CN214895883U

CN214895883U - Three-dimensional reflection of light veneer structure

Info

Publication number: CN214895883U
Application number: CN202120834326.XU
Authority: CN
Inventors: 庄煌
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-22
Filing date: 2021-04-22
Publication date: 2021-11-26
Anticipated expiration: 2031-04-22
Also published as: WO2022222285A1

Abstract

The utility model discloses a three-dimensional light-reflecting veneer structure, wherein the surface of a substrate is integrally formed with a plurality of three-dimensional light-reflecting units, and at least one three-dimensional light-reflecting surface is arranged on the local surface or the whole surface of the substrate, wherein, one three-dimensional light-reflecting surface comprises a plurality of three-dimensional light-reflecting units which are dispersedly distributed on the surface of the substrate or are continuously distributed on the surface of the substrate and are connected into one piece; the three-dimensional reflecting unit comprises at least one three-dimensional multi-surface reflecting pit which sinks below the surface of the substrate and is in the shape of a polygonal cone. The utility model discloses because of the solid reflection of light unit sinks relatively and is difficult for receiving wearing and tearing below the surface of substrate matter, the wearability is extremely strong, and because of the reflection of light face that the solid reflection of light unit has the surperficial slope setting of a plurality of looks substrates, has better spotlight effect and reflection of light effect, has better visual effect, and simple structure, and is with low costs.

Description

Three-dimensional reflection of light veneer structure

Technical Field

The utility model belongs to the technical field of three-dimensional reflection of light veneer technique and specifically relates to a three-dimensional reflection of light veneer structure is related to.

Background

For products whose surface needs to be provided with a reflective layer as a surface decorative layer and which are made to have a reflective effect, such as various household electrical appliances and personal articles (including personal clothing and various pendants, fasteners, zippers, buttons, hair clips, various ornaments and the like), a reflective paint layer is generally sprayed on the surface of a substrate, and the surface of the substrate has a reflective function through the reflective paint layer so as to enhance the appearance of the surface of the substrate.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a three-dimensional reflection of light veneer structure, simple structure, it is with low costs, reflection of light visual effect is good, and the wearability is strong to prior art exists not enough.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: a three-dimensional reflecting veneer structure comprises a substrate, a plurality of three-dimensional reflecting units are integrally formed on the surface of the substrate, at least one three-dimensional reflecting surface is arranged on the partial surface or the whole surface of the substrate, wherein,

the three-dimensional reflecting surface comprises a plurality of three-dimensional reflecting units which are dispersedly distributed on the surface of the base material or are continuously distributed on the surface of the base material and are connected into a piece;

the three-dimensional reflecting unit comprises at least one three-dimensional multi-surface reflecting pit which sinks below the surface of the substrate and is in the shape of a polygonal cone.

Furthermore, the surface of the base material is a curved surface or a plane, and a plurality of hollow three-dimensional multi-surface reflection pits which are arranged at intervals or adjacently and continuously are formed on the surface of the base material through a stamping process or an integral forming process and are connected into a piece.

Further, the three-dimensional reflecting unit comprises at least one three-dimensional multi-sided reflecting pit which is sunken or sinks below the surface of the substrate and has a downward pointed end part in the shape of a polygonal cone, and at least one three-dimensional multi-sided reflecting pit which is protruded above the surface of the substrate and has an upward pointed end part in the shape of a polygonal cone,

alternatively, the first and second electrodes may be,

the surface of the base material is provided with a plurality of solid multi-surface reflectors which are sunk below the surface of the base material or are protruded above the surface of the base material, have a shape of a table body or a special-shaped body, have at least two reflecting side surfaces and are distributed in the solid reflecting surface at intervals.

Furthermore, each three-dimensional multi-surface reflection pit is provided with a tip part and a cone bottom surface, the whole three-dimensional multi-surface reflection pit sinks below the surface of the substrate, the tip part of the three-dimensional multi-surface reflection pit faces downwards, the cone bottom surface faces upwards, and the cone bottom surface is not higher than the surface of the substrate; the shape of the cross section of the three-dimensional multi-surface reflection pit intersected with the base material is a polygon.

