JP3896096B2 - Gas leak alarm - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gas leak alarm, and more particularly, to a gas leak alarm provided with a light emitting element.
[0002]
[Prior art]
A gas leak alarm used to detect city gas and LP gas leaks is used for wall surfaces of kitchens that use gas (in the case of city gas that is lighter than air, near the ceiling, and LP gas that is heavier than air) In the case near the feet). And, it can be configured to recognize the gas leakage alarm device power-on (normal operation) state and gas leakage detection state by observing the lighting state of the LED provided in the gas leakage alarm device, such as lighting, extinguishing or blinking. Has been.
[0003]
As an example of such a gas leak alarm device, as shown in FIG. 11, a type in which an opening 12 is provided in front of a case 11 as a housing and the LED 10 is directly exposed is known. By the way, the movement of people and objects frequently occurs in the kitchen, and it is necessary to prevent the LED 10 from being damaged by the collision. For this reason, the LED 10 is generally arranged at a position retracted from the case 11 of the gas leak alarm so that the LED 10 does not protrude from the case 11.
[0004]
[Problems to be solved by the invention]
As described above, the gas leak alarm is often arranged near the feet in the case of LP gas and on the ceiling side in the case of city gas. It may also be placed on a wall in the corner of the room.
[0005]
For this reason, when the gas leak alarm is attached to the foot, the user visually recognizes the LED 11 from above the gas leak alarm, and when the gas leak alarm is attached to the ceiling, the user leaks the gas. It is necessary to visually recognize the LED 11 from below the alarm device. Further, when the gas leak alarm is attached to the wall at the right corner or the wall at the left corner, the user needs to check the LED from the left and right directions of the gas leak alarm, and visually recognize the LED 10 from the front. I can't.
[0006]
For this reason, there existed a problem that it became impossible to visually recognize lighting, extinction, or blinking of LED10 arrange | positioned in the position retracted from the case 11. FIG.
[0007]
Therefore, the present invention focuses on the above-described problems, and an object of the present invention is to provide a gas leak alarm device that can reliably distinguish the lighting state of the light emitting element from directions other than the front.
[0008]
[Means for Solving the Problems]
  The invention according to claim 1, which has been made to solve the above-described problems, includes a detection unit that detects gas leakage, a light emitting element that notifies a detection result of the detection unit, and a box that houses the detection unit and the light emitting element. A gas leakage alarm device having a mold-shaped housing, wherein the back surface of the housing is attached to a mounting wall, and the front surface of the housing facing the back surface of the housing and the front surface of the housing A taper surface is provided between the lower surface of the housing and the lower surface of the housing orthogonal to each other so that the distance from the back surface of the housing approaches the lower surface of the housing, and an opening is provided in the taper surface. The light emitting element is on the back side of the opening provided on the tapered surface of the housing.Having an optical axis in a direction perpendicular to the front of the housingThe light-emitting element and the opening are arranged side by side on the optical axis of the light-emitting element, and a translucent member that scatters light from the light-emitting element and emits surface light Provided to cover, the memberProjects substantially parallel to the optical axis of the light emitting element on the back side.Protrusions are formed on the periphery thereof, and the outer surfaces of the protrusions are provided on the periphery of the member so as to be exposed outside the housing, andThe surface covering the opening of the member is tapered parallel to the tapered surface, and is provided so as to protrude from the tapered surface to the outside of the housing.It exists in the gas leak alarm characterized by this.
