WO2018155381A1

WO2018155381A1 - Component, and watch, jewelry, bag, accoutrement, tag, and slide fastener provided with said component

Info

Publication number: WO2018155381A1
Application number: PCT/JP2018/005753
Authority: WO
Inventors: 秀太内海; 柴田　進; 貴幸竹内; 信行濱倉
Original assignee: アダマンド並木精密宝石株式会社
Priority date: 2017-02-23
Filing date: 2018-02-19
Publication date: 2018-08-30
Also published as: JP7178101B2; CH714611B1; JPWO2018155381A1

Abstract

[Problem] To provide: a component with which it is possible to improve decorativeness while suppressing the manufacturing cost, which also has a forgery prevention effect and can be developed into other products; and a watch, jewelry, bag, accoutrement, tag, slide fastener, and the like provided with the component. [Solution] A component is constituted by at least a first member (2), and the first member (2) is formed by any one of a sapphire single crystal, a ruby single crystal, glass, and a diamond single crystal. Furthermore, a light-emitting material (5) is disposed over at least a part of a side surface or the entire circumference, and the light-emitting material is caused to emit light when irradiated with a special light source light or in the dark.

Description

Parts and watches equipped with the parts, jewelry, bags, accessories, tags, fasteners

The present invention relates to a component and a wristwatch, jewelry, bag, jewelry, tag, fastener, and the like equipped with the component.

The damage caused by counterfeit products is spreading year by year on various luxury products such as famous brand watches, jewelry, bags, jewelry and related products. Counterfeit goods can cause significant damage to companies. For example, if low-priced counterfeit goods circulate, it can lead not only to the loss of genuine sales opportunities but also to the failure of business models. In addition, if bad reputation spreads by bad imitation products, it may lose the trust of the brand image that has been nurtured over the years.

Therefore, in order to prevent damage caused by counterfeit products, forgery prevention technology for identifying genuine products and counterfeit products has been developed. For example, Patent Document 1 is disclosed.

Patent Document 1 discloses a symbol information protection device which has a transparent plate fixed to a watch case part and can read symbol information through this plate. The symbol information includes a manufacturing mark or a trademark indicating the origin of the wristwatch, and these symbol information are sandwiched between the transparent plate and the case part of the wristwatch so as to be bonded so as not to be peeled off. Therefore, it is said that a wristwatch purchaser can visually confirm whether the symbol information is authentic.

Although the protective device described in Patent Document 1 has an anti-counterfeiting effect, it has not been considered at all to add a decorative property necessary for a wristwatch.

Therefore, for example, Patent Document 2 is cited as a prior art for adding decorativeness separately to a wristwatch. Patent Document 2 discloses a watch glass having a two-layer structure in which two transparent glass plates are stacked one above the other as a watch glass excellent in color and decoration by causing a light emitting portion to emit light freely. . The two glass plates are bonded together with a transparent adhesive, and a light emitting portion is further provided between these glass plates. Since this light emitting part emits light in response to ultraviolet light having a wavelength of 350 to 420 nm or 254 to 365 nm, a watch glass excellent in color and decoration is realized.

JP 58-043881 A JP 2003-186429 A

However, in Patent Document 2, the light emitting layer is provided on the entire surface of the watch glass. Therefore, it is necessary to provide the light emitting part separately from the watch glass, which causes an increase in manufacturing cost and hinders development to other products. Therefore, the decorativeness could not be further improved while ensuring the anti-counterfeit effect with the minimum configuration of the light emitting portion.

The present invention has been made in view of the above problems, and is capable of improving decorativeness while suppressing manufacturing costs, has an anti-counterfeit effect, and can be deployed to other products, and the components The purpose is to provide watches, jewelry, bags, accessories, tags, fasteners, and the like equipped with.

The above-mentioned problem is solved by the following present invention. That is, the component of the present invention is composed of at least a first member, and the first member is formed of any one of sapphire single crystal, ruby single crystal, glass, and diamond single crystal, and at least a part of the side surface. Alternatively, the luminescent material is arranged over the entire circumference, and the luminescent material emits light when irradiated with the special light source light or in the dark. Moreover, the wristwatch, jewelry, bag, jewelry, tag, and fastener of the present invention are characterized in that each color light emitting component is provided.

The light emitting material that emits light from the special light source light can be selected from RGB (Red / Green / Blue) three primary colors or a combination thereof. When the first member is a colorless and transparent sapphire single crystal, glass, or diamond single crystal, the component exhibits the color tone of the luminescent color of the luminescent material when irradiated with the special light source light.

