Indicator Light
The indicator light design addresses visibility issues by using a light guide material and strategic light-emitting element placement to enhance visibility from multiple angles, ensuring effective indication of disaster prevention facilities.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- NITTAN CO LTD
- Filing Date
- 2026-04-15
- Publication Date
- 2026-07-07
AI Technical Summary
Conventional indicator lights, especially those integrated with transmitters, suffer from limited visibility from the side and angles due to their design, which affects their effectiveness in indicating the location of disaster prevention facilities.
The indicator light design incorporates a main body case with a peripheral wall formed of a light guide material, inclined to direct light outward, and multiple light-emitting elements positioned to emit light onto the mounting surface, enhancing visibility from the front, side, and angles, with optional use of a light guide member to control light distribution.
The design ensures improved visibility from all directions, even when integrated with a transmitter, by expanding the light-emitting area and optimizing light distribution, thus enhancing the visibility of disaster prevention facilities.
Smart Images

Figure 2026113712000001_ABST
Abstract
Description
Technical Field
[0001] The present invention relates to an indicator lamp for notifying a location or a warning, and is related to a technology that is effective when used, for example, for a disaster prevention indicator lamp attached to a disaster prevention facility or in its vicinity to indicate the location of a disaster prevention facility, a transmitter, a fire hydrant box, etc.
Background Art
[0002] Conventionally, a fire alarm system has been provided inside a building to notify the occurrence of a fire. The fire alarm system is composed of a fire detector, a manual fire transmitter equipped with a push button switch, a receiver, a fire alarm bell, an indicator lamp, etc. Among these, the fire transmitter is installed at an appropriate height on the wall surface of the corridor of the building. When a fire occurs, by strongly pressing the push button switch of the fire transmitter, a signal notifying the occurrence of the fire is transmitted to the receiver, and an alarm sound is emitted from the bell provided near the fire transmitter to notify the people around of the occurrence of the fire.
[0003] On the other hand, the indicator lamp is a device provided to indicate the installation position of disaster prevention devices such as a transmitter and a fire hydrant box, and conventionally, a bullet-shaped or dome-shaped one has been common. In recent years, a flat-type indicator lamp with a flat or disk-shaped front surface and an indicator lamp integrated with a transmitter have also been put into practical use. For example, the invention related to the flat-type indicator lamp is described in Patent Document 1, and for example, the invention related to the indicator lamp integrated with a transmitter is described in Patent Document 2.
Prior Art Documents
Patent Documents
[0004]
Patent Document 1
Patent Document 2
Summary of the Invention
[0005] The flat-type indicator light described in Patent Document 1 has good visibility from the front and diagonally from the side because the entire front surface of the disc-shaped display part emits light, but the area visible from directly to the side is smaller compared to conventional indicator lights. In addition, the indicator light integrated with a transmitter described in Patent Document 2 emits light in a ring shape, and the light-emitting display part is located further back than the front of the transmitter, so it has the problem of not being visible from directly to the side.
[0006] This invention was made in view of the above-mentioned problems, and its objective is to provide an indicator light in which the light-emitting display unit itself is relatively small, yet has good visibility from the front, as well as good visibility from the side and at an angle. Another object of the present invention is to provide an indicator light that is easily visible from the front, side, and at an angle, even when integrated with a transmitter. [Means for solving the problem]
[0007] To solve the above problems, the present invention provides An indicator light comprising a main body case containing a circuit board on which multiple light-emitting elements are mounted, The peripheral wall of the main body case is formed of a light guide material and is inclined so that it becomes more central as it approaches the mounting surface. The plurality of light-emitting elements are mounted on the substrate such that the direction of light emission faces the peripheral wall, and are configured so that a portion of the light emitted outward from the peripheral wall is irradiated onto the surface of the mounting surface.
[0008] With an indicator light having the above configuration, light from a light-emitting element built into the main case is emitted outward from the peripheral wall of the main case and further illuminates the surface of the mounting surface behind it. As a result, the outer shape of the light-emitting part that illuminates the mounting surface is slightly larger than the surface of the main case. Therefore, even if the light-emitting display part itself is relatively small, visibility from the front is good, and because light is emitted from the peripheral wall of the main case, visibility from the side and diagonally from the side can also be made good.
[0009] Here, preferably, the plurality of light-emitting elements are mounted on the substrate such that the direction of light emission faces the peripheral wall, and the direction of light emission faces the front panel. With this configuration, light is emitted not only from the peripheral walls of the main case and the mounting surface behind them, but also from the front panel, expanding the light-emitting area and further improving visibility from the front.
