CN215453458U - Mixed structure multi-variety cylinder manifold makeup device - Google Patents

Abstract

The utility model discloses a multi-variety bus board splicing device with a mixed structure, wherein a laminating die system comprises a die, the die comprises an upper die and a lower die, the center of the upper die is symmetrically provided with an upper die guide post hole, the center of the lower die is symmetrically provided with a lower die guide post hole which corresponds to the upper die guide post hole, a die guide post is arranged between the lower die guide post hole and the upper die guide post hole, a bus board laminated plate group comprises a bus board positioning bottom plate, a bus board laminated plate, a rubber pad and a bus board top plate, and the bus board laminated plate group is sequentially stacked above the lower die from bottom to top, is provided with a plurality of sets of bus board inner positioning pin hole groups, comprises a plurality of bus board inner positioning pin holes, is internally provided with bus board inner positioning pins, comprises a plurality of sets of bus board inner positioning pin holes, and is internally provided with a plurality of sets of bus board outer positioning pin hole groups, the bus board outer positioning pin hole group comprises a plurality of bus board outer positioning pin holes.

Description

Mixed structure multi-variety cylinder manifold makeup device

Technical Field

The utility model relates to the field of processing and manufacturing of printed circuit boards, in particular to a layout splicing device for a mixed-structure multi-variety bus board.

Background

The bus bar product in the printed circuit board is different from a common multilayer printed board, belongs to a multilayer printed board with a three-dimensional structure, has the characteristics of various sizes and specifications and thickness and specifications, and generally has a convex copper column structure. The bus board needs to be subjected to a lamination process as in the case of a general multilayer printed board. Although the bus board can be laminated by using a laminator of a common multilayer board, due to the structural specificity and material difference, a special lamination control program is required, and a special die tool is required in the lamination production process. Because the bus bar products of different models have differences in size, hole position and hole aperture of the positioning holes and product thickness, each bus bar product generally needs to be manufactured with a special laminating die. The lamination process requires explicit process definition of the lamination steps (programming of the corresponding lamination automation control program), product dimensions and thickness. The conventional multilayer plate press is provided with a plurality of parallel hot plate openings, each opening is a production unit, a disc of multilayer plate product stack can be placed in one opening, the height of products in the same opening needs to be equal, and the laminating areas of products in different openings need to be consistent. A furnace can laminate a variety of products while satisfying the following three conditions: 1. the procedures used by each product are the same; 2. the laminated areas of the products in different openings are consistent; 3. when the thickness of the product is the same, the product can be placed in the same opening side by side for lamination (the thickness of the product laminated plate group using the die tooling comprises the thickness of the product laminated plate and the total thickness of the die tooling in the laminated layer) as long as the size allows, and when the product is spliced in the same opening side by side, the sum of the lamination surface price is the sum of the areas of the spliced products.

The procedures of the bus board products are different from those of common multilayer boards, and the lamination procedures of the bus board products of different types are the same, so that the condition 1 is met between different bus boards, and the bus boards and the common multilayer boards are laminated at different times.

Because the length and the width of the bus board products of different types are different, all the laminating areas are different, the condition 2 is difficult to meet, and the bus board products of different types cannot be laminated in different openings of the press at the same time.

The lamination thickness of different cylinder manifold products is different, and the cylinder manifold of different models can not directly be placed in same opening and the lamination of makeup side by side.

As described above, generally, bus bar products of different types cannot be laminated with common multilayer boards, cannot be laminated in different openings of a press, and are difficult to be laminated in the same layer of openings and in a combined layout, so that the bus bar lamination basically adopts one furnace to laminate one product, which seriously affects the production efficiency and the production cycle.

The existing bus bar laminating and laminating structure comprises a lower die, an upper die and a bus bar laminating product. The lower die is required to be provided with a positioning pin hole, and the upper die is also provided with a pin hole and a groove for avoiding the bus board from protruding and mounting the copper column. And stacking the bus bar products between the lower die and the upper die, wherein the lower die, the upper die and the bus bar products form a stacked plate group. The upper die of the lower die needs to bear the pressure of the laminating press and transmit the pressure to the bus board product, and all points need to be uniformly pressed in order to ensure that the thickness of the bus board product is consistent after lamination. Generally, a high-strength metal mold material is required to be used for the upper mold and the lower mold, the shapes of the lower mold and the upper mold are required to be adapted to the size specification of a product, and machining equipment such as a drilling machine, a milling machine, a grinding machine and the like for machining is required in the machining process of the upper mold and the lower mold, so that the machining period of a mold tool is long, and the machining cost is high.