Ruby single crystals are light pink in the first place. When this ruby single crystal, also referred to as pink sapphire, is used, the ruby single crystal itself emits light with an increased pink color and emits light simultaneously from the light emitting material when illuminated with a special light source. Therefore, these emission colors are mixed and a part of the emission from the components is optically synthesized.

According to the component according to the present invention, the luminescent material is arranged over at least a part or the entire circumference of the side surface, so that the arrangement portion of the luminescent material is suppressed to the side surface at the minimum while the special light source light is irradiated. Light emission by emission from the side surface can be realized. Therefore, when the special light source light is not irradiated, it is a single component having no colorless and transparent characteristics. However, when the special light source light is irradiated, it can be observed as if the side surface emits light. Therefore, it is possible to greatly improve the decorativeness of the parts while minimizing the arrangement or configuration of the light emitting material, and to improve both the identification and recognition as a characteristic part while suppressing the manufacturing cost of the parts. It becomes possible to make it.

Also, by making the light emitting part only on the side surface of the part, it is possible to make it difficult to detect the presence or absence of a light emitting material for preventing counterfeiting by simply looking at the part from the plane. Further, by using the light emission of the light emitting material for the authenticity determination of the component, it is possible to enhance the forgery prevention effect of the component. Depending on the type of light-emitting material, light is emitted in each unique color, and the entire part shines characteristically in that color.

Furthermore, by providing such parts in watches, jewelry, bags, accessories, tags, and fasteners, the parts according to the present invention can be expanded to other products. In particular, by providing for a tag, a fastener or the like, it is possible to use the components according to the present invention in combination with other products. Therefore, the luminescent color of the luminescent material can improve the decorativeness of the brand image of the product with the parts, and it can also be used for authenticity determination, so forgery of these genuine products A prevention effect is also obtained.

It is a top view which shows the components which concern on Example 1 of this invention. It is a side view of the component of FIG. In FIG. 2, it is a side view of the components by which the luminescent material is not arrange | positioned. It is a top view which shows the components which concern on Example 2 of this invention. FIG. 5 is a side view of the component of FIG. 4. FIG. 5 is a partial explanatory view showing a state where characters are observed from an inclined surface in the component of FIG. 4. It is a top view which shows the components which concern on Example 3 of this invention. FIG. 8 is a side view of the component of FIG. 7. It is a top view which shows the components which concern on Example 4 of this invention. FIG. 10 is a side view of the component of FIG. 9. FIG. 10 is a partial explanatory diagram illustrating a state where characters are observed from an inclined surface in the component of FIG. 9.

The first feature of the present embodiment is composed of at least a first member, and the first member is formed of any one of sapphire single crystal, ruby single crystal, glass, and diamond single crystal. The light emitting material is arranged at least partly or around the entire circumference, and the light emitting material emits light when illuminated with a special light source light or in the dark.

The second feature is that the first member is a plate-like member, the planar shape is circular or irregular, and a groove is formed over the entire circumference of the side surface, and the light emitting material is disposed inside the groove. It is a part that is.

According to these configurations, the luminescent material is arranged over at least a part or the entire circumference of the side surface, so that the arrangement portion of the luminescent material is suppressed to the side surface at the minimum while the special light source light is irradiated from the side surface. It is possible to realize light emission by emitting light. Therefore, when the special light source light is not irradiated, it is a single component having no colorless and transparent characteristics, but when the special light source light is irradiated, it can be observed as if the side surface emits light. Therefore, it is possible to improve the decorativeness of the component even with the minimum arrangement or configuration of the light emitting material, and it is possible to improve both the identification recognition and the decorativeness while suppressing the manufacturing cost of the component.

Also, by making the light emitting part the side surface of the part, it is possible to make it difficult to detect the presence or absence of the light emitting material as a countermeasure against forgery simply by looking at the part from the plane. Further, by using the light emission of the light emitting material for the authenticity determination of the component, it is possible to enhance the forgery prevention effect of the component.

In the present invention, the special light source light emits light in the ultraviolet region (250 nm to 365 nm) or emits light in the infrared region (780 nm or more).

In the present invention, the planar shape of the member means that the planar shape of the component is any of a square, a rectangle, an ellipse, a polygon having three or more vertices, and a star. Further, the polygon having three or more vertices includes a planar shape in which each vertex is rounded and rounded.