[0010] Alternatively, the front panel of the main body case may be formed of a light guide material. The plurality of light-emitting elements are mounted on both sides of the substrate, with the light-emitting elements mounted on one side of the substrate being mounted on the substrate so that the direction of light emission faces the peripheral wall, and the light-emitting elements mounted on the other side of the substrate being set so that the direction of light emission faces the front panel. This configuration improves visibility from the front and reduces the number of circuit boards used.
[0011] Furthermore, the front panel of the main body case is formed of a light guide material. Inside the main body case, a light guide member is provided that extends from the center of the rear wall toward the peripheral wall and the front panel. The plurality of light-emitting elements are mounted on a substrate so that their light-emitting surfaces face the rear end face of the light-guiding member, and the light guided by the light-guiding member is irradiated onto the peripheral wall and front panel of the main body case. With this configuration, light is emitted not only from the peripheral walls of the main case and the mounting surface behind them, but also from the front panel, expanding the light-emitting area. This improves visibility from the front, and the light guide member allows for adjustment so that the distribution of light emitted from the peripheral walls of the main case and the distribution of light emitted from the front panel are uniform or of a desired intensity.
[0012] Furthermore, preferably, an opening is formed in the center of the front panel of the main body case, overlooking the push button of the transmitter located inside the main body case. With this configuration, even when integrated with the transmitter, good visibility from all directions can be ensured. [Effects of the Invention]
[0013] According to the present invention, even if the light-emitting display unit itself is relatively small, it is possible to realize an indicator light that is highly visible from the front, as well as from the side and at an angle. Furthermore, even when integrated with a transmitter, it is possible to realize an indicator light that is highly visible from the front, the side, and at an angle. [Brief explanation of the drawing]
[0014] [Figure 1] This diagram shows the schematic configuration of the first embodiment of the indicator light according to the present invention, where (A) is a plan view of the indicator light of the first embodiment and (B) is a plan view of the indicator light of the second embodiment of the first embodiment. [Figure 2] (A) to (D) are plan diagrams illustrating the schematic configuration of a second embodiment of the indicator light according to the present invention. [Figure 3] This diagram shows an example of the mounting structure of an indicator light to a mounting panel, where (A) is a plan view showing the state before mounting, and (B) is a plan view showing the state after the indicator light has been mounted to the mounting panel. [Figure 4] This is a partial cross-sectional plan view showing a modified example of an indicator light according to an embodiment of the present invention.
Embodiments for Carrying Out the Invention
[0015] Hereinafter, embodiments of the indicating lamp according to the present invention will be described with reference to the drawings. The indicating lamp 10 in the present embodiment is configured to be installed and used on the wall surface of a building or the door of a fire hydrant box, etc., with a light source (LED) provided inside. Figs. 1 to 3 respectively show schematic configurations of the indicating lamp 10 according to an embodiment of the present invention when attached to a wall surface or a mounting panel 20 as viewed from above or from the side.
[0016] The indicating lamp 10 of the first example of the first embodiment shown in Fig. 1(A) has a main body case 11 having a truncated conical cylinder shape, configured such that the larger diameter is in the front. Inside the main body case 11, a plurality of substrates (hereinafter referred to as LED substrates) 13 on which a plurality of light emitting elements (LEDs) 12 are mounted are arranged such that the emission direction of the LEDs is outward in the radial direction. In Fig. 1(A), only two LED substrates 13 are shown, but when viewed from the front (right side in the figure), a plurality of (for example, eight) may be arranged at a predetermined angle along the circumferential direction. The number of light emitting elements 12 mounted on one LED substrate 13 is not limited to two.
[0017] The main body case 11 has a peripheral wall portion formed of a light guiding material, and the front end side is covered with an opaque planar panel. The light guiding material constituting the peripheral wall portion may have a diffusion function, for example, by mixing light scattering particles inside or forming a large number of fine grooves on the surface. The surface of the panel on the front side of the main body case 11 may exhibit a color of the same system as the emission color of the light emitting element 12, and a light reflecting layer for reflecting the light leaking from the light emitting element 12 etc. may be formed on the inner surface of the front side panel.
[0018] According to the indicating lamp 10 having the above configuration, the light emitted from the light emitting element 12 is guided while being repeatedly reflected and diffused by the light guiding material constituting the main body case 11, so that the entire outer peripheral wall of the main body case 11 emits light. Furthermore, since the peripheral walls of the main case 11 are inclined inward from front to rear, the light emitted outward from the surface of the outer peripheral wall of the main case 11 is irradiated onto the surface of the mounting panel 20 surrounding the mounting base of the indicator light 10. At this time, the light irradiated onto the surface of the mounting panel 20 forms a ring shape when viewed from the front, and its diameter is larger than the diameter of the main case 11. As a result, even if the main case 11 is small, the light-emitting area is increased, and the visibility of the illuminated display when viewed from the front and at an angle can be improved.