Furthermore, a plurality of three-dimensional light reflecting units which are continuously arranged according to a rule are arranged on the surface of the base material, and one three-dimensional light reflecting unit comprises a plurality of three-dimensional multi-surface reflecting pits which are combined and arranged and then connected into a whole;

the shape of the cubic multi-faceted reflective pit includes, but is not limited to, a triangular pyramid, a square pyramid, a five-sided pyramid, a six-sided pyramid, a seven-sided pyramid, and an eight-sided pyramid.

Furthermore, one of the three-dimensional light reflecting units comprises three-dimensional multi-surface reflecting pits with different heights and/or different shapes of the bottom surfaces of the cones, and the height of each three-dimensional multi-surface reflecting pit is smaller than the side length of the bottom surface of the cone;

and the three-dimensional light reflecting units arranged in the three-dimensional light reflecting surface and arranged adjacently are provided with arrangement gaps, and at least one three-dimensional multi-surface reflecting pit with different shapes is formed in the arrangement gaps.

Furthermore, each three-dimensional multi-surface reflection pit is provided with a plurality of inner reflection wall surfaces, each inner reflection wall surface is arranged below the surface of the base material, each inner reflection wall surface is obliquely arranged relative to the surface of the base material, and each inner reflection wall surface of each three-dimensional multi-surface reflection pit is attached with a reflection layer.

Furthermore, a reflecting layer is attached to the surface of the base material and the surface of each inner reflecting wall surface of each three-dimensional multi-surface reflecting pit through an electroplating process, and the reflecting layer attached to the surface of the base material and the reflecting layer attached to the surface of the inner reflecting wall surfaces are connected into a whole.

Furthermore, one three-dimensional reflection of light unit includes that six shapes are triangular pyramid three-dimensional multiaspect reflection hole, and each three-dimensional reflection of light unit all has a shape for the cone bottom surface of trilateral, and the cone bottom surface of six three-dimensional multiaspect reflection holes is in the income plain noodles that the shape is the hexagon is spliced into on the surface of substrate, and the arrangement law of each three-dimensional reflection of light unit on the surface of substrate is that six limits at the income plain noodles of each three-dimensional reflection of light unit connect with another three-dimensional reflection of light unit respectively.

Furthermore, one three-dimensional multi-surface reflection pit is provided with three inner reflection wall surfaces, any two inner reflection wall surfaces are perpendicular to each other, and each inner reflection wall surface is in the shape of an isosceles right triangle with an acute included angle of 45 degrees.

After the structure is adopted, compared with the prior art, the utility model the advantage that has is: the utility model discloses there is a plurality of three-dimensional reflection of light units of forming in the surperficial below the three-dimensional multiaspect reflection of pit of substrate by a plurality of caves in at the surperficial of substrate at the surperficial integrated into one piece of substrate, because of three-dimensional reflection of light unit sinks relatively and is difficult for receiving wearing and tearing below the surface of substrate matter, the wearability is extremely strong, and because of the reflection of light face that three-dimensional reflection of light unit has the surperficial slope setting of a plurality of looks substrates, better spotlight effect and reflection of light effect have, better visual effect has, and simple structure, and is with low costs.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a schematic structural view of a triangular pyramid-shaped three-dimensional multi-faceted mirror pit formed on the surface of a substrate.

Fig. 4 is a schematic structural diagram of a three-dimensional light reflecting unit composed of six triangular pyramid-shaped three-dimensional multi-faceted reflective pits.

Fig. 5 is a schematic view illustrating a sequential arrangement of the three-dimensional light reflecting units shown in fig. 4.

Fig. 6 is a schematic structural view of a quadrangular pyramid-shaped three-dimensional multi-faceted mirror pit formed on a surface of a substrate.

Fig. 7 is a schematic structural view of a pentagonal pyramidal cubic multi-faceted mirror pit formed on a surface of a substrate.

