves, has solved the problem that medium thick copper plate edge exists the clearance.

When the device is used, the second heating plate 675 is started firstly, the inside of the pressing shell 4 is preheated, the preliminarily pressed medium thick copper plate is placed between the two clamping plates 674, the motor 61 is started, the motor 61 drives the rotating shaft 62 to rotate, the rotating shaft 62 drives the first rotating sleeve 63 to rotate, the first rotating sleeve 63 drives the belt 64 to rotate, the belt 64 drives the clamping plates 674 to rotate, when the medium thick copper plate moves to the center of the device, the motor 61 is closed, the telescopic rod 671 is started simultaneously, the telescopic rod 671 drives the heating shell 672 to fall, the heating shell 672 drives the first heating plate 673 to fall, the first heating plate 673 conducts heat to the outer wall of the heating shell 672, the medium thick copper plate is heated while being pressed, and the bonding efficiency of the medium thick copper plate is improved.

The heating shell 672 drives the hexagonal post 676 to fall, the hexagonal post 676 drives the square plate 677 to fall, the square plate 677 drives the montant 678 to fall, the montant 678 drives the push pedal 679 to fall, the push pedal 679 makes the elastic plate 685 to fall, the elastic plate 685 drives the lifter 684 to fall, through the slope setting of the elastic plate 685, the elastic plate 685 falls the in-process and drives auxiliary rod 686 to slide at the top of base 1, auxiliary rod 686 drives rubber sleeve 687 to slide at the top of base 1, rubber sleeve 687 promotes medium thick copper plate edge, make the superimposed more accurate of medium thick copper plate, the pressure when having made things convenient for the medium thick copper plate to press.

Square board 677 drives pinion rack 691 and drops, and through the tooth setting of gear 692 and pinion rack 691, pinion rack 691 drops and makes gear 692 mesh rotation, and gear 692 drives dwang 693 and rotates, and dwang 693 drives arc fan 695 and rotates, produces the air current, and the air current has cleared up the surface dust impurity of medium thick copper, prevents that the impurity from being carbonized, influences the outward appearance of medium thick copper pleasing to the eye.

When the heating shell 672 presses the medium thick copper plate, the medium thick copper plate causes pressure to the belt 64, the belt 64 causes pressure to the silicone rubber sleeve 602, and the silicone rubber sleeve 602 deforms through the heating arrangement of the second heating plate 675, meanwhile, the property of the silicone rubber sleeve 602 has good heat conduction effect, the bonding efficiency of the medium thick copper plate is improved, the medium thick copper plate is carried, and the pressure distribution effect of the device to the medium thick copper plate is improved.

The silicon rubber sleeve 602 deforms, the connecting plate 603 is pushed, the connecting plate 603 pushes the air bag 604, internal air flows enter the inside of the conversion box 606 through the bent pipe 605, the air flows push the reciprocating plate 608, the reciprocating plate 608 moves in the inside of the conversion box 606, the reciprocating plate 608 drives the reciprocating rod 609 to move, the reciprocating rod 609 drives the L-shaped plate 6010 to move, the L-shaped plate 6010 drives the clamping rod 6011 to move, the clamping rod 6011 drives the rubber roller 6012 to move, the rubber roller 6012 rolls the edge of the medium thick copper plate in the moving process, gaps exist between the medium thick copper plates are prevented, and the bonding effect of the medium thick copper plate is enhanced.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. A multilayer thin medium thick copper plate pressing device is characterized in that: the novel multifunctional desk comprises a base (1), wherein square grooves (682) are formed in the top of the base (1), a plurality of desk legs (3) are fixedly connected to the periphery of the bottom of the base (1), a pressing shell (4) is fixedly connected to the top of the base (1), an inlet and an outlet (5) are formed in the bottom ends of two sides of the pressing shell (4) respectively, and the novel multifunctional desk further comprises;

The utility model provides a rotate pressing mechanism (6), rotate pressing mechanism (6) including fixed connection motor (61) at base (1) lateral wall one end, the output fixedly connected with axis of rotation (62) of motor (61), the one end of axis of rotation (62) runs through inside base (1) and extends to square groove (682), first rotation cover (63) are established and fixedly connected with to the outer wall cover of axis of rotation (62), first rotation cover (63) are established and are rotated and are connected with belt (64), one end inner wall cover that first rotation cover (63) were kept away from to belt (64) is established and is rotated and be connected with second rotation cover (66), dead lever (65) are established and are contacted to the inner wall cover of second rotation cover (66), the inner wall department of square groove (682) is all fixed at both ends of dead lever (65), the inner wall of pressfitting shell (4) is provided with pressfitting subassembly (67).

2. The multilayer thin-medium thick copper plate pressing device according to claim 1, wherein: the pressing assembly (67) comprises a telescopic rod (671) fixedly connected to the top of the inner wall of the pressing shell (4), a heating shell (672) is fixedly connected to the bottom of the telescopic rod (671), a first heating plate (673) is fixedly connected to the top of the inner wall of the heating shell (672), and a plurality of clamping plates (674) are fixedly connected to the periphery of the outer wall of the belt (64) respectively.

3. The multilayer thin-medium thick copper plate pressing device according to claim 2, wherein: the utility model discloses a heating device, including pressfitting shell (4), outer wall top, hexagonal post (676), square board (677), montant (678) are connected with in the bottom of square board (677), push pedal (679) are connected with in the bottom of montant (678) respectively to the inner wall both sides of pressfitting shell (4) respectively fixedly connected with second hot plate (675), the outer wall top both sides of heating shell (672) are hexagonal post (676) respectively fixedly connected with.