[0019] Figure 1(B) shows a second embodiment of the indicator light 10 of the first embodiment. In this embodiment, the LED board 13 inside the main body case 11, which is arranged perpendicular to the front surface of the mounting panel 20 in the indicator light shown in Figure 1(A), is arranged parallel to the peripheral wall of the main body case 11, that is, diagonally to the front surface of the mounting panel 20. Therefore, in this embodiment of the indicator light, the distance between the light-emitting element 12 on the LED substrate 13 and the peripheral wall of the main body case 11 becomes shorter. As a result, the brightness of the ring of light irradiated onto the peripheral wall of the main body case 11 and the surface of the mounting panel 20 is more easily irradiated towards the mounting panel and the light-emitting area is more easily expanded compared to the indicator light shown in Figure 1(A).
[0020] Figure 2 shows a second embodiment of the indicator light 10 according to the present invention. In the second embodiment, the indicator light 10 is configured such that, in addition to the peripheral walls of the main case 11, the panel covering the front is also made of light-guiding material, so that light is emitted not only from the light-emitting section of the peripheral walls of the main case 11 but also from the front of the main case 11. In the indicator light shown in Figure 2(A), an LED board 13 with multiple light-emitting elements 12 mounted on both sides is arranged inside the main body case 11, parallel to the front panel. When viewed from the front, the light-emitting elements 12 mounted on the LED board 13 are arranged in a plurality at predetermined angles along the circumference. The light-emitting elements 12 on the back side of the LED board 13 only need to be provided in the area excluding the center of the board, and their number can be fewer than the light-emitting elements on the front side.
[0021] In the indicator light shown in Figure 2(B), multiple LED boards 13, each with multiple light-emitting elements 12 mounted on both sides, are arranged parallel to the peripheral wall of the main case 11. Although only two double-sided LED boards 13 are shown in Figure 2(B), when viewed from the front, multiple boards (for example, eight) are arranged at predetermined angles along the circumference. In the figure, the number of light-emitting elements 12 on the front and back sides of the LED board 13 is the same, but the number of light-emitting elements on the back side may be less than the number of light-emitting elements on the front side.
[0022] In the indicator light shown in Figure 2(C), an LED board 13 on which multiple light-emitting elements 12 are mounted on one side, facing diagonally forward, is positioned at the bottom of the main body case 11, parallel to the mounting surface of the mounting panel 20. When viewed from the front, the multiple light-emitting elements 12 mounted on the LED board 13 are arranged at predetermined angles along the circumference, and light is emitted radially from the light-emitting elements 12. Lenses may also be placed in front of each light-emitting element 12 to spread the light emitted from the light-emitting elements 12.
[0023] In the indicator light shown in Figure 2(D), an LED substrate 13 on which multiple light-emitting elements 12 are mounted on one side facing forward is arranged at the bottom of the main body case 11 so as to be parallel to the mounting surface of the mounting panel 20, and a light guide member 14 is provided that extends from the front of the light-emitting elements 12 toward the space between the peripheral wall of the main body case 11 and the front panel.
[0024] Furthermore, by forming numerous fine grooves on the surface of the light guide member 14 or by incorporating light-diffusing particles inside, the amount of light emitted along the length direction is adjusted. With this configuration, the distribution of light emitted from the peripheral wall of the main body case and the distribution of light emitted from the front panel can be controlled to be uniform or to a desired intensity. The light guide member 14 may be a single conical cylindrical member with a V-shaped cross-section, or it may be a plurality of rod-shaped light guide members arranged so that one end face of each is facing the light-emitting element 12.
[0025] Figure 3 shows a specific example of the mounting structure of the indicator light 10 to the mounting panel 20 according to the above embodiment. As shown in Figure 3(A), a cylindrical projection 15 larger than the thickness of the mounting panel 20 is provided on the back of the main body case 11 of the indicator light 10, and a male screw is formed on the outer circumference of this projection 15, and a ring-shaped nut 16 having a female screw on its inner surface that can be screwed onto this male screw is provided. In the figure, reference numeral 17 indicates a lead wire for supplying power to the LED board 13.
[0026] As shown in Figure 3(B), the indicator light 10 having the above configuration is fixed to the mounting panel 20 by inserting the protruding portion 15 on the back of the main body case 11 through the opening 21 provided in the mounting panel 20, then screwing a ring-shaped nut 16 onto the male thread on the outer circumference of the protruding portion 15 that protrudes to the rear of the mounting panel 20, and sandwiching the mounting panel 20 between the ring-shaped nut 16 and the rear wall of the main body case 11.