  According to a second aspect of the present invention, there is provided a detecting means for detecting a gas leak, a light emitting element for notifying a detection result of the detecting means, and a box-shaped housing for housing the detecting means and the light emitting element. A gas leak alarm, wherein a rear surface of the housing is attached to a mounting wall, and a front surface of the housing facing the rear surface of the housing and an upper surface of the housing orthogonal to the front surface of the housing A taper surface is provided so that the distance from the back surface of the housing becomes closer as the upper surface of the housing is closer to, and an opening is provided in the taper surface. On the back side of the opening on the taper surfaceHaving an optical axis in a direction perpendicular to the front of the housingThe light-emitting element and the opening are arranged side by side on the optical axis of the light-emitting element, and a translucent member that scatters light from the light-emitting element and emits surface light Provided to cover, the memberA convex portion projecting substantially parallel to the optical axis of the light emitting element is formed on the back side.Formed on the periphery of the member, and provided on the periphery of the member such that the outer surface of the convex portion is exposed outside the housing; andThe surface covering the opening of the member is tapered parallel to the tapered surface, and is provided so as to protrude from the tapered surface to the outside of the housing.It exists in the gas leak alarm characterized by this.
[0009]
  Claim1 and 2According to the described invention, the light emitting element is arranged on the back side of the opening provided on one surface of the housing. A translucent member that covers the opening and scatters light from the light emitting element is disposed on the front side of the light emitting element. Therefore, by scattering light from the light emitting element, the member covering the opening can be surface-emitted.
  According to the invention of claim 1,The casing of the gas leak alarm has a box shape, and the back surface is attached to the attachment wall. The front of this enclosureunderBetween the sides,underThere is a tapered surface that gets closer to the back as you get closer to the side. TeAn opening is provided in the super surface.Further, the member is provided with a convex portion that protrudes on the back side at the peripheral edge thereof, and is provided at the peripheral edge of the member so that the outer surface of the convex portion is exposed outside the housing.According to the above configuration, if the rear surface of the housing is mounted toward the mounting wall where the gas leak alarm is to be mounted, it cannot be viewed from the front side, and a tapered surface is provided.underWhen it is necessary to visually recognize from the side, the visibility of the member covering the opening can be improved.
  Therefore, if you want to install the gas leak alarm on the side wall on the ceiling side of the room, a tapered surface is provided.underIf the side is attached vertically downward and the back is attached to the side wall on the ceiling side, the visibility of the member covering the opening can be improved when viewed from below.
  According to the second aspect of the present invention, the casing of the gas leak alarm has a box shape, and the back surface is attached to the attachment wall. A tapered surface is provided between the front surface and the upper side surface of the housing so that the distance from the rear surface decreases as the upper surface is approached. An opening is provided in the tapered surface. Further, the member is provided with a convex portion that protrudes on the back side at the peripheral edge thereof, and is provided at the peripheral edge of the member so that the outer surface of the convex portion is exposed outside the housing. According to the above configuration, if the rear surface of the housing is mounted toward the mounting wall where the gas leak alarm is to be mounted, it cannot be viewed from the front side, and must be viewed from the upper side where the tapered surface is provided. In this case, the visibility of the member covering the opening can be improved.
  Therefore, if you want to attach the gas leak alarm to the side wall near the foot of the room, the upper side with the tapered surface is directed vertically upward, and the back is attached to the side wall near the foot. In this case, the visibility of the member covering the opening can be improved.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
First embodiment
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a partial cross-sectional view showing a first embodiment of a gas leak alarm according to the present invention. As shown in the figure, a case 20 as a casing of a gas leak alarm device has a gas sensor (not shown) as a detecting means for detecting gas leak, and light emission that is turned on when the gas sensor detects gas leak. An element and a red light emitting diode (hereinafter, red LED) 21R as an alarm light emitting element are accommodated. The red LED 21R is mounted on a substrate 26 installed inside the case 20.
[0034]
An opening 22 is provided in front of the case 20, and a milky white translucent polycarbonate plate 23 (hereinafter referred to as a PC plate 23) is disposed so as to cover the opening 22. The PC plate 23 corresponds to a member in the claims, and light is scattered by crystals dispersed inside. Further, the peripheral edge of the PC plate 23 is provided with a convex portion 23a that protrudes toward the back surface, and the outer surface 23a-1 of the convex portion 23a is exposed to the outside of the case 20. Further, the inner peripheral angle R1 and the outer peripheral angle R2 formed by the PC plate 23 and the convex portion 23a provided at the periphery are provided with curvature.