The third feature is that the first member is a plate-like member, the planar shape is circular or irregular, and recesses are formed at least 12 locations every 30 ° over the entire circumference of the side surface. This is a part in which a light emitting material is arranged.

According to this configuration, in addition to the effects described above, the position of the time character (or hour mark, hour marker, index) on the dial face can be determined by the light emission of the light emitting material by using the part as a watch window material. It is possible to easily identify the user. Therefore, both the decorativeness and the visibility of the wristwatch can be achieved.

The fourth feature is that a second member is further provided, the second member is formed of any one of sapphire single crystal, ruby single crystal, glass, and diamond single crystal, and the second member is plate-shaped. The planar shape of the member is circular or irregular, and an inclined surface is formed on the entire circumference of the peripheral edge of the second member, and the first member and the second member are formed with the inclined surface as a non-bonding surface. The first member and the second member have the same planar shape of the bonding surfaces, and any one of letters, figures, and symbols is the first member or the second member. It is formed in a concave shape on at least one of the bonding surfaces of the two members, the light emitting material is arranged in the concave portion, and the width of the inclined surface is the height dimension of any of characters, figures or symbols The above is the part.

According to this configuration, in addition to the effects described above, it is possible to visually observe characters, figures, or symbols from an inclined surface even when viewing parts from all angles. Therefore, the decorativeness of the parts can be further improved.

In the present invention, the characters, figures or symbols include all characters such as alphabets, hiragana, katakana, kanji, numbers, kanji numerals, symbols, and brand logos. The figure also includes basic figures such as circles, triangles, and rectangles, more complicated geometric patterns, or trademarks indicating brands and manufacturers.

In the present invention, the height dimension of any character, figure, or symbol refers to a height dimension in which all characters, figures, or symbols can be accommodated when a plurality of characters, figures, or symbols are formed. Shall.

The fifth feature is that a second member is further provided, the second member is formed of any one of sapphire single crystal, ruby single crystal, glass, and diamond single crystal, and the second member is plate-shaped. The planar shape of the member is circular or irregular, and an inclined surface is formed on the entire circumference of the peripheral edge of the second member, and the first member and the second member are thick with the inclined surface as a non-bonding surface. The first member and the second member have the same planar shape of the bonding surfaces, and any one of characters, figures, and symbols is the first member or the second member. The member is formed in a concave shape on at least one of the bonding surfaces of each other, the light emitting material is disposed in the concave portion, and the width of the inclined surface is greater than the height dimension of any of characters, figures or symbols The inclined surface consists of cut surfaces formed every 30 ° over the entire circumference, The ridgeline where the cut faces meet is a part that is aligned with the recess in the thickness direction.

According to this configuration, in addition to the above-mentioned effects, by using the part as a window material for a wristwatch, when the part is viewed from the plane direction, it can be observed as if the ridge line is emitted by the light emission of the light emitting material. It becomes possible for the user to more easily identify the position of the time character on the dial. Therefore, it is possible to further achieve both the decorativeness and the visibility of the wristwatch.

The sixth feature is that a wristwatch, jewelry, bag, jewelry, tag, and fastener equipped with any of the above-mentioned parts are used.

According to this configuration, in addition to the above effects, the parts according to the present invention can be developed to other products. In particular, by providing a tag, fastener, or the like, the parts according to the present invention can be used for other products. Accordingly, the light emission of the light emitting material can improve the decorativeness of the product including the components, and the light emission can also be used for authenticity determination, so that the forgery prevention effect of these products can be obtained.

The light emitting material that emits light from the special light source can be selected from the three primary colors RGB or a combination of the colors. When the first or second member is a colorless and transparent sapphire single crystal, glass, or diamond single crystal, the component exhibits the color tone of the luminescent color of the luminescent material when irradiated with the special light source light.

Note that the ruby single crystal used for the first member or the second member has a light pink color in the first place. When this ruby single crystal, also referred to as pink sapphire, is used, the ruby single crystal itself emits light with an increased pink color and emits light simultaneously from the light emitting material when illuminated with a special light source. Therefore, these emission colors are mixed and a part of the emission from the components is optically synthesized.

Each example according to the present invention will be described below, but the present invention is not limited to the following example.

