CN220045099U - Imitation drilling complex surface metal decoration - Google Patents

Abstract

The utility model discloses a diamond-like complex surface metal decoration piece, which comprises a metal top surface and a base, wherein the metal top surface comprises eight identical refraction unit arrays, any one refraction unit array comprises a first section group to a twelfth section group, any one section group comprises two sections which are symmetrically arranged and have included angles, and the included angles of the first section group to the twelfth section group are 158+/-10 degrees, 160+/-10 degrees, 148+/-10 degrees, 160+/-10 degrees, 143+/-10 degrees, 168+/-10 degrees, 155+/-10 degrees, 190+/-10 degrees, 210+/-10 degrees, 196+/-10 degrees and 145+/-10 degrees in sequence. According to the metal decorating part, the metal top surface of the metal decorating part is cut, so that the sections of a plurality of reflected light rays can be obtained, the bright effect of the refractive light rays of the eight-heart eight-arrow diamond is simulated, the metal part is cut, the refractive light ray effect of the diamond is simulated, the bright refractive effect of the diamond is achieved, and the diamond is more guaranteed and cheaper than the diamond.

Description

Imitation drilling complex surface metal decoration

Technical Field

The utility model relates to the technical field of refraction, in particular to a diamond-like complex surface metal decoration piece.

Background

Currently, with the improvement of the living standard of people, jewellery is widely used as ornaments of people, and diamond ornaments are particularly prominent. The quality of diamond was evaluated mainly from four points: color, clarity, weight, and cut, which are the properties of the diamond itself when formed, cannot be changed, so that only cut can give better quality and value to the diamond and give a brighter brilliance to the diamond. Along with the continuous development of cutting technology, the cutting process of the diamond which presents eight-heart eight-arrow brilliance inside the diamond after light refraction is popular and loved by people, and is also used as the cutting process at the current higher end in the diamond.

Although diamond can achieve a very bright effect through refraction, the diamond has the problems that the price is too high, the diamond cannot be guaranteed, and the diamond inlaying process is difficult.

Disclosure of Invention

Therefore, the utility model aims to at least solve the defects in the prior art to a certain extent, thereby providing the imitation drilling complex surface metal decorating piece.

In order to achieve the above purpose, the utility model adopts a technical scheme that:

the utility model provides a metal decoration piece with a simulated drilling complex surface, which comprises a metal top surface and a base, wherein the metal top surface comprises eight identical refraction unit arrays, any one of the refraction unit arrays comprises a first, a second, a third, a fourth, a fifth, a sixth, a seventh, an eighth, a ninth, a tenth, an eleventh and a twelfth section groups, any one of the section groups comprises two sections which are symmetrically arranged and have included angles, the included angles of the sections of the first section group are 158+/-10 degrees, the included angles of the sections of the second section group are 160+/-10 degrees, the included angles of the sections of the third section group are 148+/-10 degrees, the included angles of the sections of the fourth section group are 148+/-10 degrees, the included angles of the sections of the fifth section group are 160+/-10 degrees, the included angles of the sections of the sixth section group are 143+/-10 degrees, the included angles of the sections of the seventh section group are 168+/-10 degrees, the included angles of the sections of the eighth section group are 155+/-10 degrees, the included angles of the sections of the ninth section group are 190+/-10 degrees, and the included angles of the sections of the tenth section group are 190+/-10 degrees, and the included angles of the sections of the tenth section group are 196+/-10 degrees.

Further, eight refraction unit arrays are sequentially connected to form a ring shape, two opposite refraction unit arrays are symmetrically arranged and have included angles, wherein the included angles of the two opposite refraction unit arrays which are symmetrically arranged are 157.8 +/-10 degrees.

Further, any one of the refraction unit arrays is divided into a first refraction surface and a second refraction surface through a central line, and two tangent planes of any one of the tangent plane assemblies are symmetrically arranged through the central line, so that two tangent planes of any one of the tangent plane groups are respectively arranged on the first refraction surface and the second refraction surface.

Further, the sizes and the geometric shapes of the two sections of any one section group are the same.

