JPH0723273U - Diamond Pavilion Superiority / Inferiority Scope, Diamond Pavilion Superiority / Inferiority Estimator, and Diamond Pavilion Superiority / Inferiority Evaluating Tool Consisting of Scope and Emitter - Google Patents

Abstract

(57) [Summary] [Purpose] A diamond pavilion superiority or inferiority determination tool that is compact and convenient to carry, and can easily maintain constant observation conditions, and a diamond pavilion superiority or inferiority determination tool including a scope and an optical projector. provide. [Structure] The light source 5 arranged on the open end face side of the condenser tube body 11.
The light reflected from the light collecting plate 2 is reflected by the light reflecting plate 20 in the light collecting cylinder, and is made incident on the diamond 100 which is placed with the table surface of the diamond 100 faced down on the light-shielding plate 54 on the open end face side. A reflection image of the cut surface of the diamond pavilion is formed within the surface (circle) in contact with the table surface of 100, and the image is observed through the viewing window 14 formed on the top of the light collecting cylinder 11 through the magnifying lens 30. To do.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a device for determining the superiority or inferiority of a cut on a pavilion surface of a diamond, and more specifically, among various diamond cuts, a brilliance (dispersion); a dispersion (scattering); a scintillation (glitter); The brilliant cut (58-sided) that forms the bottom of the round brilliant cut (58-sided face), which maximizes the blending, maximizes the symmetry and proportions of the cut face (25 faces) of the pavilion. It is placed on the plate with the table surface of the diamond facing down and the pavilion surface facing up, and it is possible to determine visually with the state of the image (reflection image) that appears on the shading plate. And a light projector.

[0002]

[Prior art]

 Conventionally, as a device for observing the brilliance of jewels such as diamond, a device disclosed in JP-A-2-290542 has been proposed.

[0003]

[Problems to be solved by the device]

 This conventional prior art utilizes light that enters from the upper cylinder formed by a translucent translucent member as a light source, and the incident light from the upper cylinder is placed on the bottom of the lower cylinder. The phenomenon of surface reflection or internal reflection is observed through the naked eye or through a magnifying lens attached to the upper cylinder, and the degree of "shine" of the diamond is judged by the pattern of the reflection image reflected on the diamond. Since it is composed of an upper cylinder and a lower cylinder, it is bulky and cannot be made compact; when the upper cylinder and the lower cylinder are slidable, the operation is troublesome. At the same time, the distance from the observation lens to the diamond to be inspected varies depending on the size of the diamond, and it is easy to cause a slight increase or decrease in the amount of light incident on the light source. It is difficult to keep the angle of view; the observation field of view through the magnifying lens attached to the upper cylinder is wide, and the position of the eyes of the observer is likely to be displaced, making it difficult to determine the viewpoint and mistaking the image; Since it relies on the limited natural light source that enters from the upper cylinder formed by the semi-transparent member, and the amount of light that is not sufficient to determine the degree of "brightness" cannot be obtained, the reflection image of the diamond to be inspected Was not clear; there was a problem.

Therefore, an object of the present invention is to provide a diamond pavilion superiority / inferiority determination scope and a projector which are compact and convenient to carry, and a diamond pavilion superiority / inferiority determination tool including the scope and the light projector.

Another object of the present invention is to provide a diamond pavilion superiority or inferiority determination tool and a diamond pavilion superiority or inferiority determination tool comprising the scope and the light emitter, which makes it easy to keep the observation conditions constant. is there.

Another object of the present invention is to provide a diamond pavilion superiority / inferiority determination scope and a projector which are easy to operate, and a diamond pavilion superiority / inferiority determination tool comprising the scope and the projector.

Still another object of the present invention is to provide a diamond pavilion superiority / inferiority determination scope and a projector for guaranteeing a uniform light amount at the time of observation, and a diamond pavilion superiority / inferiority determination tool comprising the scope and the projector. is there.

Still another object of the present invention is a diamond pavilion superiority / inferiority determination scope and a projector and a diamond pavilion superiority / inferiority determination tool including the scope and the light projector, in which an observer can easily set a viewpoint and a reflected image can be easily captured. To provide.

