CN111743273A

CN111743273A - Polarizing jewelry and identity recognition method using same

Info

Publication number: CN111743273A
Application number: CN202010437313.9A
Authority: CN
Inventors: 杨溢; 朱灿; 张昱; 耿昌贤; 李永兰; 王锦阳; 苗润雪; 谭圣男; 侯彪; 安天姿
Original assignee: China University of Geosciences Beijing
Current assignee: China University of Geosciences Beijing
Priority date: 2020-05-21
Filing date: 2020-05-21
Publication date: 2020-10-09
Anticipated expiration: 2040-05-21
Also published as: CN111743273B

Abstract

The invention provides a polarized light jewelry and an identity identification method using the jewelry. The polarizing jewelry is manufactured by using gem and jade leftover materials and partial rock specimen slices in the geological research process as raw materials, and the color change of the jewelry in polarized light and the comprehensive utilization of the gem and jade leftover materials are realized through parts such as a first polaroid, a fixed layer, a bearing, a rock slice, a second polaroid and the like. Moreover, because the arrangement of mineral particles in the rock slice is complex, and no two pieces of rock are completely the same in the world, the polarized jewelry provided by the invention has non-replicability, so that the polarized jewelry can be used for identity recognition without additionally implanting electronic equipment, an unexpected identity recognition effect is generated on the basis of the decoration effect of the jewelry, and the identity recognition method using the polarized jewelry is low in cost and effective.

Description

Polarizing jewelry and identity recognition method using same

Technical Field

The invention relates to a jewelry and an identity recognition method related to the jewelry. In particular to a method for realizing color change by utilizing the rotation of a slice of polycrystalline gem and jade leftover materials under polarized light, and realizing identity identification by utilizing the irreproducible manufacture of jewelry raw materials by utilizing mineral particles in the polycrystalline gem and jade.

Background

Questionnaire survey shows that more than 85% of the interviewees agree with jewelry made from gem and jade leftover materials. Practice shows that the leftover materials produced by the existing gem and jade processing, such as the leftover materials produced in the current jade and Hetian jade processing processes, and partial rock specimens produced in the geological research process can produce variable colors under orthogonal polarization when being ground into thin slices with the thickness of 10-100 microns.

The color change of the ornaments can be realized by the known technology, and a color-changing light source, such as a display cabinet disclosed by CN209391554U, uses a color-changing LED light source; conceivably, CN110792937A discloses a decorative lamp and a light-emitting jewelry having the same, and a color-changing LED light source may also be used. According to questionnaire survey on consumers, the known product also discovers that the jewelry additionally provided with the LED lamp is considered to be low in grade by more than 71.4% of visitors and difficult to customize in a personalized manner, and practical observation shows that the LED lamp is troublesome in power supply replacement and easy to damage, so that the jewelry is not suitable for high-grade gem and jade materials.

Practice shows that the polycrystalline gem and jade leftover material slice can rotate under orthogonal polarization to realize color change, and the color is generally the same as that of church glass through amplification observation, so that the polycrystalline gem and jade leftover material slice is more attractive. The prior commercially available jewelry and jewelries do not find the structure of the jewelry made of the rotationally discolored mineral flakes under polarized light.

Disclosure of Invention

The invention aims to provide the jewelry manufactured by utilizing the gem and jade leftover materials and partial rock specimen slices in the geological research process, so that the comprehensive utilization of the gem and jade leftover materials and the color change of the jewelry in polarized light are realized.

In order to achieve the purpose, the invention designs the components of the polarized jewelry, and the components comprise a bracket (10), a base (11), a light hole (12), a first polarizer (21), a first gasket (41), a first nut (31), a second gasket (42), a fixed layer (5), a bearing (6), a rock sheet (7), a second polarizer (22), a bolt (8), a second gasket (43) and a second nut (32); the bracket (10) is made of an alloy at least comprising at least one of gold, silver, platinum, palladium, ruthenium, rhodium, iridium, titanium, copper, iron, aluminum, chromium and manganese, a fixed base (11) is welded at the geometric center of the bracket (10), the base (11) and the first polaroid (21) are separated by a first gasket (41), and a bolt (8) is screwed to fix the first polaroid (21) and the base; the second polaroid (21) and the first polaroid (21) pass through the bolt (8) to be rotatably fixed and mark the polarization direction, or are non-rotatably adhered and fixed at the position vertical to the polarization direction, or are embedded and fixed, or are welded and fixed, or are fixed by grooving, or are fixed by binding a metal wire with the fixing bolt (8); the fixing layer (5) and the rock sheet (7) are adhered and fixed between the second polaroid (21) and the first polaroid (21); the fixing layer (5) is fixed on the outer side of the bearing (6) in one mode of adhesion fixing, or embedding fixing, or welding fixing, or grooving fixing, or metal wire binding fixing; the outer side of the bearing (6) can rotate relative to the bolt (8), and the inner side is adhered and fixed, or embedded and fixed, or welded and fixed, or grooved and fixed, or a metal wire is used for binding and fixing the bolt (8); one end of the bolt (8) is screwed and fixed with the base (11), and the other end of the bolt passes through the second gasket (43) and is screwed and fixed with the second nut (32) or welded and fixed.

