JP2018137061A - Indication lamp for disaster prevention - Google Patents

Abstract

PROBLEM TO BE SOLVED: To achieve an indication lamp for disaster prevention whose protrusion amount to the front is small, and which can emit light with good visibility.SOLUTION: An indication lamp 100 for disaster prevention reflects light emitted by a light emitting part 31 in a recess 13 on an inside surface of a light guide plate part 11 of a globe 10 by a plurality of concentric ring grooves 14 and reflects it on a reflection surface 40a of a reflection sheet 40, the indication lamp 100 emits the light from an outside surface of the light guide plate part 11 which serves as a light emitting surface of the indication lamp 100 for disaster prevention while guiding light by the light guide plate part 11, and indication lamp 100 can emit light with good visibility. In particular, when the indication lamp for disaster prevention is installed in such a manner that a flat outside surface of the light guide plate part 11 is in parallel with a wall surface W, a protrusion amount to the front is small, and dust hardly accumulates on the outside surface of the light guide plate part 11. Thus, brightness of the light emitting surface of the indication lamp is hardly reduced due to dust attached to the globe like an indication lamp of a conventional technology, and the indication lamp 100 can emit light favorably.SELECTED DRAWING: Figure 1

Description

  TECHNICAL FIELD The present invention relates to a disaster prevention indicator and a disaster prevention indicator lamp attached to the vicinity of the disaster prevention facility in order to indicate the location of the disaster prevention facility.

Conventionally, disaster prevention equipment such as a fire hydrant device has been provided with an indicator lamp for indicating the location of the fire hydrant in the event of a fire and the position of the transmitter.
For example, an indicator lamp including a prism for emitting more light in the left-right direction is known so that the location can be identified from a position away from the disaster prevention facility in the lateral direction (for example, Patent Document 1). reference.).

JP 2001-351403 A

However, in the case of the indicator lamp of the above-mentioned patent document 1, since the globe protrudes forward from the attached wall surface in a dome shape, dust or the like may accumulate on the globe and adhere to it.
Therefore, there has been a problem that the brightness of the indicator lamp is reduced unless periodic cleaning is performed to wipe off dirt such as dust adhering to the globe.
In particular, if there is a large amount of protrusion from the wall, such as a bullet-shaped (egg-shaped hemispherical) indicator lamp, which is generally used recently, there is a risk that moving humans and equipment may come into contact. there were.

  In addition, the amount of protrusion while meeting the essential requirements (installation standards, etc.) as an indicator light for disaster prevention due to social demands (such as being difficult to obstruct traffic and transportation, and improving aesthetics in space design) In addition to the demand for extremely small amounts of light, there is a need to realize disaster prevention indicator lamps with a wider angle of view (with better visibility on the side of the wall) even with a very small amount of protrusion. Yes.

  The objective of this invention is providing the indicator lamp for disaster prevention which can discharge | release light with little visibility and the amount of protrusions to the front.

In order to solve the above problems, the invention described in claim 1
A display lamp for disaster prevention comprising a translucent globe installed on a predetermined wall surface, and a substrate on which a light emitting unit (light emitting means) is disposed,
The globe has a light guide plate portion formed in a shape in which the outer surface is flat or the outer surface is raised in a dish-like shape with a gently curved surface,
The substrate is attached to the light guide plate portion with the light emitting portion (light emitting means) facing the inner surface of the light guide plate portion,
The globe is attached to the wall surface so that at least the light guide plate portion can be visually recognized.

If it is an indicator lamp for disaster prevention of the above-mentioned composition, it guides the light which the light emission part (light emission means) emitted toward the inner surface of the light guide plate part with the light guide plate part which consists of material which has translucency, and a light guide plate The light can be emitted with high visibility so as to be emitted from the outer surface of the part.
In particular, since the light guide plate part of the globe has a substantially flat outer surface, the light guide plate part of the globe is attached in a state where the light guide plate part is exposed so as to be visible from the wall surface, so that the forward protrusion amount is small. Since the dust on the outer surface of the light guide plate is difficult to accumulate, the brightness of the light emitting surface of the indicator lamp is hardly reduced by dirt such as dust adhering to the globe as in the prior art indicator lamp. Light can be suitably emitted.
Further, if the light guide plate portion made of a light-transmitting material is attached to the wall surface so as to be visible, the guided light is emitted from the outer surface and the outer peripheral side of the light guide plate portion. It can be seen from both sides, and light emission can be seen in a wide range from one side to the front and from the front to the other side. It is possible to realize a disaster prevention indicator lamp having good visibility even at the side of the wall.

The invention according to claim 2 is the indicator lamp for disaster prevention according to claim 1,
On the inner surface of the light guide plate portion, a recess is formed at a position close to the outside from the center,
The substrate is attached to the light guide plate part with at least a part of the light emitting part inserted into the recess.

According to the above configuration, the light emitted from the light emitting portion in the concave portion of the light guide plate portion is separated from the concave portion of the light guide plate portion by reflecting the light at the boundary of the inner surface of the light guide plate portion made of a light-transmitting material. The light can be guided to diffuse in the direction.
In particular, since the concave portion formed on the inner surface of the light guide plate portion is located away from the center of the inner surface, the light diffused in the direction away from the concave portion of the light guide plate portion is the outer periphery of the light guide plate portion. Light is guided so as to spread to the side and the center side, and light can be emitted from the outer surface of the light guide plate portion with high visibility.
Then, when more light is emitted from the outer peripheral side of the light guide plate portion, the concave portion may be formed at a position farther from the center of the inner surface of the light guide plate portion.
In addition, when more light is emitted from the center side of the light guide plate portion, a recess may be formed at a position close to the center side of the inner surface of the light guide plate portion.