For medium and large-batch bus board products, a plurality of laminating die tools can be manufactured, a plurality of openings of the laminating machine are fully utilized, a plurality of bus boards can be laminated in one furnace, the production efficiency is improved, and the production cost is reduced. The small-batch bus board products have multiple product specifications, the number of the dies of various products is small, one product can only be processed into a pair of special laminating dies for reducing the production preparation cost, and only one product can be laminated in one furnace during lamination. The production cost of the bus board includes two major costs, namely production preparation cost and production processing cost. The production preparation cost is mainly used for manufacturing the die tooling; the production and processing cost is more than 80 percent of the laminating cost. The laminating cost per laminating oven of the laminating press is independent of the number of laminating ovens. The small-batch bus board products are laminated one by one at a time, so that the production and processing cost is high, the production efficiency is low, and the production period is long.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model aims to provide the multi-variety bus board imposition device with the mixed structure, which is wide in application range and short in production period.

In order to achieve the above object, the present invention adopts the following technical solutions:

a mixed structure multi-variety bus plate makeup device comprises a laminating die system, a bus plate lamination group and a wedge-shaped cushion group, wherein the bus plate lamination group and the wedge-shaped cushion group are sequentially arranged in the laminating die system from bottom to top, the laminating die system comprises a die, the die comprises an upper die and a lower die, upper die guide post holes are symmetrically arranged in the center of the upper die, lower die guide post holes are symmetrically arranged in the center of the lower die and correspond to the upper die guide post holes, die guide posts are arranged between the lower die guide post holes and the upper die guide post holes, the bus plate lamination group comprises a bus plate positioning bottom plate, a bus plate lamination plate, a rubber pad and a bus plate layer, and the bus plate lamination group is sequentially stacked above the lower die from bottom to top, the bus plate lamination group is provided with a plurality of bus plate positioning pin hole groups, the bus plate positioning pin hole group comprises a plurality of bus plate positioning pin holes, the inner positioning pin holes of the bus boards are internally provided with bus board inner positioning pins, a plurality of the bus board inner positioning pins are combined into a plurality of bus board inner positioning pin groups, the bus board stack board groups are provided with a plurality of bus board outer positioning pin hole groups, the bus board outer positioning pin hole groups comprise a plurality of bus board outer positioning pin holes, bus board outer positioning pins are arranged in the bus board outer positioning pin holes, a plurality of the bus board outer positioning pins are combined into a plurality of bus board outer positioning pin groups, the wedge-shaped cushion block group comprises a plurality of wedge-shaped cushion blocks, the wedge-shaped cushion blocks comprise upper wedge-shaped cushion blocks and lower wedge-shaped cushion blocks, the upper wedge-shaped cushion blocks and the lower wedge-shaped cushion blocks are respectively provided with wedge-shaped cushion block slots, two ends of the upper wedge-shaped cushion blocks and two ends of the lower wedge-shaped cushion blocks are respectively provided with bolt slots, and the wedge-shaped cushion blocks are internally provided with adjusting bolts, and an upper wedge-shaped cushion block floating adjusting nut and a lower wedge-shaped cushion block floating adjusting nut are respectively arranged at two ends of the adjusting bolt.

As a further preferable mode of the utility model, the bus bar laminated plate includes a plurality of bus bars, the plurality of bus bars form a plurality of pattern regions by splicing, the pattern regions include bus bar patterns and process frames, the process frames are disposed on outer sides of the bus bar patterns, an effective region finally required by the bus bars is the bus bar pattern, and a region outside the bus bar pattern is the process frame required by the production process.

As a further preferred aspect of the present invention, a bus bar copper plate is embedded in the bus bar laminated plate, and a plurality of copper columns are disposed on the bus bar laminated plate.

As a further preferred embodiment of the present invention, the number of the bus bar inner positioning pin hole groups is the same as the number of the pattern areas, and the bus bar outer positioning pin hole groups include 2 to 4 bus bar outer positioning pin holes and are uniformly distributed on the bus bar pattern.

As a further preferable aspect of the present invention, the number of the bus bar outer positioning pin hole groups is the same as the number of the pattern areas, and the bus bar outer positioning pin hole groups include 4 to 6 bus bar outer positioning pin holes, and are uniformly distributed on the process frame.

