JPS6160800B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a structure of a light-emitting part in a lighting device constructed using light-guiding fiber members, and a method for manufacturing the same. A light-guiding fiber bundle formed by fixing one end side of the optical fiber member in a substantially planar shape, and receiving a planar fixed end side of the light-guiding fiber bundle and arranging the fixed end side along a desired pattern. and a molding plate member having a recess formed in the molding plate member, wherein at least the top of the recess provided in the molding plate member is substantially an exposed portion of the fixed end surface of the light-guiding fiber bundle. This relates to the structure of the light emitting part.
In addition, the present invention relates to a method for manufacturing the light emitting section, the light guiding fiber bundle having one end side of light guiding fiber members arranged in parallel fixed in a substantially planar shape, and the light guiding fiber bundle having one end side of the light guiding fiber members arranged in parallel. a step of separately forming mold plate members each having a concave groove shaped to receive a planar fixed end portion of the fiber bundle and arrange the fixed end side along a desired pattern; A planar fixed end portion of the light-guiding fiber member is mounted and fixed in a groove of the member, and a planar fixed end surface exposed portion of the light-guiding fiber member is attached to at least the top of the groove along the groove. This is a method of manufacturing a light emitting part in a lighting device, including a step of forming a light emitting part.

EMBODIMENT OF THE INVENTION Hereinafter, the structure of the light emitting part in the illumination device concerning this invention is demonstrated in detail based on the specific Example shown in drawing.

The light-guiding fiber member 1 applied to this invention is composed of a thin rod-shaped fiber material having a core and a concentric sheath layer having different refractive indexes. In this invention, the light-guiding fiber members 1 are connected in such a manner that at least one end thereof is aligned in a line in advance to form a substantially planar shape, and constitute a light-guiding fiber bundle 2 having a planar fixed end 3. . The planar fixed ends 3 are fixed parallel to each other with no gap between the respective light guide fiber members via the strip member 4, or parallel to each other with a minute interval between them. The band-shaped member 4 is, for example, a tape-shaped member provided with an adhesive layer on at least one surface thereof. A more preferable example of the tape-shaped member is a transparent synthetic resin tape, and other materials such as thin cloth and paper may also be used. Further, the band member 4 may be formed of a flexible band member that is bendable and retains its shape in the folded state, for example, an aluminum band. As shown in FIGS. 1 and 2, the light-guiding fiber member may be connected by supporting one side surface of the portion arranged in parallel at least on one end side with the band-like member, or connecting both side surfaces thereof. are supported and connected by the band-like member. Furthermore, as shown in FIG. 3, the light-guiding fiber member may be formed into a substantially upper surface by laminating a plurality of layers with the strip member 4 interposed therebetween. On the other hand, the light-guiding fiber member has a planar fixed end portion 3 that is fixed in a substantially planar manner by the strip member 4.
The light emitting portion 5 may be formed by damaging the outer layer on at least one side surface completely or partially (see FIG. 4 and FIG. 6C). In the embodiment shown in FIG. 1, the light-guiding fiber bundle 2 connected with single-sided or double-sided adhesive tape can be assembled as shown in FIG. 3 by appropriately folding and overlapping the adhesive tapes. The light guiding fiber bundle can have a laminated structure. Alternatively, a light-guiding fiber bundle as shown in FIG. 1 fixedly connected substantially in a plane,
It is possible to form a collective bundle applicable to the embodiment shown in FIG. 9 by winding up the band-like member.

