CN113876090A - Processing and forming process of crystal diamond bead blank - Google Patents

Abstract

The invention provides a processing and forming process of a crystal diamond bead blank, which comprises the following steps: step S1: obtaining a crystal raw material, cutting the crystal raw material according to a preset requirement, and obtaining a cut crystal; step S2: polishing the edge surfaces of the cut crystal to obtain a polished crystal; step S3: and polishing the polished crystal, and adjusting the sharpness and the refractive index of the edge surface to obtain the polished crystal. The crystal diamond bead blank is obtained by cutting the crystal raw material, the crystal diamond bead blank is subjected to polishing processing, the crystal diamond bead blank is processed into a crystal diamond, the brightness of the crystal diamond is increased, the crystal diamond is enabled to have a better refraction effect, the attractiveness of the crystal diamond is improved, furthermore, the prism surface of the crystal raw material is polished, the quantity of refraction light of the crystal can be improved, and the attractiveness of the crystal can be improved when the crystal is directly viewed.

Description

Processing and forming process of crystal diamond bead blank

Technical Field

The invention relates to the field of jewelry processing, in particular to a processing and forming process of a crystal diamond bead blank.

Background

The main component of the crystal is silicon dioxide, which is a beautiful mineral substance that people like, and the crystal is widely used for making ornaments. The crystal diamond made and processed by the crystal is widely applied to the fields of ornaments, artware, clothes, vamps, wall hanging and the like.

Rhinestone (crystal, rhinestone) is also known as crystal diamond and rhinestone. The main component is crystal glass, which is an accessory of the ornament obtained by cutting artificial crystal glass into diamond facets, and the material is more economical, and has the visual effect of diamond-like dazzling feeling. Therefore, the rhinestone is popular, and is generally used in the ornament design of the middle grade.

After the existing crystal diamond is processed and formed, the edges of the crystal diamond are not obvious, the crystal diamond surface is not displayed in place, and the brightness of the crystal diamond is reduced.

Disclosure of Invention

The invention provides a processing and forming process of a crystal diamond bead blank, aiming at overcoming the technical problems that the edge surfaces of the existing crystal diamond are not obvious, and the brightness of the crystal diamond is reduced.

The invention provides a processing and forming process of a crystal diamond bead blank, which comprises the following steps: step S1: obtaining a crystal raw material, cutting the crystal raw material according to a preset requirement, and obtaining a cut crystal; step S2: polishing the edge surfaces of the cut crystal to obtain a polished crystal; step S3: and polishing the polished crystal, and adjusting the sharpness and the refractive index of the edge surface to obtain the polished crystal.

Preferably, step S1 is preceded by: step S0: the method comprises the steps of obtaining raw materials for manufacturing the crystal, and obtaining the crystal raw materials through the procedures of mixing, heating, die reversing and rounding.

Preferably, step S1 specifically includes the following steps: step S11: obtaining a crystal raw material, and cutting the crystal raw material into granules; step S12: cutting edges and corners of the granular crystal raw material, and cutting according to the diamond pattern.

Preferably, step S2 specifically includes the following steps: step S21: obtaining the cut crystal, polishing the edges on the crystal, and removing burrs on the edges; step S22: the surfaces near the edges of the crystal are polished, so that the display effect of the edges is improved; step S23: collecting crystal powder falling off during polishing.

Preferably, step S3 specifically includes the following steps: step S31: obtaining crystal powder falling during grinding, and polishing the ground edge surface by using the crystal powder; step S32: polishing the edges, and changing the angle between the edges; step S33: and (5) grinding the opposite surface, and adjusting the orientation angle of the surface to obtain the polished crystal.

Preferably, step S3 is followed by: step S4: and (4) carrying out fine processing procedures of carving and debossing on the polished crystal to obtain the crystal diamond.

Preferably, the crystal polishing is performed using a diamond polisher.

Preferably, the crystal raw material is cut by using an ultrasonic cutting method.