Preferably, at least 1 LED bulb light source is detachably fixed on the inner side of the light transmission hole (12).

Preferably, the rock slice (7) is annular, the content of opaque minerals in the rock slice is less than 50%, the content of optically homogeneous minerals is less than 70%, and the optical properties of the minerals are described in "optical and rock-forming minerals" of Peptist et al.

Preferably, the support (10) is circular, the support (10) is welded with the fixed hanging ring (13), and the bolt (8) is longer than the bearing (6).

Alternatively, a convex lens or a Fresnel lens is attached and fixed on the surface of the second polarizer (22), the reverse side of the rock sheet (7) in contact with the fixed layer (5) is attached and fixed with the second polarizer (22), and the first polarizer is rotatably fixed on the bearing (6).

Preferably, if the rock slice contains minerals with Mohs hardness of 5.5 or less, the material of the convex lens or Fresnel lens attached to the surface of the second polarizer (22) is at least one of quartz, fused quartz glass, alumina glass, cubic zirconia or film-shaped artificial diamond.

Preferably, the rock laminate comprises at least one mineral selected from olivine, diopside, or celadonite. This is because precious stones such as olivine, diopside, etc., or green cord, etc., are known to be common rock-making minerals exhibiting interference colors of class II or higher, which are not only high in hardness, good in durability, and beautiful in interference color, but also are common, and the cost of producing sheets therefrom is low. And according to the calculation of materials, equipment loss and labor cost at the end of 2019, only less than 10 yuan is used per square centimeter.

In a matching way, an identity recognition method using the polarized light jewelry is provided, and the polarized light jewelry schemes can be used as identity recognition certificates of the method; and comprises the following steps: selecting a polycrystalline rock material, and grinding to manufacture a rock slice (7); the rock slice (7) of the polarization jewelry cannot select a single crystal without inclusion and component girdle, cannot contain opaque mineral content higher than 50%, cannot contain optical homogeneous mineral content higher than 70%, cannot contain clay mineral content higher than 5%, and cannot ensure that the solubility of the whole rock component in water is more than or equal to 0.1g/100ml (the optical property and the physical property of the mineral are known knowledge, refer to the record of "crystallography and mineralogy" of Lishengrong et al); step two: determining a style, and assembling the polarized jewelry by using components comprising a bracket (10), a base (11), a first polarizer (21), a first gasket (41), a first nut (31), a second gasket (42), a fixed layer (5), a bearing (6), a rock slice (7), a second polarizer (22), a bolt (8), a second gasket (43) and a second nut (32); step three: using a photographic device or an image scanning device to record and store pictures or video image data, or optical characteristic data, or mineral particle shape layout characteristic data in the rotation process of a rock slice (7) of the polarization jewelry; step four: editing instruction information of the polarized light jewelry rotating to a given angle by a user, mapping and encrypting the instruction information by first electronic equipment, and storing the instruction information in a cloud or local storage medium, or matching a third-party password or biological characteristics of the polarized light jewelry user with picture or video image data or optical characteristics or mineral particle shape layout characteristic data recorded in the third step, mapping and encrypting the instruction information by the first electronic equipment, and storing the instruction information in the cloud or local storage medium; step five: the holder of the polarized light jewelry collects information in the second electronic device, and judges whether the picture or video image data, or the optical characteristic data, or the mineral particle shape layout characteristic data of the polarized light jewelry is matched with the third party password or the biological characteristic of the user; and when the information passes the matching, the second electronic equipment calls the polarized jewelry to rotate to the instruction represented by the appointed angle in the step four, otherwise, the instruction is not called or prompt information which does not pass the verification is popped up.

