JP2009013538A - Helmet with illuminant, satchel with illuminant, armband with illuminant, and strap with illuminant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a helmet with illuminant, which is high in production efficiency, free from limitation on both the shape and material of the helmet body to wear, and gives its good visual recognizability. <P>SOLUTION: The helmet with illuminant includes a helmet body, and a flexible illuminant formed into an elongated form so as to be provided along the outer circumference of the helmet body. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a helmet with a light emitter, a school bag with a light emitter, an armband with a light emitter, and a strap with a light emitter.

  2. Description of the Related Art Conventionally, a helmet with a light emitter, in which a light emitter is attached to a helmet for work or schoolchildren for the purpose of improving visibility and improving safety, has been researched and developed.

As such a helmet with a light emitter, for example, in Patent Document 1, a plurality of through holes are formed in a helmet, and a ring-shaped metal fitting whose surface is a glossy reflecting surface is caulked and fixed. A helmet with a light emitting device is disclosed, in which an LED element is internally fixed and a lead wire electrically connected to a lead terminal led out from the rear end of the LED element is electrically connected to a power switch that is fixed to the outer wall of the helmet. ing. And according to this, when it is in a dark place, it is described that a distant person can be surely informed that it is in the place.
Japanese Patent Laid-Open No. 10-008319

  However, in the helmet with a light emitting device disclosed in Patent Document 1, in order to improve visibility, an internal fitting must be provided for each of the plurality of LED elements, resulting in low manufacturing efficiency. Moreover, the problem that the attachment position and the number of attachments for the metal fitting for installing an LED element are restrict | limited by the shape and material of a helmet main body arises.

  The present invention has been made in view of such various points, and its object is that the manufacturing efficiency is good, the shape and material of the helmet body to be attached are not limited, and good visibility is imparted. It is providing the helmet with a light-emitting body which can do.

  In addition, an object of the present invention is to provide a school bag with a light emitter, an armband with a light emitter, and a strap with a light emitter, which have the same effect by including a light emitter similar to the above light emitter.

  A helmet with a light emitter according to the present invention includes a helmet body and a flexible light emitter that is provided along the outer periphery of the helmet body and is formed in an elongated shape.

  According to such a configuration, it is provided along the outer peripheral portion of the helmet body, and has a light emitting body formed in an elongated shape, so it becomes possible to attach a light emitting body with a wide light emitting region to the helmet body at one time, Manufacturing efficiency is improved. Moreover, since a light-emitting body is flexible, it can attach easily along the outer periphery, without being restrict | limited to the shape and material of a helmet main body.

  In the helmet with a light emitter according to the present invention, the helmet body is provided with two fitting portions and at least one support portion on the outer periphery thereof, and the light emitter has both end portions thereof. May be fitted into the fitting portions, and the center portion may be supported by the support portion.

  According to such a configuration, since both ends of the light emitter are fitted into the fitting portions of the helmet body, and the central portion is supported by the support portion, the light emitter is easily balanced with a simple structure. Can be fixed to the body.

  Further, in the helmet with a light emitter according to the present invention, the light emitter is composed of an elongated clad material and a core material that is accommodated in the clad material and has a higher refractive index than the inner surface of the clad material. A transmission member may be provided.

  According to such a configuration, the luminous body is composed of the elongated clad material and the core material that is accommodated in the clad material and has a higher refractive index than the inner surface of the clad material. Is suppressed, and excellent emission characteristics can be provided.

  In the helmet with a light emitter according to the present invention, the light emitter may further include a light source that transmits light to at least one end of the light transmission member.

  According to such a configuration, since the light emitter further includes a light source that transmits light to at least one end of the light transmission member, an external light source is attached by, for example, mounting the light source electrically connected to the light emitter in the helmet body. A compact self-luminous helmet with a light emitter that is not required can be obtained.

