JP4772076B2 - Thermal smoke combined fire detector - Google Patents

Description

  The present invention relates to a thermal smoke combined fire detector.

  Conventionally, a thermal smoke combined fire detector is usually installed on a ceiling such as indoors, and includes a temperature detection means for detecting air temperature, a smoke detection means for detecting smoke in the air, and these Determining means for determining the occurrence of a fire based on the detection result. In addition, it flashes to indicate that the combined fire and smoke detector is operating normally, or lights to notify that the combined fire and smoke detector has detected the occurrence of a fire. It has an indicator light.

In the thermal smoke combined fire detector, a printed circuit board on which a judgment unit is mounted on a cylindrical main body base is installed, and a temperature detection unit and a smoke detection unit are installed on the printed circuit board. The temperature detecting means is a thermosensitive element such as a thermistor and detects the temperature at the tip thereof. The smoke detecting means is a light emitting element and a light receiving element arranged in the dark room, and detects the presence or absence or degree of light scattering by the smoke particles. The dark room is installed on a printed circuit board and is surrounded by a labyrinth body that can be ventilated and shielded.
Furthermore, the printed circuit board is housed in a protective cover in which an opening for projecting the dark room and a through-hole through which the thermistor passes are formed, and the area protruding from the protective cover of the dark room and the thermistor is protected by a protective device. (For example, refer to Patent Document 1).

JP 09-091559 A (page 3-4, FIG. 1)

However, in the invention disclosed in Patent Document 1, when an indicator lamp (for example, a chip LED) is installed on a printed board, even if a viewing window is provided on the protective cover, a straight line connecting the indicator lamp and the protective cover. It is only possible to see the light of the indicator light only in a specific direction above, and it cannot be seen if it goes out of this direction, so it is not convenient, and it is manufactured by increasing the number of parts and complicated structure There was a problem that the cost increased.
On the other hand, even if the indicator lamp is raised (separated) from the printed circuit board and partially protrudes from the through-hole formed in the protective cover, it is blocked by the dark room protruding from the protective cover and is visible However, there is a problem of lack of convenience.

  SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problem and to provide a thermal smoke combined fire detector capable of visually recognizing light emitted from an indicator lamp from a wide direction while having a simple structure.

(1) This application includes a main body base, a printed circuit board installed on the main body base, a thermal element installed on the printed circuit board, and installed on the printed circuit board. An inflow dark box, an indicator lamp installed on the printed circuit board, each opening through which the thermal element and the dark box penetrate, a protective cover joined to the main body base, and light emitted by the indicator lamp A light guide for guiding the outside of the protective cover ,
The light guide is formed only from a rod-shaped portion , passes through a through-hole formed in the protective cover, is installed in the through-hole, and one end face thereof faces the indicator lamp, and the other side An end surface protrudes to the outside of the protective cover at a height substantially equal to or higher than a protruding height of the dark box, and the light guide is disposed opposite to the thermal element with the dark box interposed therebetween. .

  (2) In the above (1), the protective cover projects a predetermined distance from the cover peripheral surface portion so as to cover the opening, and a cover peripheral surface portion that forms an opening for the dark box to pass through in the center. And a plurality of legs that connect the cover top surface portion and the cover peripheral surface portion, and the amount of protrusion of the other end surface of the light guide from the cover peripheral surface portion is It is substantially the same as the cover top surface portion.

(3) In the above (2), one leg portion of the plurality of leg portions is formed on the upper surface of the cover peripheral surface portion so as to communicate with the through hole, and the cylindrical portion through which the light guide penetrates is formed. It is characterized by having.
(4) In the above (1), a substantially spheroidal recess is formed on the end face of the light guide.
(5) In the above (1), a pair of substantially rectangular ribs opposed to each other is formed on a side surface close to one end surface of the light guide.

(I) The thermal smoke combined fire detector according to the present invention has a bar-shaped light guide that penetrates the protective cover, one end surface is opposed to the indicator lamp installed on the printed circuit board, and the other end surface is Because it protrudes to the outside of the protective cover at a height approximately equal to or higher than the protruding height of the dark box, the visibility is not hindered by the dark box when it is installed on the ceiling surface, while having a simple structure, The light emitted from the indicator lamp can be viewed from all directions. Further, since the light guide is disposed opposite to the thermal element with the dark box interposed therebetween, that is, at the farthest position from the light guide, visibility is not hindered by the thermal element.
(Ii) Moreover, since the other end surface of the light guide is positioned substantially on the same plane as the cover top surface portion constituting the protective cover, the light emission of the indicator lamp can be viewed from all directions. In addition, since the light guide is substantially the same height as the top surface of the cover, the air flowing along the top surface of the cover peripheral surface is not obstructed by the light guide, and is directly on the top surface of the cover top surface. Therefore, it does not affect the capture of the thermal airflow by the thermal element.