[0009]

[Means for Solving the Problems]

 The first invention of the present application is that the inner wall surface is formed as a light-shielding wall surface, one end is opened, and the other end is formed with a viewing window. In order to reflect the light collected from the light source provided on the open end face side of the light collecting cylinder to the open end face side of the light collecting cylinder, the light is arranged in the light collecting cylinder so as to be directly orthogonal to the central axis of the light collecting cylinder. A scope for judging superiority or inferiority of a diamond pavilion, comprising a light reflection plate and a magnifying lens arranged between the light reflection plate and the viewing window side of the light collecting cylinder.

A second invention of the present application comprises a housing, a light source incorporated in the housing, a part of the housing, and frosted glass or the like for collecting light from the light source as an indirect light source. A floodlight for judging superiority or inferiority of a diamond pavilion, comprising a skylight formed by the above member, and a light-shielding plate arranged on the skylight and having a size for mounting a diamond.

Further, a third invention of the present application comprises a diamond pavilion superiority / inferiority determination scope and a projector, wherein the scope has an inner wall surface formed as a light-shielding wall surface, one end of which is open and the other end of which is visible. A light-collecting cylinder having a window and a window hole formed in the center of the light-collecting cylinder. The light collected from a light source provided on the open end surface side of the light-collecting cylinder is reflected to the open end surface side of the light-collecting cylinder. Therefore, the light reflection plate is disposed inside the light collection cylinder so as to be directly intersected with the central axis of the light collection cylinder, and is arranged between the viewing window side of the light collection cylinder and the light reflection plate. A member, such as a frosted glass, that comprises a magnifying lens, the projector forms a housing, a light source built in the housing, and a part of the housing, and collects light from the light source as an indirect light source. A skylight formed by And a light-shielding plate having a size for mounting a diamond, and a superior or inferiority determination tool for a diamond pavilion.

Then, the light shielding plate is formed in a disc shape, and the inner diameter R of the light collecting cylinder on the open end face side is ₁ And the diameter R of the above shading plate₃ And R₁ > R₃ When the condenser cylinder is mounted on the projector with the central axis of the condenser cylinder aligned with the center of the light shielding plate, the light from the light source is formed on the skylight. The width is (R₁ -R₃ It is preferable that the light passes through a circle of) × (1/2) and enters the light collecting cylinder.

[0013]

[Work]

 Light collected from a light source installed on the open end face side of the light collecting cylinder is reflected by a light reflecting plate inside the light collecting cylinder, and is placed on a diamond placed with the diamond table face down on the light shield plate on the open end face side. The light was made incident and a reflection image of the cut surface of the diamond pavilion was formed on the surface (circle) of the light-shielding plate that was in contact with the diamond table surface, and the image was formed on the top of the condenser tube through a magnifying lens. Observe through the viewing window.

[0014]

【Example】

 Next, examples will be described with reference to the drawings. Prior to the embodiments, the present invention will be comprehensively described.

Among the light rays incident on the pavilion surface of the diamond, the light rays incident on the eight pavilion main facets indicated by reference numeral 91 in FIG. 5 are internally reflected and variously reflected by the two surfaces of the adjacent pavilion main facets. The reflection image is reflected.

FIG. 7 shows a principle diagram of connecting hearts. (A) shows two adjacent pavilion main facets abcdada, adfea, and (B) shows It is shown that light incident on two adjacent pavilion main facets is correlated and inversely projected to form a heart shape abc (e) -fad.

In the case of the reflection image shown in FIG. 8, eight beautiful and uniform heart marks are projected. When the uniform reflection images of eight heart marks are observed by the scope 10, according to the knowledge of the present inventor, the state of diamond cutting of the observation target is the following state (a) (b). You can judge that. (A) Each facet on the pavilion face (24 faces: total number of faces 8 of the pavilion main facet indicated by reference numeral 91 in FIG. 5 and number 16 of lower girdle facets indicated by reference numeral 92) is extremely uniform. It is cut with symmetry. (B) The curette 93 is located at the center of the conical shape, and the pavilion angle is cut with a uniform proportion for each surface. On the contrary, in the case of the reflection image of FIG. 9, the reflection image of the pavilion main facet is irregularly lacking in black, and the reflection images of the eight heart marks are not evenly projected. When this reflected image is observed by the scope 10, according to the knowledge of the present inventor, it can be determined that the diamond cut state of the observation target is in the following states (c) and (d). (C) The facets (24 faces) on the pavilion face are irregular and the symmetry is not good. (D) The curette is offset from the center of the cone. However, if the shape of the reflection image of the heart mark can be observed and eight uniform reflection images of the heart mark can be observed, the light incident from the diamond crown surface is regularly reflected by each facet of the pavilion. Then, returning to the crown side again, it was found that the brilliance (brightness); dispersion (dispersion); was maximally blended to achieve the most beautiful condition, and the diamond pavilion had a good cut surface condition. It is possible to determine that there is.

