JP2004103413A - Small portable electric lamp and light projecting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a small portable electric lamp which expands a light projection range by using LED light emitting body characteristics without damaging conventional light projection characteristics, and can be used as a safety lamp. <P>SOLUTION: The small portable electric lamp comprises: a body case 2 which is formed into a flat shape and houses a circuit board 16 and a sheet battery 17 by laminating them; an LED light emitting body 12 which is held with a radiation axis of a light emitting part 13 directed toward the outside from the body case, and lead wires of which is connected to the circuit board, where the lead wires are extended out from the back of the light emitting part; an operating part 14 which is forced to come/go into contact with/away from a contact point on the circuit board, and performs flashing operation of the light emitting body; where a light projecting part 15, which projects light radiated by the light emitting body in directions other than the radiation axis to the outside, is mounted on the body case. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a small portable light. More specifically, the present invention relates to a small portable electric lamp which can illuminate the irradiation axis direction of a light emitter with high illuminance, emits light from a predetermined portion on the surface of a main body case, enhances visibility, and can be used as a safety light or a reflector.
[0002]
[Prior art]
In recent years, very small and high brightness LED emitters have been developed. By using this high-brightness LED, the size of the light emitting portion of the flashlight can be made extremely small.
[0003]
[Patent Document 1]
JP-A-2001-357701
[0004]
As described in JP-A-2001-357701, the inventor of the present invention uses the high-brightness LED, is very small, can be carried like a key holder, and has a special We have developed a small portable light that can be easily attached to and used on the user's fingertips or other devices without using any equipment or parts.
[0005]
[Problems to be solved by the invention]
The small portable light described in the above publication can be easily attached to various members and used. For this reason, it is often used as a safety light when mounted on a handlebar or a seat post of a bicycle to emit light toward the front or rear of the vehicle body.
[0006]
The above-described high-brightness LED has a narrow irradiation range because light reaches a long distance but has high straightness of light. For this reason, when used as a safety light, there is a problem that visibility from an oblique direction is reduced.
[0007]
Also, when used as a flashlight, there is a problem that the illuminance is high but the irradiation range is narrow.
[0008]
SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems, and utilizes a characteristic of an LED light source to extend a light projection range without deteriorating a conventional light projection characteristic, and can be sufficiently used as a safety lamp. The task is to provide
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the present invention employs the following technical means.
[0010]
According to the invention described in claim 1 of the present application, the main body case is formed in a flat shape and houses the circuit board and the plate-shaped battery in a stacked state, and the irradiation axis of the light emitting portion is held outward from the main body case. The LED light emitter connected to the circuit board has a lead wire extending from the rear portion of the light emitting unit, and a switch unit that contacts and separates a contact of the circuit board to perform a blinking operation of the light emitter. The present invention relates to a small portable light provided with a light projecting unit for projecting light emitted from the light emitter in a direction other than the irradiation axis to the outside in the main body case.
[0011]
In many cases, LED light emitters have a light emitting portion formed integrally with a cylindrical lens in order to provide light with straightness. By projecting light from the tip of the cylindrical lens, the light can be transmitted to a distant place.
[0012]
On the other hand, not all light emitted from the light emitting element can be projected from the tip of the cylindrical lens, and light is also emitted from the cylindrical side. Moreover, the light emitted from the side has a certain degree of brightness. The present invention is configured so that light can be projected from the outer surface of the main body case using the light radiated from the side portion.
[0013]
By forming the main body case in a flat shape and stacking and housing the circuit board and the plate-shaped battery, the main body case can be reduced in size and portability is improved. The shape is not particularly limited as long as it is flat. For example, various forms such as an elliptical shape, a square shape, and a triangular shape in plan view can be adopted. The material of the main body case is not particularly limited, but at least the light projecting portion is formed of a transparent resin.