4. A multilayer thin dielectric thick copper plate laminating device according to claim 3, wherein: the top of base (1) is provided with movable element (68), movable element (68) are including square shell (681) of fixed connection at base (1) top both ends, fang Ke (681) set up the inside at pressfitting shell (4), the one end of montant (678) runs through square shell (681) and extends to the inside of square shell (681), push pedal (679) set up the inside at square shell (681), square groove (682) have been seted up respectively to the inner wall both sides of Fang Ke (681).

5. The multilayer thin-medium thick copper plate laminating device according to claim 4, wherein: two sliding connection has lifter (684) between square groove (682), both ends outer wall cover of lifter (684) is established and fixedly connected with bullet rope (683), the one end fixed connection that lifter (684) was kept away from to bullet rope (683) is at the inner wall top of square shell (681), the elastic plate (685) is established to the cover of end in the outer wall of lifter (684) and is rotated, one end lateral wall that lifter (684) was kept away from to elastic plate (685) runs through and fixedly connected with auxiliary rod (686), rubber sleeve (687) is all established to the cover of both ends outer wall of auxiliary rod (686) and is rotated and be connected with.

6. The multilayer thin-medium thick copper plate laminating device according to claim 5, wherein: the lateral wall of square board (677) is provided with clearance subassembly (69), clearance subassembly (69) are including pinion rack (691) of fixed connection in square board (677) both sides, inner wall one side both ends of pressfitting shell (4) are fixedly connected with a plurality of stop collar (694) respectively, the inner wall rotation of stop collar (694) is connected with dwang (693), one end outer wall cover of dwang (693) is established and fixedly connected with gear (692), one end outer wall fixedly connected with arc fan (695) that dwang (693) is close to gear (692).

7. The multilayer thin-medium thick copper plate laminating device according to claim 6, wherein: the inner wall of square groove (682) is provided with auxiliary assembly (60), auxiliary assembly (60) are including a plurality of gag lever post (601) of fixed connection in square groove (682) inner wall one side, end cover establishes and fixedly connected with silicone rubber cover (602) in the outer wall of gag lever post (601), outer wall both ends that gag lever post (601) are close to silicone rubber cover (602) are overlapped respectively and are established and contact with connecting plate (603), one side fixedly connected with gasbag (604) of connecting plate (603).

8. The multilayer thin-medium thick copper plate laminating device according to claim 7, wherein: one side both ends of gasbag (604) communicate respectively has return bend (605), the outside that base (1) was run through to one end of return bend (605) and extended to base (1), the one end intercommunication that gasbag (604) was kept away from to return bend (605) has transfer case (606), the inner wall one side fixedly connected with reset spring (607) of transfer case (606), the one end fixedly connected with reciprocating plate (608) of reset spring (607), one side fixedly connected with reciprocating rod (609) that reset spring (607) was kept away from to reciprocating plate (608).

9. The multilayer thin-medium thick copper plate pressing device according to claim 8, wherein: one end of the reciprocating rod (609) penetrates through the conversion box (606) and extends to the outside of the conversion box (606), one end, far away from the reciprocating plate (608), of the reciprocating rod (609) is fixedly connected with an L-shaped plate (6010), one side of the inner wall of the L-shaped plate (6010) penetrates through and is fixedly connected with a clamping rod (6011), and one end outer wall of the clamping rod (6011) is sleeved with and rotationally connected with a rubber roller (6012).

10. The bonding method of the bonding device for a thick copper plate with a plurality of layers of thin media according to claim 9, comprising the following steps:

Step one: firstly, a second heating plate (675) is started, a preliminarily pressed medium thick copper plate is placed between two clamping plates (674), a motor (61) is started, the motor (61) drives a rotating shaft (62) to rotate, the rotating shaft (62) drives a first rotating sleeve (63) to rotate, the first rotating sleeve (63) drives a belt (64) to rotate, the belt (64) drives the clamping plates (674) to rotate, when the medium thick copper plate moves to the center of the device, the motor (61) is closed, meanwhile, a telescopic rod (671) is started, the telescopic rod (671) drives a heating shell (672) to fall, and the heating shell (672) drives a first heating plate (673) to fall, so that the problem of uneven heating in the pressing process is solved;

Step two: the heating shell (672) drives the hexagonal column (676) to fall, the hexagonal column (676) drives the square plate (677) to fall, the square plate (677) drives the vertical rod (678) to fall, the vertical rod (678) drives the push plate (679) to fall, the push plate (679) drives the elastic plate (685) to fall, the elastic plate (685) drives the lifting rod (684) to fall, through the inclined arrangement of the elastic plate (685), the elastic plate (685) drives the auxiliary rod (686) to move to one side in the falling process, the auxiliary rod (686) drives the rubber sleeve (687) to move to one side, and the problem that multilayer medium thick copper plates are not stacked accurately after transportation is solved;

step three: the square plate (677) drives the toothed plate (691) to fall, the toothed plate (692) is arranged with teeth of the toothed plate (691), the toothed plate (691) falls to enable the toothed plate (692) to mesh and rotate, the toothed plate (692) drives the rotating rod (693) to rotate, and the rotating rod (693) drives the arc-shaped fan (695) to rotate, so that the problem of dust impurities remained on the surface of the medium thick copper plate in the transportation process is solved;

Step four: through the setting of second hot plate (675) and silicone rubber cover (602), silicone rubber cover (602) is passed connecting plate (603), connecting plate (603) is passed gasbag (604), through setting up of return bend (605), transfer case (606), reciprocating plate (608) is moved to one end in the inside of transfer case (606), reciprocating plate (608) drives reciprocating rod (609) and removes, reciprocating rod (609) drive L template (6010) and remove, L template (6010) drive clamping rod (6011) remove, clamping rod (6011) drive rubber roller (6012) remove, medium thickness copper edge has solved the problem of clearance.