Further, on the first refractive surface of any one of the refractive unit arrays, the surfaces of the second surface group are respectively connected with the surfaces of the first surface group, the third surface group and the fifth surface group, the surfaces of the fourth surface group are respectively connected with the surfaces of the third surface group, the fifth surface group and the sixth surface group, the surfaces of the eighth surface group are respectively connected with the surfaces of the sixth surface group, the seventh surface group, the tenth surface group and the eleventh surface group, the surfaces of the tenth surface group are respectively connected with the surfaces of the ninth surface group and the twelfth surface group, the surfaces of the seventh surface group are respectively connected with the surfaces of the fifth surface group and the ninth surface group, and the surfaces of the eleventh surface group are also connected with the surfaces of the twelfth surface group.

Further, the geometric shapes of the planes of the first plane group, the third plane group, the fourth plane group, the fifth plane group, the sixth plane group, the ninth plane group, the tenth plane group and the twelfth plane group are triangles.

Further, the geometric shapes of the sections of the second section group, the seventh section group, the eighth section group and the eleventh section group are quadrangles.

The utility model provides a metal decoration piece with a simulated drilling complex surface, which comprises a metal top surface and a base, wherein the metal top surface comprises eight identical refraction unit arrays, any one of the refraction unit arrays comprises a first, a second, a third, a fourth, a fifth, a sixth, a seventh, an eighth, a ninth, a tenth, an eleventh and a twelfth section groups, any one of the section groups comprises two sections which are symmetrically arranged and have included angles, the included angles of the sections of the first section group are 158+/-10 degrees, the included angles of the sections of the second section group are 160+/-10 degrees, the included angles of the sections of the third section group are 148+/-10 degrees, the included angles of the sections of the fourth section group are 148+/-10 degrees, the included angles of the sections of the fifth section group are 160+/-10 degrees, the included angles of the sections of the sixth section group are 143+/-10 degrees, the included angles of the sections of the seventh section group are 168+/-10 degrees, the included angles of the sections of the eighth section group are 155+/-10 degrees, the included angles of the sections of the ninth section group are 190+/-10 degrees, and the included angles of the sections of the tenth section group are 190+/-10 degrees, and the included angles of the sections of the tenth section group are 196+/-10 degrees. According to the metal decorating part, the metal top surface of the metal decorating part is cut, so that the sections of a plurality of reflected light rays can be obtained, the bright effect of the refractive light rays of the eight-heart eight-arrow diamond is simulated, the metal part is cut, the refractive light ray effect of the diamond is simulated, the bright refractive effect of the diamond is achieved, and the diamond is more guaranteed and cheaper than the diamond.

Drawings

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

FIG. 1 is a schematic top view of a simulated drilling complex surface metal trim piece of the present utility model;

FIG. 2 is a schematic side view of the simulated drilling complex surface metal trim piece of the present utility model;

FIG. 3 is a schematic diagram of a single array of refractive elements of the present utility model for a simulated drilling complex surface metal trim piece;

fig. 4 is a schematic diagram of the overall structure of the simulated drilling complex surface metal decorative piece of the present utility model.

The reference numerals in the drawings are as follows: 1-a metal top surface; 101-cutting planes of a first cutting plane group; 102-the sections of the second section group; 103-the sections of the third section group; 104-the sections of the fourth section group; 105-the cut surfaces of the fifth cut surface group; 106-cutting planes of a sixth cutting plane group; 107-seventh group of cuts; 108-cutting planes of the eighth group of cutting planes; 109-cutting surfaces of the ninth cutting surface group; 1010-cutting noodles of a tenth cutting noodle group; 1011-eleventh section group; 1012-twelfth dough group; 2-a base; 3-center line.

Detailed Description

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

It should be noted that the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Referring to fig. 1 to 4, the present utility model provides a metal decoration piece with a complicated surface by imitating a diamond, which comprises a metal top 1 and a base 2, wherein the metal top 1 comprises eight identical refractive unit arrays, any refractive unit array comprises a first, a second, a third, a fourth, a fifth, a sixth, a seventh, an eighth, a ninth, a tenth, an eleventh and a twelfth facet groups, and any facet group comprises two facet groups symmetrically arranged and having an included angle, the included angle of the facet of the first facet group is 158±10°, the included angle of the facet of the second facet group is 160±10°, the included angle of the facet of the third facet group is 148±10°, the included angle of the facet of the fourth facet group is 148±10°, the included angle of the facet of the fifth facet group is 160±10°, the included angle of the facet of the sixth facet group is 143±10°, the included angle of the facet of the seventh facet group is 168±10°, the included angle of the facet group is 155±10° and the included angle of the facet of the ninth facet group is 190±10° and the included angle of the tenth facet group is 210±10° and the included angle of the eleventh facet group is 196±10°.