The invention according to claim 3 is the indicator lamp for disaster prevention according to claim 2,
A plurality of the recesses are formed on the inner surface of the light guide plate part,
The plurality of recesses are located at substantially the same distance from the center of the inner surface.

  According to the above configuration, since the plurality of recesses are located at substantially the same distance from the center of the inner surface of the light guide plate portion, the light diffused in the direction away from the plurality of recesses is distributed on the outer peripheral side of the light guide plate portion. The light is guided so as to spread in a uniform manner and is also guided so as to spread uniformly in the center side of the light guide plate portion, and the light is annularly formed on both the outer peripheral side and the center side of the light guide plate portion. Thus, light can be emitted with high visibility from the outer surface of the light guide plate portion.

The invention according to claim 4 is the indicator lamp for disaster prevention according to claim 2,
The concave portion is formed in an annular shape so as to surround the center side of the inner surface of the light guide plate portion.

  According to the above configuration, since the recess is formed in an annular shape so as to surround the center side of the inner surface of the light guide plate portion, the light diffused in the direction away from the annular recess is on the outer peripheral side of the light guide plate portion. The light is guided so that it spreads uniformly, and the light is guided so that it spreads evenly to the center side of the light guide plate part. The light spreads in a ring shape, and light can be emitted from the outer surface of the light guide plate portion with high visibility.

Invention of Claim 5 is the indicator lamp for disaster prevention as described in any one of Claims 2-4,
The bottom surface of the concave portion is provided with a reflective portion having a reflective surface facing the surface of the substrate,
The surface of the substrate is provided with a white color layer or a mirror surface layer.

According to the said structure, the light radiate | emitted from the light emission part passes through the bottom face of a recessed part, and does not radiate | emit directly from the outer surface of a light-guide plate part.
Then, the light reflected by the reflecting surface of the reflecting portion and the light reflected by the surface of the substrate enter the light guide plate portion from the inner peripheral surface of the recess, and go from the center side of the light guide plate portion toward the outer peripheral side. Light is guided.

The invention according to claim 6 is the indicator lamp for disaster prevention according to claim 5,
The reflection part is provided in an arrangement that hides the light emitting part when viewed from the front without contacting the light emitting part.

  According to the above configuration, direct light from the outer surface of the light guide plate portion to the front side is not emitted, the intensity of light in front view is reduced, and light is easily transmitted to the outer peripheral side of the light guide plate portion.

Invention of Claim 7 is the indicator lamp for disaster prevention as described in any one of Claims 2-6,
The concave portion has an inclined surface that descends from the edge of the concave portion toward the bottom surface of the concave portion.

  According to the above configuration, since the inner peripheral surface of the recess is an inclined surface that spreads toward the inner surface of the light guide plate portion, light incident from the inclined surface is directed from the center side of the light guide plate portion toward the outer peripheral side. It is easy to be transmitted.

Invention of Claim 8 is the indicator lamp for disaster prevention as described in any one of Claims 1-7,
On the inner surface of the light guide plate part, a cylindrical frame part in which the substrate is inserted and held, and a plurality of annular grooves concentric with the frame part are formed,
The annular groove has an inclined surface that rises from the groove bottom toward the center of the inner surface and an inclined surface that rises from the groove bottom toward the outer side away from the center of the inner surface.

According to the above configuration, since the frame portion for attaching the substrate is formed on the inner surface of the light guide plate portion, the light emitting portion disposed on the substrate can be suitably arranged toward the inner surface of the light guide plate portion. it can.
Further, according to the above configuration, the light guided by the light guide plate portion is reflected by the plurality of concentric annular grooves formed on the inner surface of the light guide plate portion. Light can be emitted with high visibility by emitting light from the outer surface of the light guide plate part while guiding light toward the side.

Invention of Claim 9 is the indicator lamp for disaster prevention as described in any one of Claims 1-8,
A reflection sheet having a reflection surface facing the inner surface of the light guide plate portion is provided.

  According to the above configuration, the light emitted from the light emitting portion in the concave portion of the light guide plate portion is guided by the light guide plate portion or reflected by the reflecting surface of the reflection sheet. Light can be emitted with high visibility by emitting light from the outer surface of the light guide plate part while guiding light toward the side.

The invention according to claim 10 is the indicator lamp for disaster prevention according to any one of claims 1 to 9,
The corner of the outer peripheral side of the light guide plate part is chamfered or rounded.

  According to the said structure, the light radiate | emitted from the surface chamfered or R-processed in the outer surface side of the light-guide plate part can be visually recognized from both the front surface and side surface of a disaster prevention indicator lamp.

The invention according to claim 11 is the indicator lamp for disaster prevention according to any one of claims 1 to 10,
A plurality of annular grooves are formed concentrically on the outer surface of the light guide plate portion,
The annular groove has an inclined surface that rises from the groove bottom toward the center of the outer surface and an inclined surface that rises from the groove bottom toward the outer side away from the center of the outer surface.

  According to the above configuration, the light guided by the light guide plate unit is diffusely reflected by the plurality of concentric annular grooves formed on the outer surface of the light guide plate unit, so that light is visible from the outer surface of the light guide plate unit. Can be released.