On the other hand, the template member 6 is used to arrange and support the light-guiding fiber bundles 2 formed as described above in accordance with a desired pattern, such as letters, figures, symbols, or patterns. This mold member 6 is a synthetic resin sheet member (P,
S) is vacuum-formed according to the mold 7 of a desired pattern, and the recesses 8 of the desired pattern as described above are formed into a so-called blister shape.
The mold member 6 is molded from a transparent or translucent synthetic resin sheet, or from an opaque synthetic resin sheet. The mold plate member 6
As shown in FIG. 7, the recess 8 provided in the recess 8 is a recess groove 8a suitable for attaching the planar fixed end portion 3 of the light-guiding fiber bundle in a planar state.
to create the desired pattern. Said groove 8
More preferably, a has a groove width portion approximately equal to the thickness of the planar fixed end portion 3 of the light-guiding fiber bundle, so that the planar fixed end portion can be reliably supported. be done. Further, the recess 8 provided in the template member 6 is a cup-shaped recess 8b suitable for installing the light-guiding fiber bundle in a bundled state by wrapping the planar fixed end side of the light-guiding fiber bundle as shown in FIG. Then, a desired pattern is formed by a collection of the cup-shaped depressions 8b. Recessed portion 8 of the mold plate member
When the planar fixed end portion 3 of the light-guiding fiber member is attached and connected, the space between the recess 8 and the planar fixed end portion 3 is adhesively fixed with a highly transparent synthetic resin material 9. (See Figure 6). Furthermore, Figure 6C
As shown, the planar fixed end portion 3 of the light guiding fiber bundle
A light radiation damaged portion 5 is provided in the synthetic resin material 9 for adhesively tying the template member (6) and the light-guiding fiber bundle 2 together. It may be mixed with powder.
On the other hand, in the case where the mold member 6 is made of at least an opaque synthetic resin sheet, the planar fixed end of the light-guiding fiber member and the mold member that receives the planar fixed end are connected to each other. After that, at least the top portion 10 of the recess of the template member is cut out to form a planar fixed end surface exposed portion 11 of the light-guiding fiber bundle. In the case where the mold member 6 is made of a transparent or translucent synthetic resin sheet, the planar fixed end exposed portion 11 of the light-guiding fiber bundle is placed directly on at least the top 10 of the recess of the mold member. is formed, but
Similar to the structure made of the opaque synthetic resin sheet, at least the top of the recessed portion of the mold plate member 6 may be cut out. Fixed end exposed portion cutout end surface 11a of the light guiding fiber member formed by cutting out the top of the concave portion of the mold member 6
are formed so as to be perpendicular to the axial direction of the light-guiding fiber member. On the other hand, as in the example shown in FIG. 11, the fixed end exposed portion cutout end surface 11a of the light guiding fiber member is inclined with respect to the axial direction of the light guiding fiber member, and the light emitting end surface is formed as an inclined surface. It may be something that does. According to this example, for example, as shown in FIG. 10, a plurality of patterns (a diamond shape and a heart shape) are formed separately, and the light emitting end surfaces of these patterns are formed to be inclined in different directions. By doing so, for example, a diamond-shaped light emitting figure can be observed toward the left diagonal side, and a heart-shaped light emitting figure can be observed toward the right diagonal side. To develop the above embodiment further, the light-guiding fiber bundle light-receiving end 12 of the diamond-shaped light-emitting figure and the light-guiding fiber bundle light-receiving end 13 of the heart-shaped light-emitting figure are individually focused, and these light-receiving ends are processed separately. By arranging the ends 12 and 13 at diagonal positions of the rotary filter 14 and configuring the diagonal parts of the rotary filter 14 so that they have a complementary color relationship, for example, the diamond-shaped issuing figure and At the same time, with a heart-shaped luminous figure,
It is also possible to emit light with a different color in a complementary color relationship. In the figure, 15 is a motor and 16 is a light bulb. On the other hand, a lens member,
Alternatively, the emitted light at the light emitting end can be scattered by aligning and arranging a lenticular screen or the like. According to the example shown in FIG. 13, by forming at least one surface of the lens member 17 into a diamond cut shape, scattered light can be obtained more effectively. Furthermore, by cutting the light-emitting end side of a single light-guiding fiber member or a plurality of light-guiding fiber bundles into a conical shape 18 as shown in FIG. 12, the direction of light emission can be increased. I can do it.