In this embodiment, a metal decoration piece with a complicated surface of a diamond-like device includes a metal top surface 1 and a base 2, i.e. the metal top surface 1 of the metal decoration piece is cut, so that a plurality of cut surfaces capable of reflecting light rays can be obtained, specifically, the metal top surface 1 of the metal decoration piece is cut by using twelve cutters with different angles, the cut metal top surface 1 includes eight identical refractive unit arrays, i.e. the refractive unit arrays rotate around the vertex for eight times, so that the cut surface of the diamond-like device with eight hearts and eight arrows can be obtained, and the bright refractive effect of the diamond-like device with eight hearts and eight arrows can be formed.

In this embodiment, any one of the refraction unit arrays includes twelve sections, which are a first section, a second section, a third section, a fourth section, a fifth section, a sixth section, a seventh section, an eighth section, a ninth section, a tenth section, an eleventh section, and a twelfth section. Any one section group comprises two sections which are symmetrically arranged relatively, and an included angle is formed between the two sections. Specifically, the included angle of two sections in the first section group is 158+/-10 degrees, namely 148-168 degrees; the included angle of two sections in the second section group is 160+/-10 degrees, namely 150-170 degrees; the included angle of two sections in the third section group is 148+/-10 degrees, namely 138-158 degrees; the included angle range of two sections in the fourth section group is 148+/-10 degrees, namely 138-158 degrees; the included angle range of two sections in the fifth section group is 160+/-10 degrees, namely 150-170 degrees; the included angle of two sections in the sixth section group is 143 plus or minus 10 degrees, namely 133-153 degrees; the included angle range of two sections in the seventh section group is 168+/-10 degrees, namely 158-178 degrees; the included angle between two sections in the eighth section group is 155+/-10 degrees, namely 145-165 degrees; the included angle between two sections in the ninth section group is 190+ -10 deg., namely 180 deg. -200 deg.; the included angle of the two sections in the tenth section group is 210+/-10 degrees, namely 200-220 degrees; the included angle between two sections in the eleventh section group is 196+/-10 degrees, namely 186-206 degrees; the included angle of the two sections in the twelfth section group is 145+/-10 degrees, namely 135-155 degrees.

Wherein, cut into eight refraction unit arrays through the cutter of twelve different angles on the metal top surface 1, arbitrary one refraction unit array all includes 12 tangent plane groups, 24 tangent planes promptly, and the contained angle between each group tangent plane is all different, can make the metal decoration after the cutting appear eight hearts eight arrow diamond and like bright refracting effect.

Further, eight refraction unit arrays are sequentially connected to form a circular ring, two opposite refraction unit arrays are symmetrically arranged and have included angles, wherein the included angles of the two opposite refraction unit arrays which are symmetrically arranged are 157.8 +/-10 degrees.

In this embodiment, eight refraction unit arrays are sequentially connected to form a ring shape with a center of 360 degrees, and the refraction unit arrays in the eight refraction unit arrays are symmetrically arranged in pairs, wherein the two pairs of refraction units symmetrically arranged are symmetrical through the vertex. Specifically, the two refraction unit arrays which are symmetrically arranged relative to each other through the vertex are provided with an included angle, so that different refraction surfaces exist on the metal decoration piece, and the bright refraction effect of the eight-heart eight-arrow diamond can be displayed. The included angle of the two refractive unit arrays which are oppositely and symmetrically arranged is 157.8 ±10°, namely 147.8-167.8, and the included angle of the two refractive unit arrays of the metal decorating part in the embodiment is 157.8 °, wherein the larger the included angle of the two refractive unit arrays which are oppositely and symmetrically arranged is, the lower the height of the base 2 of the whole metal decorating part is.

Further, any refractive unit array is divided into a first refractive surface and a second refractive surface by a central line 3, and two tangential surfaces of any tangential surface component are symmetrically arranged by the central line 3, so that two tangential surfaces of any tangential surface group are respectively arranged on the first refractive surface and the second refractive surface.

