JP2017065110A - Three-dimensional crystal ornament, package member of three-dimensional crystal ornament, stand of three-dimensional crystal ornament and three-dimensional crystal lighting ornament - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance visibility of a 3D (three-dimensional) crystal sculpture.SOLUTION: A 3D crystal ornament comprises: a pedestal part which is a stand for a 3D crystal, and which is placed under a bottom surface of the 3D crystal; and a package member which packages the 3D crystal arranged on the pedestal part and the 3D crystal, and which is provided with an opening part or a transparent part at a position where a sculpture of the 3D crystal is visible, wherein the package member has at least an area corresponding to a back face part of the 3D crystal made to be a high light absorption area with a high light absorption ratio.SELECTED DRAWING: Figure 4E

Description

  The present invention relates to a 3D crystal figurine (such as a 3D crystal lighting figurine) using a 3D crystal.

  A 3D crystal is a laser that uses a laser or the like to form a sculpture with white dots (dots) in a substantially rectangular glass to engrave a three-dimensional pattern and use it as a decoration (non-patent) Reference 1). In this specification, a 3D crystal decorated with a stand or a paper package is referred to as a 3D crystal figurine.

  As a stand for a 3D crystal figurine, for example, the one shown in FIG. 1 is common. A stand (pedestal part) 1 of the 3D crystal figurine shown in FIG. 1 is made of, for example, a rectangular parallelepiped resin or the like. For example, a light source such as an LED 3 is provided on the upper surface of the stand 1.

  As shown in FIG. 2, a 3D crystal 11 having a sculpture (decoration) 11 a is erected on a stand 1. The sculpture 11a of the 3D crystal 11 can be clearly seen by the light from the light source generated by causing the LED 3 to emit light.

  Since there is a limit to the expression of the 3D crystal alone, the exterior package 21 and LED pedestal (not shown), 3D crystal (body) as shown in FIG. 3D crystal figurine with 11 integrated has been developed.

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However, the 3D crystal figurine A in which the 3D crystal 11 is erected on the stand 1 as shown in FIG. 2 has a problem that it is not sufficient from the viewpoint of the visibility of the sculpture 11a.
An object of the present invention is to improve the visibility of 3D crystal engraving.

  According to an aspect of the present invention, a pedestal portion disposed on the bottom surface of the 3D crystal, a 3D crystal disposed on the pedestal portion, and the 3D crystal are wrapped so that the sculpture of the 3D crystal can be visually recognized. A package member provided with a portion or a transparent portion, wherein the package member has at least a region corresponding to the back surface of the 3D crystal as a high light absorption region having a high light absorption rate. A crystal figurine is provided.

  The package member is further characterized in that a region corresponding to the side surface portion of the 3D crystal is a high light absorption region having a high light absorption rate.

The package member includes an exterior package and an interior package disposed inside the exterior package, and a region of the interior package corresponding to at least the back portion of the 3D crystal has high light absorption. It is characterized by being an area.
A light source for irradiating the 3D crystal may be provided on the pedestal.

  The present invention is a package member that wraps a 3D crystal disposed on a pedestal disposed on the bottom surface of the 3D crystal, and is provided with an opening or a transparent portion at a position where the engraving of the 3D crystal is visible. The 3D crystal figurine package member is characterized in that a region corresponding to the back surface of the 3D crystal is a high light absorption region having a high light absorption rate.

The present invention is a stand for accommodating a 3D crystal, a pedestal portion disposed on a bottom surface of the 3D crystal, a back surface portion disposed on a back surface of the 3D crystal, and an upper surface disposed on an upper surface of the 3D crystal. A 3D crystal figurine stand characterized in that a region corresponding to at least the back surface portion is a high light absorption region having a high light absorption rate.
By making the back of the crystal look like a black curtain, the internal sculpture can be easily seen even with a normal transparent crystal.

The pedestal portion, the back surface portion, and the upper surface portion form an integral frame.
A light source for irradiating the 3D crystal is disposed on each of the pedestal part and the upper surface part.

The pedestal is formed with a step for preventing falling along both side surfaces of the 3D crystal.
This prevents the heavy 3D crystal from jumping out of the pedestal.

The power source of the light source is provided inside the back of the base part.
By incorporating a battery or a rechargeable power storage device as a power source, a structure capable of emitting light alone without using external power such as an outlet is provided.