[0035]
A red LED 21 </ b> R is disposed on the back side of the PC plate 23. Further, a white wall 24 is provided around the red LED 21R. Further, the red LED 21R and the PC plate 23 are configured such that the entire PC plate 23 has a half-value angle θ of the red LED 21R._1/2It is placed in a position where the distance between the two is the shortest.
[0036]
Where the half-value angle θ_1/2Will be described with reference to FIG. FIG. 2 is a diagram showing the directivity characteristics of the red LED 21R, and shows the ratio of the luminous intensity that can be seen from the direction inclined at an arbitrary angle with respect to the red LED 21R when the luminous intensity on the axis X of the red LED 21R is 100%. It is. The half-value angle is an angle θ at which the luminous intensity on the axis X of the red LED 21R is exactly 50% when the luminous intensity is 100%._1/2Say.
[0037]
According to the gas leak alarm having the above configuration, the milky white PC plate 23 that scatters light covers the opening 22 provided on one surface of the case 20, and the red LED 21R is disposed on the back side of the opening 22. Yes. As a result, when the red LED 21R emits light, the light L1 that is directly incident on the PC plate 23 from the red LED 21R or the light L2 that is incident after being reflected by the wall portion 24 is scattered inside the PC plate 23, and the PC plate 23 It appears to emit light. That is, even if the surface covering the opening 22 appears to emit light and the red LED 21R is retracted from the case 20, the lighting state of the red LED 21R can be reliably distinguished from directions other than the front.
[0038]
In addition, as described above, the gas leakage alarm device has the half-value angle θ of the red LED 21R as a whole of the PC board 23._1/2A red LED 21R and a PC plate 23 are arranged so as to enter the inside. For this reason, light is emitted toward the end of the PC board 23, and the entire surface covering the opening 22 appears to emit light, and the lighting state of the red LED 21R can be more reliably distinguished from directions other than the front.
[0039]
Further, according to the gas leak alarm described above, the half-value angle θ_1/2Inside, the red LED 21R and the PC 23 are arranged so that the distance between the red LED 21R and the PC plate 23 is the shortest. For this reason, the PC plate 23 is moved to the half-value angle θ._1/2The brightest light can be emitted.
[0040]
Moreover, the gas leak alarm mentioned above has provided the wall part 24 around red LED21R. For this reason, the suitable position between PC board 23-red LED21R can be obtained using reflection of the light L2 from red LED21R in the wall part 24. FIG. Moreover, in addition to the red LED 21R, for example, when a blue light emitting diode (blue LED) that is always lit when the gas leak alarm is activated is disposed nearby, it is possible to prevent light from mixing with each other. The wall portion 24 is coated with a white paint. Thereby, the reflectance of the light from the red LED 21 </ b> R at the wall portion 24 is increased, and more light is incident on the PC plate 23.
[0041]
Further, by exposing the outer surface 23a-1 of the convex portion 23a to the outside of the case 20, light is emitted also from the outer surface of the convex portion 23a, so that the lighting state of the red LED 21R can be distinguished in a wider range. . Further, by adding curvature to the inner peripheral angle R1 and the outer peripheral angle R2, the light from the LED 21R and the portion with the curvature are substantially orthogonal, and the reflection of the light from the red LED 21R at the inner peripheral angle R1 and the outer peripheral angle R2. And more light is incident on the PC plate 23.
[0042]
Further, by covering the opening 22 with the PC board 23, dust can be prevented from entering the case 22, and malfunction of the internal circuit due to static electricity caused by the dust can be prevented.
[0043]
In the first embodiment described above, as shown in FIG. 1, the entire PC board 23 is formed of the half-value angle θ of the red LED 21R._1/2The PC board 23 and the red LED 21R are arranged so as to enter the inside. However, for example, as shown in FIG._1/2It is also possible to use the spotlight type as a single point concentrated type so as not to be inside.