The invention is simpler to manufacture than the jewelry disclosed in the prior art CN 207909149U. The practice also finds that the polycrystalline gem and jade leftover slice not only can rotate under orthogonal polarization to realize color change, but also has complicated arrangement of mineral particles in the slice, and no two pieces of rock which are completely the same exist in the world, so that the polarized jewelry has irreproducibility, and the polarized jewelry can be used for identity recognition, generates unexpected effects compared with the decoration effect of the jewelry and can realize the identity recognition function without increasing a chip and an antenna of a comparison file which are arranged on the jewelry body.

As can be seen from the above description and practice of the present invention, the technical solution provided by the present invention has the following advantages compared with the prior art: 1, the cost of the leftover plus the polarizer is lower than that of the known gemstones with interference colors (such as Opel, fire agate, rainbow garnet and rainbow cubic stone); 2, the jewelry capable of changing color by rotation is manufactured by using jade leftover materials and a polaroid, so that the jewelry is attractive, and precious gem and jade materials are saved; 3, the rock slice used for the polarization jewelry can not be copied almost, and the rock slice used for the polarization jewelry has a new effect of being used for a low-cost identity identification voucher as the jewelry; 4: the polarized jewelry can be used for identity recognition without additionally implanting electronic equipment on the jewelry, and generates unexpected identity recognition effect on the basis of the decoration effect of the jewelry.

Drawings

Fig. 1 is a schematic view of one embodiment of the present invention, and fig. 2 is a schematic view of a part development of one embodiment of the present invention.

Reference numerals: the novel polarizer comprises a support (10), a base (11), a light hole (12), a first polarizer (21), a first gasket (41), a first nut (31), a second gasket (42), a fixed layer (5), a bearing (6), a rock slice (7), a second polarizer (22), a bolt (8), a second gasket (43), a second nut (32) and a hanging ring (13).

Detailed Description

In order to make the objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. Based on the following embodiments, those skilled in the art can implement other embodiments without inventive efforts and without changes to the basic principles of the claimed design, and all such embodiments are within the scope of protection of the present application.

The first embodiment is as follows: pendant-shaped polarized jewelry.

The invention relates to a component of a first embodiment of a polarization jewelry, which comprises a bracket (10), a base (11), a light hole (12), a first polarizer (21), a first gasket (41), a first nut (31), a second gasket (42), a fixed layer (5), a bearing (6), a rock sheet (7), a second polarizer (22), a bolt (8), a second gasket (43) and a second nut (32); wherein the bracket (10) is made of an alloy at least comprising at least one component of gold, silver, platinum, palladium, ruthenium, rhodium, iridium, titanium, copper, iron, aluminum, chromium and manganese, the bracket (10) is circular, the geometric center of the bracket is fixedly welded with the base (11), the base (11) and the first polaroid (21) are separated by a first gasket (41), a bolt (8) is used for screwing and fixing the first polaroid (21) and the base, the fixing layer (5) is fixedly adhered with the rock slice (7), the fixing layer (5) is fixedly adhered, embedded, welded, grooved and fixed, or one of the metal wire binding and fixing modes is fixed on the outer side of the bearing (6), the inner side of the bearing (6) is fixedly adhered, embedded, welded, grooved and fixed, or the metal wire binding and fixing bolt (8), one end of the bolt (8) is fixedly screwed with the base (11), the other end of the bolt penetrates through a second gasket (43) and is screwed and fixed or welded with a second nut (32), and the bolt (8) is longer than the bearing (6).

Preferably, at least 1 LED bulb light source is detachably fixed on the inner side of the light transmission hole (12), and the light transmission hole (12) can be covered and waterproof. The rock slice (7) is annular, the content of opaque minerals in the rock slice is less than 50%, the content of optically homogeneous minerals in the rock slice is less than 70%, and the optical properties of the minerals are described in Linpeying et al, "Crystal optics and rock-making minerals". The necklace needs to be hung, so the bracket (10) is welded and fixed with the hanging ring (13) and can be provided with a hanging rope and a metal chain which passes through the hanging ring (13) to hang the pendant.

Example two: the difference of the brooch-shaped polarized jewelry compared with the first embodiment is that one side of the bracket (10) without the rock slice is provided with a pin or a snap fastener for detachably fixing the bracket (10).