In this embodiment, a central line 3 is disposed at the middle position of any one of the refractive unit arrays, the central line 3 divides the refractive unit array into two parts, namely a first refractive surface and a second refractive surface with the same shape and size, and the first refractive surface and the second refractive surface are symmetrically disposed through the central line 3. The refraction unit array further comprises 12 groups of tangent planes which are symmetrically arranged, the 12 groups of tangent planes which are symmetrically arranged are specifically symmetrically arranged through a central line 3, namely, two tangent planes of any one tangent plane group are symmetrically arranged through the central line 3, and the two tangent planes of any one tangent plane group are respectively arranged on a first refraction surface and a second refraction surface which are symmetrically arranged through the central line 3.

Further, the size and geometry of the two sections of any section group are the same.

In this embodiment, the dimensions and geometries of the two sections in any one section group are the same, that is, the sections on the first refractive surface and the second refractive surface are the same, and the refractive unit array includes two identical first refractive surfaces and second refractive surfaces.

Further, on the first refractive surface of the Ren Yishe array of radiation units, the second facet 102 is respectively connected to the first facet, the third facet and the fifth facet, the fourth facet 104 is respectively connected to the third facet, the fifth facet and the sixth facet, the eighth facet 108 is respectively connected to the sixth facet, the seventh facet, the tenth facet and the eleventh facet, the tenth facet 1010 is respectively connected to the ninth facet and the twelfth facet, the seventh facet 107 is respectively connected to the fifth facet and the ninth facet, and the eleventh facet 1011 is also connected to the twelfth facet 1012.

In this embodiment, the two refractive surfaces on the refractive unit array are the same, and the tangential surfaces of the first refractive surface and the second refractive surface that meet are the same. Taking the first refractive surface of the refractive unit array as an example, the first surface 101 is connected with the second surface 102, the second surface 102 is also connected with the third surface 103 and the fifth surface 105, the third surface 103 is also connected with the fourth surface 104, the fourth surface 104 is also connected with the sixth surface 106, the fifth surface 105 is also connected with the seventh surface 107, the sixth surface 106 is also connected with the eighth surface 108, the seventh surface 107 is also connected with the eighth surface 108 and the ninth surface 109, the eighth surface 108 is also connected with the tenth surface 1010 and the eleventh surface 1011, the ninth surface 109 is also connected with the tenth surface 1010, the tenth surface 1010 is also connected with the twelfth surface 1012, and the eleventh surface 1011 is also connected with the twelfth surface 1012.

Wherein the contact of the cut surface on the second refraction surface of the refraction unit array is the same as the contact of the cut surface on the first refraction surface.

Further, the geometric shapes of the planes of the first plane group, the third plane group, the fourth plane group, the fifth plane group, the sixth plane group, the ninth plane group, the tenth plane group and the twelfth plane group are triangles.

In this embodiment, the facet 101 of the first facet group, the facet 103 of the third facet group, the facet 104 of the fourth facet group, the facet 105 of the fifth facet group, the facet 106 of the sixth facet group, the facet 108 of the eighth facet group, the facet 109 of the ninth facet group, the facet 1010 of the tenth facet group and the facet 1012 of the twelfth facet group are all triangular, wherein the facet is triangular, so that the refraction effect of the diamond simulating eight hearts and eight arrows is best.

Further, the geometric shapes of the sections of the second section group, the seventh section group, the eighth section group and the eleventh section group are quadrangles.

In this embodiment, the geometric shapes of the facet 102 of the second facet group, the facet 107 of the seventh facet group, the facet 108 of the eighth facet group, and the facet 1011 of the eleventh facet group are all quadrangles, wherein the facets are quadrangles, so that the refraction effect of the diamond simulating eight hearts and eight arrows is best.