  The present invention is a 3D crystal lighting figurine including the stand according to any one of the above, a 3D crystal housed in the stand, and a package member that wraps the stand.

  The stand is provided with a switch for turning on and off the light source, and the package member is formed with an opening for enabling the switch to be turned on and off.

  According to another aspect of the present invention, there is provided a 3D crystal, a frame that accommodates the 3D crystal, and a light source that illuminates the 3D crystal, and a region corresponding to the back surface of the 3D crystal of the frame is illuminated with light. A 3D crystal lighting figurine is provided which is characterized by having a high light absorption region with a high absorption rate.

  According to the present invention, the visibility of 3D crystal engraving can be improved.

It is a figure which shows an example of the common stand (pedestal part) of 3D crystal figurine. It is a figure which shows the state which stood 3D crystal on the stand. It is a figure which shows an example of the 3D crystal figurine which integrated the package, the LED base part, and the 3D crystal main body. It is a figure explaining the process of assembling the 3D crystal figurine by the 1st Embodiment of this invention. It is a figure explaining the process of assembling the 3D crystal figurine by the 1st Embodiment of this invention. It is a figure explaining the process of assembling the 3D crystal figurine by the 1st Embodiment of this invention. It is a figure explaining the process of assembling the 3D crystal figurine by the 1st Embodiment of this invention. It is a figure explaining the process of assembling the 3D crystal figurine by the 1st Embodiment of this invention. It is a figure explaining the process of assembling the 3D crystal figurine by the 1st Embodiment of this invention. It is a figure explaining the process of assembling the 3D crystal figurine by the 1st Embodiment of this invention. It is the external view and expansion | deployment figure of the exterior package for packaging 3D crystal. It is the external view and expansion | deployment figure of the upper part of the interior cardboard formed with the cardboard etc. which are arrange | positioned inside the exterior package. It is the external view and expansion | deployment figure of the lower part of the interior cardboard arrange | positioned inside an exterior package. It is a figure which shows the 1st example of the external view of an interior package which functions as a light-shielding member arrange | positioned inside an exterior package, and an expanded view. It is a figure which shows the 2nd example of the expanded view of the interior package arrange | positioned inside an exterior package. It is a perspective view which shows one structural example of the stand of 3D crystal by the 2nd Embodiment of this invention. It is a figure which shows a mode that 3D crystal was inserted in the stand of 3D crystal. It is a figure which shows the structure which attached the paper-made exterior package as an exterior of the structure shown in FIG. It is the figure which gave the design according to the sculpture inside 3D crystal to the paper exterior package. It is a figure which shows an example of the design etc. of the paper-made exterior package of FIG. 13A. It is the figure which accommodated the dry battery or the storage battery which can be charged in the base part of a stand, and an upper surface part as a power supply to a light source part. It is the external view and expansion | deployment figure of an exterior package.

  In this specification, the 3D crystal figurine refers to, for example, a decorative article that has a higher decorative effect by applying an exterior to the 3D crystal (decorative body). There is no limitation on the form of installation, such as installation on a flat surface, hanging, or wall hanging.

  In 3D crystal, for example, glass is first polished and finished, and then processed by laser engraving. The laser is a powerful single-wavelength light, but it is focused with a lens on the part of the glass where you want to make a spot, and the part is heated to create very small scratches (cracks, dots). The scratches appear as white spots by irregularly reflecting the light. Point (dot) is made one after another while moving the laser irradiation device or the table with glass fixed according to the input data. There are various modifications to the 3D crystal manufacturing method, but the present invention is not limited by the manufacturing method as long as it is a known manufacturing method.

(First embodiment)
Hereinafter, a 3D crystal figurine according to a first embodiment of the present invention will be described in detail with reference to the drawings.

  The pedestal portion on which the 3D crystal is placed will be described using the pedestal portion 1 shown in FIG. 1 as an example. 4A to 4G are diagrams illustrating a process of assembling the 3D crystal figurine according to the present embodiment. FIG. 5 is an external view and a developed view of an exterior package for packaging a 3D crystal from the outside. The exterior package can be mass-produced at a low cost using, for example, paper. FIG. 6 is an external view and a developed view of the upper part of the interior cardboard formed by cardboard or the like disposed inside the exterior package. FIG. 7 is an external view and a developed view of the lower part of the interior cardboard disposed inside the exterior package. FIG. 8 is a diagram illustrating a first example of an external view and a developed view of an interior package that functions as a light shielding member disposed inside the exterior package. FIG. 9 is a diagram illustrating a second example of an external view and a developed view of the internal package arranged inside the external package.