Example 1
Hereinafter, components according to the first embodiment of the present invention will be described with reference to FIGS. The component 1 according to the present embodiment is composed of at least the first member 2 as shown in FIGS. FIG. 1 is a plan view, FIGS. 2 and 3 are both side views, and a configuration form of the arrangement of the light emitting material 5 on the side surface 2s of the first member 2 of the component 1 is shown as an example. (Hereinafter, simply referred to as “member 2” as necessary).

1, the outer shape of the member 2 is formed into a circular plate shape. The member 2 is formed of any of sapphire single crystal, ruby single crystal, diamond single crystal, or glass. This material is formed into a circular plate by grinding and polishing. The transmittance of the material forming the member 2 only needs to satisfy a predetermined value (for example, 80% or more) in the wavelength range of 400 nm to 800 nm, for example, when the transmittance is measured with a spectrophotometer.

Each material forming the member 2 may be manufactured using a known method. In the case of a sapphire single crystal or a ruby single crystal, one grown and grown by the EFG (Edge-defined Film-fed. Growth) method, the Kilopros method, the Chocraslky method, the Bernoulli method, the vertical Bridgman method or the like is used. A diamond single crystal may be formed by an epitaxial method.

For example, here, when the member 2 is formed of sapphire single crystal, the crystal plane orientation may be, for example, the surface 2a-2a having the c-plane, but is not limited to the c-plane, and is not limited to the r-plane, a-plane, or m-plane. For example, a desired crystal plane may be used as the surface.

The planar shape of the member 2 may be a circular round shape as shown in FIG. 1 or an irregular shape not shown. The planar shape of the member 2 means that the planar shape is any of a square, a rectangle, an ellipse, a polygon having three or more vertices, and a star, for example. Further, when forming into a polygon having three or more vertices, each vertex may be rounded to change to a planar shape in which rounded corners are combined.

Further, from FIGS. 2 and 3, a wide inclined surface 2d is formed over the entire outer peripheral edge of the upper surface 2a of the member 2. The inclined surface 2d is formed with a width W2d on the entire circumference of the outer peripheral edge at a constant inclination angle θ with respect to the surface 2a. The inclination angle θ is set to about 20 degrees with respect to the surface 2a.

Further, as shown in FIG. 2, the light emitting material 5 is arranged over at least a part or the entire circumference of the side surface 2s of the member 2. As shown in FIG. 3, a groove 2b is formed over the entire circumference of the side surface 2s as one form of the arrangement location of the light emitting material 5, and the light emitting material 5 is disposed inside the groove 2b. It becomes a form. The shape of the groove 2b can be set to a desired shape such as a rectangular shape, a V-groove shape, or an arc shape, and the shape of the groove 2b in FIG. 3 is that the V-groove is formed with an opening angle of 60 °, The bottom of the V groove has a shape formed into an arc shape of R0.2 mm.

The light emitting material 5 is disposed in the groove 2b formed in the side surface 2s. As the luminescent material 5, phosphors that emit light in the ultraviolet region (250 nm to 365 nm), visible light region (above 365 nm to less than 780 nm), or infrared region (780 nm or more), phosphors, or Luminescent glass is used. Examples of the phosphor (phosphor) include inorganic pigments and sulfide pigments of alumina oxide, and examples of the phosphor include fluorescent ink.

The light source 5 is caused to emit light by irradiating the component 1 formed in this way with a special light source light from the outside. Preferably, the light emission appears more effectively when the component 1 is placed in the dark. Special light sources include so-called black lights, ultraviolet light that emits light in the ultraviolet region with a wavelength of around 365 nm or 250 nm to 365 nm, or ultraviolet light emitting diodes (LEDs), and infrared light that emits light in the infrared region of 780 nm or more. What is necessary is just to comprise with a light emitting element. In response to light of a specific wavelength emitted from such a special light source light, the groove 2b portion emits colored light by the light emitting material 5. Alternatively, when the luminous body 5 is a phosphorescent body (phosphor), the fluorescent color continues to be emitted due to the disappearance of the excitation light when placed in the dark.

The groove 2b emits light having a specific wavelength such as an ultraviolet region of 254 nm to 365 nm, a visible light region of more than 365 nm to less than 780 nm, or an infrared region of 780 nm or more, depending on the material constituting the light emitting material 5.