[0014]
The luminous body is held with the irradiation axis directed outward from the main body case. The direction of the irradiation axis is not particularly limited. The irradiation axis can be held laterally from the edge of the main body case, or can be held in a direction perpendicular to the offset plane of the main body case. As a result, the brightness of the straight light emitted from the light emitter does not decrease, and the light can be projected far away as in the related art.
[0015]
The configuration of the switch section is not particularly limited, but is preferably formed directly on the substrate surface in order to reduce the size of the portable light. Further, it is preferable to provide a lighting circuit capable of selecting various lighting patterns. For example, by configuring to blink at regular intervals, visibility is improved, and battery consumption can be suppressed.
[0016]
In the present invention, the main body case is provided with a light projecting unit for projecting light emitted from the light emitter in a direction other than the irradiation axis to the outside.
[0017]
The shape, size, position, and the like of the light emitting portion are not particularly limited, but are preferably formed so as to emit light from a large area on the outer surface of the main body case in order to enhance visibility. Further, it is preferable that the light projecting portion is provided on a deflected flat surface of the main body case so that light can be projected from a large surface area. Further, in order to enhance the light efficiency, it is preferable to set a light projecting unit near the light emitting body. The location where the light projecting unit is provided is not limited to one location, and the light projecting unit may be configured so that light can be projected from a plurality of locations on a deflected plane. In addition, the portable light can be provided with an unprecedented design using the radiated light of the light emitter, and can be used for purposes other than illumination.
[0018]
The light projecting portion is formed as a reflective light projecting portion capable of projecting light emitted by the light emitting body to the outside and reflecting light incident from the outside of the main body case, as in the second aspect of the invention. Is preferred.
[0019]
The light projecting unit according to the first aspect of the present invention effectively utilizes light leaking from the side of the light emitter, and the light is weaker than the straight light of the light emitter.
[0020]
By adding a reflection function to the light projecting unit to form a reflective light projecting unit, light incident from the outside is reflected, and a synergistic effect with light projected from the light projecting unit can be expected. . For this reason, the visibility at night or the like is significantly improved.
[0021]
The configuration of the reflective light projecting unit is not particularly limited. For example, a part that exerts a light emitting function and a part that exerts a reflecting function are configured in different forms, and a part that exerts these functions is alternately arranged in a certain range of a deflected plane to form a reflective light emitting part. You can also. Further, a reflective light projecting unit that can exhibit the reflecting function and the light projecting function in the same form portion may be formed.
[0022]
In the invention described in claim 3 of the present application, the tip of the luminous body is held so as to be exposed from the deflected plane provided with the light projecting unit or the reflective light projecting unit.
[0023]
With the above configuration, it is possible to prevent the intensity of light traveling from the light emitter toward the irradiation axis direction from decreasing. Further, the light emitted from the light emitter and the light emitted from the light emitting section can be set so as to be directed in substantially the same direction. As a result, even when it is not possible to visually recognize only the light from the light emitter at a distance, the light projection range is widened as the distance from the light emitter increases, so that the visibility is improved. Further, since the light can be projected from a wide range of the deflected plane near the light emitter, an effect of substantially expanding the light projection range of the light emitter can be expected.
[0024]
The positional relationship between the light emitting body holding position and the light emitting unit is not particularly limited. The luminous body may be held at the edge of the light emitting unit, or the luminous body may be held at the center of the light emitting unit.
[0025]
In the invention described in claim 4 of the present application, the reflective light projecting unit is formed of a transparent material, and can reflect light incident from the outside on an inner surface or an outer surface of the reflective light projecting unit, and the light emitting unit is configured to receive the light from the light emitting body. The projections and depressions are formed so that light emitted into the main body case can be projected to the outside.
[0026]
The type of the transparent material is not particularly limited, and various resins and glass materials can be adopted. Further, it is sufficient that light can be transmitted therethrough, and it may be translucent or colored.