  ADVANTAGE OF THE INVENTION According to this invention, the amount of protrusions to the front is small, and the disaster prevention indicator lamp which can discharge | release light with sufficient visibility is obtained.

It is a disassembled perspective view which shows the indicator lamp for disaster prevention of this embodiment. It is the front view (a), back view (b), and side view (c) which show the glove of the indicator lamp for disaster prevention. It is the front view (a) which shows the base body of the indicator lamp for disaster prevention, a rear view (b), and a side view (c). It is sectional drawing which shows the glove and base body of the indicator lamp for disaster prevention. It is sectional drawing which shows the state which attached the board | substrate and the reflective sheet to the globe. It is explanatory drawing which shows an example of the transmission path of the light in the light-guide plate part of a globe. It is explanatory drawing (a) (b) which shows the state which attached the indicator light for disaster prevention of embodiment to the wall surface by sectional view. It is sectional drawing which shows the modification regarding the glove of the indicator lamp for disaster prevention. It is sectional drawing which shows the modification regarding the glove of the indicator lamp for disaster prevention. It is sectional drawing which shows the modification regarding the glove of the indicator lamp for disaster prevention. It is the rear view (a) and sectional drawing (b) which show the modification regarding the glove of the indicator lamp for disaster prevention. It is the rear view (a) and sectional drawing (b) which show the modification regarding the glove of the indicator lamp for disaster prevention. They are the rear view (a) and sectional drawing (b) which show the modification regarding the glove of the indicator lamp for disaster prevention, and sectional drawing (c) which shows another modification. It is a rear view which shows the modification regarding the glove of the indicator lamp for disaster prevention.

Hereinafter, with reference to drawings, the embodiment of the indicator lamp for disaster prevention concerning the present invention is described in detail. However, the embodiments described below are given various technically preferable limitations for carrying out the present invention, but the scope of the present invention is not limited to the following embodiments and illustrated examples.
The indicator lamp for disaster prevention is a lamp used by being attached to the disaster prevention facility or its vicinity in order to indicate the location of the disaster prevention facility.

  As shown in FIG. 1, a disaster prevention indicator lamp 100 according to this embodiment includes a globe 10 installed on a predetermined wall surface, a base body 20 to which the globe 10 is attached, and a substrate 30 on which a light emitting unit 31 is disposed. And an annular reflection sheet 40 and a small reflection sheet 50 disposed on the globe 10.

The globe 10 is a member made of polycarbonate, for example, and has translucency (light transmittance). In particular, since it is the globe 10 used for the indicator lamp for disaster prevention, a polycarbonate material colored in red is used. The globe 10 contains a light diffusing material that imparts light diffusibility to the polycarbonate product (for example, a flame retardant light diffusing grade manufactured by Teijin Limited).
As shown in FIGS. 1, 2 (a), (b), (c), and FIG. 4, the globe 10 is guided so as to be positioned inside the flat light guide plate portion 11 and the outer edge of the light guide plate portion 11. It has a cylindrical portion 12 erected on the inner surface of the optical plate portion 11.
On the outer peripheral surface of the cylindrical portion 12, a male screw 12a that is screwed with a female screw 22a of a cylindrical portion 22 of the base body 20 described later is formed.

The light guide plate portion 11 has a disk shape, and the outer surface is formed flat.
On the outer surface side of the light guide plate portion 11, a tapered surface 1 formed by chamfering the peripheral corners is provided.
In addition, the angle which the outer surface of the light-guide plate part 11 and the taper surface 1 make is 45 degrees, for example.

A cylindrical frame portion 15 for attaching the substrate 30 is provided on the inner surface of the light guide plate portion 11.
Ribs 15 a for fitting the substrate 30 are provided on the inner peripheral surface of the frame portion 15.
By fitting the substrate 30 into the rib 15a of the frame portion 15, the substrate 30 is inserted and held in the frame portion 15. By doing so, the light emitting portion 31 disposed on the substrate 30 can be suitably arranged toward the inner surface of the light guide plate portion 11.

Further, on the inner surface of the light guide plate portion 11, a plurality of ring grooves 14 are provided as a plurality of annular grooves concentric with the frame portion 15.
Each ring groove 14 (14a, 14b) has an inclined surface that rises from the groove bottom toward the center of the inner surface of the light guide plate portion 11, and an inclination that rises from the groove bottom toward the outer side away from the center of the inner surface of the light guide plate portion 11. And has a surface. An angle formed by these inclined surfaces and the outer surface of the light guide plate portion 11 is 45 °, for example.

Further, a concave portion 13 is formed on the inner surface of the light guide plate portion 11 at a position away from the center to the outer side.
Specifically, a plurality of (four in this embodiment) recesses 13 are formed at positions away from the center of the inner surface of the light guide plate portion 11, and the plurality of recesses 13 are formed on the inner surface of the light guide plate portion 11. It is formed so that it is at the same distance from the center.
The plurality (four in this embodiment) of the recesses 13 are formed on the inner side of the frame portion 15.
Each recessed part 13 has the inclined surface 13b which goes down toward the bottom face 13a smaller than the edge of the recessed part. An angle formed by the inclined surface 13b and the outer surface of the light guide plate portion 11 is, for example, 45 °.