By arranging the light emitting material 5 over the entire circumference of the side surface 2s, light emission can be confirmed along the outline of the outer peripheral edge when the component 1 is viewed from the planar direction as shown in FIG. Furthermore, it is possible to realize light emission by emission from the side surface 2s when the special light source light is irradiated while suppressing the arrangement portion of the light emitting material 5 to the minimum side surface 2s. Therefore, when the special light source light is not irradiated, it is a single component 1 having no colorless and transparent characteristics. However, when the special light source light is irradiated, the side surface 2s emits light, and the ring-shaped light emission along the outline line is shown in FIG. Observable from the direction. Therefore, the decorativeness of the part 1 can be improved while the arrangement or configuration of the light-emitting material 5 is minimal, and both the identification recognition and the decorativeness can be improved while suppressing the manufacturing cost of the part 1. Become.

In addition, by making the light emitting part the side surface 2s of the component 1, it is difficult to discover the presence or absence of the anti-counterfeiting light emitting material 5 just by visually observing the component 1 from the plane (visually viewed from the direction of FIG. 1). I can do it. By using the light emission of the light emitting material 5 for the authenticity determination of the component 1, it becomes possible to enhance the forgery prevention effect of the component 1.

The light emitting material 5 that emits light by the special light source light can select the light emission colors of RGB three primary colors or a combination thereof. When the member 2 is a colorless and transparent sapphire single crystal, glass, or diamond single crystal, the component 1 exhibits the color tone of the luminescent color of the luminescent material 5 when irradiated with the special light source light.

In addition, when a ruby single crystal is used for the first member 2, the crystal material is light pink in the first place. When this ruby single crystal, also called pink sapphire, is used, the ruby single crystal itself emits light with an increased pink color and emits light from the light emitting material 5 at the same time when the special light source light is irradiated. Therefore, these emission colors are mixed and a part of the emission from the component 1 is optically synthesized.

Also, when the planar shape of the member 2 is irregular, the inclined surface 2d may be similarly provided along the peripheral edge of the outer periphery.

(Example 2)
Next, components according to Embodiment 2 of the present invention will be described with reference to FIGS. In addition, the same number is attached | subjected to the same location as the component 1 of the said Example 1, and the overlapping description is abbreviate | omitted or simplified and described.

The component 6 of Example 2 is comprised by the 1st member 2 and the 2nd member 3 as shown in FIG.4 and FIG.5, and the 1st member 2 and the 2nd member 3 are bonded together. ing. 4 is a plan view, and FIG. 5 is a side view (hereinafter simply referred to as “member 2” and “member 3” as necessary).

The planar shape of the two

members

2 and 3 is circular as shown in FIG. 4 or an irregular shape not shown. The planar shapes of the

members

2 and 3 are formed in the same shape. Therefore, the planar shapes of the bonding surfaces of the

members

2 and 3 are the same.

Of the two

members

2 and 3, the inclined surface 3b is formed over the entire circumference of the outer periphery of the member 3. Using the surface on which the inclined surface 3b is formed as a non-bonding surface, the two

members

2 and 3 are stacked and bonded together in the thickness direction, whereby the component 6 is formed.

The member 3 is also formed of any of sapphire single crystal, ruby single crystal, diamond single crystal, or glass, and is formed by grinding and polishing such a material. The transmittance of the material forming the member 3 may also satisfy a predetermined value (for example, 80% or more) in the wavelength range of 400 nm to 800 nm, for example, when the transmittance is measured with a spectrophotometer.

For example, when the

members

2 and 3 are formed of a sapphire single crystal, the crystal plane orientation may be, for example, the

surface

2a, 3a or the bonding surface having the c plane, but is not limited to the c plane. , A-plane, m-plane, etc., a desired crystal plane may be used as the surface.

Furthermore, the recesses 2c are formed at a total of 12 locations every 30 ° over the entire circumference of the side surface 2s of the member 2, and the light emitting material 5 (not shown) is disposed inside the recesses 2c. 4 and 5, the illustration of the light emitting material 5 is omitted for the sake of easy viewing. The recess 2c can be set to a diameter of about 0.5 mm and a depth in the radial direction of the member 2 of about 0.15 mm.

According to such a configuration of the component 6, in addition to the effects of the component 1, the light emitting material 5 is disposed on at least a part of the side surface 2 s so that the portion where the light emitting material 5 is disposed is at least the side surface. While suppressing to only 2 s, it is possible to realize light emission by emission from the side surface 2 s when the special light source light is irradiated. Therefore, when the special light source light is not irradiated, it is a single component 6 having no colorless and transparent features. However, when the special light source light is irradiated, the side surface 2s emits light, and pinpoint light emission can be observed in the recess 2c. . Accordingly, the decorativeness of the component 6 can be improved while the arrangement or configuration of the light emitting material 5 is minimal, and both the identification recognition and the decorativeness can be improved while suppressing the manufacturing cost of the component 6. Become.