[0044]
In the first embodiment described above, the half-value angle θ_1/2Inside, the red LED 21R and the PC 23 are arranged so that the distance between the red LED 21R and the PC plate 23 is the shortest. However, if the brightness of the red LED 21R is sufficiently bright, the distance between the red 21R-PC board 23 may be increased.
[0045]
Moreover, as 1st Embodiment mentioned above, the opening part 22 in the front of red LED21R was covered with the milky white PC board 23. FIG. The PC plate 23 scatters light by internal dispersed crystals. However, for example, it is conceivable that the opening 22 is covered with a material that scatters light on the surface portion by applying surface processing such as making the surface of the light transmission plate uneven.
[0046]
Further, as shown in FIG. 4, the shape of the PC plate 23 described above has a convex lens shape on the front surface, and enlarges the light of the red LED 21R, or adds curvature to the surface on the back surface, so that more It is also conceivable that light from the red LED 21R enters the PC plate 23. It is also conceivable to apply surface processing 30 that scatters light to portions other than the convex lens shape.
[0047]
Second embodiment
Next explained is the second embodiment of the invention.
5 (a) and 5 (b) are a front view and a side view showing a second embodiment of the gas leak alarm of the present invention. FIG. 6 is a partial cross-sectional view taken along line AA of the gas leak alarm shown in FIG. As in the first embodiment, the case 20 of the gas leak alarm device of the second embodiment includes a gas sensor (= detection means) (not shown) that detects a gas leak, and a red light that lights when the gas sensor detects a gas leak. An LED 21R (FIG. 6) and a blue LED 21B (FIG. 6) that is always lit during operation are accommodated. The red LED 21 </ b> R and the blue LED 21 </ b> B are mounted on a substrate 26 installed inside the case 20.
[0048]
Further, as shown in FIG. 5, the gas leak alarm device faces the front surface 20b as it approaches the side surface 20c between the front surface 20b which is one surface of the case 20 and the side surface 20c orthogonal to the front surface 20b. A tapered surface 20d that is closer to the back surface 20a is provided.
[0049]
As shown in FIG. 6, the tapered surface 20 d is provided with an opening 22, and a PC plate 23 similar to that in the first embodiment is disposed so as to cover the opening 22. The red LED 21R and the blue LED 21B are arranged on the back side of the PC board 23. Further, wall portions 24 are provided around the red LED 21R, the light emitting element, and the blue LED 21B as a normal light emitting element.
[0050]
As described above, by providing the opening 22 in the tapered surface 20d, the PC board that covers the opening 22 even when the gas leak alarm cannot be viewed from the front 20b side and needs to be viewed from the side 20c side. It becomes easy to visually recognize the surface light emission 23, and the lighting state of the red LED 21R and the blue LED 21B can be reliably identified.
[0051]
Therefore, for example, when it is desired to attach the gas leak alarm to the side wall near the foot of the room, the side surface 20c provided with the tapered surface 20d is directed vertically upward, and the back surface 20a is directed to the side wall near the foot, When viewed from above, the visibility of the PC plate 23 covering the opening 22 can be improved. When the gas leak alarm is to be attached to the side wall on the ceiling side of the room, the side surface 20c provided with the tapered surface 20d is directed vertically downward, and the back surface 20a is directed to the side wall on the ceiling side. When visually recognized, the visibility of the PC plate 23 covering the opening 22 can be improved.
[0052]
If the gas leak alarm is to be attached to the side wall at the corner of the room, the side surface 20c provided with the tapered surface 20d is directed to the left and right sides, and the back surface 20a is directed to the side wall at the corner. When visually recognized, the visibility of the PC plate 23 covering the opening 22 can be improved. When it is desired to attach the gas leak alarm to the side wall side of the ceiling wall of the room, the side surface 20c provided with the taper surface 20d is directed vertically downward, directed to the center of the room, and the rear surface 20a is directed to the ceiling wall. The visibility of the PC plate 23 covering the opening 22 can be improved when the ceiling is viewed from the center.