[0027]
Further, the form of the irregularities is not particularly limited. For example, a reflective light projecting portion can be formed by performing a prism cut on the inner surface or the outer surface of the main body case. The prism cut has a function of reflecting incident light in that direction, that is, a retroreflection function, and thus is suitable for a reflector.
[0028]
Also, the form of the prism cut is not particularly limited, but as described above, it is configured such that light emitted from the light emitter can be projected to the outside and light incident from the outside can be retroreflected. Is preferred. For example, a plurality of concentric prism cuts can be formed around the light emitting body. In addition, the uneven plane around the illuminant can be formed in a concave shape so that light incident from the outside can be reflected and light radiated from the illuminant toward the side can be reflected.
[0029]
The present invention combines the above two functions, can reflect light incident from outside as a reflector, and integrates light radiated from the side of the illuminant and directs the light from the surface of the light emitting part to the outside. It is configured so that light can be projected.
[0030]
In the invention described in claim 5 of the present application, a light guide that guides light emitted from a side portion of the light emitter to the light projection part or the reflection light projection part is provided in a portion of the main body case that surrounds the light emitter. It is provided. By efficiently guiding the light from the peripheral portion of the light emitter to the light emitting portion, the intensity of light emitted from the light emitting portion can be increased.
[0031]
The form of the light guide is not particularly limited. It may be formed of a transparent resin continuous with the reflective light projecting portion, or may be combined with a reflective plate or the like to form a light guide space in which light is emitted toward the reflective light projecting portion.
[0032]
Further, as in the invention described in claim 6, a reflection layer for reflecting light emitted into the main body case is formed on the inner side surface or the outer side surface of the main body case except for the light projecting portion or the reflective light projecting portion. As a result, the intensity of the light emitted from the light emitting unit can be increased by using the light emitted into the main body case without waste.
[0033]
The method for forming the reflective layer is not particularly limited. For example, a paint that reflects light can be applied. Further, a metal foil or the like that reflects light may be attached. The reflective layer can be provided not only on the inner surface of the main body case but also on the outer surface.
[0034]
The invention described in claim 7 of the present application sets the irradiation axis of the luminous body in the laminating direction of the circuit board and the plate-shaped battery, and sets the luminous body in a lamination portion of the circuit board and the plate-shaped battery. It is held on the side.
[0035]
Usually, since the length of the light emitting body in the axial direction is large, if light is to be projected in a direction perpendicular to the deflected plane of the main body case, the thickness of the main body case becomes large and portability is reduced. The invention of the present application holds the main body case by setting the light emitting axis of the light emitting body in a direction orthogonal to the deflected plane by holding the light emitting body on the side of the laminated portion of the circuit board and the plate-shaped battery. It becomes possible to make it thin.
[0036]
Further, as in the invention described in claim 8, it is preferable that a hole is provided in the center of the circuit board, and that the base end of the light emitting body is held in the hole.
[0037]
According to the above configuration, it is sufficient to secure an internal space of a thickness equal to the thickness of the stack of the circuit board and the battery inside the main body case, and the thickness of the main body case can be significantly reduced.
[0038]
According to a ninth aspect of the present invention, there is provided an elastic band having one end connected to an edge of the main body case, and a hook formed on an upper edge or a side edge of the main body case so that the elastic band can be hooked. Means, and a contact portion formed on the deflected surface opposite to the light projecting portion or the reflection light projecting portion in the main body case and brought into contact with an object to be mounted, and providing the contact portion with the object to be mounted In a state where the main body is attached to the object to be mounted, the elastic band is wound around the object to be mounted and the hooking means.
[0039]
The portable light according to the present invention is formed in a flat shape and has a very small overall size, and it is difficult to provide a member or the like for mounting to another device or the like. For this reason, in the present invention, the main body case itself is used so that the main body case can be mounted on the mounting target.
