1. Field of the Invention
The present invention relates to a combination smoke and heat detector.
2. Description of the Related Art
Conventionally, combination smoke and heat detector is normally installed to the indoor ceiling and the like, and include a temperature detection means for detecting air temperature, a smoke detection means for detecting smoke in the air, and a determination means for determining whether or not a fire occurs on the basis of detection results of those means. Further, the combination smoke and heat detector includes an “indication lamp” blinking for notifying that the combination smoke and heat detector is in a normal operational state, or lighting up for notifying that it is the combination smoke and heat detector which has detected the occurrence of a fire.
In the combination smoke and heat detector, a printed circuit board which is provided with the determination means is mounted in a cylindrical body base, the printed circuit board being provided with the temperature detection means and the smoke detection means. The temperature detection means includes a thermosensitive element such as a thermistor, and detects temperature at the leading end thereof. The smoke detection means includes light-emitting elements and light-receiving elements arranged in a dark chamber, and detects presence/absence or the extent of light scattering, which is caused by smoke particles. The dark chamber is mounted to the printed circuit board, and surrounded by a light-shieldable and ventilatable labyrinth body.
In addition, the printed circuit board is accommodated in a protective cover in which an opening portion for allowing the dark chamber to protrude therein and a through-hole for allowing the thermistor to pass therethrough are formed. The range in which the dark chamber and the thermistor protrude with respect to the protective cover is protected by a protector (refer to pages 3 to 4 and FIG. 1 of Japanese Patent Application Laid-open No. Hei 09-091559, for example).
However, in the invention disclosed in Patent Document 1, in the case of mounting the indication lamp (LED chip, for example) to the printed circuit board, even when the protective cover is provided with a visual confirmation window, light emitted from the indication lamp can be visually confirmed only in a particular direction on the straight line coupling the indication lamp and the protective cover with each other, and cannot be visually confirmed out of the direction. Thus, there are problems of inconvenience and rise in cost due to increases in number of components and in structural complexity.
Meanwhile, even when the indication lamp is raised up (separated) from the printed circuit board so as to partially protrude from a through-hole formed in the protective cover, light emitted from the indication lamp is shielded by the dark chamber protruding from the protective cover. As a result, the direction in which the light can be visually confirmed is limited, which leads to inconvenience.
Further, in the invention disclosed in Japanese Patent Application Laid-open No. Hei 09-091559, although the thermistor protrudes from the protective cover 30, the protruding side thereof is covered with the protector. In addition, although a vent hole is formed at a position of the protector, which corresponds to the thermistor, only a part of air (including smoke) flowing along the surface of the protector intrudes into the vent hole, and most of the air flows along the surface of the protector as it is without intruding into the vent hole. Thus, it is difficult to capture air (thermal currents) from the direction in which the dark chamber is sandwiched, and there is a problem that temperature of the air as described above cannot be satisfactorily measured.
The present invention has been made for solving the above-mentioned problems, and it is therefore an object of the present invention to provide a combination smoke and heat detector which allows, in spite of a simple structure, light emitted from an indication lamp to be visually confirmed from a wide range of directions.
Further, it is also an object of the present invention to provide a combination smoke and heat detector capable of protecting a thermosensitive element from being damaged and of reliably detecting temperature of ambient air by effectively capturing the thermal currents from the entire circumferential direction with use of the thermosensitive element.
(1) The present invention includes:
a body base;
a printed circuit board mounted to the body base;
a thermosensitive element provided upright on the printed circuit board;
a dark chamber mounted to the printed circuit board, for shielding external light so that smoke particles flow therein;
an indication lamp mounted to the printed circuit board;
a protective cover which is provided with respective opening holes through which the thermosensitive element and the dark chamber pass, and engaged with the body base; and
a bar-like light guide for guiding light emitted from the indication lamp to outside of the protective cover, in which:
the light guide passes through a through-hole formed in the protective cover so as to be mounted in the through-hole, with one end surface thereof being faced with the indication lamp, and another end surface thereof protruding to the outside of the protective cover by a height substantially equal to or larger than a protruding height of the dark chamber; and
the light guide is arranged oppositely to the thermosensitive element, with the dark chamber being sandwiched therebetween.
(2) In Item (1) described above,
the protective cover is provided with
a protruding amount of the another end surface of the light guide from the cover peripheral surface portion is substantially the same as that of the cover top surface portion.