As a further preferred aspect of the present invention, the upper wedge block floating adjustment nut and the lower wedge block floating adjustment nut are both provided with a fixing pin, the adjustment nuts are fixed to the wedge blocks by the fixing pins, and the height is adjusted by rotating the bolts.

As a further preferable aspect of the present invention, the number of the wedge-shaped spacers is the same as the number of the pattern regions, the wedge-shaped spacers are disposed in the pattern regions and correspond to the pattern regions, and the wedge-shaped spacers are used to adjust the heights of the busbar stacked plate groups, so that the heights of all the busbar stacked plate groups and the wedge-shaped spacer groups are equal to each other, a pair of dies is conveniently used, and the height adjustment range of the wedge-shaped spacers is within 10 mm.

The utility model has the advantages that:

1. the upper die and the lower die are of large-size structures, so that most of plate products can be covered, and the number and the mode of makeup can be increased to the maximum extent. The mould is general mould, and during the lamination, can place a product in last lower mould, also can place multiple product side by side, extensive applicability.

2. The large-size upper die and the large-size lower die are positioned by the guide posts and can be effectively matched with a hot pressing plate of a press, so that the maximum production capacity of the press can be fully exerted; after the lamination is stressed, the die moves up and down stably, and the integral flatness is high.

3. The laminated bottom plates used by all the bus board products can be made of materials with the same specification, common 2.5 mm-thick epoxy boards are generally used, during production, numerical control drilling and milling equipment used for printed board production is directly used according to product sizes, pin positioning holes and shapes of the bottom plates are machined, the upper surface and the lower surface are not machined, mechanical machining equipment is not needed for production, and production preparation time is short.

4. The laminated top plate used by each bus board product can use standard plates with the same thickness specification, and generally uses aluminum plate materials with the thickness of 10mm, during production, according to the product size, numerical control drilling and milling equipment used for printed board production is directly used for processing the hole groove and the appearance of the top plate, the processing of the upper surface and the lower surface is not needed, mechanical processing equipment is not needed for production, and the production preparation time is short.

5. In the effective space of the upper die and the lower die, different bus bar products can be flexibly typeset, and the guide pillars are arranged between the upper die and the lower die, so that the guide pillars with different lengths are replaced, and the bus bars are suitable for different laminated total heights. Because the guide post is adopted to control the upper die to move up and down, the upper die and the lower die can always keep parallel surfaces; the small-size bus board product can realize single-variety multi-makeup or multi-variety mixed makeup placement.

6. When the bus boards with different thicknesses are mixed and typeset, the thickness difference of the bus board laminated boards is adjusted through the wedge-shaped cushion blocks, and the total lamination thickness of each bus board is consistent during lamination.

7. The upper wedge-shaped cushion block and the lower wedge-shaped cushion block are used for the cushion block group, the superposition position is adjusted, the cushion block groups with different thicknesses can be assembled, and the condition that the thickness size of the bus plate is greatly changed is met; the limitation that the size can not be flexibly adjusted by directly using the backing plate to adjust the thickness is overcome.

8. The wedge-shaped cushion block can utilize a bolt and a floating nut which are arranged in the middle groove, and the relative overlapping position can be conveniently adjusted, so that cushion block groups with different heights are assembled.

9. The wedge-shaped cushion blocks are in a series of length and width dimensions, and when the wedge-shaped cushion blocks are used, proper dimensions are selected according to the makeup positions of all the bus plate products and the dimensions of the top plate.

10. The upper die, the lower die and the cushion block group can be repeatedly used, the universal tool is adopted, the special die tool is not customized for the bus board product, the tool preparation cost and the preparation time are reduced, and the production benefit is greatly improved.

11. Because each laminated board of the bus board does not need to be manufactured with an independent die separately, only the laminated bottom board and the laminated top board are used, the structure of the laminating tool is greatly simplified, the space of an auxiliary part of the die is saved, the process edge of the laminated board of the bus board is reduced, the use amount of the materials of the bus board is reduced, and the plate splicing and arranging quantity of the bus board can be increased.

12. The laminating top plate is made of an aluminum plate with high rigidity, laminating pressure generated by the upper die passing through the wedge-shaped cushion block group can be effectively transmitted, and the uniform stress of the laminated plate of the bus board is ensured. The aluminum plate has good heat conduction capability and light weight, and the total weight of the laminated structure is reduced; the aluminum plate can be processed by using a numerical control drilling machine and a numerical control milling machine for producing the printed board, the processing can be automatically completed by a printed board factory without external cooperation, and the construction period and the production cost are shortened.