Compared with the prior art, the processing and forming process of the crystal diamond bead blank provided by the invention has the following advantages:

1. a processing and forming process of a crystal diamond bead blank comprises the steps of cutting a crystal raw material to obtain the crystal diamond bead blank, carrying out polishing processing on the crystal diamond bead blank to enable the crystal diamond bead blank to be processed into a crystal diamond, increasing the brightness of the crystal diamond, enabling the crystal diamond to present a better refraction effect, improving the attractiveness of the crystal diamond, further polishing the edge surface of the crystal raw material to improve the quantity of refraction light rays of the crystal, and improving the attractiveness of the crystal when the crystal is directly viewed.

2. The raw materials for manufacturing the crystal are manufactured by mixing, heating and reverse moulding to obtain the crystal raw materials, so that the purity of the crystal raw materials is increased, impurities in the crystal raw materials are reduced, the refractive index of the crystal diamond is further improved, in the rounding process, the defects of no half lines, ovality or surface smoothness and the like on the heated crystal raw materials are rapidly eliminated in the rolling process, and the surface smoothness of the crystal raw materials is improved.

3. Cutting the quartzy raw materials according to predetermineeing lithodomous model, cutting quartzy raw materials back so that subsequent processing, simultaneously, cutting into graininess makes quartzy raw materials just possess lithodomous shape, improves the convenience of processing.

4. The edges and the faces on the crystal are polished, so that burrs generated during cutting are removed, the smoothness degree of the edges and the faces on the crystal is improved, the refraction effect of the crystal diamond is increased, further, the display effect of the edges is increased, the outlines between the faces on the crystal are more obvious, and the refraction effect between the faces is more obvious.

5. The crystal powder can polish the facet after polishing, and the acutance and the refracting index of adjustment facet improve quartzy diamond's refracting luminance, and simultaneously, the position between adjustment arris and the face makes it present better display effect when wearing, can let more faces refract light, improves quartzy diamond's quality.

6. The polished crystal is carved, so that patterns are added on the surface of the crystal, or the patterns are added in the crystal, the attractiveness of the crystal diamond is improved, the defects of depression and the like on the surface of the crystal can be removed by dishing, the smoothness of the surface of the crystal is improved, and the attractiveness of the crystal diamond is improved.

7. The crystal raw material is cut by using an ultrasonic cutting method, so that the gasification of the crystal raw material can be reduced, the edge is more complete during cutting, the procedures of subsequent processing treatment are reduced, and the processing speed is increased.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit of the present invention are intended to be included within the scope of the present invention.

Drawings

FIG. 1 is a flow chart of a process for forming a diamond bead blank according to a first embodiment of the present invention;

FIG. 2 is a flowchart illustrating a process for forming a bead blank of a crystal diamond according to a first embodiment of the present invention;

FIG. 3 is a detailed flowchart of step S1 in the process of forming a crystal diamond bead blank according to the first embodiment of the present invention;

FIG. 4 is a detailed flowchart of step S2 in the process of forming a crystal diamond bead blank according to the first embodiment of the present invention;

FIG. 5 is a detailed flowchart of step S3 in the process of forming a crystal diamond bead blank according to the first embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

The main component of the crystal is silicon dioxide, which is a beautiful mineral substance that people like, and the crystal is widely used for making ornaments. The crystal diamond made and processed by the crystal is widely applied to the fields of ornaments, artware, clothes, vamps, wall hanging and the like.

Rhinestone (crystal, rhinestone) is also known as crystal diamond and rhinestone. The main component is crystal glass, which is an accessory of the ornament obtained by cutting artificial crystal glass into diamond facets, and the material is more economical, and has the visual effect of diamond-like dazzling feeling. Therefore, the rhinestone is popular, and is generally used in the ornament design of the middle grade.

The inventors found the following problems in the prior art: after the existing crystal diamond is processed and formed, the edges of the crystal diamond are not obvious, the crystal diamond surface is not displayed in place, and the brightness of the crystal diamond is reduced.

Referring to fig. 1, a process for forming a diamond bead blank is used to form a shaped diamond. The processing and forming process of the crystal diamond bead blank specifically comprises the following steps:

step S1: obtaining a crystal raw material, cutting the crystal raw material according to a preset requirement, and obtaining a cut crystal;

step S2: polishing the edge surfaces of the cut crystal to obtain a polished crystal;

step S3: and polishing the polished crystal, and adjusting the sharpness and the refractive index of the edge surface to obtain the polished crystal.