[0040]
According to the invention of the present application, the portable electric lamp is formed into a rod-like shape by hooking the elastic band having one end connected to the edge of the main body case around the object to be mounted, and hooking it on the hooking means formed on the upper portion or the side portion of the main body case. Can be attached to any member.
[0041]
The form of the elastic band is not particularly limited, and may be not only a flat cross section but also a circular elastic cord or the like. It is desirable to use an elastic band provided with a loop. Since the loop can be hooked on the hooking means of the main body case, it is not necessary to separately provide a hooking member or the like at the end of the elastic band. Further, the structure can be simplified and the manufacturing cost can be reduced.
[0042]
The form of the hooking means is not limited, and a hooking means such as a groove or a projection capable of hooking the elastic band can be employed. When a string-shaped elastic band is adopted, the dimensions of the groove and the projection can be set small, and the appearance is not adversely affected.
[0043]
The contact portion may be formed according to the surface configuration of the mounting object. By forming the inner surface of the cylinder or the inner surface of the sphere, the versatility is enhanced, and it can be attached to various attachment objects. It can also be provided with a non-slip. In addition, a concave portion corresponding to the mounting means provided on the mounting object may be provided.
[0044]
The invention described in claim 10 of the present application is one in which a concave groove formed in the edge of the main body case is formed as the engaging means.
[0045]
In the invention described in claim 11 of the present application, as the hooking means, a ridge or projection projecting from the surface of the main body case is formed.
[0046]
In the invention described in claim 12 of the present application, a concave portion is formed as the contact portion.
[0047]
The invention described in claim 13 of the present application is an invention relating to a method for projecting light in a portable light, and projects light from a light-emitting body held in a main body case in an irradiation axis direction of the light-emitting body, The light emitted in a direction other than the irradiation axis direction is projected from a predetermined portion of the main body case to the outside.
[0048]
Since light emitted in a direction other than the irradiation axis of the illuminant is used, an unprecedented light emitting effect can be expected without deteriorating the performance of the illuminant. Further, it is preferable that the light emitting device emits light emitted in a direction other than the light emitting axis and simultaneously reflects light incident from the outside.
[0049]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a small portable light according to the present invention will be specifically described with reference to the drawings.
[0050]
1 to 11 show a first embodiment of a small portable light according to the present invention.
[0051]
FIG. 1 is a front view of the portable light 1, and FIG. 2 is a rear view. As shown in these figures, the portable light 1 includes a case main body 2 having a substantially triangular shape in a front view, and a hook 3 for locking is connected to the top of one of the triangles, and the other An elastic band 4 for attachment is connected to the top.
[0052]
3 to 6 show a plan view, a bottom view, a left side view, and a right side view of the case main body 2, respectively. Note that these figures show the case main body 2 with the locking hook 3 and the elastic body 4 removed.
[0053]
The main body case 2 is formed by combining an upper case portion 5 and a lower case portion 6 formed in a half-split shape. By combining these upper and lower case portions, the locking hook 3 and the elasticity are formed. It is configured to form mounting holes 8 and 9 for connecting the band 4. As shown in FIG. 3, a hook 10 that can hook the loop-shaped end of the elastic band 4 is formed on the remaining top.
[0054]
As shown in FIG. 1, the LED luminous body 12 is held on the uneven plane 11 near the apex of the upper case portion 5 on the side where the locking hook 3 is connected so that the tip of the light emitting portion 13 is exposed. ing. On the other hand, a switch 14 for turning on the light emitter 12 is provided at the center of the deflected plane 11. In addition, a reflective light projecting unit 15 described later is provided in a wide area at the center of the deflected plane 11.
[0055]
A circuit board 16, two circular plate batteries 17, 17, the LED emitter 12, and the switch 14 shown in FIGS. 7 and 8 are housed inside the main body case 2.