Fig. 8 is a schematic structural view of a hexagonal pyramid-shaped three-dimensional multi-faceted mirror pit formed on a surface of a substrate.

Fig. 9 is a schematic structural view of a substrate having a plurality of three-dimensional multi-faceted reflective pits formed on the upper surface and the side surface thereof, respectively.

The labels in the figure are:

1, a substrate.

2 reflecting wall surface in the tip part 22 of the three-dimensional multi-surface reflecting pit 21.

Detailed Description

The following are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby.

The utility model discloses a three-dimensional reflection of light veneer structure can use on various electronic product and various domestic appliance's casing, the utility model discloses also can use the surface including various personal articles such as individual clothing and various pendants, fastener, zip fastener, button, hairpin and various ornaments that use, three-dimensional reflection of light veneer structure shaping exposes the surface of body or casing outside at various products promptly, also can make the decorative piece on the surface of various products of solitary flaky fixing, three-dimensional reflection of light veneer structure can the shaping on the surface of metal or plastic substrate.

A three-dimensional reflective surface structure, as shown in fig. 1 to 9, includes a substrate 1, a plurality of three-dimensional reflective units are integrally formed on the surface of the substrate 1, at least one three-dimensional reflective surface is disposed on a local surface of the substrate 1, or at least one three-dimensional reflective surface is disposed on the entire surface of the substrate 1, a plurality of three-dimensional reflective surfaces are disposed on the same surface of the substrate 1, and the three-dimensional reflective surfaces on the same surface of the substrate 1 are disposed at intervals.

Preferably, the three-dimensional light reflecting surfaces are respectively arranged on the surfaces of a plurality of different sides of the substrate 1, the three-dimensional light reflecting surfaces arranged on the surfaces of two adjacent sides of the substrate 1 are connected into a whole, or the three-dimensional light reflecting surfaces arranged on the surfaces of two adjacent sides of the substrate 1 are arranged at intervals.

The three-dimensional reflecting surface comprises a plurality of three-dimensional reflecting units which are dispersedly distributed on the surface of the base material 1 and are arranged at intervals, or the three-dimensional reflecting surface comprises a plurality of three-dimensional reflecting units which are continuously distributed on the surface of the base material 1 and are connected into a whole. That is, each of the three-dimensional light reflecting units formed on the surface of the substrate 1 and the three-dimensional light reflecting surface composed of the three-dimensional light reflecting units may be connected to form a sheet or spaced apart from each other.

Optionally, the three-dimensional light reflecting unit includes at least one three-dimensional multi-faceted mirror pit 2 which is recessed or sunk below the surface of the substrate 1 and has a downward pointed end and a polygonal cone shape, and the three-dimensional light reflecting unit includes at least one three-dimensional multi-faceted mirror pit 2 which is protruded above the surface of the substrate 1 and has an upward pointed end and a polygonal cone shape. Preferably, the three-dimensional light reflecting unit formed on the surface of the substrate 1 includes a three-dimensional multi-sided reflective pit 2 with a pointed end facing upward and a three-dimensional multi-sided reflective pit 2 with a pointed end facing downward.

Optionally, a plurality of three-dimensional multi-surface reflectors which are sunken below the surface of the substrate 1 or protrude above the surface of the substrate 1, have a shape of a table body or a special-shaped body, have at least two reflecting side surfaces and are distributed in the three-dimensional light reflecting surface at intervals are arranged on the surface of the substrate 1. Preferably, the three-dimensional multi-faceted mirror pit 2 formed on the surface of the substrate 1 may have other shapes than polygonal cone, including a case where slight deformation of the shape may occur during the production process.

Preferably, each three-dimensional light reflecting unit comprises at least one three-dimensional multi-sided reflective pit 2, the three-dimensional multi-sided reflective pits 2 are all recessed below the surface of the substrate 1, and the shape of the three-dimensional multi-sided reflective pit 2 is a polygonal cone.