Example three: because the volume of the ring is generally smaller, in order to highlight the aesthetic property of the rock slice (7), the difference of the first embodiment is that a convex lens or a Fresnel lens is attached and fixed on the surface of the second polarizer (22) so as to amplify the optical imaging of the rock slice (7); at the moment, the surface of the rock slice (7) which is not contacted with the fixed layer (5) is fixedly attached to the second polaroid (22), and the first polaroid (21) is rotatably fixed on the bearing (6); and the second spacer (43) and the second nut (32) may be omitted in this embodiment because the convex lens or the fresnel lens to which the second polarizer (22) is attached may be stably fixed without using a nut.

Example four: the difference of the earring-shaped polarized jewelry compared with the first embodiment is that a hanging ring (13) welded and fixed on a bracket (10) is a known earring structure, and the earring-shaped polarized jewelry can be manufactured in pairs.

Example five: the identity recognition method applying the polarized light jewelry is provided in a matching way under the conditions of the composition, the structure and the style of the four embodiments, and comprises the following steps: selecting a polycrystalline rock material as a raw material of the polarizing jewelry rock slice (7), wherein the polycrystalline rock material cannot be selected from a single crystal without inclusion and component girdle, cannot be a rock with opaque mineral content higher than 50%, cannot have optical homogeneous mineral content higher than 70%, cannot have clay mineral content higher than 5%, and cannot be a rock with whole rock component solubility higher than or equal to 0.1g, and grinding to manufacture the rock slice (7); step two: determining a style, and assembling the polarized jewelry by using components comprising a bracket (10), a base (11), a first polarizer (21), a first gasket (41), a first nut (31), a second gasket (42), a fixed layer (5), a bearing (6), a rock slice (7), a second polarizer (22), a bolt (8), a second gasket (43) and a second nut (32); step three: using a photographic device or an image scanning device to record picture or video image data, or optical characteristic data, or mineral particle shape layout characteristic data (for example, the largest pyroxene in emerald is positioned at 1mm of the edge of the rock slice, the orientation is parallel to the direction of a first polaroid, the characteristic is recorded by the photographic device or the image scanning device, and is converted into a rectangular coordinate mathematical formula or a polar coordinate mathematical formula through a computer) in the rotation process of the rock slice (7) of the polarized jewelry and is stored by a first electronic device, wherein the picture can store vector diagrams or pixel diagrams and is used as an image identification material; step four: the instruction information represented by the polarized jewelry rotated to the appointed angle is edited by a user (for example, the user appoints and edits and records that the extinction position of the rock slice (7) rotated to the polarized jewelry represents payment, the extinction position has an included angle of 45 degrees and represents unlocking, the farthest distance position from a certain mineral particle to the hanging ring (13) is on duty and card punching, and the like), the instruction information is mapped and encrypted by first electronic equipment and is stored in a cloud or a local storage medium, or matching the third party password (e.g. mailbox password, short message verification code, etc.) or biological characteristics (e.g. fingerprint, face, iris, etc.) of the polarized jewelry user with the image or video image data recorded in the third step, or optical characteristics or mineral particle shape layout characteristic data are mapped and encrypted through the first electronic equipment and stored in a cloud or local storage medium; step five: the holder of the polarized light jewelry collects information at a second electronic device, and the second electronic device judges whether the picture or video image data, or the optical characteristic data, or the mineral particle shape layout characteristic data of the polarized light jewelry is matched with a third party password or biological characteristics of a user; when the information is matched, the second electronic device calls the polarized jewelry to rotate to the instruction represented by the appointed angle in the step four (such as payment, unlocking, card punching and pop-up voice prompt), otherwise, the instruction is not called (such as payment refusing) or prompt information which is not verified (such as pop-up voice 'unlocking unsuccessful', 'card punching failed' and the like) is popped up. Note that: the first electronic device and the second electronic device can be integrated (for example, a smart phone is used as the first electronic device and the second electronic device at the same time) or separated (for example, the smart phone is used as the first electronic device, and a card reader is used as the second electronic device).