  A school bag with a light emitter according to the present invention includes a school bag main body and a flexible light emitter provided in the school bag main body and formed in an elongated shape.

  According to such a configuration, since the light emitting body provided along the school bag main body and formed in an elongated shape is provided, it becomes possible to attach a light emitting body having a wide light emitting region to the school bag main body at a time, and manufacturing efficiency is improved. It becomes good. Moreover, since a light-emitting body is flexible, it can be easily attached without being restricted by the shape and material of the school bag body.

  An armband with a light emitter according to the present invention includes an armband main body and a flexible light emitter provided in the armband main body and formed in an elongated shape.

  According to such a configuration, since the armband main body is provided with a light emitting body formed in an elongated shape, a light emitting body having a wide light emitting area can be attached to the armband main body at a time, and manufacturing efficiency is improved. . Further, since the light emitter is flexible, it can be easily attached without being limited by the shape and material of the armband main body.

  A strap with a light emitter according to the present invention includes a strap body and a flexible light emitter provided in the strap body and formed in an elongated shape.

  According to such a configuration, since the strap body is provided with a light emitter formed in an elongated shape, a light emitter having a wide light emitting region can be attached to the strap body at one time, and manufacturing efficiency is improved. . Further, since the light emitter is flexible, it can be easily attached without being limited by the shape or material of the strap body.

  ADVANTAGE OF THE INVENTION According to this invention, manufacturing efficiency is favorable and it is not restrict | limited to the shape and material of the helmet main body of attachment object, The helmet with a light-emitting body which can provide favorable visibility can be provided.

  In addition, by providing a light emitter similar to the above light emitter, it is possible to provide a school bag with a light emitter, an armband with a light emitter, and a strap with a light emitter.

(Embodiment)
Embodiment of the helmet 10 with a light-emitting body of this invention is described in detail using drawing. In addition, the helmet 10 with a light emitter of the present invention is not limited to the following example, and may be formed in other forms.

(Configuration of helmet 10 with light emitter)
FIG. 1 is a perspective view of a helmet 10 with a light emitter according to an embodiment of the present invention, and FIG. 2 is a top view of the helmet 10 with a light emitter according to an embodiment of the present invention.

  The helmet 10 with a light emitter includes a helmet body 11, a light emitter 12, and a light source and a controller (each not shown).

  The helmet body 11 is formed, for example, in a dome shape having an elliptical bottom surface having a major axis of about 23 cm and a minor axis of about 20 cm, and is provided with a collar 13 at the edge thereof. The helmet body 11 is made of a fiber reinforced resin material or the like. The helmet body 11 includes an impact absorbing layer such as a polystyrene foam inside, and a resin-made head interior member (not shown) detachably disposed inside the impact absorbing layer. . The shape of the helmet body 11 is not limited to that described above, and may be formed in a full face shape or other shapes.

  The helmet body 11 is provided with two fitting portions 14 and one support portion 15 on the outer peripheral edge thereof.

  The two fitting portions 14 are respectively provided at positions that are symmetric with respect to the center line of the helmet body 11. The fitting portions 14 are each made of resin or the like, and have an inner diameter that is substantially the same as the outer diameter of the light emitter 12 described later.

  The support part 15 is comprised with metal fittings. The support portion 15 is fixed at an intermediate position between the two fitting portions 14 in the outer peripheral edge portion of the helmet body 11. A hole for fixing through the light emitter 12 is formed in the support portion 15. The hole of the support portion 15 has an inner diameter that is substantially the same as the outer diameter of the light emitter 12.

  There may be a plurality of places where the support portion 15 is provided. The support part 15 may be comprised with resin. The support part 15 is formed with a suction cup, and may be attached to the helmet body 11 by this suction cup.

  The light emitter 12 includes a flexible optical transmission member configured by an elongated clad material and a core material that is accommodated in the clad material and has a higher refractive index than the inner surface of the clad material. The helmet body 11 is provided along the outer peripheral edge. The light emitter 12 is formed with a length of, for example, about 46 cm. Both ends of the light emitter 12 are fitted into fitting parts 14 provided in the helmet body 11, and the central part is supported by the support part 15.