The structure of the light emitting part in the lighting device of the present invention having the above configuration is such that a large number of light guiding fiber members are arranged in substantially planar shape at least on the light emitting end side thereof in parallel without gaps or in parallel with minute intervals. The light guiding fiber bundle is aligned and fixed to form a light guiding fiber bundle, and the planar fixed end side of the light guiding fiber bundle is attached to the groove of a mold plate member having grooves formed in a desired pattern. The shape plate member is fixed, and the top portion of the concave groove of the mold plate member constitutes a quadrangular light emitting portion. According to this invention, the light-guiding fiber members can be bundled and processed very easily, and in addition, a mold member for supporting and arranging the light-guiding fiber members can be appropriately formed into a desired pattern by vacuum forming means. be able to. In these respects, the present invention can be constructed as a decorative device with a wide variety of variations despite the extremely simple manufacturing process, and in that respect it can be said to be extremely effective.

[Brief explanation of the drawing]

FIGS. 1, 2, and 3 are perspective views showing different embodiments of the planar fixed end portion of the light-guiding fiber member, and FIG. 4 is the planar fixed end of the light-guiding fiber member. FIG. 5 is a perspective view showing an example of a mold plate member, and FIGS. 6 A, B, and C show light-guiding properties in the recesses of the mold plate member. FIG. 7A is a cross-sectional view of a fiber bundle with a planar fixed end attached and fixed, in which the fixed end exposed portion of the light-guiding fiber bundle is formed by a notched end surface along the top of the concave groove of the mold member. FIG. 7B is a sectional view thereof, FIG. 8 is a perspective view showing another example of the one shown in FIG. 7, and FIG. FIG. 10 is a perspective view of an example in which the light-emitting portions have two patterns, and the inclination directions of the notch end faces are different from each other. FIG. 11 is a perspective view taken along the line A-A' in FIG. 10. 12 and 13 are side views showing other structural examples of the light-emitting end portion of the light-guiding fiber member, and FIG. 14 is a side sectional view showing the molding process of the mold plate member. 1... Light guiding fiber member, 2... Light guiding fiber bundle,
3... Planar fixed end portion, 4... Band-shaped member, 5...
Damaged part, 6... Template member, 8... Recessed part, 11...
Planar fixed end face exposed part.

Claims (1)