[0056]
As shown in FIG. 8, the circuit board 16 is formed in a rectangular shape in a plan view having substantially the same size as the battery 17 using a known substrate material, and a switching circuit 18 is formed on one side. I have. The switching circuit 18 includes a contact portion 19 having contacts 19 a and 19 b opened and closed by the switch 14, and a control circuit 20 for turning on and off the light emitting body 12 by opening and closing the contact portion 19. Have been. Note that portions other than the contact portions 19 in the switching circuit 18 are covered with an insulating material.
[0057]
A copper wire 22 connected to a contact 21 on one side of the circuit board 16 via a through hole is attached to the other side of the circuit board 16. The copper wire 22 is provided as a battery contact, and is in direct contact with one electrode 23 a of the stacked battery 17.
[0058]
A contact arm 24 for connecting the stacked batteries 17, 17 to the other electrode 23b is connected to the front edge of the circuit board 16. The contact arm 24 includes an extension 25 that extends downward from the side of the batteries 17, and a battery contact 26 that is bent at a tip of the extension 25 and elastically contacts the other electrode 23 b. Prepare. The two plate batteries 17 are held in a stacked state between the circuit board 16 and the battery contacts 26. In the present embodiment, a high voltage is generated by connecting two disk-shaped batteries in series, so that a high luminance of the light emitting body can be obtained.
[0059]
The luminous body 12 employs a high-luminance white LED. As shown in FIG. 9, the center axis, that is, the light projecting axis 12a is arranged near the top of the main body case 2 with the circuit board 16 and the batteries 17, 17 facing in the laminating direction. The luminous body 12 is held by exposing a tip portion to the outside through the holding hole 27 formed in the upper case 5 and irradiates light in a direction orthogonal to the deflected plane 11 of the main body case 2. It is configured to be able to.
[0060]
A lead wire 28 extending from the rear end of the luminous body 12 is bent at three places, passes through the plate-shaped battery 17 and the side of the circuit board 16, and is soldered to a contact at an edge of the circuit board. Are joined. With the above configuration, the height dimension of the main body case 2 can be set to be substantially the same as the axial length of the light emitting body 12, and the portable light can be reduced in size and thickness.
[0061]
As shown in FIGS. 7 and 9, the switch 14 is configured by holding a conductive rubber 31 at a contact portion 19 of the circuit board 16 with a gap by using an elastic operation body 30.
[0062]
The operation body 30 includes a cylindrical upper portion 32 and a conical outer surface skirt portion 33, and is formed in a hollow shape that opens downward. The upper part 32 is projected outward from a through hole 34 formed in the upper case 5. The through hole 34 is formed in an inner surface shape corresponding to the outer surface shape of the skirt portion 33, and a holding portion 35 having a cylindrical inner surface is formed to extend at a lower edge portion. On the other hand, the edge of the skirt 33 is formed in a cylindrical outer surface, and the edge is fitted into the holding portion 35 so that the operating body 30 can be held in the through hole 34. . With the above configuration, the assembling operation can be easily performed, and even when the upper case 5 and the lower case 6 are separated from each other, the operation body 30 does not come off from the upper case 5 and battery replacement or the like can be easily performed. Can be done.
[0063]
A concave portion 36 is formed in the outer peripheral portion of the through hole 34 so as to be concave in the shape of a conical inner surface. The upper portion 32 projects from the center of the concave portion 36. By pressing the upper part 32 downward, the skirt part 33 is deformed, the conductive rubber 31 is brought into contact with the contact part 19, and the contacts 19a and 19b are closed. Thereby, a signal is output and the light emitting body 12 is turned on. When the pressing force is released, the conductive rubber 31 is lifted from the contact 19 by the elasticity of the skirt 33. In the present embodiment, by providing the control circuit 20, the contact portion 19 is repeatedly opened and closed, so that the continuous lighting, the intermittent lighting (flashing), and the light-off can be sequentially selected.