[0053]
Moreover, as shown in FIG. 6, the red LED 21R is provided on the side surface 20c side in the vertically upward direction from the blue LED 21B. This is because when the red and blue LEDs 21R and 21B are provided on the substrate 26 parallel to the side surface 20b, the distance between the red LED 21R and the PC plate 23 is shorter than the distance between the blue LED 21R and the PC plate 23. The PC board 23 can emit light brighter when the red LED 21R emits light than when the blue LED 21B emits light.
[0054]
Moreover, according to the above gas leak alarm, red LED21R and blue 21B are arrange | positioned on the back surface of the single PC board 23. FIG. Therefore, when the red LED 21R is not emitting light, the blue 21B light can be actively guided to the PC board 23 on the red LED 21R side, and the PC board 23 on the red LED 21R side is visually recognized as bluish. For this reason, since the PC board 23 can emit light in a wide range by the light from the blue LED 21B, the lighting state of the blue LED 21B is just because the distance between the blue LED 21B and the PC board 23 is longer than the distance between the red 21R and the PC 23. Is not difficult to distinguish.
[0055]
Further, by arranging a single PC board 23 and enlarging the PC board 23, a part where the surface emission luminance of the PC board 23 decreases as the distance from the blue LED 21B increases, and an effect of gradation can be obtained. it can.
[0056]
Also, by arranging a single PC board 23, when the blue LED 21B is extinguished and only the red LED 21R emits light at the time of alarm, the light of the red LED 21R is also positively applied to the PC board 23 on the blue LED 21B side. The PC board 23 on the blue LED 21B side is visually recognized as reddish. For this reason, since the PC board 23 can emit light in a wide range by the light from the red LED 21R, it becomes easy to distinguish the lighting state of the red LED 21R and the blue LED 21B. Similarly, a gradation effect can be obtained.
[0057]
Note that, according to the second embodiment described above, the PC plate 23 is formed with a recess at the boundary between the red LED 21R and the blue LED 21B, as shown in FIG. However, for example, as shown in FIG. 7, if the recess is not formed but is formed flat, the PC board 23 emits light in a wider range by light from the blue LED 21B and the red LED 21R.
[0058]
Further, as shown in FIG. 7, when the wall portion 24 provided between the red LED 21R and the blue LED 21B is lowered and a gap 27 is provided between the PC plate 23 and the wall 24, the gap 27 The light from the blue LED 21B is allowed to pass from the wall 24 to the red LED 21R side. For this reason, the light from the blue LED 21 </ b> B is incident on the PC plate 23 on the red LED 32 </ b> R side from the wall portion 24. On the other hand, the gap 27 allows the light from the red LED 21B to pass from the wall 24 to the blue LED 21R side, and the light from the red LED 21R enters the PC board 23 on the blue LED 32B side from the wall 24. For this reason, when only the red LED 21R or only the blue LED 21B emits light, the PC plate 23 emits light over a wide area by the light.
[0059]
Even if the gap 27 is not provided, for example, by making a hole somewhere in the wall portion 24 provided between the red LED 21R and the blue LED 21B, the light from the blue LED 21B or the red LED 21R can The plate 23 can emit light over a wider range.
[0060]
Further, as shown in FIG. 8, a refracting surface 28a is formed so as to protrude from the red LED 21R and blue LED 21B side of the PC plate 23 and refract the light from the blue LED 21B toward the PC plate 23 on the red LED 21R side. It is also conceivable to provide a prism 28.
[0061]
By this refracting surface 28a, the light from the blue LED 21B can be guided so that the incident area of the light from the blue LED 21B with respect to the PC plate 23 expands to the red LED 21R side of the PC plate 23. Therefore, when only the blue LED 21B emits light, the PC plate 23 emits light over a wide area by the light. In FIG. 8, the wall portion 24 provided between the red LED 21R and the blue LED 21B is made lower than that in FIG. 7 and the gap 27 is increased, so that only the red LED 21R or the blue LED 21B is obtained. When only the light is emitted, the PC plate 23 emits light in a wide range by the light.