The surface of the substrate 1 is formed with hollow three-dimensional multi-surface reflection pits 2 arranged at intervals in a dispersed manner by a stamping process or an integral forming process. The surface of the substrate 1 is a curved surface or a plane, the curved surface comprises an arc-shaped curved surface and a special-shaped curved surface, and hollow three-dimensional multi-surface reflection pits 2 which are adjacently and continuously arranged and connected into a piece are formed on the surface of the substrate 1 through a stamping process or an integral forming process. The cubic multi-faceted reflective pits 2 may be formed over various curved shapes and arranged to follow the curved surface.

The utility model discloses there is a plurality of three-dimensional reflection of light units of forming by a plurality of sunken three-dimensional multiaspect reflection of light hole 2 below the surface of substrate 1 at substrate 1's surface integrated into one piece, because of three-dimensional reflection of light unit sinks relatively and is difficult for receiving wearing and tearing below the surface of substrate 1 matter, the wearability is extremely strong, and because of the reflection of light face that three-dimensional reflection of light unit has the surperficial slope setting of a plurality of looks substrates 1, has better reflection of light visual effect, and simple structure, it is with low costs.

Preferably, a plurality of three-dimensional multi-surface reflective pits 2 are arranged in a combined manner to form a three-dimensional reflective unit, the three-dimensional reflective unit comprises three-dimensional multi-surface reflective pits 2 with different heights and different shapes of the bottom surface of the cone, so that a more complex three-dimensional reflective surface is formed on the surface of the substrate 1, the three-dimensional reflective surface has the three-dimensional multi-surface reflective pits 2 with different sizes, different light overall reflection directions and different depths and within a specified range, and a more glaring visual effect can be obtained.

Each three-dimensional multi-surface reflective pit 2 is provided with a plurality of inner reflective wall surfaces 22, each inner reflective wall surface 22 is positioned below the surface of the substrate 1, each inner reflective wall surface 22 is obliquely arranged relative to the surface of the substrate 1, and each inner reflective wall surface 22 of each three-dimensional multi-surface reflective pit 2 is attached with a reflective layer. Preferably, a reflective layer is attached to the surface of the substrate 1 and the surface of each inner reflective wall 22 of each three-dimensional multi-faceted reflective pit 2 by a plating process, and the reflective layer attached to the surface of the substrate 1 and the reflective layer attached to the surface of the inner reflective wall 22 are integrally connected.

After the light irradiates on the surface of the substrate 1, the light is respectively incident into each three-dimensional multi-surface reflection pit 2 through the cone bottom surface of each three-dimensional multi-surface reflection pit 2, the incident light is reflected by at least two inner reflection wall surfaces 22 and then is reflected out through the cone bottom surface of each corresponding three-dimensional multi-surface reflection pit 2, all the incident light can be basically reflected out in a concentrated manner through the cone bottom surface because each three-dimensional multi-surface reflection pit 2 has a certain specific height or depth, and according to the principle of equal-angle reflection of the light, the light with different incident angles relative to the surface of the substrate 1 is converged into parallel light after being incident into the three-dimensional multi-surface reflection pit 2 and is reflected out in a concentrated manner through the cone bottom surface. When the substrate 1 is observed by human eyes, each three-dimensional multi-surface reflection pit 2 can be observed by human eyes to form a relatively high-brightness reflection bright spot or small reflection block, the small reflection block with the relatively small area of the bottom surface of the cone is expressed as a bright spot, and the small reflection block with the relatively large area of the bottom surface of the cone is expressed as a bright spot.