[0064]
In the concave portion 36 according to the present embodiment, the diameter of the boundary of the deflected plane 11 of the upper case 5 is set to about 7 mm, and the depth from the outer surface of the upper case 5 is set to about 0.7 mm. The upper portion 32 is set at a height that does not protrude outward from the concave portion 36, and presses the upper portion 32 so as to push the belly of the user's finger into the concave portion 36. According to the above configuration, the illuminant does not light up accidentally even when it is carried around in a pocket or the like. Further, it is possible to set the size of the switch portion 14 in the thickness direction to be extremely small, and it is possible to reduce the thickness of the main body case 2.
[0065]
As shown in FIG. 9, in the present embodiment, the reflective light projecting unit 15 has a flat surface on the front side and a prism cut unit 40 on the inner surface. As shown in FIG. 10, the prism cut section 40 is configured by arranging, without gaps, triangular pyramid-shaped protrusions 15 b formed of rectangular slopes that intersect at right angles. The reflection light projecting section 15 is formed so as to be adjacent to the holding hole 27 holding the light emitting body 12. A light guide space 37 is set between the prism cut section 40 and the circuit board 16.
[0066]
When the illuminant 12 is turned on, the light emitted from the tip of the illuminant is emitted along the projection axis, while the light emitted from the side of the illuminant 12 is The light emitted from the surface of the prism case into the upper case or the light emitted from the periphery of the holding hole into the light guide space 37 enters the reflective light projecting section 15 from the surface of the prism cut section 40. Then, light is projected outward from the surface of the reflection light projecting unit 15. With the above configuration, the light emitted to the side of the light emitting body 12 can be effectively used and emitted to the outside of the main body case 2.
[0067]
Moreover, by providing the prism cut section 40, it is possible to retroreflect light incident on the reflection light projecting section 15 from outside. Thereby, the light that the light emitter 12 directly emits along the light projection axis, the light that is emitted from the reflection light projector 12, and the light that enters from the outside are polarized by the main body case. Light can be projected from the plane 11 in the same direction. For this reason, the visibility with respect to the deflected plane 11 is significantly improved.
[0068]
Further, in the present embodiment, since light is emitted from the reflection light projecting unit 15 using light emitted to the side of the light emitter 12, the light emitted in the optical axis direction 12a of the light emitter 12 is used. Does not decrease in strength. Therefore, as in the related art, a small portable light with high luminance can be provided, and a high visibility effect can be expected when used as a safety light.
[0069]
FIG. 11 shows a state in which the portable light 1 according to the present invention is mounted on a seat post 41 of a bicycle or the like.
[0070]
The elastic band 4, one end of which is connected to a mounting hole 9 provided at one top of the main body case 2 according to the present invention, is wrapped around the seat post 41, and the loop at the tip is hooked on the hook 10. In the lower case portion 6 of the main body case 2, a concave portion 38 having a cylindrical inner surface is formed. The elastic band 4 is looped around such that the recess 38 is attached to the outer surface of the seat post 41. As a result, the portable light 1 can be very easily mounted on a seat post or the like, and can be used as an illumination light or a safety light for illuminating the rear.
[0071]
In addition, since the reflection light projecting unit 15 is provided, it can be used as a normally provided reflection plate. In addition, since the light incident from the outside can be reflected and the reflection light projecting portion can emit light, the visibility is remarkably improved.
[0072]
12 to 14 show a second embodiment of the present invention.
[0073]
The portable light 201 according to the second embodiment has a light emitter 212 provided at the center of the reflection light projecting unit 215.
[0074]
Since the substrate is accommodated in the central part of the main body case, when the light emitting body 212 is provided on the substrate surface, the thickness of the main body case 202 becomes very large. On the other hand, since the reflective light projecting portion 215 is formed over a wide range of the central portion of the deflected flat surface 211 of the main body case 202, it is difficult to provide the light emitter 212 at the center of the reflective light projecting portion.