Here, on the inner surface of the light guide plate portion 11, a region inside the cylindrical portion 12 is a first region, and a region outside the cylindrical portion 12 is a second region.
And the 1st ring groove 14a in a 1st field is formed between annular convex parts 2 which show the section reverse V character shape provided in concentric form at intervals, and annular convex part 2 of A flat surface portion 3 parallel to the outer surface of the light guide plate portion 11 is provided therebetween.
Further, the second ring groove 14b in the second region is formed by an annular groove 4 having a V-shaped cross section provided concentrically without any interval.
The annular convex portion 2 is formed in a shape protruding from the reference surface on the inner surface of the light guide plate portion 11, and the annular groove 4 is formed in a shape recessed from the reference surface on the inner surface of the light guide plate portion 11. ing.
In other words, the annular groove 4 is formed so as to be recessed from a surface having substantially the same height as the plane portion 3, and the top of the boundary of the annular groove 4 is substantially the same height as the plane portion 3.

As shown in FIGS. 1, 3 (a), 3 (b), and 4 (c) and FIG. 4, the base body 20 has a bottom portion 21 and a cylindrical portion 22 that is erected from the periphery of the bottom portion 21.
On the inner peripheral surface of the cylindrical portion 22, a female screw 22a that is screwed with the male screw 12a of the cylindrical portion 12 of the globe 10 is formed.
In the center of the bottom portion 21, a central hole 21 a through which the wiring 33 connected to the substrate 30 is passed is formed.
The bottom 21 is formed with a plurality of small holes 21b through which screws and bolts are passed when the base body 20 is fixed to the wall surface.
The base body 20 is a member made of the same material as the globe 10 (for example, polycarbonate).

As shown in FIGS. 1 and 5, an LED (light emitting diode) as a light emitting unit 31 (light emitting means) is mounted on the surface 30 a of the substrate 30.
Further, as shown in FIG. 5, a power supply IC 32 is mounted on the back surface of the substrate 30, and wirings 33 are connected.
In addition, since disaster prevention equipment such as the indicator lamp 100 for disaster prevention is monitored for 24 hours using a DC 24V power supply, it is preferable to realize it with low power consumption and to have sufficient visibility as an indicator light of the disaster prevention equipment. Therefore, an LED is employed as the light emitting unit 31. Up to eight LEDs can be mounted in series connection. In the present embodiment, four LEDs (light emitting portions 31) are mounted on the substrate 30 so as to correspond to the four concave portions 13 on the inner surface of the light guide plate portion 11.

Then, as shown in FIG. 5, the substrate 30 is attached to the light guide plate portion 11 by fitting the light emitting portion 31 toward the concave portion 13 on the inner surface of the light guide plate portion 11 in the frame portion 15. Specifically, the light emitting portion 31 is attached so that the tip end side of the light emitting portion is inserted into the recess 13.
In particular, the bottom surface 13a of the recess 13 is provided with a reflection sheet 50 as a reflection portion with the reflection surface 50a facing the surface 30a of the substrate 30, and the surface 30a of the substrate 30 increases the light reflectance. It is colored in a white color.
By providing the reflection sheet 50 on the bottom surface 13 a of the recess 13, the light emitted from the light emitting portion 31 of the substrate 30 does not exit the outer surface of the light guide plate portion 11 through the bottom surface 13 a of the recess 13. Yes.
The surface 30a of the substrate 30 is not limited to being provided with a layer exhibiting a white color, and a mirror-like layer may be provided on the surface 30a of the substrate 30. The mirror-like layer can be formed by, for example, chrome plating.

Then, the light reflected by the reflecting surface 50 a of the reflecting sheet 50 and the light reflected by the surface 30 a of the substrate 30 enter the light guide plate portion 11 from the inclined surface 13 b of the recess 13.
Further, the light emitted from the inner surface of the light guide plate portion 11 inside the frame portion 15 is reflected by the surface 30 a of the substrate 30 and returns to the light guide plate portion 11.
In addition, the reflection sheet 50 is provided in the arrangement | positioning which hides the light emission part 31 when it sees from the front, without contacting the light emission part 31. FIG. By doing so, the direct light from the outer surface of the light guide plate part 11 to the front side is not emitted, the light intensity in front view is reduced, and the light is easily transmitted to the outer peripheral side of the light guide plate part 11. .

Further, as shown in FIG. 5, the first region on the inner surface of the light guide plate portion 11 and the region between the frame portion 15 and the cylindrical portion 12 is guided so as to cover the plurality of first ring grooves 14a. A reflection sheet 40 having a reflection surface 40a facing the inner surface of the optical plate portion 11 is disposed.
A central opening 41 is formed in the reflection sheet 40, and the reflection sheet 40 is disposed on the inner surface of the light guide plate section 11 through the frame portion 15 through the central opening 41.
Since the reflection surface 40 a of the reflection sheet 40 is disposed toward the inner surface of the light guide plate portion 11, the light emitted from the inner surface of the light guide plate portion 11 between the frame portion 15 and the cylindrical portion 12 is reflected by the reflection sheet 40. The reflection surface 40 a is reflected back to the light guide plate portion 11.

  Next, the optical function of the disaster prevention indicator lamp 100 of this embodiment will be described.