The following is a description of an embodiment of the present invention. 1 is a schematic cross-sectional view of a diamond pavilion superiority / inferiority judging scope according to the present invention, FIG. 2 is a perspective view of a diamond pavilion superiority / inferiority judging projector according to the present invention, and FIG. 3 is a diamond pavilion superiority / inferiority judging tool according to the present invention. FIG. 4 is a perspective view showing a usage state, and FIG. 4 is a schematic sectional view showing a usage state of the diamond pavilion superiority / inferiority judging tool according to the present invention.

In these figures, at least the inner wall surface of a scope 10 according to the present invention is formed as a light-shielding wall surface, one end 12 is open, and the other end 13 is formed as a concentrating cylinder body 11 having a viewing window 14. ing. For this reason, it is preferable that the light collecting cylinder 11 is formed of an opaque black member, and the lower half of the light collecting cylinder 11 has an inner diameter R.₁ (= About 39 mm) with a large diameter part, the upper half is the inner diameter R of the lower half₁ Smaller inner diameter R₂ (= About 35 mm) with a small diameter part and height T₁ It is formed to be a little long (= about 100 mm). Then, inside the light collecting cylinder 11, a white disk that reflects the light collected from the light source arranged on the open end surface side of the light collecting cylinder 11 to the open end surface side of the light collecting cylinder 11. The light reflection plate 20 formed by the above is disposed. The light reflection plate 20 has a perfect circular window hole 21 formed in the center thereof and is installed in the light collecting cylinder 11 so as to be orthogonal to the central axis C of the light collecting cylinder 11. A magnifying lens 30 having a chromatic aberration of 3 on the spherical surface is incorporated between the side of the observation window 14 of the condenser tube 11 and the light reflecting plate 20. The focus of the magnifying lens 30 is formed on the surface where the light shielding plate 54 constituting the projector 50 described later and the table surface of the diamond 100 (the circle of the flat formed by the diameter AB in FIG. 6) come into contact with each other. It is important to select a lens. The observation window 14 has a diameter L so that the position of the observer's eyes is naturally fixed during observation.₁ (= About 8 mm) as a small hole, and the window hole 21 of the light reflection plate 20 also has a diameter L. ₂ It is formed as a small hole (= about 8 mm).

Next, the projector 50 according to the present invention comprises a housing 51, a light source 52 built in the housing 51, and a part of the housing 51. The light from the light source 52 is indirectly reflected by the light source 52. A skylight 53 formed of a member such as frosted glass for collecting light as a light source, a flat light-shielding plate 54 provided on the skylight and having a size for mounting the diamond 100, and formed of a black member. is doing. Reference numeral 55 is a slide switch for turning on the power. As the light source 52, a fluorescent lamp (6 volt, 4 watt) powered by a 6 volt dry cell (not shown) was used. Of course, a commercial power source may be used as the power source.

The superiority / inferiority judging tool 70 according to the present invention is configured by combining the scope 10 and the light projector 50. The shading plate 54 is formed into a disk shape having a diameter R ₃ (= about 20 mm). The inner diameter R _{1 of the} light collecting cylinder 11 on the open end face side and the diameter R ₃ of the light shielding plate 54 are formed in a relation of R ₁ > R ₃ , and the central axis C 1 of the light collecting cylinder 11 is shaded. When the condensing cylinder 11 is placed on the light projector so as to coincide with the center of the plate 54, the light from the light source is formed in the skylight 53 and has a width of (R ₁ -R ₃ ) × An equal amount of light enters the light collecting cylinder 11 through the (1/2) circle.

