CN217047838U - Conductive wood veneer board capable of being cut at will - Google Patents
Conductive wood veneer board capable of being cut at will Download PDFInfo
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- CN217047838U CN217047838U CN202220311237.1U CN202220311237U CN217047838U CN 217047838 U CN217047838 U CN 217047838U CN 202220311237 U CN202220311237 U CN 202220311237U CN 217047838 U CN217047838 U CN 217047838U
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Abstract
The embodiment of the utility model discloses electrically conductive wood veneer panel that can cut at will, concretely relates to electrically conductive wood veneer panel field, including first melamine veneer decorative paper and second melamine veneer decorative paper, first melamine veneer decorative paper and second melamine veneer decorative paper set up respectively in the outside of panel, the inboard of first melamine veneer decorative paper is provided with a high density board. The utility model discloses a mould is stereotyped the material, treat its complete drying back drawing of patterns, cut out the four sides, it is thick surely to get into the grinder, the panel that will decide to be thickly accomplished is put into the hot press and is carried out the wainscot, lay melamine decorative paper on the panel surface, through the hot pressing laminating, accomplish conductive plate's preparation, the electrode lacquer has electrically conductive effect, and the epoxy glue has insulating effect, optimize conductive plate production way, arbitrary trompil cuts, but utilize conductive plate direct mount lamp area, panel need not fluting again and walks the line.
Description
Technical Field
The embodiment of the utility model provides a relate to conductive wood veneer board field, concretely relates to conductive wood veneer board that can cut at will.
Background
With the advancement of science and technology, people are more and more scrutinized in pursuit of beauty, and many people also have many ideas in decoration. A warm environment can be built through reasonable light use, and a plurality of whole house customization designers blend elements of the light into products such as a wardrobe and a cabinet during design, so that the grade and the technological sense of the whole decoration are improved. However, in the conventional wardrobe, the light installation needs to be performed through complicated processes such as grooving, wiring and the like, and time and labor are wasted.
The prior art has the following defects: at present, the conductive plate on the market is a conductive plate with a customized specification preset in the plate with a customized specification through product customization, and current only passes through the conductive plate at a fixed position. And the customization cycle is long, and batch production cannot be formed.
Disclosure of Invention
Therefore, the embodiment of the utility model provides a can conductive wood veneer panel that cuts at will, finalize the design to the material through the mould, treat its complete drying back drawing of patterns, cut out the four sides, it decides thickly to get into the grinder, the hot press is put into to the panel that will decide thickly and carry out the wainscot, lay melamine decorative paper on the panel surface, through the hot pressing laminating, accomplish conductive panel's preparation, the electrode paint has electrically conductive effect, and the epoxy glue has insulating effect, optimize conductive panel production approach, can cut by arbitrary trompil, but utilize conductive panel direct mount lamp area, the line is walked to panel need not slotting again.
In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: a conductive wood veneer board capable of being cut at will comprises a first melamine veneer decorative paper and a second melamine veneer decorative paper, the first melamine facing decorative paper and the second melamine facing decorative paper are respectively arranged at the outermost sides of the plates, the inner side of the first melamine facing decorative paper is provided with a first high-density board, the inner side of the second melamine facing decorative paper is provided with a second high-density board, a first epoxy resin adhesive layer, a second epoxy resin adhesive layer, a third epoxy resin adhesive layer, a fourth epoxy resin adhesive layer, a first electrode paint layer, a second electrode paint layer and a third electrode paint layer are arranged between the first high-density board and the second high-density board, the first epoxy resin adhesive layer, the second epoxy resin adhesive layer, the third epoxy resin adhesive layer and the fourth epoxy resin adhesive layer are arranged in an overlapped mode with the first electrode paint layer, the second electrode paint layer and the third electrode paint layer.
Further, the first electrode paint layer is located on the inner side of the first epoxy resin adhesive layer, and the first electrode paint layer is sprayed on the inner side of the first epoxy resin adhesive layer.
Further, the second electrode paint layer is located on the inner side of the second epoxy resin adhesive layer, and the third electrode paint layer is located on the inner side of the third epoxy resin adhesive layer.
Furthermore, the first melamine facing decorative paper and the first high-density board have the same specification and size, and the second melamine facing decorative paper and the second high-density board have the same specification and size.
Furthermore, curing agents are added into the first epoxy resin adhesive layer, the second epoxy resin adhesive layer, the third epoxy resin adhesive layer and the fourth epoxy resin adhesive layer.
Further, the first high-density board and the second high-density board have the same thickness.