Considering that the identification document may be counterfeited, if the original rock lamella (7) is neither single crystal nor develops an oriented structure, even if the same mineral material is used, 3D printing of the bonded counterfeited lamella in the same mineral particle arrangement is almost impossible to be completely identical in color observed under rotation under polarized light. Although the original rock slice is low in manufacturing cost, if the fine imitation is completely achieved, large-scale instruments such as a polarizing microscope, an ultrathin slicer, an X-ray fluorescence spectrometer and the like are additionally used, and each mineral particle applied to the imitation is rotated by 90 degrees once and for all, so that a mineral crystal with the same composition zone, inclusion layout, interference color and extinction position as the original slice is selected; if the original rock slice comprises 100 mineral crystal grains (the actual observation shows that the selected materials of Hetian jade, jade and Dushan jade scraps are likely to exceed the value), the time for orienting, arranging and cutting one mineral crystal grain is about 7 days, and when the imitation flows are connected in series, the 100 mineral grain slice is estimated to consume at least 700 days of working time and at least 150 times of the cost of the original rock slice for imitation; when the imitation process is performed by connecting a plurality of devices in parallel or simultaneously, although the imitation time is shortened, considering that the required devices are not popular and expensive (laboratories such as universities and research institutes with related devices need to make advance reservation and pay far higher cost than rock slices), the parallel or simultaneous use of a plurality of devices in the imitation process is difficult. Therefore, the jewelry imitation cost provided by the invention is extremely high, and the jewelry imitation cost can be effectively used as a proof for identity recognition.

Features not described in detail in this document, such as a power supply and a circuit specific structure of the "LED lamp", an image algorithm and an encryption method related to identification, a storage method of mathematical formula information, a range of types of the first electronic device and the second electronic device, are disclosed in the comparison document and the known art, and elements that can be realized by referring to the known art are not included in the scope of claims. Considering that the jewelry described in the present application may be stolen as a certificate for identification, the specific ways of registering, reporting, and retrieving after being stolen are the problems that can be solved by the known technology or non-creative mental activities, are not the technical problems to be solved by the present application, and therefore are not included in the scope of protection of the claims.

As can be seen from the above description and practice of the present invention, the technical solution provided by the present invention has the following advantages compared with the prior art: 1, the cost of the jewelry material of the leftover material plus the polaroid is lower than that of the known jewel with interference color (such as Opel, fire agate, rainbow garnet and rainbow cubic stone); 2, the jewelry capable of changing color by rotation is manufactured by using jade leftover materials and a polaroid, so that the jewelry is attractive, and precious gem and jade materials are saved; 3, the rock slice used for the polarization jewelry can not be copied almost, and the rock slice used for the polarization jewelry has a new effect of being used for a low-cost identity identification voucher as the jewelry; 4: the polarized jewelry can be used for identity recognition without additionally implanting electronic equipment on the jewelry, and generates unexpected identity recognition effect on the basis of the decoration effect of the jewelry.

The above solution, which is only a part of the description of the embodiments of the present application, is not limited thereto, and any person skilled in the art can easily implement the invention within the scope of the description of the present application, or without changing the claims relating to the changes or substitutions of the basic principles, such as: the shape of the light hole (12) is only changed, or the specific material composition of the material of the bracket (10), the base (11), the first polaroid (21), the first gasket (41), the first nut (31), the second gasket (42), the fixing layer (5), the bearing (6), the second polaroid (22), the bolt (8), the second gasket (43), the second nut (32) and the fixing suspension ring (13) is only replaced; or on the basis of the design of the application, the method is only an embodiment for changing artistic texture styles; or the selected embodiments of the known jewelry styles except for the pendant, the brooch, the ring and the ear ring of the ear nail do not change the objective law that the rock thin sheet (7) rotates under polarized light and rock mineral particles cannot be copied, can also generate the technical effects of jewelry color change and identity identification, and therefore, the jewelry color change and the identity identification can be covered in the protection scope of the application. In conclusion, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. Polarizing jewelry, characterized in that it comprises: the device comprises a support (10), a base (11), a light hole (12), a first polarizer (21), a first gasket (41), a first nut (31), a second gasket (42), a fixed layer (5), a bearing (6), a rock sheet (7), a second polarizer (22), a bolt (8), a second gasket (43) and a second nut (32); the bracket (10) is made of an alloy at least comprising at least one of gold, silver, platinum, palladium, ruthenium, rhodium, iridium, titanium, copper, iron, aluminum, chromium and manganese, a fixed base (11) is welded at the geometric center of the bracket (10), the base (11) and the first polaroid (21) are separated by a first gasket (41), and a bolt (8) is screwed to fix the first polaroid (21) and the base; the second polaroid (21) and the first polaroid (21) pass through the bolt (8) to be rotatably fixed and mark the polarization direction, or are non-rotatably adhered and fixed at the position vertical to the polarization direction, or are embedded and fixed, or are welded and fixed, or are fixed by grooving, or are fixed by binding a metal wire with the fixing bolt (8); the fixing layer (5) and the rock sheet (7) are adhered and fixed between the second polaroid (21) and the first polaroid (21); the fixing layer (5) is fixed on the outer side of the bearing (6) in one mode of adhesion fixing, or embedding fixing, or welding fixing, or grooving fixing, or metal wire binding fixing; the outer side of the bearing (6) can rotate relative to the bolt (8), and the inner side is adhered and fixed, or embedded and fixed, or welded and fixed, or grooved and fixed, or a metal wire is used for binding and fixing the bolt (8); one end of the bolt (8) is screwed and fixed with the base (11), and the other end of the bolt passes through the second gasket (43) and is screwed and fixed with the second nut (32) or welded and fixed.