Drawings

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic structural view of a wedge-shaped spacer block;

fig. 4 is a schematic view of the securement of the floating adjustment nut.

The meaning of the reference symbols in the figures: 1-a mould; 2-bus board laminate; 3-wedge-shaped cushion blocks; 4-a busbar pattern; 5-a bus board positioning bottom board; 6-bus board copper plate; 7-a rubber mat; 8-a busbar layer top plate; 9-lower wedge-shaped cushion blocks; 10-adjusting the bolt; 11-upper wedge-shaped cushion blocks; 12-a mold guide post; 13-upper mould; 14-upper die guide post hole; 15-wedge shim group; 17-external locating pins of the bus board; 18-positioning pin holes in the bus board; 19-external positioning pin holes of the bus board; 20-lower die guide post holes; 22-lower die; 23-positioning pins in the bus board; 24-copper pillars; 27-installing a wedge-shaped cushion block floating adjusting nut; 28-bolt sinking groove, 29-wedge-shaped cushion block slotting, 30-lower wedge-shaped cushion block floating adjusting nut and 31-fixing pin.

Detailed Description

The utility model is described in detail below with reference to the figures and the embodiments.

The utility model provides a mixed structure multi-variety cylinder manifold makeup device, includes lamination die system, cylinder manifold stack group and wedge backing block group 15 set gradually in lamination die system from bottom to top, lamination die system includes mould 1, mould 1 includes mould 13 and lower mould 22, it is provided with mould guide post hole 14 to go up mould 13 centrosymmetric, lower mould 22 centrosymmetric is provided with lower mould guide post hole 20, and corresponds with last mould guide post hole 14, be provided with mould guide post 12 between lower mould guide post hole 20 and the last mould guide post hole 14.

The bus plate laminated plate group comprises a bus plate positioning bottom plate 5, a bus plate laminated plate 2, a rubber gasket 7 and a bus plate layer top plate 8, and are sequentially stacked above the lower die 22 from bottom to top, the busbar stacked plate group is provided with a plurality of groups of busbar inner positioning pin hole groups, the bus bar inner positioning pin hole group comprises a plurality of bus bar inner positioning pin holes 18, bus bar inner positioning pins 23 are arranged in the bus bar inner positioning pin holes 18, a plurality of bus bar inner positioning pins 23 are combined into a plurality of bus bar inner positioning pin groups, the bus bar lamination group is provided with a plurality of bus bar outer positioning pin hole groups, each bus bar outer positioning pin hole group comprises a plurality of bus bar outer positioning pin holes 19, be provided with the outer dowel pin 17 of cylinder manifold in the outer dowel pin hole 19 of cylinder manifold, a plurality of the outer dowel pin 17 of cylinder manifold makes up into a plurality of outer dowel pin groups of cylinder manifold.

The wedge-shaped cushion block group 15 comprises a plurality of wedge-shaped cushion blocks, each wedge-shaped cushion block comprises an upper wedge-shaped cushion block 11 and a lower wedge-shaped cushion block 9, the upper wedge-shaped cushion block 11 and the lower wedge-shaped cushion block 9 are respectively provided with a wedge-shaped cushion block slot 29, two ends of the upper wedge-shaped cushion block 11 and two ends of the lower wedge-shaped cushion block 9 are respectively provided with a bolt sinking groove 28, an adjusting bolt 10 is arranged in each wedge-shaped cushion block slot 29, and two ends of each adjusting bolt 10 are respectively provided with an upper wedge-shaped cushion block floating adjusting nut 27 and a lower wedge-shaped cushion block floating adjusting nut 30.

As a further preferable mode of the present invention, the bus bar laminated board 2 includes a plurality of bus bars, the plurality of bus bars form a plurality of pattern regions by splicing, the pattern regions include a bus bar pattern 4 and a process frame, the process frame is disposed on the outer side of the bus bar pattern 4, the finally required effective region of the bus bar is the bus bar pattern 4, and the region other than the bus bar pattern 4 is the process frame required in the production process.

As a further preferred embodiment of the present invention, a bus bar copper plate 6 is embedded in the bus bar laminated plate 2, and a plurality of copper columns 24 are provided on the bus bar laminated plate 2.

As a further preferred embodiment of the present invention, the number of the bus bar inner positioning pin hole groups is the same as the number of the pattern areas, and the bus bar outer positioning pin hole groups include 2 to 4 bus bar outer positioning pin holes and are uniformly distributed on the bus bar pattern 4.