As shown in FIG. 5, an annular reflecting sheet 40 and a small reflecting sheet 50 and a substrate 30 on which the light emitting unit 31 is disposed are attached to the inner surface of the light guide plate portion 11 of the globe 10. It has been.
When the light emitting portion 31 of the substrate 30 attached to the frame portion 15 on the inner surface of the light guide plate portion 11 emits light, the light emitted from the light emitting portion 31 is reflected on the reflecting surface 50a of the reflecting sheet 50 as shown in FIG. The light is incident on the light guide plate portion 11 from the inclined surface 13b of the concave portion 13 by being reflected at the surface 30a of the substrate 30 or the like. There is also light that enters the light guide plate portion 11 directly from the light emitting portion 31 toward the inclined surface 13b.

Since the globe 10 is made of a light transmissive material, the light incident on the light guide plate 11 from the inclined surface 13b of the recess 13 is guided so as to diffuse in a direction away from the recess 13, and the light guide plate 11 is guided and transmitted toward the outer peripheral side and the center side.
In particular, since the inner peripheral surface of the recess 13 is an inclined surface 13b that spreads toward the inner surface of the light guide plate portion 11, light can easily enter the light guide plate portion 11 from the inclined surface 13b. It is easy to be guided and diffused.
Light emitted from the outer surface of the light guide plate portion 11 in the light diffusion process is recognized as irradiation light of the disaster prevention display lamp 100.

For example, as shown in FIG. 6, a part of the light incident on the light guide plate portion 11 from the inclined surface 13 b is emitted from the outer surface of the light guide plate portion 11.
Further, as shown in FIG. 6, the light reflected toward the inner surface on the outer surface side of the light guide plate portion 11 (specifically, the boundary between the light guide plate portion 11 and air) is reflected on the surface 30a of the substrate 30 and the reflection sheet. The light is reflected by the reflection surface 40 a of 40 and emitted from the outer peripheral side of the outer surface of the light guide plate portion 11.

  In addition, of the reflected light at the outer surface boundary of the light guide plate portion 11, a part of the light directed to the flat portion 3 of the first ring groove 14 a is a boundary at the flat portion 3 (a boundary between the light guide plate portion 11 and air). In the first region of the light guide plate portion 11 where the first ring groove 14a is formed, light is directed toward the outer peripheral side of the light guide plate portion 11. It is easy to be transmitted.

In addition, among the reflected light at the outer surface boundary of the light guide plate portion 11, the light toward the second ring groove 14 b is reflected at the boundary (boundary between the light guide plate portion 11 and air), and the outer surface of the light guide plate portion 11. It comes out from.
In particular, since the second ring groove 14b is formed by the annular groove 4 having a substantially V-shaped cross section provided concentrically without any interval, light is easily diffused by the unevenness, and the light guide plate portion The light is easily emitted from the outer surface of 11.

In addition, since the outer peripheral edge of the outer surface of the light guide plate portion 11 is provided with the tapered surface 1 whose corners are chamfered, light is also emitted from the tapered surface 1. The light emitted from the tapered surface 1 is visible from both the front and side surfaces of the disaster prevention indicator lamp 100.
In addition, light is emitted from the outer peripheral surface of the light guide plate portion 11 and is visible from the side surface of the disaster prevention indicator lamp 100.
In addition, the corner | angular of the periphery of the outer surface side of the light-guide plate part 11 may be R processed. The light emitted from the R-processed R-plane can also be visually recognized from both the front and side surfaces of the disaster prevention indicator lamp 100.

Thus, the light guided through the light guide plate portion 11 is emitted from each portion on the outer surface of the light guide plate portion 11.
In addition to the above-described reflection, light is reflected at each portion (boundary portion) of the light guide plate portion 11, but the description thereof is omitted.
Further, in the explanatory diagram of FIG. 6, it is illustrated that there is no refraction of light, and the description of refraction of light is also omitted.

  In this way, the disaster prevention indicator lamp 100 is visually recognized by emitting light from the light emitting unit 31 from the outer surface or the outer peripheral surface of the light guide plate unit 11 while guiding the light from the light guide unit 11 of the globe 10. It emits light with good quality and can be lit.

Next, a method for attaching the disaster prevention indicator lamp 100 of this embodiment to a wall surface will be described.
There are two ways to attach the disaster prevention indicator lamp 100 of this embodiment to a wall surface.

First, the first style will be described.
A circular opening H corresponding to the outer diameter size of the cylindrical portion 12 of the globe 10 is formed in the wall material constituting the wall surface W to which the disaster prevention indicator lamp 100 is attached.
Then, the base body 20 is arranged on the back side of the wall material so as to correspond to the opening H formed in the wall surface W, and the cylindrical portion 12 of the globe 10 is inserted through the opening H, and the globe 10 is inserted into the cylindrical portion 22 of the base body 20. The cylindrical portion 12 is screwed.
And as shown to Fig.7 (a), the indicator lamp 100 for disaster prevention is made into the state which pinched | interposed the wall material with the edge of the cylindrical part 22 of the base body 20, and the outer edge part of the light-guide plate part 11 of the globe 10. Can be easily attached to the wall surface W.

Next, the second style will be described.
The base body 20 is fixed with screws N to the wall surface W (wall material) to which the disaster prevention indicator lamp 100 is attached.
Then, as shown in FIG. 7B, the disaster prevention indicator lamp 100 is attached to the wall surface W by screwing the cylindrical portion 12 of the globe 10 onto the cylindrical portion 22 of the base body 20 fixed to the front side of the wall surface W. Can be attached to.