2. The polarizing jewelry of claim 1, wherein:

at least 1 LED bulb light source can be detachably fixed on the inner side of the light hole (12).

3. The polarizing jewelry of claim 1, wherein:

the rock slice (7) is annular in shape, and the content of opaque minerals in the rock slice is lower than 50%, and the content of optically homogeneous minerals in the rock slice is lower than 70%.

4. The polarizing jewelry of claim 1, wherein:

the support (10) is circular, and the support (10) is welded with the fixed hanging ring (13); the bolt (8) is longer than the bearing (6).

5. The polarizing jewelry of claim 1, wherein:

and a fixed convex lens or a Fresnel lens is attached to the surface of the second polaroid (22), the reverse side of the rock slice (7) contacted with the fixed layer (5) is attached and fixed with the second polaroid (22), and the first polaroid is rotatably fixed on the bearing (6).

6. The light polarizing jewelry of claim 1 or 5, wherein:

if the rock slice (7) contains minerals with the Mohs hardness of less than 5.5 percent and the content of the minerals is more than 5 percent, the material of the convex lens or the Fresnel lens which is attached and fixed on the surface of the second polaroid (22) is at least one of quartz, fused quartz glass, alumina glass, cubic zirconia or film-shaped artificial diamond.

7. The polarizing jewelry of claim 1, wherein:

the rock slice (7) at least contains one mineral of olivine, diopside and green cord stone.

8. The polarizing jewelry of claim 1, wherein:

if the polarized jewelry is in a ring shape or an earring shape, the second gasket (43) and the second nut (32) are omitted, the surface of the rock slice (7) which is not contacted with the fixed layer (5) is fixedly attached to the second polarized sheet (22), and the first polarized sheet (21) can be rotatably fixed on the bearing (6).

9. An identity recognition method using polarized light jewelry is characterized in that:

the identification method using the polarized jewelry uses the polarized jewelry as claimed in any one of claims 1 to 8 as an identification certificate; the identification method using the polarized light jewelry comprises the following steps:

the method comprises the following steps: selecting rock materials, and grinding to manufacture a rock slice (7); the rock slice (7) of the polarization jewelry cannot select a single crystal without inclusion and component girdle, cannot have the opaque mineral content higher than 50 percent, cannot have the optical homogeneous mineral content higher than 70 percent, cannot have the clay mineral content higher than 5 percent, and cannot be a rock with the solubility of whole rock components in water being higher than or equal to 0.1g/100 ml;

step two: determining the style of the polarized jewelry, and assembling the polarized jewelry by using components including a bracket (10), a base (11), a first polarizer (21), a first gasket (41), a first nut (31), a second gasket (42), a fixed layer (5), a bearing (6), a rock sheet (7), a second polarizer (22), a bolt (8), a second gasket (43) and a second nut (32);

step three: using a photographic device or an image scanning device to record and store pictures or video image data, or optical characteristic data, or mineral particle shape layout characteristic data in the rotation process of a rock slice (7) of the polarization jewelry;

step four: editing instruction information of the polarized light jewelry rotating to a given angle by a user, mapping and encrypting the instruction information by first electronic equipment, and storing the instruction information in a cloud or local storage medium, or matching a third-party password or biological characteristics of the polarized light jewelry user with picture or video image data or optical characteristics or mineral particle shape layout characteristic data recorded in the third step, mapping and encrypting the instruction information by the first electronic equipment, and storing the instruction information in the cloud or local storage medium;

step five: the holder of the polarized light jewelry collects information in the second electronic device, and judges whether the picture or video image data, or the optical characteristic data, or the mineral particle shape layout characteristic data of the polarized light jewelry is matched with the third party password or the biological characteristic of the user; and when the information passes the matching, the second electronic equipment calls the polarized jewelry to rotate to the instruction represented by the appointed angle in the step four, otherwise, the instruction is not called or prompt information which does not pass the verification is popped up.

10. The method of claim 9, wherein the method comprises:

the first electronic device and the second electronic device can be integrated or separated.