[0075]
In this embodiment, a disc-shaped battery 217 having a small diameter is stacked on a substrate 216, and a hole 235 for accommodating the light-emitting body 212 is formed in a portion of the substrate corresponding to the central gap of the battery 217. I do. The light guide 242 for holding the luminous body in the holding hole 227 extends into the hole 235.
[0076]
With the above configuration, the light emitting body 212 can be held without increasing the thickness of the main body case 202.
[0077]
As shown in FIG. 13, the light guide 242 is formed around the light emitting body 212 and has a function of collecting light emitted from the side of the light emitting body 212. In the present embodiment, since the light emitting body 212 is provided at the central portion of the reflective light projecting unit 215, the light emitted from the side of the light emitting body 212 is reflected by the light projecting unit 242. It is possible to efficiently guide to the section 215.
[0078]
As shown in FIG. 14, a reflective layer 243 is formed on the inner surface of the reflective light projecting section 215 by applying a paint capable of reflecting light. For this reason, light incident from the outside can be efficiently reflected, and light emitted from the side of the light emitting body 212 can be efficiently projected from the reflection light projecting unit 215 without leaking into the main body case. It becomes possible.
[0079]
FIG. 15 shows a third embodiment of the present invention. In the embodiment shown in FIG. 15, a reflective layer 314 is provided by forming a coating film capable of reflecting light on an inner surface portion of the main body case 302 excluding the reflective light projecting portion 315. By providing the reflective layer 343, light emitted from the light emitter 312 into the main body case 302 can be efficiently emitted from the reflective light projecting unit 315.
[0080]
FIG. 16 shows a fourth embodiment of the present invention. In the embodiment shown in FIG. 16, the thickness of the main body case 402 provided with the reflection light projecting portion 415 is set to be gradually thicker as the distance from the light emitter 412 increases, and light emitted from the light emitter 412 to the side is reduced. The light is efficiently introduced into the main body case from the unevenness 415b provided on the inner surface of the reflection light projecting section 415, and light is projected from the light projecting surface 415a.
[0081]
On the inner surface of the reflection light projecting unit 415, corner cube-shaped irregularities 415b are formed coaxially with the light emitting axis of the light emitting body 412 as a center. The irregularities are arranged so as to be displaced downward as the distance from the light emitting body 412 increases. For this reason, the light emitted from the side surface of the light emitting body 412 is also incident on the distantly located convex portion, and can be guided to the light emitting surface 415a.
[0082]
The scope of the present invention is not limited to the above embodiments. In the embodiment, the present invention is applied to a portable light having a substantially triangular case body, but the present invention can be applied to a portable light having a case body of another embodiment.
[0083]
Further, in the embodiment, the unevenness is provided on the inner surface of the reflection light projecting portion so that the light incident from the outside can be reflected and the light emitted from the light emitter can be emitted to the outside. The form and the like are not limited to the above configuration.
[0084]
In addition, it is possible to form the above-mentioned reflective light projecting unit by forming a cavity having irregularities in the wall of the main body case constituting the reflective light projecting unit.
[0085]
Further, in the embodiment of the present invention, the reflective light projecting portion is formed by forming irregularities on the inner surface of the main body case. However, the reflective light projecting portion may be formed by forming irregularities on the outer surface of the main body.
[Brief description of the drawings]
FIG. 1 is a front view of a portable light according to a first embodiment of the present invention.
FIG. 2 is a rear view of the portable light shown in FIG.
FIG. 3 is a plan view of the portable light shown in FIG. 1;
FIG. 4 is a bottom view of the portable light shown in FIG. 1;
FIG. 5 is a left side view of the portable light shown in FIG.
FIG. 6 is a right side view of the portable light shown in FIG. 1;
FIG. 7 is a side view showing a light emitter, a circuit board, a battery, and a switch.
FIG. 8 is a front view of the light emitting body and the circuit board shown in FIG. 7;
FIG. 9 is a sectional view taken along line IX-IX in FIG.