(3) In Item (2) described above, one leg portion of the multiple leg portions communicates with the through-hole so as to be formed on an upper surface of the cover peripheral surface portion, and is provided with a cylindrical portion through which the light guide passes.
(4) Further, the present invention includes:
a body base;
a printed circuit board mounted to the body base;
a thermosensitive element provided upright on the printed circuit board;
a dark chamber mounted to the printed circuit board, for shielding external light so that smoke particles flow therein;
a protective cover which is provided with
a thermosensitive element protector provided upright on both sides of the thermosensitive element while straddling the cover peripheral surface portion and the cover top surface portion, in which:
a leading end of the thermosensitive element is provided at a height by which the leading end of the thermosensitive element protrudes on a lateral side of the dark chamber with respect to the cover top surface portion;
the thermosensitive element protector is constituted by a pair of arch-like members which have substantially an arch-like shape in side view;
the pair of arch-like members are provided with
an interval between the short leg portions becomes gradually larger toward a center of the cover top surface portion; and
an interval between the long leg portions becomes gradually smaller toward the center of the cover top surface portion.
(5) In Item (4) described above, a distance between positions of the short leg portions, which are closest to the center of the cover top surface portion, is larger than a distance between positions of the long leg portions, which are farthest from the center of the cover top surface portion.
(6) In Item (4) or (5) described above, on a side of the cover top surface portion of the long leg portions, base horizontal portions vertically provided on the cover peripheral surface portion are formed.
(I-i) The combination smoke and heat detector of the present invention includes the bar-like light guide passing through the protective cover, and the one end surface is faced with the indication lamp which is mounted to the printed circuit board, and the another end surface protrudes to the outside of the protective cover by the height substantially equal to or larger than the protruding height of the dark chamber. Therefore, in spite of a simple structure, in installation to the ceiling surface, the dark chamber does not interfere with the visibility, and the light emitted from the indication lamp can be visually confirmed in all the directions. Further, the light guide is arranged oppositely to the thermosensitive element while sandwiching the dark chamber therebetween, that is, arranged at a position farthest from the thermosensitive element. Thus, the thermosensitive element does not interfere with the visibility.
(I-ii) Further, the another end surface of the light guide is substantially flush with the cover top surface portion constituting the protective cover, and hence the light emission of the indication lamp can be visually confirmed from all the directions. In addition, the light guide has the height substantially the same as that of the cover top surface portion. Thus, the air flowing along the upper surface of the cover peripheral surface portion flows along the upper surface of the cover top surface portion as it is without being obstructed by the light guide, thereby reliably flowing to the thermosensitive element which is opposed thereto while sandwiching the dark chamber therebetween. Therefore, thermal-current capture by the thermosensitive element is not influenced.
(I-iii) Further, the light guide is protected with the cylindrical portion formed in the leg portion, and hence is prevented from being damaged by collision of foreign matters. Still further, the light guide is arranged in proximity with the lateral side of the dark chamber, and an arrangement relationship is established in which objects are less liable to collide therewith.
Further, the combination smoke and heat detector of the present invention has the structure according to Items (4) to (6) described above. Thus, for the following reasons, the combination smoke and heat detector can protect the thermosensitive element from collision of foreign matters and the like and can reliably detect temperature of ambient air by, when being installed to the ceiling surface, effectively capturing the thermal currents from the entire circumferential direction with use of the thermosensitive element.
(II-i) The leading end of the thermosensitive element is provided at a height by which the leading end thereof protrudes on the lateral side of the dark chamber with respect to the cover top surface portion, that is, does not hide behind the dark chamber. Thus, the leading end of the thermosensitive element is directly exposed to airflows along the outer surface of the cover top surface portion, and hence it is possible to effectively capture thermal currents from the direction in which the dark chamber is sandwiched therebetween.
(II-ii) The pair of short leg portions has a V-shape in which the pair of short leg portions are widen on the side to the center of the cover top surface portion in plan view. Therefore, the airflows along the outer surface of the cover top surface portion are collected by the pair of short leg portions, and flows effectively to the thermosensitive element.
(II-iii) The pair of long leg portions has an inverted V-shape in which the pair of long leg portions narrows on the side to the center of the cover top surface portion in plan view. Therefore, airflows from the front surface direction of the pair of long leg portions and along the outer surface of the cover peripheral surface portion are collected by the pair of long leg portions, and flows effectively to the thermosensitive element.