As a further preferable aspect of the present invention, the number of the bus bar outer positioning pin hole groups is the same as the number of the pattern areas, and the bus bar outer positioning pin hole groups include 4 to 6 bus bar outer positioning pin holes, and are uniformly distributed on the process frame.

In a further preferred embodiment of the present invention, the upper wedge pad floating adjustment nut 27 and the lower wedge pad floating adjustment nut 30 are both provided with a fixing pin 31, the adjusting nuts are fixed to the wedge pads by the fixing pins 31, and the height is adjusted by rotating the bolts.

As a further preferred aspect of the present invention, the number of the wedge-shaped spacers is the same as the number of the pattern regions, the wedge-shaped spacers are disposed in the pattern regions and correspond to the pattern regions, and the wedge-shaped spacers are used to adjust the heights of the busbar stacked plate groups, so that the heights of all the busbar stacked plate groups and the wedge-shaped spacer group 15 are equal, and the use of the pair of dies 1 is facilitated, and the height adjustment range of the wedge-shaped spacers is within 10 mm.

The utility model has the advantages that:

1. the upper and lower dies 22 are of a large-size structure, which can cover most of plate products and can increase the number of makeup and the makeup mode to the maximum. The mold 1 is a general mold 1, one product can be placed in the upper mold 22 and the lower mold 22 during lamination, and multiple products can be placed side by side, so that the applicability is wide.

2. The large-size upper and lower dies 22 are positioned by a plurality of guide posts and can be effectively matched with a hot pressing plate of a press, so that the maximum production capacity of the laminating machine can be fully exerted; after the lamination is stressed, the die 1 moves up and down stably, and the integral flatness is high.

3. The laminated bottom plates used by all the bus board products can be made of materials with the same specification, common 2.5 mm-thick epoxy boards are generally used, during production, numerical control drilling and milling equipment used for printed board production is directly used according to product sizes, pin positioning holes and shapes of the bottom plates are machined, the upper surface and the lower surface are not machined, mechanical machining equipment is not needed for production, and production preparation time is short.

4. The laminated top plate used by each bus board product can use standard plates with the same thickness specification, and generally uses aluminum plate materials with the thickness of 10mm, during production, according to the product size, numerical control drilling and milling equipment used for printed board production is directly used for processing the hole groove and the appearance of the top plate, the processing of the upper surface and the lower surface is not needed, mechanical processing equipment is not needed for production, and the production preparation time is short.

5. In the effective space of the upper die 22 and the lower die 22, different bus bar products can be flexibly typeset, and guide columns are arranged between the upper die 22 and the lower die 22, so that the guide columns with different lengths can be replaced, and the bus bars with different laminated total heights can be adapted. Because the guide post is adopted to control the upper die 13 to move up and down, the upper die 22 and the lower die 22 can always keep parallel surfaces; the small-size bus board product can realize single-variety multi-makeup or multi-variety mixed makeup placement.

6. When the bus boards with different thicknesses are mixed and typeset, the thickness difference of the bus board laminated board 2 is adjusted through the wedge-shaped cushion block, and the total lamination thickness of each bus board is consistent during lamination.

7. The upper wedge-shaped cushion block and the lower wedge-shaped cushion block are used for the cushion block group, the superposition position is adjusted, the cushion block groups with different thicknesses can be assembled, and the condition that the thickness size of the bus plate is greatly changed is met; the limitation that the size can not be flexibly adjusted by directly using the backing plate to adjust the thickness is overcome.

8. The wedge-shaped cushion block can utilize a bolt and a floating nut which are arranged in the middle groove, and the relative overlapping position can be conveniently adjusted, so that cushion block groups with different heights are assembled.

9. The wedge-shaped cushion blocks 15 are in a series of length and width dimensions, and when the wedge-shaped cushion blocks are used, proper dimensions are selected according to the makeup positions of all the bus board products and the sizes of the top plates.

10. The upper die 22, the lower die 22 and the cushion block group can be repeatedly used, and are general tools, the special die 1 tool is not customized for a bus board product, the tool preparation cost and the preparation time are reduced, and the production benefit is greatly improved.

11. Each bus board laminated board 2 only uses the laminated bottom board and the laminated top board because the independent die 1 does not need to be manufactured independently, so that the laminated tool structure is greatly simplified, the space of the auxiliary component of the die 1 is saved, the process edge of the bus board laminated board 2 is reduced, the use amount of bus board materials is reduced, and the plate arrangement quantity of the bus board can be increased.