FIG. 10 is a perspective view schematically showing a concave-convex shape provided on the inner surface of the reflection light projecting unit.
11 is a plan view showing a state where the portable light shown in FIG. 1 is mounted on a seat post of a bicycle.
FIG. 12 is a front view of a portable light according to a second embodiment.
13 is a cross-sectional view of the portable light shown in FIG. 12, taken along the line XIII-XIII.
FIG. 14 is an enlarged sectional view of a main part of the portable light shown in FIG.
FIG. 15 is a cross-sectional view of a main body case showing a third embodiment.
FIG. 16 is a sectional view of a main part of a main body case showing a fourth embodiment.
[Explanation of symbols]
1 Portable light
2 Body case
11 Uneven plane
12 LED luminous body
13 Light emitting unit
14 Switch section
15 Light emitting part (reflective light emitting part)
16 Circuit board
17 Plate battery
28 Lead wire

Claims (13)

A main body case formed in a flat shape and stacking and housing the circuit board and the plate-shaped battery,
An LED illuminator in which an irradiation axis of the light emitting unit is held outward from the main body case and a lead wire extending from a rear portion of the light emitting unit is connected to the circuit board,
A switch unit for performing a flashing operation of the illuminant being contacted and separated from the contact point of the circuit board,
A small portable electric lamp, wherein the main body case is provided with a light projecting portion for projecting light emitted from the light emitter in a direction other than the irradiation axis to the outside. 2. The small portable light according to claim 1, wherein the light projecting unit is a reflecting light projecting unit that emits light emitted from the light emitting body to the outside and can reflect light incident from outside the main body case. 3. 3. The small portable electric lamp according to claim 1, wherein the illuminant is held such that a tip end thereof is exposed from a deflected plane provided with the light projection unit or the reflection light projection unit. 4. The reflective light projecting portion is formed of a transparent material, and can reflect light incident from outside on the inner surface or the outer surface of the reflective light projecting portion, and emits light emitted from the light emitter into the main body case to the outside. The small portable light according to any one of claims 2 to 3, wherein irregularities capable of projecting light are formed. The light guide section for guiding light emitted from a side portion of the light emitter to the light projecting section or the reflection light projecting section is provided in a portion surrounding the light emitter of the main body case. A small portable light according to any of the above. The reflective layer according to any one of claims 1 to 5, wherein a reflective layer for reflecting light emitted into the main body case is formed on an inner side surface or an outer side surface of the main body case except for the light projecting portion or the reflective light projecting portion. Small portable light as described. The illumination axis of the illuminant is set in the laminating direction of the circuit board and the plate-shaped battery, and the illuminant is held on a side portion of a laminated portion of the circuit board and the plate-shaped battery. Item 7. A small portable light according to any one of Items 6. The small portable light according to claim 7, wherein a hole is provided in a center portion of the circuit board, and the base end of the light emitting body is held in the hole. An elastic band having one end connected to the edge of the main body case,
Hooking means formed on the upper edge or the side edge of the main body case, which can hook the elastic band;
A contact portion formed on the deflected plane opposite to the light projecting portion or the reflective light projecting portion in the main body case and brought into contact with an object to be mounted is provided.
In a state where the contact portion is in contact with the object to be attached, the elastic band is wound around the object to be attached and the hooking means, and the main body is attached to the object to be attached. The small portable electric lamp according to any one of claims 1 to 8. The small portable electric lamp according to claim 9, wherein the hooking means is a concave groove formed in an edge of the main body case. The small portable light according to claim 9, wherein the hooking means is a ridge or a protrusion protruding from the surface of the main body case. The small portable light according to any one of claims 9 to 11, wherein the contact portion is a concave portion. Light is emitted from the illuminant held in the main body case in the direction of the irradiation axis of the illuminant, and light radiated in a direction other than the irradiation axis direction of the illuminant is emitted from a predetermined portion of the main body case to the outside. A method of projecting light in a portable light.

Images