  (Iii) Further, since the light guide is protected by the cylindrical portion formed on the leg portion, damage due to collision of a foreign object or the like is prevented. And a light guide will be arrange | positioned in the side vicinity of a dark box, and will become the arrangement | positioning relationship where an object etc. do not collide easily.

[Embodiment: Combined thermal smoke fire detector]
Hereinafter, a thermal smoke combined fire detector according to an embodiment of the present invention will be described with reference to the drawings. In addition, in each figure, the same code | symbol is attached | subjected to the same part and some description is abbreviate | omitted.
FIGS. 1 to 9 illustrate a thermal smoke combined fire detector according to an embodiment of the present invention. FIG. 1 is a perspective view showing the whole, and FIG. 2A is a plan view showing the whole. 2 (b) is an enlarged plan view showing the part, FIG. 3 is a side view showing the whole, FIG. 4 is a front view showing the whole, FIG. 5 is a sectional view in side view showing the whole, and FIG. 7 is an enlarged cross-sectional view showing a part thereof, FIG. 7 is a cross-sectional view showing a side view divided into parts, FIG. 8 is a cross-sectional view showing a general side view, and FIG. 9 is a plan view showing an enlarged part. It is an expanded sectional view.

In FIG. 1 to FIG. 9, a thermal smoke combined fire detector (hereinafter abbreviated as “fire detector”) 100 stands on a main body base 10, a printed circuit board 1 installed on the main body base 10, and a printed circuit board 1. A heat-sensitive element 2 provided, a light-emitting element and a light-receiving element (not shown) erected on the printed circuit board 1, a dark box 3 that houses the light-emitting element and the light-receiving element, and allows ventilation and light shielding, and the printed circuit board 1 It has the installed indicator lamp 4, the protective cover 30, and the rod-shaped light guide 5 which guides the light which the indicator lamp 4 emits to the exterior of the protective cover 30 (refer FIG. 5).
In the fire detector 100, the main body base 10 is installed on an indoor ceiling or the like via an attachment base (not shown). However, for convenience of explanation, in the following drawings, the main body base 10 is on the lower side. The protective cover 30 is shown on the upper side.

(Body base)
The main body base 10 includes a disk-shaped main body bottom portion 11, a cylindrical main body cylinder portion 12 erected on the outer periphery of the main body bottom portion 11, and a substrate support portion 13 erected on the main body bottom portion 11. ing.
The printed circuit board 1 includes a determination function for determining the occurrence of a fire based on the detection result of the thermal element 2 and the detection results of the light emitting element and the light receiving element, a notification function for notifying the determination result, the thermal element 2 and the light emitting element. And a circuit and an electronic component having an operation check function for notifying that the light receiving element is operating normally. And the thermal element 2, the light emitting element and the light receiving element (not shown), and the indicator lamp 4 are installed directly (refer FIG.7 (b)).
The thermal element 2 is a rod-type thermistor that detects air temperature and detects heat at the tip, and is erected on the side of the dark box 3 and attached to the printed circuit board 1 (hereinafter, thermal element 2). Is called “Thermistor 2”).

(Dark box)
The dark box 3 accommodates a light emitting element and a light receiving element (not shown) arranged at a predetermined interval inside. That is, in order to detect smoke particles that have entered between the light emitting element and the light receiving element, the outside light is blocked and only the smoke particles are allowed to flow freely. In other words, the optical base 3a is installed on the printed circuit board 1 and has a substantially cylindrical optical base 3a having an upper surface opened and a substantially disk-shaped optical base cover 3b closing the upper surface of the optical base 3a. It is formed of a cylindrical labyrinth body in which a large number of light-shielding ribs are arranged on the periphery so as to be freely and ventilated. An insect screen (not shown) is installed around the optical bench 3a.
The light receiving element detects scattered light when the light emitted from the light emitting element is scattered by the smoke particles. Based on the detection result, the printed circuit board 1 detects the presence of smoke particles, that is, fire. The presence or absence of occurrence will be judged. Note that the present invention does not limit the dark box 3 or the smoke particle detection means.

(Indicator light)
The indicator lamp 4 is fixed to the printed circuit board 1 and is positioned opposite the thermistor 2 with the dark box 3 interposed therebetween. And the lower end surface of the light guide 5 installed in the protective cover 30 is directly adjacent to the indicator lamp 4 (this will be described in detail separately).

(Light guide)
The light guide 5 has a rod shape made of a light transmitting material, and guides the light emitted from the indicator lamp 4 to the outside of the protective cover 30. The light guide 5 is formed with a pair of ribs 5d facing the side surfaces near one end surface of the substantially columnar column portion 5c, and a substantially spheroidal concave portion (forming a concave lens) on one and the other end surfaces. 5a and 5b are formed (this will be described in detail separately).