Specifically, the shape of the cross section of the three-dimensional multi-face reflection pit 2 intersecting the substrate 1 is a polygon, and the shape of the three-dimensional multi-face reflection pit 2 includes a triangular pyramid, a four-pyramid, a five-pyramid, a six-pyramid, a seven-pyramid and an eight-pyramid. For example, a three-dimensional light reflecting unit includes six three-dimensional multi-sided reflective pits 2 each having a triangular pyramid shape, each three-dimensional light reflecting unit has a triangular pyramid bottom surface, the pyramid bottom surfaces of the six three-dimensional multi-sided reflective pits 2 are spliced into a hexagonal light incident surface on the surface of the substrate 1, the arrangement rule of each three-dimensional light reflecting unit on the surface of the substrate 1 is that six sides of the light incident surface of each three-dimensional light reflecting unit are respectively connected with another three-dimensional light reflecting unit, one three-dimensional multi-sided reflective pit 2 has three inner light reflecting wall surfaces 22, any two inner light reflecting wall surfaces 22 are perpendicular to each other, and each inner light reflecting wall surface 22 is in the shape of an isosceles right triangle with an acute included angle of 45 degrees.

A quadrangular pyramid-shaped three-dimensional multi-faceted reflective pit 2 may be used as a three-dimensional reflective unit, a hexagonal pyramid-shaped three-dimensional multi-faceted reflective pit 2 may be used as a three-dimensional reflective unit, and in addition, a plurality of shapes of three-dimensional multi-faceted reflective pits 2 may be formed on the surface of the substrate 1.

Optionally, the surface of the substrate 1 is formed with a plurality of three-dimensional light reflecting units arranged in a regular succession and three-dimensional multi-sided reflective pits 2 filled in arrangement gaps between adjacent three-dimensional light reflecting units. Each of the three-dimensional multi-sided reflective pits 2 has a tip portion 21 and a cone bottom surface, each of the three-dimensional multi-sided reflective pits 2 has a head portion facing downward and is sunk below the surface of the substrate 1, the tip portion 21 of the three-dimensional multi-sided reflective pit 2 faces downward, the cone bottom surface faces upward, the cone bottom surface is polygonal, and the cone bottom surface is not higher than the surface of the substrate 1. The height of the three-dimensional multi-sided reflective pit 2 is set to 1-10mm, preferably, the height of the three-dimensional multi-sided reflective pit 2 is set to 3.5-6.5mm, and the height of the three-dimensional multi-sided reflective pit 2 is smaller than the side length of the bottom surface of the pyramid, so that a multi-sided reflective pit having a sufficient depth and a relatively larger total reflective area is obtained.

A plurality of three-dimensional multi-sided reflective pits 2 may be formed on the front and side surfaces of the substrate 1, as shown in fig. 9, for the side surface with a relatively narrow width of the substrate 1, only 1 to 3 rows of three-dimensional reflective units may be formed on the side surface, each row of three-dimensional reflective units is provided with at least one three-dimensional multi-sided reflective pit 2, for example, each row of three-dimensional reflective units formed on the side surface of the substrate 1 is provided with only three-dimensional multi-sided reflective pits 2 having a quadrangular cone shape, for example, each row of three-dimensional reflective units formed on the side surface of the substrate 1 is provided with only two three-dimensional multi-sided reflective pits 2 having a triangular cone shape.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims

1. A three-dimensional reflective veneer structure comprises a substrate (1), and is characterized in that: a plurality of three-dimensional reflecting units are integrally formed on the surface of the base material (1), at least one three-dimensional reflecting surface is arranged on the partial surface or the whole surface of the base material (1), wherein,

the three-dimensional reflecting surface comprises a plurality of three-dimensional reflecting units which are dispersedly distributed on the surface of the base material (1) or continuously distributed on the surface of the base material (1) and connected into a piece;

the three-dimensional reflecting unit comprises at least one three-dimensional multi-surface reflecting pit (2) which sinks below the surface of the substrate (1) and is in the shape of a polygonal cone.

2. The retroreflective veneer structure of claim 1, wherein: the surface of the base material (1) is a curved surface or a plane, and a plurality of hollow three-dimensional multi-surface reflection pits (2) which are arranged at intervals in a scattered manner or are adjacently and continuously arranged and connected into a piece are formed on the surface of the base material (1) through a stamping process or an integral forming process.