12. The laminated top plate is made of an aluminum plate with high rigidity, the laminating pressure generated by the upper die 13 passing through the wedge-shaped cushion block group 15 can be effectively transmitted, and the uniform stress of the laminated plate 2 of the bus board is guaranteed. The aluminum plate has good heat conduction capability and light weight, and the total weight of the laminated structure is reduced; the aluminum plate can be processed by using a numerical control drilling machine and a numerical control milling machine for producing the printed board, the processing can be automatically completed by a printed board factory without external cooperation, and the construction period and the production cost are shortened.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (7)

1. A mixed structure multi-variety bus board makeup device comprises a laminating die system, a bus board laminated board set and a wedge-shaped cushion block set, wherein the bus board laminated board set and the wedge-shaped cushion block set in the laminating die system from bottom to top in sequence, the laminated die system comprises a die, the die comprises an upper die and a lower die, the upper die is centrally and symmetrically provided with an upper die guide post hole, the lower die is centrally and symmetrically provided with a lower die guide post hole and corresponds to the upper die guide post hole, a die guide post is arranged between the lower die guide post hole and the upper die guide post hole, the bus board laminated board set comprises a bus board positioning bottom board, a bus board laminated board, a rubber pad and a bus board layer top board, and is stacked above the lower die in sequence from bottom to top, the bus board laminated board set is provided with a plurality of bus board positioning pin hole sets, the bus board positioning pin hole sets comprise a plurality of bus board positioning pin holes, the inner positioning pin holes of the bus boards are internally provided with bus board inner positioning pins, a plurality of the bus board inner positioning pins are combined into a plurality of bus board inner positioning pin groups, the bus board stack board groups are provided with a plurality of bus board outer positioning pin hole groups, the bus board outer positioning pin hole groups comprise a plurality of bus board outer positioning pin holes, bus board outer positioning pins are arranged in the bus board outer positioning pin holes, a plurality of the bus board outer positioning pins are combined into a plurality of bus board outer positioning pin groups, the wedge-shaped cushion block group comprises a plurality of wedge-shaped cushion blocks, the wedge-shaped cushion blocks comprise upper wedge-shaped cushion blocks and lower wedge-shaped cushion blocks, the upper wedge-shaped cushion blocks and the lower wedge-shaped cushion blocks are respectively provided with wedge-shaped cushion block slots, two ends of the upper wedge-shaped cushion blocks and two ends of the lower wedge-shaped cushion blocks are respectively provided with bolt slots, and the wedge-shaped cushion blocks are internally provided with adjusting bolts, and an upper wedge-shaped cushion block floating adjusting nut and a lower wedge-shaped cushion block floating adjusting nut are respectively arranged at two ends of the adjusting bolt.

2. The hybrid structure multi-variety bus plate imposition device according to claim 1, wherein the bus plate laminate comprises a plurality of bus plates, a plurality of the bus plates are spliced to form a plurality of pattern areas, the pattern areas comprise bus plate patterns and process frames, the process frames are arranged on the outer sides of the bus plate patterns, the finally required effective areas of the bus plates are the bus plate patterns, and the areas outside the bus plate patterns are the process frames required by the production process.

3. The hybrid structure multi-variety bus plate imposition device according to claim 2, wherein a bus plate copper plate is embedded in the bus plate laminate, and a plurality of copper columns are arranged on the bus plate laminate.

4. The hybrid structure multi-variety bus plate imposition device according to claim 2, wherein the number of the bus plate internal positioning pin hole groups is the same as the number of the pattern areas, and the bus plate external positioning pin hole groups comprise 2-4 bus plate external positioning pin holes and are uniformly distributed on the bus plate pattern.

5. The hybrid structure multi-variety bus plate imposition device according to claim 2, wherein the number of the bus plate outer positioning pin hole groups is the same as the number of the pattern areas, the bus plate outer positioning pin hole groups comprise 4-6 bus plate outer positioning pin holes, and the bus plate outer positioning pin holes are uniformly distributed on the process frame.

6. The hybrid structure multi-variety manifold assembling device according to claim 2, wherein the upper wedge block floating adjusting nut and the lower wedge block floating adjusting nut are provided with fixing pins.

7. The hybrid structure multi-variety bus plate imposition device according to claim 2, wherein the number of the wedge-shaped spacers is the same as the number of the pattern areas, and the positions of the wedge-shaped spacers are arranged corresponding to the pattern areas.

Images