It is understood that, in step S1, the crystal material is obtained and cut to have a plurality of surfaces according to the diamond processing method, so as to facilitate the subsequent processing.

It can be understood that, in step S2, the edge surfaces are polished to make the outlines between the edges and the surfaces obvious, so that the boundaries between the surfaces are clear, the surfaces can reflect light, and the brightness of the crystal diamond is improved.

It can be understood that, in step S3, the crystal is polished to improve the sharpness and refractive index of the prism surface, so that the polished crystal has better brightness.

It can be understood that a quartzy diamond pearl base machine-shaping technology obtains quartzy diamond pearl base through cutting quartzy raw materials, carries out burnishing and polishing's processing to quartzy diamond pearl base, makes its processing become quartzy diamond, increases quartzy diamond's luminance, makes it present better refraction effect, improves quartzy diamond's pleasing to the eye degree, and further, carries out burnishing and polishing to the faceted pebble of quartzy raw materials, can improve quartzy refraction light's quantity, when directly seeing quartzy, can improve quartzy pleasing to the eye degree.

Step S1 is preceded by:

step S0: the method comprises the steps of obtaining raw materials for manufacturing the crystal, and obtaining the crystal raw materials through the procedures of mixing, heating, die reversing and rounding.

Specifically, raw materials for manufacturing the crystal comprise quartz sand, aluminum hydroxide, borax, zinc oxide, barium carbonate, sodium nitrate, oxidized diamond potassium carbonate, titanium dioxide, oxidized steel, magnesium oxide, light calcium, tungsten oxide and oxidized ladder, the crystal is manufactured by mixing and heating, bubbles and impurities in liquid crystal are removed during manufacturing, the purity of the interior of the crystal is improved, and the refraction brightness of the crystal diamond is higher during subsequent manufacturing of the crystal diamond. The rounding procedure can remove defects of the demoulded crystal raw material, improve the smoothness of the surface of the crystal raw material and reduce the difficulty of subsequent processing.

The raw materials for manufacturing the crystal are manufactured by mixing, heating and reverse moulding to obtain the crystal raw materials, so that the purity of the crystal raw materials is increased, impurities in the crystal raw materials are reduced, the refractive index of the crystal diamond is further improved, in the rounding process, the heated crystal raw materials quickly eliminate the defects of no half lines, ovality or unsmooth surface and the like on the heated crystal raw materials in rolling, and the surface smoothness of the crystal raw materials is improved.

Step S3 is followed by:

step S4: and (4) carrying out fine processing procedures of carving and debossing on the polished crystal to obtain the crystal diamond.

It can be understood that the polished crystal is carved, patterns are added on the surface of the crystal, or the patterns are added in the crystal, the attractiveness of the crystal diamond is improved, the crystal raw material surface of some manufactured crystals has the problems of sinking and the like, the sinking treatment is needed, the sinking and other defects on the crystal surface can be removed through the sinking treatment, the sinking treatment needs to be carried out through a special grinding head, the smoothness of the crystal surface is improved, and the attractiveness of the crystal diamond is improved.

Step S1 specifically includes the following steps:

step S11: obtaining a crystal raw material, and cutting the crystal raw material into granules;

step S12: cutting edges and corners of the granular crystal raw material, and cutting according to the diamond pattern.

It can be understood that cutting quartzy raw materials according to predetermineeing lithodomous model, with quartzy raw materials cutting back so that subsequent processing, simultaneously, cutting into graininess makes quartzy raw materials possess lithodomous shape just, improves the convenience of processing.

In particular, the crystal material is cut using an ultrasonic cutting method. Specifically, the crystal raw material is cut by using an ultrasonic cutting method, so that the gasification of the crystal raw material can be reduced, the edge is more complete during cutting, the subsequent processing procedures are reduced, and the processing speed is increased.

Step S2 specifically includes the following steps:

step S21: obtaining the cut crystal, polishing the edges on the crystal, and removing burrs on the edges;

step S22: the surfaces near the edges of the crystal are polished, so that the display effect of the edges is improved;

step S23: collecting crystal powder falling off during polishing.