Furthermore, by using the component 6 as a window material for a wristwatch, it is possible to easily identify the position of the time character (or hour mark, hour marker, index) on the dial face by the light emission of the light emitting material 5. Become. Therefore, both the decorativeness and the visibility of the wristwatch can be achieved.

Furthermore, any one of characters, figures and symbols is formed in a concave shape on at least one of the bonding surfaces of the two

members

2 and 3. In the present embodiment, the letter 4 consisting of alphabets A to E is formed in a concave shape on the bonding surface of the member 3. The characters, graphics, or symbols include all characters such as alphabets, hiragana, katakana, kanji, numbers, kanji numerals, symbols, and brand logos. In addition, the figure includes a basic figure such as a circle, a triangle, or a rectangle, a more complicated geometric pattern, or a trademark indicating a brand or a manufacturer.

The concave formation of the characters 4, figures and symbols may be performed by laser scanning. From the standpoint of resistance to laser scanning, the material of the

members

2 and 3 is more preferably a sapphire single crystal, a ruby single crystal, or a diamond single crystal. Moreover, as a combination of the

members

2 and 3, either a combination of colorless sapphire single crystals or a combination in which one side is changed to a ruby single crystal having a pink color may be used. The combination of sapphire single crystals is cheaper in terms of material cost. When a ruby single crystal is used for one member, it is preferable to use a ruby single crystal, which is a material suitable for laser scanning, for the member 3 on the upper surface side.

Further, the light emitting material 5 is also disposed in a concave portion such as the character 4. Therefore, the light having a specific wavelength emitted from any of the characters 4, figures, and symbols is reflected on the surface 2a of the member 2 and the surface 3a of the member 3, or part of the light is adhesive and the member. The light is emitted from the inclined surface 3b while being repeatedly reflected at the

boundary surface

2 or 3. The surface 2a, the inclined surface 3b, and the surface 3a are mirror-polished so that the surface roughness Ra is 0.1 μm or less. Ra may be measured with a surface roughness measuring machine. Accordingly, any of the characters 4, figures and symbols is visually observed from the inclined surface 3b as shown in FIG. 6 by the emission of light from the inclined surface 3b.

From FIG. 3, the width W3b of the inclined surface 3b is set to be equal to or greater than the height dimension T4 of the character 4 (or any of the figure and symbol). Further, the inclination angle θ of the inclined surface 3b is set to about 20 degrees with respect to the surface 3a of the member 3. With the above settings, when the component 6 is viewed obliquely, it is possible to visually observe the characters 4 (or any of the figures and symbols) from the inclined surface 3b as shown in FIG. It becomes possible. The height dimension T4 refers to a height dimension in which all characters, figures, or symbols can be accommodated when a plurality of letters, figures, or symbols are formed.

Furthermore, since the inclined surface 3b is formed on the entire periphery of the peripheral portion of the member 2, it is possible to visually observe the characters 4, figures or symbols from the inclined surface 3b even if the component 6 is viewed from any angle. It becomes. Therefore, the decorativeness of the component 6 can be further improved.

The

members

2 and 3 are laminated by an adhesive so as to overlap each other in the thickness direction so that their external shapes coincide with each other. The material of the adhesive is not limited as long as the

members

2 and 3 can be fixed in an overlapped state. For example, an ultraviolet curable resin can be used. In addition, in a state where the

members

2 and 3 are overlapped, an adhesive having a viscosity close to water (20 cps at 20 ° C.) may be spread between the

members

2 and 3 by using a capillary phenomenon and bonded together. . The transmittance of the adhesive only needs to satisfy a predetermined value (for example, 80% or more) in the wavelength range of 400 nm to 800 nm, for example, when the transmittance is measured with a spectrophotometer. At the time of bonding, attention should be paid so that no foreign matter or bubbles are mixed into the bonding surface.

Furthermore, by configuring the component 6 with the

members

2 and 3 of the same material, the physical properties such as the thermal expansion coefficient and the lattice constant can be made the same, and the occurrence of bending and warping in the component 6 can be suppressed. Become.

Note that the character 4 (or figure, symbol) may be formed in a concave shape on the bonding surface of the member 2.