[0027] Furthermore, the mounting structure for the indicator light 10 to the mounting panel 20 is not limited to the above. For example, the height of the protrusion 15 on the back of the main body case 11 may be set to be the same as the thickness of the mounting panel 20, and a female screw may be formed on the back of the protrusion 15. This female screw may be used to connect a fixing plate that is slightly larger than the opening 21 and has screw insertion holes around its periphery with screws, and the fixing plate may be fixed to the back of the mounting panel 20 with screws inserted through the screw insertion holes around the periphery of the fixing plate, thereby fixing the indicator light 10 to the mounting panel 20.
[0028] Figure 4 shows modified examples of the indicator light 10 according to the first and second embodiments described above. In the first and second embodiments, the front edge of the main body case 11 of the indicator light 10 is sharp, which may cause damage if it is struck by cargo during transport. Therefore, in this modified example, a ring-shaped protective cover 18 made of an elastic material such as rubber is attached to cover the front edge of the main body case 11.
[0029] The surface of the protective cover 18 shall exhibit a color in the same color family as the light-emitting element 12, similar to the surface of the front panel. Instead of attaching the protective cover 18, the main body case 11 itself may be configured to have a rounded shape. Alternatively, the indicator light may be covered and protected by a protector made of a transparent material, having a shape as disclosed in Japanese Industrial Design Publication No. 1623495 and Japanese Industrial Design Publication No. 1623953.
[0030] Although the present invention has been described above based on embodiments, the present invention is not limited to those of the above embodiments. For example, in the above embodiments, the main body case 11 is a truncated conical cylinder shape, that is, a circular shape when viewed from the front, but an elliptical or polygonal shape when viewed from the front may also be used. Furthermore, although the above embodiment describes an example of fixing the main body case 11 from the rear side, the main body case 11 may be made removable from the front panel, and with the front panel removed, screws may be passed through screw holes formed in the rear wall of the main body case 11 and screwed into the screw holes of the mounting panel 20 to fix it in place. In the second embodiment (Figures 2(A), (B)), the LED substrate 13 may be provided as separate substrates for light-emitting elements facing the peripheral wall and for light-emitting elements facing the front panel.
[0031] Furthermore, although the above embodiment described the application of the present invention to a device consisting solely of an indicator light, it can also be applied to cases where a transmitter is placed in the center of the indicator light to form an integrated indicator light with a transmitter. In that case, an opening is formed in the center of the front panel of the main body case 11 of the indicator light 10, and the surface of the push button of the transmitter, which is disposed inside the main body case 11, is exposed through the opening. Alternatively, for example, a space may be provided inside the indicator light 10 to house a separate transmitter, thereby integrating the two.
[0032] Furthermore, although the above embodiment described the present invention with reference to indicator lights constituting disaster prevention equipment such as fire alarm systems, the present invention is not limited to indicator lights for disaster prevention equipment, but can be broadly applied to indicator lights installed near train emergency alarm transmitters installed on station platforms or level crossings, or indicator lights that are integrated with transmitters. [Explanation of Symbols]
[0033] 10 Indicator light 11 Main unit case 12 Light-emitting elements 13 LED boards 14 Light guide member 15 Protrusion 16 Ring-shaped nuts 17 Lead wires 18 Protective Cover
Claims
1. An indicator light comprising a main body case containing a circuit board on which multiple light-emitting elements are mounted, The peripheral wall of the main body case is formed of a light guide material and is inclined so that it becomes more central as it approaches the mounting surface. An indicator light characterized in that the plurality of light-emitting elements are mounted on the substrate such that the direction of light emission faces the peripheral wall, and a portion of the light emitted outward from the peripheral wall is irradiated onto the surface of the mounting surface.
2. The front panel of the main body case is formed of a light guide material, The indicator light according to claim 1, characterized in that the plurality of light-emitting elements include those mounted on the substrate so that the direction of light emission faces the peripheral wall, and those mounted on the substrate so that the direction of light emission faces the front panel.
3. The front panel of the main body case is formed of a light guide material, The indicator light according to claim 1, characterized in that the plurality of light-emitting elements are mounted on both sides of the substrate, the light-emitting elements mounted on one side of the substrate are mounted on the substrate so that the direction of light emission faces the peripheral wall, and the light-emitting elements mounted on the other side of the substrate are set so that the direction of light emission faces the front panel.
4. The front panel of the main body case is formed of a light guide material, Inside the main body case, a light guide member is provided that extends from the center of the rear wall toward the peripheral wall and the front panel. The indicator light according to claim 1, characterized in that the plurality of light-emitting elements are mounted on a substrate such that their light-emitting surfaces face the rear end face of the light-guiding member, and the light guided by the light-guiding member is irradiated onto the peripheral wall and front panel of the main body case.
5. The indicator light according to any one of claims 1 to 4, characterized in that an opening is formed in the center of the front panel of the main body case, facing the push button of a transmitter disposed inside the main body case.