[0062]
In the case shown in FIG. 8, the refracting surface 28a provided on the prism 28 is provided to refract the light from the blue LED 21B toward the PC plate 23 on the red LED 21R side, but conversely from the red LED 21R. May be refracted toward the PC board 23 on the blue LED 21B side.
[0063]
In FIG. 8, a part of the PC plate 23 is protruded to provide the prism 28 having the refracting surface 28a. That is, the PC plate 23 and the prism 28a are integrally formed of the same member. However, even if the prism 28a is formed of the same member as the PC plate 23 that scatters light, even if the refracting surface 28a that refracts the light from the blue LED 21B toward the PC plate 23 on the red LED 21R side is provided, the prism 28a is refracted. A part of the light refracted on the surface 28a is scattered and is not guided to the PC board 23 on the red LED 21R side. Similarly, even if a refracting surface 28a for refracting light from the red LED 21R toward the PC board 23 on the blue LED 21B side is provided, a part of the light refracted on the refracting surface 28a is scattered and the PC board on the blue LED 21B side. Not led to.
[0064]
Therefore, the prism 28 may be formed of a transparent member. In this way, no scattering occurs at the prism 28 portion, and most of the light refracted by the refractive surface 28a is guided to the PC board 23 on the red LED 21R side or the blue LED 21B side. Therefore, when only the red LED 21R or only the blue LED 21B emits light, the PC plate 23 emits light in a wide range by the light.
[0065]
The prism 28 formed from this transparent member may be formed integrally with the PC plate 23 by, for example, two-color formation, or may be formed separately from the PC plate 23 and bonded at the time of assembly.
[0066]
Furthermore, as shown in FIG. 9, it is conceivable to arrange a light guide plate 25 between the PC plate 23 and the red LED 21R and the blue LED 21B. The surface on the front side of the light guide plate 25 is larger than the emission area of the red LED 21R and the blue LED 21B. The light guide plate 25 is formed with light collecting portions 25a and 25b that protrude toward the back side. The condensing portions 25a and 25b are provided with condensing surfaces 25c and 25d provided with substantially hemispherical holes, respectively, and red LEDs 21R are provided in the substantially hemispherical holes provided on the condensing surfaces 25c and 25d. Part of the blue LED 21B is inserted.
[0067]
Further, the light guide plate 25 includes a reflection surface 25e that reflects light from the red LED 21R guided through the light collecting unit 25a toward the blue LED 21B, and light from the blue LED 21B that guides the light collecting unit 25b toward the red LED 21R. A reflective surface 25f that reflects light and a reflective surface 25g formed on the back surface side are provided.
[0068]
According to the above configuration, the light from the blue LED 21B is incident on the condensing unit 25b from the condensing surface 25d and guides the condensing unit 25b toward the reflecting surface 25f. And the light which reached | attained the reflective surface 25f goes to the light-guide plate 25 by the side of red LED21R with the reflective surface 25f. And after that, it is reflected by the reflecting surface 25g or guided to the entire light guide plate 25, and the entire light guide plate 25 emits light. For this reason, the light from the blue LED 21b can be guided by the light guide plate 25 so that the incident area of the light from the blue LED 21B with respect to the PC plate 23 is expanded to the red LED 21 side. Therefore, when only the blue LED 21B emits light, the PC plate 23 emits light over a wide area by the light.
[0069]
Further, the light from the red LED 21R is incident on the light collecting portion 25a from the light collecting surface 25c and guides the light collecting portion 25a toward the reflecting surface 25e. And the light which reached | attained the reflective surface 25e goes to the light-guide plate 25 by the side of blue LED21B with the reflective surface 25e. And after that, it is reflected by the reflecting surface 25g or guided to the entire light guide plate 25, and the entire light guide plate 25 emits light. For this reason, the light from the red LED 21R can be guided by the light guide plate 25 so that the incident area of the light from the red LED 21R with respect to the PC plate 23 is expanded to the blue LED 21B side. Therefore, when only the red LED 21R emits light, the PC plate 23 emits light over a wide area by the light.