Further, the two

members

2 and 3 do not necessarily have the same planar shape, and the shapes thereof may be different from each other.

Similarly, when the planar shape of the member 3 is irregular, the inclined surface 3b may be provided along the peripheral edge of the outer periphery.

(Example 3)
Next, with reference to FIG.7 and FIG.8, the component which concerns on Example 3 of this invention is demonstrated. In addition, the same number is attached | subjected to the same location as the component 1 of the said Example 1, or the component 6 of Example 2, and the overlapping description is abbreviate | omitted or simplified and described.

The component 7 of Example 3 is composed of one member 2 and the inclined surface 2d formed over the entire circumference of the outer peripheral edge of the member 2 is formed every 30 ° over the entire circumference. This is a point composed of the cut surface 2e. Furthermore, the ridgeline 2f where the cut surfaces 2e meet is aligned with the recess 2c in the thickness direction of the component 7. The inclined surface 2d is formed with a width W2d on the entire circumference of the outer peripheral edge at a constant inclination angle θ with respect to the surface 2a.

According to the configuration of the component 7, in addition to the effects of the component 1 or the component 6, the component 7 is used as a window material of a wristwatch, so that the component 7 is planar (direction of FIG. 7). When viewed from above, it becomes possible to observe as if the ridgeline 3d is emitted by the light emission of the light emitting material 5, and the position of the time character on the dial can be more easily identified by the user. Therefore, it is possible to further achieve both the decorativeness and the visibility of the wristwatch.

Example 4
Next, a component according to Embodiment 4 of the present invention will be described with reference to FIGS. In addition, the same number is attached | subjected to the same location as the said

components

1, 6, and 7, and the overlapping description is abbreviate | omitted or simplified and described.

As shown in FIGS. 9 and 10, the component 8 of the fourth embodiment includes the member 2 and the member 3, and the member 2 and the member 3 are bonded to each other. 9 is a plan view and FIG. 10 is a side view.

In the part 8, the inclined surface 3b formed over the entire circumference of the outer peripheral edge of the member 3 is composed of cut surfaces 3c formed every 30 ° over the entire circumference. Furthermore, a total of 24 recesses 2c are formed every 15 ° over the entire circumference of the side surface 2s of the member 2. A ridge line 3d where the cut surfaces 3c meet each other is aligned with the recess 2c in the thickness direction of the component 8.

The inclined surface 3b is formed with a width W3b on the entire circumference of the outer peripheral edge at a constant inclination angle θ with respect to the surface 3a. The width W3b is set to be equal to or greater than the height dimension T4 of the character 4 (or any one of the figure and the symbol).

Further, the light emitting material 5 (not shown) is disposed inside the recess 2c. In FIGS. 9 and 10, the illustration of the light emitting material 5 is omitted for the sake of easy viewing.

According to the configuration of the component 8, in addition to the effects of the

components

1, 6, and 7, the side surface 2s emits light when irradiated with the special light source light, and pinpoint light emission occurs in the recess 2c. It becomes possible to observe, and it becomes possible to improve both identification recognition and decoration while suppressing the manufacturing cost of the component 8.

The member 3 is formed of any one of sapphire single crystal, ruby single crystal, diamond single crystal, or glass. Further, any one of characters, figures, and symbols is formed in a concave shape on at least one of the bonding surfaces of the two

members

2 and 3. In the present embodiment, the letter 4 consisting of alphabets A to E is formed in a concave shape on the bonding surface of the member 3.

The light-emitting material 5 is also disposed at a concave portion such as the letter 4. Therefore, the light having a specific wavelength emitted from any of the characters 4, figures, and symbols is reflected on the surface 2a of the member 2 and the surface 3a of the member 3, or part of the light is adhesive and the member. The light is emitted from the inclined surface 3b while being repeatedly reflected at the

boundary surface

2 or 3, and is visually observed as shown in FIG.

By providing the

above parts

1, 6, 7, and 8 in watches, jewelry, bags, accessories (rings, necklaces, earrings, bracelets, etc.), tags, or fasteners,

parts

1, 6, 7, and 8 are available in other products. Can be deployed. In particular, by providing the tag, fastener, etc., the

parts

1, 6, 7, 8 according to the present invention can be used for other products. Accordingly, the light emission of the light emitting material 5 can improve the decorativeness of the product including the

parts

1, 6, 7, and 8, and the light emission can also be used for authenticity determination. A prevention effect is also obtained.