  The clad material constituting the light transmission member of the light emitter 12 is formed in a circular shape with a cross section of about 6 mm in diameter, for example. The clad material may be composed of a fluorine-based polymer such as vinylidene fluoride-tetrafluoroethylene-hexafluoropropylene copolymer (THV), tetrafluoroethylene-hexafluoropropylene copolymer (FEP), or the like. it can. Further, the core material can be configured using a silicone polymer such as silicone rubber or silicone resin.

  In addition, you may provide the light-emitting body 12 not only in the edge (the above-mentioned outer periphery part) of the helmet body 11, but in an outer peripheral part other than that. Further, the shapes of the clad material and the core material constituting the light emitter 12 are not limited to those described above, and the cross section is formed in a polygonal shape, an elliptical shape, or the like according to the shape and size of the helmet body 11 to be attached. Also good. Furthermore, the light emitter 12 does not have to be constituted by a single piece, and may be constituted by a plurality of pieces.

  Moreover, the light-emitting body 12 may be comprised so that attachment or detachment is possible so that a user can remove | detach arbitrarily from the helmet main body 11. FIG. Specifically, a structure in which the user can easily fit both end portions of the light emitter 12 into the fitting portion 14 of the helmet body 11 and can easily fix the center portion with the support portion 15. It may be.

  Further, as described above, the light emitter 12 may not use a clad material, a core material, or the like. Specifically, a plastic material made of vinyl chloride, polypropylene, an inorganic material, or the like, or a luminescent material is kneaded or applied to a thermosetting material, or after coloring the material in advance, a cylindrical shape, It may be produced by processing into a cylindrical shape or a flat plate shape and cutting it appropriately. In this case, although depending on the purpose of use, for example, the diameter may be 0.1 mm or more when processed into a columnar shape, and the width may be 1 mm or more when processed into a prismatic shape. The light-emitting body having such a configuration may be attached to the helmet body after forming a light source or the like by forming the light-emitting body with a diameter of, for example, about 6 mm and performing a bending process.

  The light source is composed of a conventionally known light emitting element, such as an LED (light emitting diode) or an LD (laser diode). The light source is attached to the inner wall of the helmet body 11. There are no particular limitations on the light emission color and the number of installed light sources. For example, the light emission color is appropriately selected from red, blue, green, yellow, orange, white, etc. LEDs, or a plurality of LEDs are combined. By doing so, various color developments can be obtained and the amount of light can be increased. The light source is provided with optical wirings extending to both ends of the optical transmission member. Note that the optical wiring may be provided so as to reach only one end of the optical transmission member.

  The controller accommodates a power supply inside and is electrically connected to the LED. As the power source of the controller, a dry battery, a rechargeable (storage) battery, a solar battery, or the like can be used, and the controller may be configured to be AC usable. The controller includes a control element that controls the LED. The controller is attached to the inner wall of the helmet body 11.

(Function of helmet 10 with light emitter)
In the helmet 10 with a light emitter, a control signal flows to the light source by turning on a switch of a controller mounted on the inner wall of the helmet body 11. In accordance with a control signal from the controller, the light source generates preset constant light emission or flashing light emission. The light from the light source passes through the optical wiring and reaches both ends of the light transmission member. The light that reaches both ends of the optical transmission member passes through the entire optical transmission member. Thereby, the light emitter 12 provided on the outer peripheral edge of the helmet 10 with a light emitter emits light, and the visibility of the helmet 10 with the light emitter and the person wearing it from the outside is improved.

  In addition, at this time, the light emitter 12 may be constituted by one, and light of one color may be emitted from the LED to emit light in one color. The light emitter 12 may emit light in two colors by sending light of different colors from the light source to each end of the light source.