  Thus, the indicator lamp 100 for disaster prevention of this embodiment can be attached to the wall surface W in any one of the first style shown in FIG. 7 (a) and the second style shown in FIG. 7 (b). Since it can do, the style suitable for the attachment location and the style which a user desires can be selected, and the indicator lamp 100 for disaster prevention can be installed in the wall surface W. FIG.

For example, in a place where the disaster prevention indicator lamp 100 is newly installed, the disaster prevention indicator lamp 100 is easily attached to the wall surface W by the first mode in which the cylindrical portion 12 of the globe 10 is inserted into the circular opening H formed in the wall surface W. be able to.
Moreover, in the place which replaces the existing indicator light (for example, a bullet-type indicator light) with the indicator light 100 for disaster prevention, using the existing screw hole for attachment of the wall surface W in which the existing indicator light was installed, Alternatively, the disaster prevention indicator lamp 100 can be attached to the wall surface W in a second manner in which a screw hole is newly formed and the base body 20 is fixed with the screw N.
Thus, one product of the indicator lamp 100 for disaster prevention can be attached to the wall surface W by two attachment modes.
In addition, since the diameter and pitch of the male screw 12a of the globe 10 are formed so as to be compatible with the female screw of the base of the conventional bullet type indicator lamp, only the globe 10 is attached to the base of the conventional indicator lamp. Is also possible.

  And since it is possible to install the outer surface of the light guide plate part 11 of the globe 10 in parallel with the wall surface W in any mounting manner, the outer surface of the light guide plate part 11 serving as the light emitting surface of the disaster prevention indicator lamp 100 is provided. It is difficult for dust to accumulate.

As described above, when the disaster prevention indicator lamp 100 according to this embodiment is used by being attached to the wall surface W, light is suitably emitted from the outer surface of the light guide plate portion 11 that becomes the light emitting surface of the disaster prevention indicator lamp 100. It is possible to emit light with high visibility.
In particular, since it is difficult for dust or the like to accumulate on the outer surface of the light guide plate portion 11 that is parallel to the wall surface W, the brightness of the light emitting surface is increased by dirt such as dust adhering to the globe as in the case of a conventional indicator lamp. There is almost no reduction, and light can be suitably emitted.

Moreover, this indicator lamp 100 for disaster prevention is either one of two styles, a first style in which the base body 20 is installed on the back side of the wall surface W and a second style in which the base body 20 is installed on the front side of the wall surface W. Can be selected and attached to the wall W.
In any manner, if the flat outer surface of the light guide plate portion 11 is installed so as to be parallel to the wall surface W, the forward protrusion amount can be reduced.
In particular, when the disaster prevention indicator lamp 100 is attached to the wall surface W in the first manner in which the base body 20 is installed on the back side of the wall surface W, only the light guide plate portion 11 of the globe 10 is exposed so as to be visible from the wall surface W. And since the indicator lamp 100 for disaster prevention can be attached in the state which does not protrude from the wall surface W, it can make it difficult for a person and an object to collide with the indicator lamp 100 for disaster prevention from the side.
In other words, it is possible to prevent the disaster prevention indicator lamp 100 from being obstructed and from being damaged by a person or object hitting the disaster prevention indicator lamp 100 from the side.

For example, a bullet-shaped (egg-shaped hemispherical) indicator lamp that is generally used recently is mounted so as to protrude about 60 mm from the wall surface. Further, the amount of protrusion from the wall surface of the door knob or intercom is about 60 mm.
On the other hand, when the disaster prevention indicator lamp 100 is attached to the wall surface W in the first style, the disaster prevention indicator lamp 100 protrudes from the wall surface W by about 3 mm (FIGS. 4, 5, 6, and 7). (A), 9, 10, 11, 12, 13. In addition, it protrudes 3-8 mm in FIG.
Further, when the disaster prevention indicator lamp 100 is attached to the wall surface W in the second style, the disaster prevention indicator lamp 100 protrudes from the wall surface W by about 22 mm (FIG. 7B). In the case of, it protrudes about 22 to 30 mm as a whole).
Thus, the projection amount from the wall surface W of the disaster prevention indicator lamp 100 can be reduced in any mounting manner.

In addition, this indicator lamp 100 for disaster prevention is about 10 m away from the attachment position along the wall surface W, and when the indicator lamp 100 for disaster prevention is viewed at an angle of 15 ° with respect to the wall surface W, the indicator lamp for disaster prevention is used. 100 (light guide plate portion 11) can be visually recognized so that an area of one quarter or more is shining.
When the indicator lamp 100 for disaster prevention is attached to the wall surface W in the first style, only the light guide plate portion 11 of the globe 10 is exposed so as to be visible from the wall surface W, but has the above-described visibility. .
This is because, in addition to providing the tapered surface 1 on the outer peripheral edge of the outer surface of the light guide plate portion 11, four LEDs (light emitting portions 31) are mounted on the substrate 30.
If four or more LEDs (light emitting unit 31) are provided on the substrate 30, the brightness when the disaster prevention indicator lamp 100 is viewed from the side is stable regardless of the mounting location of the LED (light emitting unit 31). Will come to do.