The embodiment of the utility model provides a have following advantage:
the material is shaped through the die, demolding is carried out after the material is completely dried, four sides are cut off, the material enters a sander for fixing the thickness, the plate which is fixed and thick is placed into a hot press for facing, melamine decorative paper is paved on the surface of the plate, the conductive plate is manufactured through hot-pressing fitting, the electrode paint has a conductive effect, the epoxy resin adhesive has an insulating effect, the production path of the conductive plate is optimized, holes can be randomly punched for cutting, the lamp belt can be directly installed by utilizing the conductive plate, and the plate does not need to be grooved and wired.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is an explosion diagram of the whole structure of the utility model.
In the figure: 1. a first melamine facing decorative paper; 2. a first high-density board; 3. a second melamine facing decorative paper; 4. a second high-density board; 5. a first epoxy resin adhesive layer; 6. a second epoxy resin adhesive layer; 7. a third epoxy resin adhesive layer; 8. a fourth epoxy resin adhesive layer; 9. a first electrode paint layer; 10. a second electrode paint layer; 11. and a third electrode paint layer.
Detailed Description
The present invention is described in detail with reference to the specific embodiments, and other advantages and effects of the present invention will be apparent to those skilled in the art from the disclosure herein. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.
Referring to the attached fig. 1-2 of the specification, the conductive wood veneer board capable of being cut at will according to this embodiment includes a first melamine veneer decorative paper 1 and a second melamine veneer decorative paper 3, the first melamine veneer decorative paper 1 and the second melamine veneer decorative paper 3 are respectively disposed on the outermost sides of the board, a first high-density board 2 is disposed on the inner side of the first melamine veneer decorative paper 1, a second high-density board 4 is disposed on the inner side of the second melamine veneer decorative paper 3, a first epoxy glue layer 5, a second epoxy glue layer 6, a third epoxy glue layer 7, a fourth epoxy glue layer 8, a first electrode paint layer 9, a second electrode paint layer 10 and a third electrode paint layer 11 are disposed between the first high-density board 2 and the second high-density board 4, and the first epoxy glue layer 5, the second epoxy glue layer 6, the second electrode paint layer 10 and the third electrode paint layer 11 are disposed between the first epoxy glue layer 5, the second epoxy glue layer 6, and the third paint layer 11, The third epoxy resin glue layer 7 and the fourth epoxy resin glue layer 8 are arranged in an overlapping mode with the first electrode paint layer 9, the second electrode paint layer 10 and the third electrode paint layer 11.
Further, first electrode lacquer layer 9 is located the inboard of first epoxy glue film 5, first electrode lacquer layer 9 spraying is in the inboard of first epoxy glue film 5, evenly sprays first electrode lacquer layer 9 on first epoxy glue film 5, and spraying thickness control is about 0.5mm, and hot-blast parch after the spraying.
Further, the second electrode paint layer 10 is located on the inner side of the second epoxy resin adhesive layer 6, the third electrode paint layer 11 is located on the inner side of the third epoxy resin adhesive layer 7, the second epoxy resin adhesive layer 6 is poured into the second electrode paint layer with the thickness of 1.5mm, the second electrode paint layer 10 is sprayed after being heated at 80 ℃ for 15 minutes until the thickness of the second electrode paint layer approaches to the critical point of curing, the spraying thickness is controlled to be about 0.5mm, hot air is used for drying after spraying, the third electrode paint layer 7 is poured into the second electrode paint layer with the thickness of 1.5mm, the third electrode paint layer 10 is sprayed after being heated at 80 ℃ for 15 minutes until the thickness of the third electrode paint layer approaches to the critical point of curing.
Furthermore, the first melamine facing decorative paper 1 and the first high-density board 2 are the same in specification and size, the second melamine facing decorative paper 3 and the second high-density board 4 are the same in specification and size, the boards which are fixed in thickness are placed into a hot press to be overlaid, and the first melamine facing decorative paper 1 and the second melamine facing decorative paper 3 are paved on the surfaces of the boards and are overlaid through low temperature and high pressure.
Furthermore, curing agents are added into the first epoxy resin adhesive layer 5, the second epoxy resin adhesive layer 6, the third epoxy resin adhesive layer 7 and the fourth epoxy resin adhesive layer 8, and the epoxy resin adhesive and the curing agents are mixed according to the weight ratio of 27:10 and poured into a prefabricated mold, wherein the thickness of the prefabricated mold is 3 mm.
Further, the first high-density board 2 and the second high-density board 4 have the same thickness, the 4mm first high-density board 2 is firstly padded at the lowest part of the mould, and the other 4mm second high-density board 4 is pressed on the first high-density board and sent into the press for aging and curing.