The interior package forms the framework of the package, and the exterior package forms the exterior of the package.
However, the interior package and the exterior package may be integrally formed. That is, you may give a design etc. to an interior package.

  As shown in FIG. 5A, the exterior package 21 has a box shape having an opening or a transparent portion 21a at least on the front side. For example, thin paper is shown in a development view (FIG. 5B). It is processed into a desired shape and given the desired design. By assembling this as shown in the external view of FIG. 5A, an exterior package can be formed.

  As shown in FIG. 6, the upper interior cardboard 31 is formed of, for example, a colorless cardboard into a shape as shown in a development view (FIG. 6B) and a desired design or the like. This is assembled into a shape that covers the back surface, side surface, and top surface of the 3D crystal as shown in the external view of FIG.

  After the assembly, the first portion 31a that forms the upper portion of the package, the first region 31b that corresponds to the back surface of the 3D crystal that is connected to the first portion 31b, and the side surface that has a predetermined thickness. And a second portion 31e having a second region 31d having a first convex portion 31c extending in the height direction. Here, the area corresponding to the 3D crystal refers to an area facing the 3D crystal in a state where the 3D crystal is packaged. However, it may be a case where not all areas are included.

  As shown in FIG. 7, the lower interior cardboard 41 is formed, for example, by processing colorless cardboard into a shape as shown in a development view (FIG. 7B) and applying a desired design or the like (not shown). As shown in the external view shown in FIG. 7A, this is abutted against the lower surface of the 3D crystal and assembled into a shape that covers the upper surface and the four side surfaces of the pedestal portion 1. The lower interior cardboard 41 is provided with an opening 41a for transmitting light emitted from the light source 3 provided in the pedestal portion 1 and the like. Further, on the four sides 43 of the upper surface, a semicircular cut portion 45 that is reduced in diameter toward the inside is formed, and when the side surface of the LED base is inclined by the claw portion formed thereby, The upper part can be adjusted to the angle of the LED base.

  As shown in FIG. 8, the interior package 51 absorbs light by making the regions R1 and R2 corresponding to the back and side surfaces of the 3D crystal black. Alternatively, as shown in FIG. 9, the interior package 61 has a visible light absorption rate higher than that of other regions, for example, by blackening a region R3 corresponding to the back surface of the 3D crystal. That is, it is set as the high light absorptivity area | region where the light absorptivity is higher than another area | region. Therefore, the package material itself may be a black material or the like, or the back surface of the package may be painted black or the like.

  The region corresponding to the back surface of the 3D crystal is recessed on the back surface side (recessed portion 51b) when assembled, and the first protrusions are respectively formed between the regions corresponding to both side surfaces of the 3D crystal. Second convex portions 51a and 51a having substantially the same width as the portions 31c and 31c (FIG. 6) (recessed portions 51c and 51c are fitted into the first convex portion 31c) are formed.

  Hereinafter, the process of manufacturing the 3D crystal figurine by assembling the respective members will be described in detail with reference to FIG.

  First, as shown in FIG. 4A and FIG. 4B, the lower interior member formed by the lower interior cardboard 41 is attached so as to cover the base portion 1. At this time, the LED switch 1 a formed on the side surface of the base 1 is exposed from the lower interior cardboard 41.

  As shown in FIG. 4C, the interior package 51 or 61 shown in FIG. 8 or FIG. 9 is fitted into the upper interior cardboard 31 shown in FIG. 6 are fitted into the first convex portions 31 and 31c of the upper interior cardboard 31 shown in FIG. 6 so as to be matched with the concave portions 51c and 51c on the back surface of the second convex portions 51a and 51a shown in FIG. The 3D crystal accommodating portion 55 is formed.

  As shown in FIG. 4D, the 3D crystal 11 is fitted into the 3D crystal accommodating portion 55 formed in FIG. 4C.

  As shown in FIG. 4E, the member formed by the process shown in FIG. 4D is disposed on the base 1 with cardboard formed in FIG. 4B. Through this process, the paper frame bodies 31 and 51 can be formed on the 3D crystal 11 placed on the pedestal portion 1.

  As shown in FIG. 4F, the 3D crystal 11 on the pedestal portion 1 on which the paper frame is formed is accommodated in the exterior package 21 shown in FIG. The opening of the exterior package 21 or the transparent part 21 a is arranged so as to face the front of the 3D crystal 11. As a result, the 3D crystal figurine A in which the design 21b or the like is applied and the added value is increased is completed.