Further, in the disaster prevention indicator lamp 100, concentric striped patterns caused by the plurality of ring grooves 14 formed on the inner surface of the light guide plate portion 11 appear on the light guide plate portion 11 serving as a light emitting surface. .
When the existing bullet-type indicator lamp is replaced with the disaster prevention indicator lamp 100, the planar light guide plate portion 11 is bullet-shaped due to the concentric striped pattern appearing on the light guide plate portion 11 of the disaster prevention indicator lamp 100. It is easy to be visually recognized like the indicator lamp.
In other words, even if the conventional bullet-type indicator lamp is replaced with the disaster prevention indicator lamp 100, it is recognized as the disaster prevention indicator lamp 100 indicating the location of the disaster prevention equipment, so the existing bullet-type indicator lamp is used for disaster prevention. There is a merit that even if it is replaced with the indicator lamp 100, it can be easily accepted without any sense of incongruity.

The present invention is not limited to the above embodiment.
For example, as shown in FIG. 8, the outer surface of the light guide plate part 11 of the globe 10 may have a structure in which the center side is raised in a gently curved dish shape.
The “shape of the light guide plate portion 11 protruding in the shape of a gently curved dish” corresponds to a curved shape having a protrusion rate from the wall surface with respect to the diameter of the light guide plate portion 11 of 15% or less. It is a dome shape that is different from the hemispherical shape and has a relatively flat curved surface.

  As shown in FIG. 9, the inner peripheral surface of the recess 13 may not be an inclined surface, but may be a surface perpendicular to the outer surface of the light guide plate portion 11 or the bottom surface 13 a of the recess 13.

As shown in FIG. 10, the recess 13 of the light guide plate portion 11 may be provided by closing one end of a through hole 13 c formed in the light guide plate portion 11 with a sealing member 16. The sealing member 16 is affixed to the outer surface of the light guide plate portion 11 and closes the through hole 13 c of the light guide plate portion 11.
The sealing member 16 may have a light transmitting property or a light shielding property.
Further, the surface of the sealing member 16 that faces the surface 30a of the substrate 30 may be formed as a mirror surface (reflection surface).
In addition, although the cylindrical through hole 13c has been illustrated and described, a mortar-shaped through hole may be used.

Further, as shown in FIGS. 11A and 11B, the frame portion 15 having a large diameter close to the inner peripheral surface of the cylindrical portion 12 may be formed, and the reflection sheet 40 may not be disposed.
The globe 10 (disaster prevention indicator lamp) shown in FIGS. 11A and 11B has a frame portion 15 having a diameter larger than that of the globe 10 shown in FIGS. 2B and 5. If it is the glove | globe 10 which has such a large diameter frame part 15, the freedom degree of the position of the recessed part 13 formed inside the frame part 15 will go up.
For example, in the globe 10 shown in FIGS. 11A and 11B, the recess 13 is formed at a position where the distance from the center of the inner surface of the light guide plate 11 and the distance from the outer edge of the light guide plate 11 are the same. .
In this way, if the recess 13 is formed on the inner surface of the light guide plate portion 11 so as to be located exactly in the middle between the center of the inner surface of the light guide plate portion 11 and the outer edge of the light guide plate portion 11, the inclined surface 13b of the recess 13 Light incident on the light guide plate portion 11 and diffused in the direction away from the recess 13 is guided in a balanced manner toward the outer peripheral side and the center side of the light guide plate portion 11, and is visible from the outer surface of the light guide plate portion 11. Can emit light well.
In addition, if the rib for fitting the board | substrate 30 in the internal peripheral surface of the cylindrical part 12 is provided, it can also be set as the structure which does not form the frame part 15. FIG.

Further, as shown in FIGS. 12A and 12B, the recess 13 formed at a position away from the center of the inner surface of the light guide plate portion 11 to the outside surrounds the center side of the inner surface of the light guide plate portion 11. It may be an annular recess 13 formed in the above.
With such an annular recess 13, light incident on the light guide plate 11 from the outer peripheral side (outer ring side) inclined surface 13 b of the recess 13 is mainly guided toward the outer periphery of the light guide plate 11. Thus, light can be emitted from the outer surface of the light guide plate portion 11 with high visibility.

Moreover, as shown to Fig.13 (a) (b) (c), the thing of the structure by which the recessed part 13 is not formed in the inner surface of the light-guide plate part 11 may be sufficient.
When the concave portion 13 is not formed on the inner surface of the light guide plate portion 11, the substrate 30 is placed in the frame of the light guide plate portion 11 so that the light emitting portion 31 facing the inner surface of the light guide plate portion 11 is closer to the inner surface. Attach to part 15.
Moreover, as shown in FIG.13 (b), the 3rd ring groove 14c which is a some annular groove may be formed concentrically in the outer surface of the light-guide plate part 11. FIG.
The third ring groove 14c has an inclined surface that rises from the groove bottom toward the center of the outer surface of the light guide plate portion 11, and an inclined surface that rises from the groove bottom toward the outside away from the center of the outer surface of the light guide plate portion 11. doing.
Since the third ring groove 14c is formed by an annular groove having a substantially V-shaped cross section provided concentrically without any interval, the irregularities of the third ring groove 14c are used to diffusely reflect light. The light can be emitted from the outer surface of the light guide plate portion 11.

Moreover, as shown in FIG.13 (c), the mortar-shaped taper hole 30b may be formed in the board | substrate 30, and the light emission part 31 may be mounted in the inside of the taper hole 30b. The tapered hole 30b is formed in a form that expands to the surface side of the substrate 30.
The light emitting section 31 mounted inside the tapered hole 30b is held inside the tapered hole 30b while being connected to the LED electrode provided on the back surface side of the substrate 30.
Further, the inclined surface of the tapered hole 30b is provided with a mirror surface layer formed, for example, by plating, and the mirror surface layer can reflect light toward the inner surface of the light guide plate portion 11. ing.
In this way, the light emitting unit 31 is brought closer to the inner surface of the light guide plate unit 11 by attaching the surface of the substrate 30 holding the light emitting unit 31 inside the tapered hole 30b so as to be in close contact with the inner surface of the light guide plate unit 11. Can be placed at different positions.