(II-iv) the short leg portions and long leg portions of the arch-like members have V-shapes in plan view, with the end horizontal portions being sandwiched therebetween, respectively. Therefore, airflows from the direction in side view and along the outer surface of the cover peripheral surface portion are collected by the short leg portions and the long leg portions of the arch-like members on the upstream side, and flows effectively to the thermosensitive element.
(II-v) Further, the opening degree (distance) of the short leg portions is larger than the opening degree of the long leg portions. Thus, intake of airflows along the outer surface of the cover top surface portion, which constitutes the low sensitive side, is promoted more than intake thereof on the cover peripheral surface portion side. As a result, it is possible to uniformize the sensitive properties in the entire circumferential direction of the thermosensitive element.
(II-vi) The thermosensitive element protector is provided upright on both sides of the thermosensitive element. Thus, the air vertically flowing (ascending) toward the thermosensitive element directly collides with the thermosensitive element, and hence temperature of the air from directly there below can be satisfactorily detected.
(II-vii) The thermosensitive element is surrounded by a member which forms an air duct as described above, that is, by members which are arranged so as to be capable of prevent intrusion of foreign matters (cleaning tools or fingers, for example), and hence is prevented from being damaged by collision of foreign matters and the like.
(II-viii) Further, on the side of the cover top surface portion of the long leg portions, the base horizontal portions vertically provided on the cover peripheral surface portion are formed. Thus, airflows from the direction in side view and along the outer surface of the cover peripheral surface portion collide with the base horizontal portions, and become descending air currents so as to reach the thermosensitive element. Thus, even when the thermosensitive element has a height by which the thermosensitive element protrudes with respect to the cover top surface portion in side view, the air currents effectively flow to the leading end of the thermistor.
In the accompanying drawings:
a) is a plan view of the combination smoke and heat detector illustrated in
a) and 7(b) are side sectional views illustrating the combination smoke and heat detector illustrated in
a) and (b) are perspective views illustrating an installation mode of the light guide of the combination smoke and heat detector illustrated in
In the following, a combination smoke and heat detector according to an embodiment of the present invention is described with reference to drawings. Note that, in each of the drawings, the same portions are denoted by the same reference symbols, and a part of description is omitted.
In
Note that, while the detector 100 is installed by means of the body base 10 to the indoor ceiling or the like through an intermediation of an attachment base (not shown), for the sake of convenience in description, the body base 10 is illustrated on the lower side and the protective cover 30 is illustrated on the upper side in the following drawings.
(Body Base)
The body base 10 includes a disk-like body bottom portion 11, a body cylindrical portion 12 having a cylindrical shape and provided upright on the outer periphery of the body bottom portion 11, and a circuit board support portion 13 provided on the body bottom portion 11.
The printed circuit board 1 includes a circuit and electronic components having a determination function for determining occurrence of a fire on the basis of detection results of the thermosensitive element 2 and detection results of the light-emitting elements and light-receiving elements, a notification function for notifying the determination results, and an operation check function for notifying that the thermosensitive element 2 and the light-emitting elements and light-receiving elements are normally operated. Further, the thermosensitive element 2, the light-emitting elements and light-receiving elements (not shown), and the indication lamp 4 are directly mounted on the printed circuit board 1 (refer to
The thermosensitive element 2 detects air temperature, that is, is a bar-like thermistor for detecting heat at the leading end thereof, which is provided upright on the lateral side of the dark chamber 3 and is attached to the printed circuit board 1 (hereinafter, refer to thermosensitive element 2 as “thermistor 2”).
(Dark Chamber)
The dark chamber 3 accommodates the light-emitting elements and light-receiving elements (not shown) arranged at predetermined intervals on the inside thereof. That is, in order to detect smoke particles that have intruded between the light-emitting elements and the light-receiving elements, the dark chamber 3 shields external light so as to allow the smoke particles alone to flow therein. That is, the dark chamber 3 is mounted to the printed circuit board 1, and includes a substantially cylindrical optics table 3a having an opening upper surface and a substantially disk-like optics table cover 3b for closing the upper surface of the optics table 3a, the optics table 3a being formed of a cylindrical labyrinth body in which a large number of light-shielding ribs are arranged in the peripheral portion so as to be light-shieldable and ventilatable. Further, an insect screen (not shown) is installed around the optics table 3a.
Further, the light-receiving elements detect scattered light at the time the light emitted from the light-emitting elements is scattered by smoke particles. On the basis of the detection result, the printed circuit board 1 determines presence of smoke particles, that is, whether or not a fire occurs. Note that, the present invention does not limit the dark chamber 3 and a detection means for smoke particles.