It can be understood that the edges and the surfaces on the crystal are polished, burrs generated during cutting are removed, the smoothness degree of the edges and the surfaces on the crystal is improved, the refraction effect of the crystal diamond is increased, further, the display effect of the edges is increased, the outlines between the surfaces on the crystal are more obvious, and the refraction effect between the surfaces is more obvious.

Step S3 specifically includes the following steps:

step S31: obtaining crystal powder falling during grinding, and polishing the ground edge surface by using the crystal powder;

step S32: polishing the edges, and changing the angle between the edges;

step S33: and (5) grinding the opposite surface, and adjusting the orientation angle of the surface to obtain the polished crystal.

It can be understood that quartzy powder can polish the faceted pebble after polishing, and the sharpness and the refracting index of adjustment faceted pebble improve the luminance of quartzy diamond's refraction, and simultaneously, the position between adjustment arris and the face makes it present better display effect when wearing, can let more planes refract out light, improves quartzy diamond's quality.

Optionally, can directly use diamond polishing machine to polish the arris face to quartzy raw materials, improve the speed of polishing, simultaneously, quartzy diamond's hardness is less than the diamond, can directly save the step of using the powder of polishing to polish, improves the speed of polishing.

The working principle is as follows:

the problems of the prior art are as follows: after the existing crystal diamond is processed and formed, the edges of the crystal diamond are not obvious, the crystal diamond surface is not displayed in place, and the brightness of the crystal diamond is reduced.

The method comprises the steps of obtaining raw materials for manufacturing the crystal, mixing and heating the raw materials to prepare liquid crystal, filtering the liquid crystal, removing impurities and bubbles in the liquid crystal, improving the purity of the crystal, and further increasing the brightness of the crystal. The liquid crystal is inverted to be cooled and shaped, and is heated and rounded in a rounding machine to be made into a crystal raw material, and the rounding can eliminate the defects of the shaped crystal and increase the smoothness of the surface of the crystal raw material.

The crystal raw material is cut according to the preset requirements, the crystal raw material is cut according to the diamond pattern, granular crystal raw material is obtained, the granular crystal raw material is better utilized, and meanwhile, the crystal raw material is further cut, so that the processing convenience of the crystal raw material is improved. During cutting, the ultrasonic cutting method is adopted, so that the gasification and hot melting of the crystal raw material during cutting can be avoided, the excessive consumption of the crystal raw material is prevented, meanwhile, the smoothness of crystal surface cutting can be increased, and burrs generated during cutting are reduced.

The cut crystal is polished, the edges on the surface of the crystal and the surfaces of the crystal are polished to be smooth, so that the distinction between the edges and the surfaces is improved, meanwhile, the outline in the crystal can be better seen in the direct vision, the surfaces are distinguished, and different light rays are refracted by the surfaces. When the cut crystal is polished, burrs on the surface are removed, the surface is smoothened, edges between the surfaces are obviously processed, boundaries between the surfaces are highlighted, and the refraction effect between the surfaces is improved.

The powder that produces after polishing is collected, uses quartzy powder to quartzy polishing, polishes the faceted pebble after polishing through quartzy powder's friction, and the sharpness of adjustable arris, the refracting index of face to make quartzy diamond present better display effect when wearing, let more faces refract light, improve quartzy diamond's quality.

Any carving of interior carving or outer carving is carried out on the polished crystal, so that the crystal is patterned on the inside or the outside, the attractiveness of the crystal diamond is improved, the defects such as the recess of the crystal surface can be removed by indenting, and the indenting needs to be polished by a machine corresponding to the defects, so that the defects of the crystal surface are better removed, the smoothness of the crystal surface is improved, and the attractiveness of the crystal diamond is improved.

Compared with the prior art, the processing and forming process of the crystal diamond bead blank provided by the invention has the following advantages:

1. a processing and forming process of a crystal diamond bead blank comprises the steps of cutting a crystal raw material to obtain the crystal diamond bead blank, carrying out polishing processing on the crystal diamond bead blank to enable the crystal diamond bead blank to be processed into a crystal diamond, increasing the brightness of the crystal diamond, enabling the crystal diamond to present a better refraction effect, improving the attractiveness of the crystal diamond, further polishing the edge surface of the crystal raw material to improve the quantity of refraction light rays of the crystal, and improving the attractiveness of the crystal when the crystal is directly viewed.