When the superiority / inferiority judging tool 40 is actually used, first, the switch 55 of the projector 50 is turned on to project light. Next, the diamond 100 to be inspected is placed on the light shielding plate 54 with the table surface facing down. Then, the scope body is placed on the skylight 53 while keeping the scope 10 horizontal by aligning the center of the light shielding plate 54 on which the diamond 100 to be inspected is placed with the center axis of the scope 10. Further, the circular light source is equal to the circumference of the diamond 100 by the difference (R ₁ −R ₃ ) × (1/2) between the circular light shield plate 54 having the diameter R ₃ and the inner diameter R ₁ of the open end surface of the scope 10. Then, it is confirmed whether or not the light beam is incident on the light reflection plate 20 provided inside the scope 10 and is incident on the pavilion surface of the diamond 100. The diamond 100 placed on the bottom of the scope with the table surface facing down is observed through the magnifying lens 30 in the scope with eyes close to the viewing window 14 of the scope 10. In this case, among the light rays incident on the pavilion surface, the light rays incident on the eight pavilion main facets are internally reflected and reflected by the adjacent two surfaces of the pavilion main facet to form various reflected images. Thus, the reflection image of the cut surface of the diamond pavilion appears on the surface (the circle having a diameter of line segment AB in FIG. 4) in which the light shielding plate 54 is in contact with the table surface of the diamond 100.

As described above, the scope 10 has a pavilion surface (25-faced body) in which light rays incident at a certain angle from the round brilliant-cut (58-sided face) crown surface (33-sided face) are regularly cut on a cone. A state of cut so that it can be injected and returned to the crown surface again, in particular, whether the symmetry of the pavilion main facet on the pavilion surface is good or not; whether the culet is located at the center of the conical pavilion This is effective for making a visual judgment.

The inventor of the present invention puts the light reflection plate 20 and the magnifying lens 30 from the open end surface of the light collecting cylinder 11 at T ₂ (T ₂ = 65 mm in FIG. 4) and T ₃ (T ₃ = T _{3 in} FIG. 4), respectively. When the pavilion surface of the six diamonds placed on the light shielding plate 52 as shown in FIGS. 3 and 4 is observed, the pavilion surfaces are shown in FIGS. 10 (a) (b) (c). Reflected images of 11 (a) (b) (c) were observed. From the image, it can be determined that the diamonds shown in FIGS. 10A, 10B, and 10C have good cut surfaces. In addition, Fig. 11 (a) shows a diamond with a large and small heart shape, Fig. 11 (b) shows a diamond with a bad symmetry due to the curette shifting from the center, and Fig. 11 (c) shows a heart with an extremely large shape. It is possible to judge from the image that the diamond is a diamond with a thin cut and a large cut in the cleft, and the cut surface is defective.

[0025]

[Effect of device]

 The present invention is constructed as described above, and the present invention has the following effects. The scope is formed by a single cylinder with the inner wall surface as a light shielding wall, and the observation distance from the viewing window to the diamond to be inspected is constant, so the observation conditions are stable and the diamond pavilion is easy to operate. Also, a diamond pavilion superiority / inferiority judgment tool including a scope and a floodlight can be obtained. In addition, the light source that collects light inside the scope is built into the housing whose skylight is made of frosted glass, and the light source that collects light from the open end of the scope is used as an indirect light source. Since the light passes through the circle of the width and enters the light collecting cylinder, the diamond pavilion superiority or inferiority determination device that guarantees a stable light quantity can be obtained. Since both the scope and the projector can be made small, a diamond pavilion superiority / inferiority determination device that is convenient to carry can be obtained. In addition, since the viewing window that is the viewpoint is formed small, the position of the eyes of the observer can easily catch the center of the diamond placed on the light shielding plate, and the reflected image can be reliably captured. The quality of diamond cutting can be easily determined.

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view of a diamond pavilion determination scope according to the present invention.

FIG. 2 is a perspective view of a projector for judging superiority or inferiority of a diamond pavilion according to the present invention.

FIG. 3 is a perspective view showing a usage state of the diamond pavilion superiority / inferiority judging device according to the present invention.

FIG. 4 is a schematic cross-sectional view showing a use state of the superiority / inferiority judging tool of the diamond pavilion according to the present invention.