  As shown in FIG. 4G, by turning on the switch 1a of the pedestal portion 1 in which the LED is incorporated in the 3D crystal figurine A, the 3D crystal 11 can be irradiated with light in the package, The 3D shape applied to the 3D crystal 11 can be easily confirmed, and a sense of unity with the package can be further enhanced.

  In addition, it becomes possible to produce effectively by 3D shape inside 3D crystal 11 by arrange | positioning LED3 up and down or setting either up or down.

  As described above, according to the 3D crystal figurine according to the present embodiment, by providing a region having a high light absorptance (high light absorptivity region) on at least the back surface of the 3D crystal, the following effect is obtained. .

  That is, the reflected and scattered light from the dots in the 3D crystal that the user can visually recognize from the front is reflected forward (viewer side), and the light that has passed through the 3D crystal and reached the back without hitting the dots is a high absorption region. In this case, it is possible to distinguish the reflected scattered light from the dots (desired light) from the back reflected light (unnecessary light) reflected from the back surface, and to increase the ratio of the desired light as much as possible.

  Moreover, the directivity of the light irradiated from the pedestal part 1 to the front can be improved, and the visibility of the 3D crystal engraving can be improved.

  Furthermore, the exterior decoration effect can be exhibited at low cost by covering the 3D crystal with a paper package having a high design.

(Second Embodiment)
Next, a 3D crystal figurine according to a second embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 10 is a perspective view showing a configuration example of a 3D crystal stand according to the second embodiment of the present invention. As shown in FIG. 10, the 3D crystal stand 101 according to the present embodiment is, for example, resinous, and includes a pedestal portion 101 a disposed on the bottom surface of the 3D crystal and a back surface portion 101 b disposed on the back surface of the 3D crystal. For example, a U-shaped member having a U-shaped cross-section is formed on the upper surface of the 3D crystal. Then, at least the back surface portion 101b is formed of a material having a high light absorption rate, which is higher in the absorption rate of irradiation light, for example, visible light than in other regions. Of course, a material having a high light absorption rate such as black may be used in addition to the back portion. Alternatively, the back surface may be painted black. Further, depending on the wavelength of the LED light source, the material or color having a high light absorption rate may be changed.

  Moreover, the base part 101a, the back surface part 101b, and the upper surface part 101c may be integrally molded, and may be assembled by screwing or the like. In any case, the pedestal portion 101a, the back surface portion 101b, and the upper surface portion 101c form an integral frame to form a stand 101 for accommodating the 3D crystal. FIG. 11 is a diagram illustrating a state in which the 3D crystal 111 is fitted in the 3D crystal stand 101.

  Further, as shown in FIG. 10, steps 103a and 103b for preventing dropping may be formed on the pedestal part 101a at positions along both side surfaces of the 3D crystal 111 (FIG. 11). Thus, a safety measure is provided so that the heavy 3D crystal 111 does not jump out.

  Since the stand 101 in the back direction of the 3D crystal 111 is in a state like a dark curtain, there is an effect that the internal engraving can be easily visually recognized even with a normal transparent 3D crystal.

  FIG. 14A is a top view showing a configuration example of the stand. FIG. 14B is a perspective view showing a configuration example of the stand. FIG. 14C is a rear view showing one configuration example of the stand. FIG. 14D is a side view showing a configuration example of the stand.

  As shown in FIG. 14, a light source unit 105 that emits light to the 3D crystal side, for example, an LED lamp, is provided on at least one of the pedestal part 101a and the upper surface part 101c of the stand 101. You may arrange | position the switch which can control light emission of LED105 on the side surface of the base part 101a. Cut out the package so that the switch can be operated.

  As shown in FIG. 14, as a power source for the LED (light source) 105, it is preferable that at least one of the battery 121 and the rechargeable power storage device 131 can be accommodated in the pedestal 101a and the upper surface 101c of the stand. . By incorporating the battery 121 or the rechargeable power storage device 131, it is possible to have a structure that can emit LED light alone without using external power such as an outlet. Moreover, it is preferable to change the light emission color of LED105 and the pattern by many colors with goods.