(Other embodiment 1)
Moreover, you may provide the light-emitting body based on this invention in a school bag as shown in FIG.3 and FIG.4.

(Configuration of the school bag 20 with a light emitter)
The light emitting body-equipped land cell 20 shown in FIG. 3 and FIG. 4 includes a school bag body 21, a cover cover 22, a light emitting body 23, a light source 24, and a controller (not shown).

  The school bag main body 21 can be used by arbitrarily selecting a conventional school bag main body.

  The covering cover 22 is provided so as to cover the covering portion 25 of the school bag body 21 (the lid portion covering the front side of the school bag). The covering cover 22 is made of a resin material such as nylon and has flexibility throughout. The covering cover 22 is formed in conformity with the shape of the covering portion 25 of the school bag. For example, if the covering portion 25 of the school bag is rectangular as shown in FIGS. 3 and 4, the covering cover 22 is similarly formed in a rectangular shape. A sachet 26 that houses the light emitter 23 is provided at the edge of the cover cover 22. The pouch 26 of the cover cover 22 is formed, for example, in a mesh shape so that light from the light emitter 23 can be visually recognized from the outside.

  The light emitter 23 is configured in the same manner as that used in the helmet 10 with a light emitter described above. That is, the light emitter 23 includes a flexible light transmission member that is configured by an elongated clad material and a core material that is accommodated in the clad material and has a higher refractive index than the inner surface of the clad material. ing.

  The clad material constituting the light transmission member of the light emitter 23 is formed in a circular shape having a cross section of about 6 mm in diameter, for example. The clad material may be composed of a fluorine-based polymer such as vinylidene fluoride-tetrafluoroethylene-hexafluoropropylene copolymer (THV) or tetrafluoroethylene-hexafluoropropylene copolymer (FEP). it can. Further, the core material can be configured using a silicone polymer such as silicone rubber or silicone resin. The shapes of the clad material and the core material constituting the light emitter 23 are not limited to those described above, and the cross section may be formed in a polygonal shape, an elliptical shape, or the like in accordance with the shape and size of the cover cover 22 to be attached. . Furthermore, the light emitters 23 may be configured so that a plurality of the light emitters 23 are continuous.

  Further, as described above, the light emitter 23 may not use a clad material, a core material, or the like. Specifically, a plastic material made of vinyl chloride, polypropylene, an inorganic material, or the like, or a luminescent material is kneaded or applied to a thermosetting material, or after coloring the material in advance, a cylindrical shape, It may be produced by processing into a cylindrical shape or a flat plate shape and cutting it appropriately. In this case, although depending on the purpose of use, for example, the diameter may be 0.1 mm or more when processed into a columnar shape, and the width may be 1 mm or more when processed into a prismatic shape. The light emitter having such a configuration may be formed in a diameter of about 6 mm, for example, and provided with a light source or the like, and then attached to the school bag body.

  The light source 24 is configured by a conventionally known light emitting element such as an LED (light emitting diode) or an LD (laser diode). The light source 24 is provided at the end of the light transmission member of the light emitter 23. The light emission color and the number of the light sources 24 are not particularly limited. For example, the light emission color may be appropriately selected from red, blue, green, yellow, orange, white, or the like, or a plurality of LEDs may be combined. In other words, various colors can be obtained and the amount of light can be increased.

  The controller houses a power supply inside and is electrically connected to the LED. As the power source of the controller, a dry battery, a rechargeable (storage) battery, a solar battery, or the like can be used, and the controller may be configured to be AC usable. The controller includes a control element that controls the LED. The controller is mounted on the surface of the cover cover 22, but may be housed inside the cover cover 22.

  Note that the light emitter 33 may be directly joined to the cover portion 32 of the main body 31 without using the cover, as in the case of the landcell 30 with the light emitter shown in FIG. Further, as shown in FIG. 5, the light emitter 33 may be provided along the shoulder belt portion 34.