When

parts

1, 6, 7, and 8 are used as cover parts to protect the watch dial, for example, the external dimensions of

parts

1, 6, 7, and 8 are about 2.2 mm in height and about 30 mm in diameter. The thickness of each of the

members

2 and 3 may be set to about 33 mm, the thickness of about 1 mm to about 2 mm, and the widths W2d and W3b to about 2.5 mm. Of course, various dimensions can be set according to the specifications of the wristwatch, the jewelry, the bag, the accessory, the tag, and the fastener including the

parts

1, 6, 7, and 8.

It should be noted that the first to fourth embodiments can be variously changed depending on the technical idea, and for example, the component 6 can be formed by at least the member 2 alone. Further, the formation of the character 4 (or figure, symbol) is arbitrary and may not be formed.

The outer shape of the member 2 is not limited to a plate-like member, and may be, for example, a ring shape. In that case, the light emitting material 5 may be arranged by forming the groove 2b or the recess 2c on the inner peripheral side surface of the ring.

Alternatively, the light emitting material 5 or the ring member of the light emitting material may be disposed on the peripheral surface of one of the bonding surfaces of the

members

2 and 3.

Furthermore, the component 1 may be provided with the member 3, and the member 3 may be changed to a circular flat plate not having the inclined surface 2d while forming the inclined surface 3b as shown in FIG. . Further, the member 7 may be provided with the member 3, and the member 3 may be changed to a circular flat plate having no inclined surface 3b while forming the inclined surface 3b as shown in FIG. .

1, 6, 7, 8 Parts 2 First member 2a First member surface 2b Groove 2c Recess 2d Inclined surface 2e Cut surface 2f Ridge line W2d Inclined surface width 2s First member side surface 3 Second member 3a Surface of second member 3b Inclined surface 3c Cut surface 3d Ridge line W3b Width of inclined surface 4 Character T4 Height of character 5 Luminescent material θ Inclination angle of inclined surface

Claims

Composed of at least a first member,
The first member is formed of any of sapphire single crystal, ruby single crystal, glass, diamond single crystal,
The light emitting material is arranged over at least a part of the side surface or the entire circumference,
Components that emit light when illuminated with special light sources or in the dark.
The first member is a plate-like member, and the planar shape is circular or irregular,
The component according to claim 1, wherein a groove is formed over the entire circumference of the side surface, and the light emitting material is disposed inside the groove.
The first member is a plate-like member, and the planar shape is circular or irregular,
2. The component according to claim 1, wherein a concave portion is formed at least at a total of 12 locations every 30 ° over the entire circumference of the side surface, and the light emitting material is disposed inside the concave portion.
A second member is further provided;
The second member is formed from any of sapphire single crystal, ruby single crystal, glass, diamond single crystal,
The second member is a plate-like member, and the planar shape is circular or irregular,
An inclined surface is formed on the entire circumference of the peripheral edge of the second member,
With the inclined surface as a non-bonding surface, the first member and the second member are stacked and bonded in the thickness direction,
The planar shapes of the bonding surfaces of the first member and the second member are the same,
Any one of the character, figure, or symbol is formed in a concave shape on at least one of the bonding surfaces of the first member or the second member,
The luminescent material is arranged in the concave part,
The component according to any one of claims 1 to 3, wherein a width of the inclined surface is equal to or greater than a height dimension of any one of characters, figures and symbols.
A second member is further provided;
The second member is formed from any of sapphire single crystal, ruby single crystal, glass, diamond single crystal,
The second member is a plate-like member and the planar shape is circular or irregular,
An inclined surface is formed on the entire circumference of the peripheral edge of the second member,
With the inclined surface as a non-bonding surface, the first member and the second member are stacked and bonded in the thickness direction,
The planar shapes of the bonding surfaces of the first member and the second member are the same,
Any one of the character, figure, or symbol is formed in a concave shape on at least one of the bonding surfaces of the first member or the second member,
The luminescent material is arranged in the concave part,
The width of the inclined surface is not less than the height dimension of any of the characters, figures or symbols,
The inclined surface consists of cut surfaces formed every 30 ° over the entire circumference,
The component according to claim 3, wherein a ridge line where cut surfaces meet each other is aligned with the concave portion in a thickness direction.
Wristwatch, jewelry, bag, jewelry, tag, fastener provided with the parts of any one of claims 1 to 5.