  In the above embodiment, four light emitting portions 31 are mounted on the substrate 30, and four concave portions 13 corresponding to the four light emitting portions 31 are formed on the inner surface of the light guide plate portion 11 (FIGS. 1 to 1). Although FIG. 11) has been described as an example, the present invention is not limited to this, and the number of light emitting portions 31 is arbitrary, and a plurality of recesses 13 corresponding to the number of light emitting portions 31 are formed. It may be.

For example, as shown in FIG. 14, eight concave portions 13 may be formed on the inner surface of the light guide plate portion 11. The globe 10 shown in FIG. 14 has four recesses 13 located at a relatively close distance from the center of the inner surface of the light guide plate portion 11, and 4 located at a relatively far distance from the center of the inner surface of the light guide plate portion 11. Two recesses 13 are provided. The four recesses 13 located at a relatively close distance from the center of the inner surface of the light guide plate portion 11 are located at the same distance from the center of the inner surface of the light guide plate portion 11 and are relatively far from the center of the inner surface of the light guide plate portion 11. The four recesses 13 at the position of are located at the same distance from the center of the inner surface.
Thus, two sets of four concave portions 13 at the same distance from the center of the inner surface of the light guide plate portion 11 may be formed.

  In addition, it is needless to say that other specific detailed structures can be appropriately changed.

DESCRIPTION OF SYMBOLS 1 Tapered surface 2 Annular convex part 3 Plane part 4 Annular groove 10 Globe 11 Light guide plate part 12 Cylindrical part 12a Male screw 13 Recessed part 13a Bottom face 13b Inclined surface 13c Through-hole 14 Ring groove (annular groove)
14a First ring groove 14b Second ring groove 14c Third ring groove 15 Frame portion 15a Rib 16 Sealing member 20 Base body 21 Bottom portion 21a Central hole 21b Small hole 22 Cylindrical portion 22a Female screw 30 Substrate 30a Surface 30b Tapered hole 31 Light emission Part 32 Power IC
33 Wiring 40 Reflective sheet 40a Reflective surface 41 Central opening 50 Reflective sheet (reflective part)
50a Reflecting surface 100 Indicator light for disaster prevention N Screw W Wall H Opening

Claims (11)

A display lamp for disaster prevention comprising a translucent globe installed on a predetermined wall surface, and a substrate on which a light emitting unit is disposed,
The globe has a light guide plate portion formed in a shape in which the outer surface is flat or the outer surface is raised in a dish-like shape with a gently curved surface,
The substrate is attached to the light guide plate portion with the light emitting portion facing the inner surface of the light guide plate portion,
The said glove | globe is attached to the said wall surface so that at least the said light-guide plate part can be visually recognized, The indicator lamp for disaster prevention characterized by the above-mentioned. On the inner surface of the light guide plate portion, a recess is formed at a position close to the outside from the center,
The disaster prevention indicator lamp according to claim 1, wherein the substrate is attached to the light guide plate portion with at least a part of the light emitting portion being inserted into the recess. A plurality of the recesses are formed on the inner surface of the light guide plate part,
The indicator lamp for disaster prevention according to claim 2, wherein the plurality of recesses are located at substantially the same distance from the center of the inner surface.   The indicator lamp for disaster prevention according to claim 2, wherein the concave portion is formed in an annular shape so as to surround the center side of the inner surface of the light guide plate portion. The bottom surface of the concave portion is provided with a reflective portion having a reflective surface facing the surface of the substrate,
The indicator lamp for disaster prevention according to any one of claims 2 to 4, wherein the surface of the substrate is provided with a white color layer or a mirror surface layer.   The said reflecting part is provided in the arrangement | positioning which hides the said light emission part when it sees from the front, without contacting the said light emission part, The indicator lamp for disaster prevention of Claim 5 characterized by the above-mentioned.   The said recessed part has an inclined surface which goes down toward the bottom face of this recessed part from the edge of the recessed part, The indicator lamp for disaster prevention as described in any one of Claims 2-6 characterized by the above-mentioned. On the inner surface of the light guide plate part, a cylindrical frame part in which the substrate is inserted and held, and a plurality of annular grooves concentric with the frame part are formed,
The annular groove has an inclined surface that rises from the groove bottom toward the center of the inner surface, and an inclined surface that rises from the groove bottom toward the outer side away from the center of the inner surface. The indicator light for disaster prevention as described in any one of 1-7.   The disaster prevention indicator lamp according to any one of claims 1 to 8, wherein a reflection sheet having a reflection surface facing the inner surface of the light guide plate portion is disposed.   The indicator lamp for disaster prevention according to any one of claims 1 to 9, wherein corners of the outer peripheral side of the light guide plate part are chamfered or rounded. A plurality of annular grooves are formed concentrically on the outer surface of the light guide plate portion,
The annular groove has an inclined surface that rises from the groove bottom toward the center side of the outer surface, and an inclined surface that rises from the groove bottom toward the outer side away from the center of the outer surface. The indicator light for disaster prevention as described in any one of 1-10.

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