(Function of the school bag 20 with a light emitter)
In the school bag 20 with the light emitter, a control signal flows to the light source 24 by turning on the switch of the controller mounted on the surface of the cover 22. In accordance with a control signal from the controller, the light source 24 emits constant light emission or flashing light emission set in advance. The light from the light source 24 passes through the entire light transmission member from the end of the light transmission member. Thereby, the light emitter 23 provided at the edge of the cover 22 emits light, and the visibility of the school bag 20 with the light emitter and the schoolchild who carries it from the outside is improved.

  At this time, the light emitters 23 provided on the edge of the cover cover 22 may be made to emit light in a single color by allowing light of one color to reach from the LEDs, and each end of the light transmission member of the light emitter 23 is respectively provided. By sending light of different colors from the light source 24, the light emitter 23 may emit light in two or more colors.

(Other embodiment 2)
Further, the light emitter according to the present invention may be provided in an armband as shown in FIG.

(Configuration of armband 40 with light emitter)
The armband 40 with a light emitter shown in FIG. 6 includes an armband body 41, a light emitter 42, a light source and a controller (each not shown).

  The armband main body 41 is made of a resin material such as nylon, for example. On the surface of the armband main body 41, two small bags 43 for accommodating the light emitters 42 are provided along the circumferential direction. The pouch 43 of the armband main body 41 is formed in, for example, a mesh shape so that light from the light emitter 42 can be visually recognized from the outside.

  The light emitter 42 is configured in the same manner as that used in the helmet 10 with a light emitter described above. That is, the light emitter 42 includes a flexible light transmission member that is configured by an elongated clad material and a core material that is accommodated in the clad material and has a higher refractive index than the inner surface of the clad material. ing.

  The clad material constituting the light transmission member of the light emitter 42 is formed in a circular shape having a cross section of about 6 mm in diameter, for example. The clad material may be composed of a fluorine-based polymer such as vinylidene fluoride-tetrafluoroethylene-hexafluoropropylene copolymer (THV) or tetrafluoroethylene-hexafluoropropylene copolymer (FEP). it can. Further, the core material can be configured using a silicone polymer such as silicone rubber or silicone resin. The shapes of the clad material and the core material constituting the light emitter 42 are not limited to those described above, and the cross section may be formed in a polygonal shape, an elliptical shape, or the like in accordance with the shape and size of the armband main body 41 to be attached. . Furthermore, the light emitters 42 may be configured such that a plurality of light emitters 42 are connected. Moreover, in the said embodiment, although the light-emitting body 42 is accommodated in the pouch 43 so that removal is possible, it is not restricted to this. For example, the light emitter 42 may be provided by being directly joined to the surface of the armband main body 41 without using the inside of the pouch 43 of the armband main body 41. Further, the light emitter 42 may be provided on the surface of the armband main body 41 at one place or three places or more.

  Further, as described above, the light emitter 42 may not use a clad material, a core material, or the like. Specifically, a plastic material made of vinyl chloride, polypropylene, an inorganic material, or the like, or a luminescent material is kneaded or applied to a thermosetting material, or after coloring the material in advance, a cylindrical shape, It may be produced by processing into a cylindrical shape or a flat plate shape and cutting it appropriately. In this case, although depending on the purpose of use, for example, the diameter may be 0.1 mm or more when processed into a columnar shape, and the width may be 1 mm or more when processed into a prismatic shape. The light-emitting body having such a configuration may be attached to the armband main body after forming a light source or the like with a diameter of about 6 mm, for example.

  The light source is composed of a conventionally known light emitting element, such as an LED (light emitting diode) or an LD (laser diode). The light source is provided at the end of the light transmission member of the light emitter 42. There are no particular limitations on the light emission color and the number of installed light sources. For example, the light emission color is appropriately selected from red, blue, green, yellow, orange, white, etc. LEDs, or a plurality of LEDs are combined. By doing so, various color developments can be obtained and the amount of light can be increased.