The utility model provides a metal decoration piece with a simulated drilling complex surface, which comprises a metal top surface and a base, wherein the metal top surface comprises eight identical refraction unit arrays, any one of the refraction unit arrays comprises a first, a second, a third, a fourth, a fifth, a sixth, a seventh, an eighth, a ninth, a tenth, an eleventh and a twelfth section groups, any one of the section groups comprises two sections which are symmetrically arranged and have included angles, the included angles of the sections of the first section group are 158+/-10 degrees, the included angles of the sections of the second section group are 160+/-10 degrees, the included angles of the sections of the third section group are 148+/-10 degrees, the included angles of the sections of the fourth section group are 148+/-10 degrees, the included angles of the sections of the fifth section group are 160+/-10 degrees, the included angles of the sections of the sixth section group are 143+/-10 degrees, the included angles of the sections of the seventh section group are 168+/-10 degrees, the included angles of the sections of the eighth section group are 155+/-10 degrees, the included angles of the sections of the ninth section group are 190+/-10 degrees, and the included angles of the sections of the tenth section group are 190+/-10 degrees, and the included angles of the sections of the tenth section group are 196+/-10 degrees. According to the metal decorating part, the metal top surface of the metal decorating part is cut, so that the sections of a plurality of reflected light rays can be obtained, the bright effect of the refractive light rays of the eight-heart eight-arrow diamond is simulated, the metal part is cut, the refractive light ray effect of the diamond is simulated, the bright refractive effect of the diamond is achieved, and the diamond is more guaranteed and cheaper than the diamond.

It should be noted that, in the present disclosure, each embodiment is described in a progressive manner, and each embodiment is mainly described as different from other embodiments, and identical and similar parts between the embodiments are all enough to be referred to each other.

It should also be noted that in the present disclosure, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. The utility model provides a imitative complicated surface metal decoration of brill, its characterized in that includes metal top surface and base, the metal top surface includes eight the same refraction unit arrays, arbitrary the refraction unit arrays include first, second, third, fourth, fifth, sixth, seventh, eighth, ninth, tenth, eleventh, twelfth tangent plane group, and arbitrary the tangent plane group is including two tangent planes that the symmetry set up and have the contained angle, the tangent plane contained angle of first tangent plane group is 158 + -10, the tangent plane contained angle of second tangent plane group is 160 + -10, the tangent plane contained angle of third tangent plane group is 148 + -10, the tangent plane contained angle of fourth tangent plane group is 148 + -10, the tangent plane contained angle of fifth tangent plane group is 160 + -10, the tangent plane contained angle of sixth tangent plane group is 143 + -10, the tangent plane contained angle of seventh tangent plane group is 168 + -10, the tangent plane contained angle of eighth tangent plane group is 155 + -10, the contained angle of ninth group is 190 + -10, the tangent plane contained angle of tenth group is 210 the tangent plane contained angle of eleventh tangent plane group is 196 + -10.

2. The diamond-like complex surface metal decorating part according to claim 1, wherein eight refraction unit arrays are sequentially connected to form a circular ring shape, two opposite refraction unit arrays are symmetrically arranged and have included angles, and the included angles of the two opposite refraction unit arrays which are symmetrically arranged are 157.8 +/-10 degrees.

3. The simulated drilling complex surface metal trim piece of claim 1, wherein any one of said array of refractive elements is divided into a first refractive surface and a second refractive surface by a centerline, and two cut surfaces of any one of said cut surface assemblies are symmetrically disposed by said centerline such that two cut surfaces of any one of said set of cut surfaces are disposed on said first refractive surface and said second refractive surface, respectively.

4. A simulated drilling complex surface metal trim piece as claimed in claim 3, wherein the dimensions and geometry of both of said cut surfaces of any one of said sets of cut surfaces are the same.

5. The simulated drilling complex surface metal decorative article of claim 4, wherein on said first refractive surface of any of said array of refractive elements, said second set of facets is respectively joined to said first, third and fifth sets of facets, said fourth set of facets is respectively joined to said third, fifth and sixth sets of facets, said eighth set of facets is respectively joined to said sixth, seventh, tenth and eleventh sets of facets, said tenth set of facets is respectively joined to said ninth and twelfth sets of facets, said seventh set of facets is respectively joined to said fifth and ninth sets of facets, and said eleventh set of facets is joined to said twelfth set of facets.

6. The simulated drilling complex surface metal decorative article of claim 1, wherein the geometric shapes of the facets of said first, third, fourth, fifth, sixth, ninth, tenth, twelfth sets of facets are triangular.

7. The simulated drilling complex surface metal trim piece of claim 1, wherein the geometry of the facets of said second, seventh, eighth and eleventh sets of facets is quadrilateral.