FIG. 5 is a plan view of the cut diamond as viewed from the pavilion side.

FIG. 6 is a front view of a cut diamond.

FIG. 7 shows a principle diagram of connecting hearts, and (A) shows two adjacent pavilion main facets abcd.
a, a-d-e-f-a, (B) is the shape of the heart a-b-c (e) -f-a-, which is the inverse projection of the light incident on two adjacent pavilion main facets. It shows that d is formed.

FIG. 8 shows a photographed image equivalent to a reflection image obtained by visually observing an appropriately cut diamond pavilion with an instrument for judging superiority or inferiority.

FIG. 9 shows a photographed image equivalent to a reflection image obtained by visually observing a diamond pavilion that has not been properly cut with a tool for judging merits and demerits.

FIG. 10 shows a photographed image equivalent to a reflection image obtained by visually observing an appropriately cut diamond pavilion with an instrument for judging superiority or inferiority.

FIG. 11 shows a photographed image equivalent to a reflection image obtained by visually observing a diamond pavilion that has not been properly cut with a tool for judging superiority or inferiority.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 scope 11 condensing cylinder 14 viewing window 20 light reflecting plate 21 window hole 30 magnifying lens 50 projector 51 housing 52 light source 53 skylight 54 light shielding plate 70 superiority / inferior judgment tool 100 diamond

 ─────────────────────────────────────────────────── ─── Continuation of the front page (54) [Title of device] Diamond Pavilion superiority / inferiority evaluation scope, Diamond Pavilion superiority / inferiority assessment projector, and Diamond Pavilion superiority / inferiority assessment tool consisting of scope and floodlight

Claims (4)

[Scope of utility model registration request] 1. A light-collecting cylinder (11) having an inner wall surface formed as a light-shielding wall, having one end open and a viewing window (14) formed at the other end, and a window hole (21) formed in the center. , The light collecting cylinder (11)
In order to reflect the light collected from the light source disposed on the open end face side of the light collecting cylinder (11) to the open end face side, the light collecting cylinder is orthogonal to the central axis of the light collecting cylinder (11). And a magnifying lens (30) disposed between the light reflection plate (20) and the viewing window (14) side of the light collecting cylinder (11). A diamond pavilion equipped scope for judging superiority or inferiority. 2. A housing (51), a light source (52) built in the housing (51), and a part of the housing (51), the light source (5)
A skylight (53) formed by a member such as frosted glass for collecting the light from 2) as an indirect light source, and a light shielding plate (54) arranged on the skylight and having a size for mounting a diamond. A floodlight for judging the superiority or inferiority of a diamond pavilion, which comprises: 3. A diamond pavilion comprising a scope (10) for judging superiority and inferiority and a projector (50), wherein the scope (10) has an inner wall surface formed as a light-shielding wall surface, one end of which is open and the other end of which is open. A light collecting cylinder (11) having a viewing window (14) and a window hole (21) formed in the center, and the light collecting cylinder (11).
In order to reflect the light collected from the light source disposed on the open end face side of the light collecting cylinder (11) to the open end face side, the light collecting cylinder is orthogonal to the central axis of the light collecting cylinder (11). And a magnifying lens (30) disposed between the light reflection plate (20) and the viewing window (14) side of the light collecting cylinder (11). The light projector (50) constitutes a housing (51), a light source (52) built in the housing (51), and a part of the housing (51).
A skylight (53) formed by a member such as frosted glass for collecting the light from 2) as an indirect light source, and a light shielding plate (54) arranged on the skylight and having a size for mounting a diamond. A tool for judging superiority or inferiority of a diamond pavilion, which comprises: 4. The light shielding plate (54) is formed in a disc shape, and the inner diameter R _{1 of the} light collecting cylinder (11) on the open end face side and the diameter R ₃ of the light shielding plate (54) are R ₁ > R ₃ and the central axis of the light collecting cylinder (11) is set to the light shielding plate (5).
When the light collecting cylinder (11) is placed on the light projector so as to coincide with the center of 4), the light from the light source is formed in the skylight (53) and has a width (R ₁ -R _{1 3} ) × (1 /
The superior or inferiority judging tool for a diamond pavilion according to claim 3, wherein the light passes through the circle of 2) and enters the condensing cylinder (11).