[Scope of Claims] 1. A light-guiding fiber bundle formed by fixing one end side of light-guiding fiber members arranged in parallel in a substantially planar shape, and receiving a planar fixed end side of the light-guiding fiber bundle. and a mold plate member having a recess formed so that the fixed end side thereof is arranged along a desired pattern, and at least the top of the recess provided in the mold plate member is substantially aligned with the light guiding fiber bundle. A structure of a light emitting part in a lighting device, characterized in that it is formed as a fixed end face exposed part. 2. The light according to claim 1, characterized in that one side surface near one end of the light guide fiber members arranged in parallel is supported and connected by a band member, and fixed substantially in a planar shape. Structure of a light emitting part in a decorative device. 3. The light according to claim 1, wherein both side surfaces near one end of the light-guiding fiber members arranged in parallel are supported and connected by a band-like member, and fixed substantially in a planar shape. Structure of a light emitting part in a decorative device. 4. Claim 2 or 4, characterized in that one end side of the light-guiding fiber member is arranged and fixed in parallel to each other without a gap or in parallel with a minute interval through the band-shaped member. Structure of the light emitting part in the lighting device according to item 3. 5. The structure of a light emitting part in a lighting device according to claim 2 or 3, wherein the band-like member is a tape-like member having an adhesive layer on at least one surface. 6. The structure of the light emitting part in the lighting device according to claim 5, wherein the tape-like member is a transparent synthetic resin tape having an adhesive layer on at least one surface. 7. Light emission in the lighting device according to claim 2 or 3, wherein the band member is formed of a flexible band member that is bendable and has shape retention properties. Department structure. 8. The light emitting portion is formed by partially damaging at least one side surface of the light-guiding fiber member on the planar fixed end side. Structure of a light emitting part in a lighting device. 9. The light-guiding fiber member fixed in a substantially planar manner by the strip-shaped member is laminated into a plurality of layers with the strip-shaped member interposed therebetween, at least on the planar fixed end side thereof. Structure of a light emitting part in the lighting device according to item 1. 10. Claim 1, characterized in that the recess provided in the template member is a groove suitable for mounting the planar fixed end side of the light-guiding fiber bundle in a planar state. Structure of a light emitting part in the lighting device described. 11. Claim 1, wherein the recess provided in the template member is a dot-like recess suitable for mounting the planar fixed end side of the light-guiding fiber bundle in a bundled state. The structure of the light emitting part in the illumination device described in . 12. The structure of the light emitting part in the lighting device according to claim 1, wherein the template member is made of a synthetic resin sheet. 13. The structure of the light emitting part in the lighting device according to claim 1, wherein the template member is made of a transparent or translucent synthetic resin sheet. 14. The structure of the light emitting part in the lighting device according to claim 1, wherein the template member is made of an opaque synthetic resin sheet. 15 The mold member made of the opaque synthetic resin sheet holds the planar fixed end of the light guide fiber member in the top portion of the recess that receives the planar fixed end of the light guide fiber member provided in the mold member. 15. The structure of a light emitting part in a lighting device according to claim 14, characterized in that an exposed opening is provided. 16. A transparent synthetic resin material is used to adhesively fix the planar fixed end of the light-guiding fiber member and the recess of the template member that receives the planar fixed end. A structure of a light emitting part in a lighting device according to claim 1. 17 Light-scattering fine pieces or fine particles are applied to a transparent synthetic resin material that adheres and fixes between the planar fixed end of the light-guiding fiber member and the recess of the template member that receives the planar fixed end. 17. The structure of the light emitting part in the lighting device according to claim 16, further comprising: 18 The planar fixed end of the light-guiding fiber member and the recess of the template member that receives the planar fixed end are adhesively fixed, and at least the top of the recess of the template member is cut out to guide the light. A structure of a light emitting part in a lighting device according to claim 1, characterized in that a planar fixed end face exposed part of a bundle of optical fibers is formed. 19 Claims characterized in that the end face of the fixed end exposed portion of the light guiding fiber member formed by cutting out the top of the concave portion of the mold member is orthogonal to the axial direction of the light guiding fiber member. Structure of a light emitting part in the lighting device according to item 18. 20 The end surface of the fixed end exposed portion of the light guiding fiber member formed by cutting out the top of the concave portion of the mold member is formed by an inclined surface with respect to the axial direction of the light guiding fiber member. A structure of a light emitting part in a lighting device according to claim 18. 21. Structure of the light emitting part in the lighting device according to claim 18, wherein a lens member is arranged in alignment with the end face of the exposed part of the light guiding fiber formed by cutting out the top of the concave part of the template member. . 22. The light-emitting part in the lighting device according to claim 18, wherein a lenticular screen is arranged in alignment with the end face of the exposed part of the light-guiding fiber, which is formed by cutting out the top of the concave part of the mold member. structure. 23 A light-guiding fiber bundle in which one end side of the light-guiding fiber members arranged in parallel is fixed in a substantially planar shape, and a planar fixed end portion of the light-guiding fiber bundle is received and the fixed end side is fixed as desired. forming mold plate members each having grooves formed to be arranged along a pattern; and attaching a planar fixed end portion of the light-guiding fiber member to the grooves of the mold plate member. and forming a planar fixed end surface exposed portion of the light-guiding fiber member at least at the top of the groove along the groove. manufacturing method. 24. Claim No. 2, characterized in that a synthetic resin sheet member is vacuum-formed in accordance with the entire mold of a desired pattern to form a mold plate member provided with grooves of a desired pattern. A method for manufacturing a light emitting part in a lighting device according to item 23. 25. The method according to claim 23, further comprising attaching and fixing the planar fixed end portion of the light-guiding fiber member to the groove of the template member, and cutting out at least the top of the groove. A method for manufacturing a light emitting part in a lighting device.