(Indication Lamp)
The indication lamp 4 is fixed to the printed circuit board 1, and is positioned oppositely to the thermistor 2, with the dark chamber 3 sandwiched therebetween. In addition, directly above the indication lamp 4, the lower end surface of the light guide 5 mounted to the protective cover 30 is faced in proximity therewith. (In this regard, detailed description is separately made.)
(Light Guide)
The light guide 5 is formed of a light-transmitting member so as to have a bar-like shape, and guides the light emitted from the indication lamp 4 to the outside of the protective cover 30. In the light guide 5, there is formed a pair of ribs 5d faced with each other on the side surface on one end surface side of a substantially columnar pole portion 5c, and on both the one and the other end surfaces, there are formed substantially spheroidal recessed portions 5a and 5b (for forming recessed lenses), respectively. (In this regard, detailed description is separately made.)
(Protective Cover)
The protective cover 30 includes a substantially annular cover peripheral surface portion 31, a substantially disk-like cover top surface portion 39, and cover leg portions 40 for coupling the cover peripheral surface portion 31 and the cover top surface portion 39 with each other.
The cover peripheral surface portion 31 includes an outer peripheral edge engaged with the leading end of the body cylindrical portion 12 of the body base 10. Further, in the cover peripheral surface portion 31, there is formed a substantially disk-like dark chamber through-hole (dark chamber opening portion) 33 at the center thereof, through which the dark chamber 3 passes so as to be arranged on the inside thereof. In addition, around the dark chamber through-hole 33, there are formed a substantially disk-like thermistor through-hole (thermistor opening portion) 32 through which the thermistor 2 passes and a substantially disk-like light guide through-hole 35 through which the light guide 5 passes (refer to
In this case, the thermistor through-hole 32 and the light guide through-hole 35 are opposed to each other, with the dark chamber through-hole 33 formed at the center thereof being sandwiched therebetween.
Further, on the lower surface of the cover peripheral surface portion 31, there is formed a screw stopping boss 34 for fixing the protective cover 30 to the body bottom portion 11, a fixation screw 6 passing through a screw stopping hole 14 which is formed in the body bottom portion 11 (body cylindrical portion 12) is threadedly engaged with a female screw formed on the screw stopping boss 34 (refer to
The cover top surface portion 39 protrudes above the cover peripheral surface portion 31 by a predetermined distance, and is arranged so as to cover the dark chamber through-hole 33 in plan view, whereby the upper surface of the dark chamber 3 is covered therewith. Further, between the outer peripheral edge of the cover top surface portion 39 and the inner peripheral edge of the dark chamber through-hole 33, there is formed a substantially cylindrical opening portion 38 as a smoke inlet, and through the opening portion 38, smoke (including air) flows in the dark chamber 3.
The cover leg portions 40 are substantially triangular plate members, and the tops thereof are joined to the outer peripheral edge of the cover top surface portion 39, and the bottoms thereof are joined to the upper surface of the cover peripheral surface portion 31. The cover leg portions 40 are arranged radially with respect to the center of the dark chamber 3 (corresponding to the center of dark chamber through-hole 33). Note that, the cover peripheral surface portion 31, the cover top surface portion 39, and the cover leg portions 40 are formed integrally with each other.
Further, there are mounted a light-guide protection leg 50 which constitutes a mode of protecting the light guide 5 while being sandwiched between the cover leg portions 40, and a thermistor protector (thermosensitive-element protector) 20 which constitutes a mode of protecting the thermistor 2 while being positioned oppositely to the light-guide protection leg 50. In the drawings, the cover leg portions 40, the light-guide protection leg 50, and the thermistor protector 20 are arranged equiangularly (at intervals of 60°) on substantially the same periphery. (Detailed description thereof is separately made.) Note that, the light-guide protection leg 50 and the thermistor protector 20 function as a part of the cover leg portions 40.