3. The retroreflective veneer structure of claim 1, wherein: the three-dimensional reflecting unit comprises at least one three-dimensional multi-surface reflecting pit (2) which is sunken or sinks below the surface of the base material (1) and has a downward pointed end part in the shape of a polygonal cone, and at least one three-dimensional multi-surface reflecting pit (2) which is protruded above the surface of the base material (1) and has an upward pointed end part in the shape of a polygonal cone,

alternatively, the first and second electrodes may be,

the surface of the base material (1) is provided with a plurality of three-dimensional multi-surface reflectors which are sunk below the surface of the base material (1) or projected above the surface of the base material (1), have a shape of a table body or a special-shaped body, have at least two reflecting side surfaces and are distributed in the three-dimensional light reflecting surface at intervals.

4. The retroreflective veneer structure of claim 1, wherein: each three-dimensional multi-surface reflection pit (2) is provided with a tip part (21) and a cone bottom surface, the whole three-dimensional multi-surface reflection pit (2) sinks below the surface of the substrate (1), the tip part (21) of the three-dimensional multi-surface reflection pit (2) faces downwards, the cone bottom surface faces upwards, and the cone bottom surface is not higher than the surface of the substrate (1); the cross section of the three-dimensional multi-surface reflection pit (2) and the base material (1) is polygonal.

5. The retroreflective veneer structure of claim 4, wherein: the surface of the base material (1) is provided with a plurality of three-dimensional light reflecting units which are continuously arranged according to a rule, and one three-dimensional light reflecting unit comprises a plurality of three-dimensional multi-surface reflecting pits (2) which are combined and arranged and then connected into a whole;

the shape of the three-dimensional multi-faceted reflective pit (2) includes, but is not limited to, a triangular pyramid, a rectangular pyramid, a five-sided pyramid, a six-sided pyramid, a seven-sided pyramid, and an eight-sided pyramid.

6. The retroreflective veneer structure of claim 4, wherein: one three-dimensional light reflecting unit comprises three-dimensional multi-surface reflecting pits (2) with different heights and/or different shapes of the bottom surface of the cone, and the height of each three-dimensional multi-surface reflecting pit (2) is smaller than the side length of the bottom surface of the cone;

and arrangement gaps are formed between adjacent stereo light reflecting units arranged in the stereo light reflecting surface, and at least one stereo multi-surface reflecting pit (2) with different shapes is formed in the arrangement gaps.

7. The retroreflective veneer structure according to any one of claims 1 to 6, wherein: each three-dimensional multi-face reflection pit (2) is provided with a plurality of inner reflection wall surfaces (22), each inner reflection wall surface (22) is arranged below the surface of the base material (1), each inner reflection wall surface (22) is obliquely arranged relative to the surface of the base material (1), and each inner reflection wall surface (22) of each three-dimensional multi-face reflection pit (2) is attached with a reflection layer.

8. The retroreflective veneer structure of claim 7, wherein: a reflecting layer is attached to the surface of the base material (1) and the surface of each inner reflecting wall surface (22) of each three-dimensional multi-surface reflecting pit (2) through an electroplating process, and the reflecting layer attached to the surface of the base material (1) and the reflecting layer attached to the surface of the inner reflecting wall surface (22) are connected into a whole.

9. The retroreflective veneer structure of claim 7, wherein: one three-dimensional reflection of light unit includes that six shapes are triangular pyramid three-dimensional multiaspect reflection pit (2), and each three-dimensional reflection of light unit all has a shape for the cone bottom surface of trilateral, and the cone bottom surface of six three-dimensional multiaspect reflection pits (2) is in the income plain noodles that a shape is the hexagon is spliced into on the surface of substrate (1), and the arrangement law on the surface of substrate (1) of each three-dimensional reflection of light unit is that six limits at the income plain noodles of each three-dimensional reflection of light unit connect with another three-dimensional reflection of light unit respectively.

10. The retroreflective veneer structure of claim 9, wherein: one three-dimensional multi-surface reflection pit (2) is provided with three inner reflection wall surfaces (22), any two inner reflection wall surfaces (22) are perpendicular to each other, and each inner reflection wall surface (22) is in the shape of an isosceles right triangle with an acute included angle of 45 degrees.