  FIG. 12 shows a structure in which a paper exterior package 151 as shown in FIG. 15A (assembled view) and FIG. 15B (development view) is attached as the exterior of the structure shown in FIG. Yes. As shown in FIGS. 15, 13A, and 13B, the paper outer package 151 may be designed to match the engraving inside the 3D crystal. For example, as shown in FIG. 13B, the design includes a logo, a product name, a company name, an illustration, a product description, a manufacturer, a notice, a barcode, and the like.

  Note that the stand according to the embodiment may carry other decorative items such as figures instead of the 3D crystal.

  In the above-described embodiment, the configuration and the like illustrated in the accompanying drawings are not limited to these, and can be appropriately changed within a range in which the effect of the present invention is exhibited. In addition, various modifications can be made without departing from the scope of the object of the present invention.

  For example, instead of making the back of the box black, it can be a designed background such as a photo. In this way, it is possible to produce an effect in which the 3D shape inside the 3D crystal 11 and the background are integrated.

  Each component of the present invention can be arbitrarily selected, and an invention having a selected configuration is also included in the present invention.

  The present invention is applicable to 3D crystal figurines.

A ... 3D crystal figurine, 1 ... pedestal (stand), 1a ... LED switch, 3 ... LED (light source), 11 ... 3D crystal, 11a ... engraving (decoration), 21 ... exterior package, 21a ... opening or transparent , 31 ... Upper interior cardboard, 41 ... Lower interior cardboard, 51 ... Interior package, 51, 61 ... Interior package, 101 ... Stand, 101a ... Pedestal part, 101b ... Back part, 101c ... Upper surface part, 111 ... 3D crystal, 105 ... LED (light source), 121 ... battery, 131 ... power storage device, 151 ... exterior package.

Claims (13)

A pedestal disposed on the bottom of the 3D crystal;
A 3D crystal disposed on the pedestal;
A package member that wraps the 3D crystal and is provided with an opening or a transparent portion at a position where the sculpture of the 3D crystal is visible.
The package member is a 3D crystal figurine characterized in that a region corresponding to at least the back surface of the 3D crystal is a high light absorption region having a high light absorption rate.   2. The 3D crystal figurine according to claim 1, wherein the package member further includes a high light absorption region having a high light absorption rate in a region corresponding to a side surface portion of the 3D crystal. The package member has an exterior package and an interior package disposed inside the exterior package,
The 3D crystal figurine according to claim 1, wherein a region corresponding to at least the back surface of the 3D crystal of the interior package is a high light absorption region having a high light absorption rate.   The 3D crystal figurine according to any one of claims 1 to 3, wherein a light source for irradiating the 3D crystal is provided on the pedestal portion. A package member that wraps a 3D crystal disposed on a pedestal disposed on the bottom surface of the 3D crystal, and has an opening or a transparent portion at a position where the engraving of the 3D crystal is visible,
A package member for a 3D crystal figurine, characterized in that at least a region corresponding to the back surface of the 3D crystal is a high light absorption region having a high light absorption rate. A stand for accommodating a 3D crystal,
An area corresponding to at least the back surface portion, comprising a pedestal portion disposed on the bottom surface of the 3D crystal, a back surface portion disposed on the back surface of the 3D crystal, and a top surface portion disposed on the top surface of the 3D crystal. Is a 3D crystal figurine stand characterized by a high light absorption region having a high light absorption rate.   The 3D crystal figurine stand according to claim 6, wherein the pedestal part, the back surface part, and the upper surface part form an integral frame.   The 3D crystal figurine stand according to claim 6 or 7, wherein a light source for irradiating the 3D crystal is disposed on each of the pedestal part and the upper surface part.   The stand for a 3D crystal figurine according to any one of claims 6 to 8, wherein a step for preventing the fall is formed along both side surfaces of the 3D crystal in the pedestal portion.   The 3D crystal figurine stand according to claim 8, wherein a power source of the light source is provided inside the back of the pedestal. A stand according to any one of claims 6 to 10,
A 3D crystal housed in the stand;
A 3D crystal lighting figurine comprising a package member for wrapping the stand. The stand is provided with a switch for turning on and off the light source,
The 3D crystal lighting figurine according to claim 11, wherein an opening for enabling the switch to be turned on and off is formed in the package member. With 3D crystal,
A frame containing the 3D crystal;
A light source for illuminating the 3D crystal,
A 3D crystal lighting figurine characterized in that a region corresponding to the back surface of the 3D crystal of the frame is a high light absorption region having a high light absorption rate.

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