  The controller houses a power supply inside and is electrically connected to the LED. As the power source of the controller, a dry battery, a rechargeable (storage) battery, a solar battery, or the like can be used, and the controller may be configured to be AC usable. The controller includes a control element that controls the LED. The controller is mounted on the surface of the armband main body 41, but may be accommodated in the armband main body 41.

(Function of armband 40 with illuminant)
In the armband 40 with a light emitter, a control signal flows to the light source by turning on a switch of a controller mounted on the surface of the armband body 41. In accordance with a control signal from the controller, the light source generates preset constant light emission or flashing light emission. Light from the light source passes through the entire light transmission member from the end of the light transmission member. Thereby, the light emitter 42 provided in the small bag 43 of the armband main body 41 emits light, and the visibility of the armband 40 with the light emitter and the person wearing it from the outside is improved.

  At this time, the light emitters 42 provided in the sachets 43 of the armband main body 41 may be made to emit light in one color by allowing light of one color to reach from the LEDs, and each end of the light transmission member of the light emitter 42 is respectively provided. The light emitter 42 may emit light in two or more colors by sending light of different colors from the light source.

(Other embodiment 3)
Moreover, you may provide the light-emitting body which concerns on this invention in a strap, as shown in FIG.

(Configuration of strap 50 with light emitter)
The strap 50 with a light emitter shown in FIG. 7 includes a strap body 51, a light emitter 52, a light source, and a controller (each not shown). Here, in FIG. 7, an example in which the strap 50 with a light emitter according to the present embodiment is used as a shoulder of the bag 53 is illustrated, but the strap 50 with a light emitter is not limited to this. Alternatively, it can be used as a strap for hanging a camera or the like from a shoulder or a seat belt of a vehicle.

  The strap body 51 is made of a resin material such as nylon, for example. On the surface of the strap body 51, three light emitters 52 are provided so as to be continuous with the strap body 51.

  The light emitter 52 is configured in the same manner as that used in the helmet 10 with a light emitter described above. That is, the light emitter 52 includes a flexible optical transmission member that is configured by an elongated clad material and a core material that is accommodated in the clad material and has a higher refractive index than the inner surface of the clad material. ing.

  The clad material constituting the light transmission member of the light emitter 52 is formed in a circular shape having a cross section of about 6 mm in diameter, for example. The clad material may be composed of a fluorine-based polymer such as vinylidene fluoride-tetrafluoroethylene-hexafluoropropylene copolymer (THV) or tetrafluoroethylene-hexafluoropropylene copolymer (FEP). it can. Further, the core material can be configured using a silicone polymer such as silicone rubber or silicone resin. The shapes of the clad material and the core material constituting the light emitter 52 are not limited to those described above, and the cross section may be formed in a polygonal shape, an elliptical shape, or the like in accordance with the shape and size of the strap main body 51 to be attached. . Furthermore, the light emitters 52 may be configured so that a plurality of the light emitters 52 are continuous. Moreover, the light emitter 52 may not be directly joined to the surface of the strap body 51, and a sachet may be provided on the surface of the strap body 51 and provided detachably in the sachet.

  Further, as described above, the light emitter 52 may not use a clad material and a core material. Specifically, a plastic material made of vinyl chloride, polypropylene, an inorganic material, or the like, or a luminescent material is kneaded or applied to a thermosetting material, or after coloring the material in advance, a cylindrical shape, It may be produced by processing into a cylindrical shape or a flat plate shape and cutting it appropriately. In this case, although depending on the purpose of use, for example, the diameter may be 0.1 mm or more when processed into a columnar shape, and the width may be 1 mm or more when processed into a prismatic shape. The light emitter having such a configuration may be attached to the strap body after forming a light source or the like, for example, with a diameter of about 6 mm.