2. The raw materials for manufacturing the crystal are manufactured by mixing, heating and reverse moulding to obtain the crystal raw materials, so that the purity of the crystal raw materials is increased, impurities in the crystal raw materials are reduced, the refractive index of the crystal diamond is further improved, in the rounding process, the defects of no half lines, ovality or surface smoothness and the like on the heated crystal raw materials are rapidly eliminated in the rolling process, and the surface smoothness of the crystal raw materials is improved.

3. Cutting the quartzy raw materials according to predetermineeing lithodomous model, cutting quartzy raw materials back so that subsequent processing, simultaneously, cutting into graininess makes quartzy raw materials just possess lithodomous shape, improves the convenience of processing.

4. The edges and the faces on the crystal are polished, so that burrs generated during cutting are removed, the smoothness degree of the edges and the faces on the crystal is improved, the refraction effect of the crystal diamond is increased, further, the display effect of the edges is increased, the outlines between the faces on the crystal are more obvious, and the refraction effect between the faces is more obvious.

5. The crystal powder can polish the facet after polishing, and the acutance and the refracting index of adjustment facet improve quartzy diamond's refracting luminance, and simultaneously, the position between adjustment arris and the face makes it present better display effect when wearing, can let more faces refract light, improves quartzy diamond's quality.

6. The polished crystal is carved, so that patterns are added on the surface of the crystal, or the patterns are added in the crystal, the attractiveness of the crystal diamond is improved, the defects of depression and the like on the surface of the crystal can be removed by dishing, the smoothness of the surface of the crystal is improved, and the attractiveness of the crystal diamond is improved.

7. The crystal raw material is cut by using an ultrasonic cutting method, so that the gasification of the crystal raw material can be reduced, the edge is more complete during cutting, the procedures of subsequent processing treatment are reduced, and the processing speed is increased.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A processing and forming process of a crystal diamond bead blank is characterized by comprising the following steps: the method comprises the following steps:

step S1: obtaining a crystal raw material, cutting the crystal raw material according to a preset requirement, and obtaining a cut crystal;

step S2: polishing the edge surfaces of the cut crystal to obtain a polished crystal;

step S3: and polishing the polished crystal, and adjusting the sharpness and the refractive index of the edge surface to obtain the polished crystal.

2. The crystal diamond bead blank machining and forming process of claim 1, wherein: step S1 is preceded by:

step S0: the method comprises the steps of obtaining raw materials for manufacturing the crystal, and obtaining the crystal raw materials through the procedures of mixing, heating, die reversing and rounding.

3. The crystal diamond bead blank machining and forming process of claim 1, wherein: step S1 specifically includes the following steps:

step S11: obtaining a crystal raw material, and cutting the crystal raw material into granules;

step S12: cutting edges and corners of the granular crystal raw material, and cutting according to the diamond pattern.

4. The crystal diamond bead blank machining and forming process of claim 1, wherein: step S2 specifically includes the following steps:

step S21: obtaining the cut crystal, polishing the edges on the crystal, and removing burrs on the edges;

step S22: the surfaces near the edges of the crystal are polished, so that the display effect of the edges is improved;

step S23: collecting crystal powder falling off during polishing.

5. The crystal diamond bead blank machining and forming process of claim 1, wherein: step S3 specifically includes the following steps:

step S31: obtaining crystal powder falling during grinding, and polishing the ground edge surface by using the crystal powder;

step S32: polishing the edges, and changing the angle between the edges;

step S33: and (5) grinding the opposite surface, and adjusting the orientation angle of the surface to obtain the polished crystal.

6. The crystal diamond bead blank machining and forming process of claim 1, wherein: step S3 is followed by:

step S4: and (4) carrying out fine processing procedures of carving and debossing on the polished crystal to obtain the crystal diamond.

7. The crystal diamond bead blank machining and forming process of claim 1, wherein: the crystal polishing is performed using a diamond polisher.

8. The crystal diamond bead blank machining and forming process of claim 1, wherein: the crystal material is cut by an ultrasonic cutting method.

Images