The working principle is as follows: referring to the attached drawings 1-2 of the specification, a first high-density board 2 with the thickness of 4mm is firstly padded at the lowest part of a mould, epoxy resin glue and a curing agent are mixed according to the weight ratio of 27:10, poured into a prefabricated mould with the thickness of 3mm, heated at 65 ℃ for 30 minutes to reach a critical point close to curing, then a first electrode paint layer 9 is uniformly sprayed on the first epoxy resin glue layer 5, the spraying thickness is controlled to be about 0.5mm, hot air is baked after spraying, then a second epoxy resin glue layer 6 with the thickness of 1.5mm is poured, heated at 80 ℃ for 15 minutes to reach the critical point close to curing, then a second electrode paint layer 10 is sprayed, the spraying thickness is controlled to be about 0.5mm, hot air is baked after spraying, then a third epoxy resin glue layer 7 with the thickness of 1.5mm is poured, heated at 80 ℃ for 15 minutes to reach the critical point close to curing, then a third electrode paint layer 10 is sprayed, the spraying thickness is controlled to be about 0.5mm, hot air is dried after spraying, then a fourth epoxy resin adhesive layer 8 with the thickness of 3mm is poured, heating is carried out at 65 ℃ for 30 minutes to enable the thickness to be close to the curing critical point through heating, then a layer of epoxy resin adhesive is coated as a binder, the thickness is negligible, the other 4mm second high-density board 4 is pressed on the upper surface and sent into a press to be placed and cured, the purpose is to enable the internal structure to be completely glued, the curing time is 12 hours, demoulding is carried out after the board is completely dried, four sides are cut off, the board enters a sander to be fixed in thickness, the board with the fixed thickness is placed into a hot press to be overlaid, the first melamine decorative paper 1 and the second melamine decorative paper 3 are placed on the surface of the board, paving is carried out through low-temperature high-pressure pasting, and manufacturing of the conductive plate wood decorative board is completed. In order to accelerate the production, the ultraviolet curing agent can be properly added into the epoxy resin to accelerate the curing process through ultraviolet irradiation in batches.
Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.
Claims (6)
1. The utility model provides a can be at will conductive wood veneer panel who cuts, includes first melamine veneer decorative paper (1) and second melamine veneer decorative paper (3), its characterized in that: first melamine veneer decorative paper (1) and second melamine veneer decorative paper (3) set up respectively in the outside of panel, the inboard of first melamine veneer decorative paper (1) is provided with first high density board (2), the inboard of second melamine veneer decorative paper (3) is provided with second high density board (4), be provided with first epoxy glue film (5), second epoxy glue film (6), third epoxy glue film (7), fourth epoxy glue film (8), first electrode lacquer layer (9), second electrode lacquer layer (10) and third electrode lacquer layer (11) between first high density board (2) and second high density board (4), first epoxy glue film (5), second epoxy glue film (6), third epoxy glue film (7) and fourth epoxy glue film (8) and first electrode lacquer layer (9), The second electrode lacquer layer (10) and the third electrode lacquer layer (11) are arranged overlapping each other.
2. The optionally cut conductive wood veneer sheet of claim 1, wherein: the first electrode paint layer (9) is located on the inner side of the first epoxy resin adhesive layer (5), and the first electrode paint layer (9) is sprayed on the inner side of the first epoxy resin adhesive layer (5).
3. The conductive wood veneer sheet material capable of being cut at will as claimed in claim 1, wherein: the second electrode paint layer (10) is located on the inner side of the second epoxy resin adhesive layer (6), and the third electrode paint layer (11) is located on the inner side of the third epoxy resin adhesive layer (7).
4. The conductive wood veneer sheet material capable of being cut at will as claimed in claim 1, wherein: the first melamine facing decorative paper (1) and the first high-density board (2) are identical in specification and size, and the second melamine facing decorative paper (3) and the second high-density board (4) are identical in specification and size.
5. The conductive wood veneer sheet material capable of being cut at will as claimed in claim 1, wherein: and curing agents are added into the first epoxy resin adhesive layer (5), the second epoxy resin adhesive layer (6), the third epoxy resin adhesive layer (7) and the fourth epoxy resin adhesive layer (8).
6. The conductive wood veneer sheet material capable of being cut at will as claimed in claim 1, wherein: the first high-density board (2) and the second high-density board (4) have the same thickness.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220311237.1U CN217047838U (en) | 2022-02-16 | 2022-02-16 | Conductive wood veneer board capable of being cut at will |
Applications Claiming Priority (1)
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CN202220311237.1U CN217047838U (en) | 2022-02-16 | 2022-02-16 | Conductive wood veneer board capable of being cut at will |
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CN217047838U true CN217047838U (en) | 2022-07-26 |
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CN202220311237.1U Active CN217047838U (en) | 2022-02-16 | 2022-02-16 | Conductive wood veneer board capable of being cut at will |
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- 2022-02-16 CN CN202220311237.1U patent/CN217047838U/en active Active
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