(Thermistor Protector)
The thermistor protector (hereinafter, abbreviated as “protector”) 20 is constituted by a pair of arch-like members 20a and 20b which are symmetrically arranged on both sides, with the thermistor 2 (thermistor through-hole 32) being sandwiched therebetween with respect to the radial direction of the protective cover 30 (direction of the line A-A in
The arch-like members 20a and 20b straddle the cover peripheral surface portion 31 and the cover top surface portion 39 and are formed integrally therewith, and include substantially flat-plate-like long leg portions 21a and 21b provided upright from the outer peripheral side of the thermistor through-hole 32 of the cover peripheral surface portion 31, substantially flat-plate-like short leg portions 29a and 29b provided upright from the peripheral edge of the cover top surface portion 39, substantially flat-plate-bar-like end horizontal portions 28a and 28b for respectively coupling with each other the leading ends of the long leg portions 21a and 21b and the leading ends of the short leg portions 29a and 29b, and substantially flat-plate-rectangular base horizontal portions 22a and 22b provided upright on the cover peripheral surface portion 31 on both sides of the thermistor through-hole 32. The base horizontal portions 22a and 22b are provided from the inside of the long leg portions 21a and 21b to the inner peripheral edge of the cover peripheral surface portion 31.
The end horizontal portions 28a and 28b are arranged in parallel with the radial direction of the protective cover 30 in plan view while being separated from each other to the extent of not preventing airflows into the thermistor 2, and in addition, are arranged at a height by which the end horizontal portions 28a and 28b protrude with respect to the thermistor 2 in side view.
The long leg portions 21a and 21b are arranged in an inverted V-shape in plan view so as to become closer to each other toward the thermistor 2 while sandwiching the diameter of the protective cover 30 therebetween (on both sides). Meanwhile, the short leg portions 29a and 29b are arranged in a V-shape in plan view so as to become closer to each other toward the thermistor 2 while sandwiching the diameter of the protective cover 30 therebetween (refer to
Further, in
W29>W28 (1)
W21>W28 (2)
W29>W21 (3)
In addition, the base horizontal portions 22a and 22b are substantially parallel respectively with the end horizontal portions 28a and 28b in plan view, and form predetermined gaps 26a and 26b together with the cover top surface portion 39 therebetween in side view. Accordingly, in side view, substantially rectangular spaces 27a and 27b including the gaps 26a and 26b are formed by the upper edges of the base horizontal portions 22a and 22b, the edges of the long leg portions 21a and 21b, which are closer to the center of the dark chamber 3, the lower edges of the end horizontal portions 28a and 28b, and the edges of the short leg portions 29a and 29b, which are farther from the center of the dark chamber 3.
In this case, as illustrated in
That is, regarding the air currents from the upper direction in
Further, the opening degree (distance W29) of the short leg portions 29a and 29b is larger than the opening degree (distance W21) of the long leg portions 21a and 21b. Thus, it is possible to capture much thermal currents from the direction in which the dark chamber 3 of low sensitivity is sandwiched therebetween, to thereby possible to uniformize the sensitive properties in the entire circumferential direction of the thermistor 2.
Further, the leading end of the thermistor 2 is positioned in proximity with the lower edges of the end horizontal portions 28a and 28b in side view, and can be visually confirmed through the spaces 27a and 27b. That is, air (including smoke) flowing from the direction in side view (left-and-right direction in
Note that, air (including smoke) from the lower direction in
Further, regarding the air currents from directly therebelow, the leading end of the thermistor 2 is positioned between the end horizontal portions 28a and 28b in plan view. Thus, the air vertically flowing (ascending) toward the thermistor 2 directly collides with the thermistor 2, and hence temperature of the air from directly therebelow can be satisfactorily detected.
Note that, as described above, the arch-like members 20a and 20b have, a function as a protector for preventing foreign matters and the like from colliding with the thermistor 2 as a matter of course, a function of effectively leading airflows without interference thereof and promoting the detection of the airflows, and a function as legs for coupling the cover peripheral surface portion 31 and the cover top surface portion 39 with each other, and in addition, as a pair of stiff legs. Therefore, the cover top surface portion 39 is suppressed from being deformed and damaged.
(Light-Guide Protection Leg)
The light-guide protection leg 50 includes a protection leg cylindrical portion 50a having a cylindrical shape and formed in the upper surface of the cover peripheral surface portion 31 while being communicated with the light guide through-hole 35, a protection leg coupling portion 50b for coupling the upper end of the protection leg cylindrical portion 50a and the cover top surface portion 39 with each other, rib fitting portions 50d formed in the lower surface of the cover peripheral surface portion 31 while being communicated with the light guide through-hole 35 (refer to
Further, the light guide 5 is inserted in the light guide through-hole 35 from the lower surface side of the cover peripheral surface portion 31 so as to pass through the protection leg cylindrical portion 50a. In this case, the ribs 5d formed on the side surface intrude (which has the same meaning as that of “fit-in”) in the rib fit-in portions 50d so as to be engaged therewith. Thus, the height of the light guide 5 is accurate, and the upper end of the light guide 5 is positioned at substantially the same height as that of the upper surface of the cover top surface portion 39.