  The light source is composed of a conventionally known light emitting element, such as an LED (light emitting diode) or an LD (laser diode). The light source is provided at the end of the light transmission member of the light emitter 52. There are no particular limitations on the light emission color and the number of installed light sources. For example, the light emission color is appropriately selected from red, blue, green, yellow, orange, white, etc. LEDs, or a plurality of LEDs are combined. By doing so, various color developments can be obtained and the amount of light can be increased.

  The controller houses a power supply inside and is electrically connected to the LED. As the power source of the controller, a dry battery, a rechargeable (storage) battery, a solar battery, or the like can be used, and the controller may be configured to be AC usable. The controller includes a control element that controls the LED. The controller is mounted on the surface of the strap body 51, but may be accommodated in the strap body 51.

(Function of strap 50 with light emitter)
In the strap 50 with a light emitter, a control signal flows to the light source by turning on a switch of a controller mounted on the surface of the strap body 51. In accordance with a control signal from the controller, the light source generates preset constant light emission or flashing light emission. Light from the light source passes through the entire light transmission member from the end of the light transmission member. Thereby, the light emitter 52 provided on the surface of the strap body 51 emits light, and the visibility of the strap 50 with the light emitter from the outside, the bag 53 having the light emitter 53, and a person having the same is improved.

  At this time, the light emitters 52 provided on the surface of the strap main body 51 may be made to emit light of one color by allowing light of one color to reach from the LEDs, and light sources are respectively provided at the ends of the light transmission members of the light emitters 52. The light emitter 52 may emit light in two or more colors by sending light of different colors.

  As described above, the present invention is useful for a helmet with a light emitter, a school bag with a light emitter, an armband with a light emitter, and a strap with a light emitter.

The perspective view of the helmet 10 with a light-emitting body which concerns on embodiment of this invention is shown. The top view of the helmet 10 with a light emitter which concerns on embodiment of this invention is shown. The disassembled perspective view of the school cell 20 with a light emitter which concerns on other Embodiment 1 of this invention is shown. The perspective view of the school cell 20 with a light emitter which concerns on other Embodiment 1 of this invention is shown. The perspective view of the school cell 30 with a light emitter which concerns on other Embodiment 1 of this invention is shown. The perspective view of the armband 40 with a light emitter which concerns on other Embodiment 2 of this invention is shown. The perspective view of the strap 50 with a light emitter which concerns on other Embodiment 3 of this invention is shown.

Explanation of symbols

10 Helmet
11 Helmet body
12, 23, 33, 42, 52
14 Insertion part
15 Support part
20,30 school bag
21,31 School bag body
24 Light source
40 armband
41 Armband body
50 straps
51 Strap body

Claims (7)

The helmet body,
A flexible light-emitting body provided along the outer periphery of the helmet body and formed in an elongated shape;
A helmet with a luminous body, characterized by comprising: In the helmet with a light emitter described in claim 1,
The helmet body is provided with two fitting portions and at least one support portion on the outer periphery thereof, respectively.
The said light-emitting body is a helmet with a light-emitting body by which the both ends are each fitted by the said fitting part, and the center part is supported by the said support part. In the helmet with a light emitter described in claim 1,
The luminous body includes an optical transmission member composed of an elongated clad material and a core material housed in the clad material and having a higher refractive index than the inner surface of the clad material. Helmet with illuminant. In the helmet with a light emitter according to claim 3,
The helmet with a light emitter, wherein the light emitter further includes a light source that transmits light to at least one end of the light transmission member. The school bag body,
A flexible light-emitting body provided in the school bag body and formed in an elongated shape;
A school bag with a light emitter. The armband body,
A flexible light-emitting body provided in the armband main body and formed in an elongated shape;
Armband with illuminator, characterized by comprising. The strap body,
A flexible light-emitting body provided in the strap body and formed in an elongated shape;
A strap with a luminous body characterized by comprising:

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