[0070]
As is clear from the above, the refracting surface 28a or the light guide plate 25 provided on the prism 28 corresponds to the light guide portion in the claims.
[0071]
Moreover, according to 2nd Embodiment mentioned above, the single PC board 23 was provided in the front side of red LED21R and blue LED23B. However, for example, it is conceivable to arrange separate PC plates 23 on the front side of the red LED 21R and on the front side of the blue LED 23B. Also in this case, if the refracting surface 28a is provided or the light guide plate 25 is provided, similarly, the light from the blue LED 21B is guided to the PC plate 23 on the red LED 21R side, or the light from the red LED 21R is on the red LED 21R side. Light is emitted in a wide range.
[0072]
In the second embodiment, nothing has been said about the degree of light scattering on the PC plate 23. For example, a uniform degree of scattering can be considered. It is also conceivable that the scattering degree on the red LED 21R side of the PC plate 23 is made larger than the scattering degree on the blue LED 21B side of the PC plate 23. This is because the red LED 21R has a shorter distance from the PC plate 23, the diffusion of light from the red LED 21R is small, and the surface emission area may be small.
[0073]
Further, according to the first and second embodiments described above, the opening 22 is covered with the PC plate 23 that is a material that scatters light. However, for example, light is also scattered by applying an uneven surface that scatters light to the surface of the member covering the opening on the red or blue LED 21R, 21B side or the surface opposite to the red or blue LED 21R, 21B. Can be made.
[0074]
Third embodiment
Next, a third embodiment of the present invention will be described below.
FIG. 10 is a partial sectional view showing a third embodiment of the gas leak alarm of the present invention. As shown in the figure, in the case 20 of the gas leakage alarm device of the third embodiment, a gas sensor (= detecting means) (not shown) that detects gas leakage and a red LED 21R that lights when this gas sensor detects gas leakage. And a blue LED 21 </ b> B that is lit when the gas sensor has not detected a gas leak.
[0075]
An opening 22 is provided on one surface of the case 20, and a light guide plate 25 is disposed so as to cover the opening 22. The light guide plate 25 has the same configuration as the light guide plate described in FIG.
[0076]
According to the above configuration, a detection result that no gas leakage has occurred is obtained, and when the blue LED 21B emits light, the light from the blue LED 21B is guided to the light guide plate 25, and the blue light is emitted from the front side of the light guide plate 25. The entire surface emits light. On the other hand, when the detection result that gas leakage has occurred is obtained and the red LED 21R emits light, the light from the red LED 21R is guided to the light guide plate 25, and the entire front side surface of the light guide plate 25 is red. Since light is emitted, visibility can be improved.
[0077]
Even if the red LED 21R and the blue LED 21B cannot be arranged on the back side of the opening 22 due to the installation position of the red LED 21R and the blue LED 21B mounted on the substrate, the opening portion can be obtained by using the light guide plate 25. The entire surface covering 22 can be made to emit light.
[0078]
【The invention's effect】
  As explained above, the claims1 and 2According to the described invention, since the member covering the opening can be surface-emitted by scattering the light from the light-emitting element, the gas that can reliably distinguish the lighting state of the light-emitting element from directions other than the front surface A leak alarm can be obtained.
  According to the first aspect of the present invention, when the gas leak alarm is to be attached to the side wall on the ceiling side of the room, the lower side surface provided with the tapered surface is directed vertically downward and the rear side is the side wall on the ceiling side. If it is attached toward the bottom, it is possible to improve the visibility of the member that covers the opening when viewed from below, so that a gas leak alarm that can more reliably identify the lighting state of the light emitting element can be obtained. it can.
  Also,According to the second aspect of the present invention, when the gas leak alarm is to be attached to the side wall near the foot of the room, the upper side surface provided with the taper surface is directed vertically upward, and the back surface is directed to the side wall near the foot surface. If it is attached, the visibility of the member covering the opening can be improved when viewed from above, so that a gas leak alarm that can more reliably recognize the lighting state of the light emitting element can be obtained.