Accordingly, in installation to the ceiling surface, the dark chamber 3 does not interfere with the visibility, and light emitted from the indication lamp 4 can be visually confirmed in a wide range (360°). Further, the light guide 5 is arranged oppositely to the thermistor 2 while sandwiching the dark camber 3 therebetween, and has a positional relationship in which the thermistor 2 is farthest therefrom. Thus, the thermistor 2 does not interfere with the visibility. Note that, the upper end of the light guide 5 may be positioned at a height by which the light guide 5 protrudes with respect to the upper surface of the cover top surface portion 39. Further, in a case where the protective cover 30 adopts a structure in which the dark camber 3 is not protected therewith, that is, in a case where the cover top surface portion 39 and the cover leg portions 40 are omitted and only the cover peripheral surface portion 31 constitutes the protective cover 30, it is enough that the upper end of the light guide 5 is positioned at a height substantially the same as that of the upper surface of the dark chamber 3, or at a height by which the light guide 5 protrudes with respect to the upper end surface of the dark chamber 3.
Further, the light guide 5 is protected with the protection leg cylindrical portion 50a formed in the light-guide protection leg 50, and hence is prevented from being damaged by collision of foreign matters and the like. Still further, the light guide 5 is arranged in proximity with the lateral side of the dark chamber 3, and an arrangement relationship is established in which objects are less liable to collide therewith.
In addition, the protection leg coupling portion 50b is formed to be thinner than the protection leg cylindrical portion 50a, the protection leg cylindrical portion 50a having a requisite minimum height for protecting the light guide 5 from collision with foreign matters and the like, and having the protruding amount from the cover peripheral surface portion 31 smaller than that from the cover top surface portion 39. Accordingly, air (including smoke) flowing along the upper surface of the cover peripheral surface portion 31 is maximally prevented from being obstructed by the light guide 5, the protection leg cylindrical portion 50a, and the protection leg coupling portion 50b, and is capable of flowing into the dark chamber 3.
Further, the light guide 5 has a height substantially the same as that of the cover top surface portion 39. Thus, air flowing along the upper surface of the cover peripheral surface portion 31 flows, along the upper surface of the cover top surface portion 39 without being obstructed by the light guide 5, reliably to the thermistor 2 which is opposed thereto while sandwiching the dark chamber 3 therebetween. Therefore, the air flowing along the upper surface of the cover peripheral surface portion 31 does not affect thermal-current capture conducted by the thermistor 2.
In addition, the light-guide protection leg 50 has a function of preventing the light guide 5 from being damaged, a function as a part of the cover leg portions 40 for coupling the cover peripheral surface portion 31 and the cover top surface portion 39 with each other, and a function as a stiff leg provided with the protection leg cylindrical portion 50a. Therefore, the cover top surface portion 39 is suppressed from being deformed and damaged.
(Installation Mode of Light Guide)
In
Since the recessed portions 5a and 5b are respectively formed in both the end surfaces of the light guide, light emitted from the indication lamp 4 can be effectively received from the one end surface (recessed portion 5a), and the light can be radiated over the wide range from the other end surface (recessed portion 5b). Therefore, the indication lamp 4 has high-intensity and is excellent in visibility from a wide range of directions.
Note that, lower end surfaces 5e and 5e of the ribs 5d and 5d are positions brought into contact with ejector pins for demolding the light guide 5 after injection molding thereof, and in rib side surfaces 5f and 5f of the ribs 5d and 5d, there are formed injection gates at the time of injection molding. Accordingly, the columnar portion (pole portion 5c) through which light is led is maintained to be sound, and light is prevented from being unnecessarily scattered through the side surfaces.
In
a) illustrates a state immediately before the pole portion 5c of the light guide 5 is inserted in the light guide through-hole 35 and the ribs 5d and 5d are press-fitted into the rib fit-in portions 50d.
Note that,
As described above, the combination smoke and heat detector of the present invention allows, in spite of a simple structure, light emitted from an indication lamp to be visually confirmed from a wide range of directions, and hence can be widely used as various combination smoke and heat detector installed in various places.
Number | Date | Country | Kind |
---|---|---|---|
2008-090021 | Mar 2008 | JP | national |
2008-090142 | Mar 2008 | JP | national |