[Brief description of the drawings]
FIG. 1 is a partial sectional view showing a first embodiment of a gas leak alarm according to the present invention.
FIG. 2 is a directivity characteristic diagram for explaining a half-value angle.
FIG. 3 is a partial cross-sectional view showing another embodiment of the gas leak alarm of the present invention.
FIG. 4 is a partial cross-sectional view showing another embodiment of the gas leak alarm of the present invention.
FIGS. 5A and 5B are a front view and a side view showing a second embodiment of a gas leak alarm according to the present invention. FIGS.
6 is a partial cross-sectional view taken along line AA of the gas leak alarm shown in FIG. 5 (a).
7 is a partial cross-sectional view taken along line AA in another embodiment of the gas leak alarm shown in FIG.
8 is a partial cross-sectional view taken along line AA in another embodiment of the gas leak alarm shown in FIG. 5 (a). FIG.
FIG. 9 is a partial cross-sectional view taken along line AA in another embodiment of the gas leak alarm shown in FIG.
FIG. 10 is a partial cross-sectional view of a gas leak alarm according to a third embodiment.
FIG. 11 is a cross-sectional view showing an example of a conventional gas leak alarm.
[Explanation of symbols]
20d taper surface
21R Red LED (light emitting element, warning light emitting element)
21B Blue LED (light emitting element, normal light emitting element)
22 opening
23 PC board (member)
28a Refractive surface (light guide)
24 walls
25 Light guide plate (light guide part)
27 Clearance
R1 inner peripheral angle
R2 outer peripheral angle
θ_1/2  Half-value angle

Claims (2)

A gas leak alarm device comprising: a detecting means for detecting gas leakage; a light emitting element for informing a detection result of the detecting means; and a box-shaped housing for housing the detecting means and the light emitting element,
The back of the housing is attached to a mounting wall,
The distance between the front surface of the housing that faces the back surface of the housing and the lower surface of the housing that is orthogonal to the front surface of the housing increases toward the lower surface of the housing. A tapered surface is provided so that the distance approaches,
An opening is provided in the tapered surface;
The light emitting element is disposed on the back side of the opening provided on the tapered surface of the casing with an optical axis in a direction orthogonal to the front of the casing, and the light emitting element and the opening Are arranged side by side on the optical axis of the light emitting element,
A translucent member that scatters light from the light emitting element and emits a surface is provided so as to cover the opening,
The member is provided with a convex portion formed on the rear side thereof so as to protrude substantially parallel to the optical axis of the light emitting element, and an outer surface of the convex portion is exposed to the outside of the casing. At the periphery, and
The gas leakage alarm device according to claim 1, wherein a surface covering the opening of the member is tapered parallel to the tapered surface, and is provided so as to protrude outward from the tapered surface . A gas leak alarm device comprising: a detecting means for detecting gas leakage; a light emitting element for informing a detection result of the detecting means; and a box-shaped housing for housing the detecting means and the light emitting element,
The back of the housing is attached to a mounting wall,
The distance between the front surface of the housing opposite to the rear surface of the housing and the upper surface of the housing orthogonal to the front surface of the housing approaches the upper surface of the housing. A tapered surface is provided so that the distance approaches,
An opening is provided in the tapered surface;
The light emitting element is disposed on the back side of the opening provided on the tapered surface of the casing with an optical axis in a direction orthogonal to the front of the casing, and the light emitting element and the opening Are arranged side by side on the optical axis of the light emitting element,
A translucent member that scatters light from the light emitting element and emits a surface is provided so as to cover the opening,
The member is provided with a convex portion formed on the rear side thereof so as to protrude substantially parallel to the optical axis of the light emitting element, and an outer surface of the convex portion is exposed to the outside of the casing. At the periphery, and
The gas leakage alarm device according to claim 1, wherein a surface covering the opening of the member is tapered parallel to the tapered surface, and is provided so as to protrude outward from the tapered surface .

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