(Protective cover)
The protective cover 30 includes a substantially annular cover peripheral surface portion 31, a substantially disc-shaped cover top surface portion 39, and cover leg portions 40 that connect the cover peripheral surface portion 31 and the cover top surface portion 39. .
The cover peripheral surface portion 31 has an outer peripheral edge that is fitted to the tip of the main body cylinder portion 12 of the main body base 10. Further, the cover peripheral surface portion 31 is formed with a substantially circular dark box through-hole (dark box opening) 33 arranged in the center through which the dark box 3 passes, and further, around the dark box through-hole 33, A substantially circular thermistor through hole (thermistor opening) 32 through which the thermistor 2 passes and a substantially circular light guide through hole 35 through which the light guide 5 passes are formed ((a) of FIG. 7). reference).

At this time, the thermistor through hole 32 and the light guide through hole 35 are opposed to each other with the dark box through hole 33 formed at the center therebetween.
Further, on the lower surface of the cover peripheral surface portion 31, a screw boss 34 for fixing to the main body bottom portion 11 is formed, and for fixing through the screwing hole 14 formed in the main body bottom portion 11 (main body cylinder portion 12). The screw 6 is screwed into a female screw formed on the screwing boss 34 (see FIG. 8). As a result, the protective cover 30 and the main body base 10 are engaged (joined) to constitute a housing of the fire detector 100.

  The cover top surface portion 39 protrudes at a predetermined distance above the cover peripheral surface portion 31, is disposed so as to cover the dark box through-hole 33 in plan view, and covers the upper surface of the dark box 3. A substantially cylindrical opening 38 serving as a smoke inlet is formed between the outer peripheral edge of the cover top surface 39 and the inner peripheral edge of the dark box through-hole 33, and passes through the opening 38. , Smoke (including air) flows into the dark box 3.

The cover leg portion 40 is a substantially triangular plate member, the top of which is joined to the outer peripheral edge of the cover top surface portion 39 and the bottom thereof is joined to the upper surface of the cover peripheral surface portion 31, and the center of the dark box 3 (the center of the dark box through hole 33). The same). The cover peripheral surface portion 31, the cover top surface portion 39, and the cover leg portion 40 are integrally formed.
And it is sandwiched between the cover leg portions 40, a light guide protection leg 50 which is a form for protecting the light guide 5, and a form for protecting the thermistor 2 located facing the light guide protection leg 50. A thermistor protector (thermal element protector) 20 is installed. In the figure, the cover leg portion 40, the light guide protection leg 50, and the thermistor protector 20 are disposed at equal angles (60 ° intervals) on substantially the same circumference (these will be described in detail separately). . The light guide protection leg 50 and the thermistor protector 20 function as the cover leg 40.

(Thermistor protector)
The thermistor protector (hereinafter abbreviated as “protector”) 20 sandwiches the thermistor 2 (thermistor through-hole 32) with respect to the radial direction of the protective cover 30 (AA line direction in FIG. 2) in plan view. The thermistor 2 is surrounded by a pair of arch-shaped members 20a and 20b symmetrically arranged on both sides. Hereinafter, one of the common contents will be described, and the description of the suffixes “a, b” of the reference numerals will be omitted at this time.
The arch-shaped members 20a and 20b are integrally formed across the cover peripheral surface portion 31 and the cover top surface portion 39, and are substantially flat plates erected from the outer peripheral side of the thermistor through hole 32 of the cover peripheral surface portion 31. Long leg portions 21a and 21b, substantially flat short leg portions 29a and 29b erected from the periphery of the cover top surface portion 39, the distal ends of the long leg portions 21a and 21b, and the distal ends of the short leg portions 29a and 29b Are connected to the cover peripheral surface portion 31 on both sides of the thermistor through-hole 32 and substantially flat plate-shaped base horizontal portions 22a and 22b. is doing. The base horizontal portions 22 a and 22 b are provided from the inside of the long leg portions 21 a and 21 b to the inner peripheral edge of the cover peripheral surface portion 31.

The horizontal end portions 28a and 28b are disposed so as not to obstruct the air flow to the thermistor 2 in a plan view, and are arranged in parallel with the radial direction of the protective cover 30, and protrude from the thermistor 2 in a side view. Is arranged at a height.
The long leg portions 21 a and 21 b are arranged in a C shape so as to approach each other as the thermistor 2 is closer to each other with the diameter of the protective cover 30 (on both sides) in plan view. On the other hand, the short leg portions 29a and 29b are arranged in a C shape so as to be closer to each other as they are closer to the thermistor 2 across the diameter of the protective cover 30 in plan view (see FIGS. 2 and 9). That is, the long leg portions 21 a and 21 b and the short leg portions 29 a and 29 b are arranged radially with respect to the thermistor 2.

In FIG. 2B, the distance W29 between the positions (indicated by “c” in the drawing) closest to the center of the cover top surface 39 of the short legs 29a and 29b is the long legs. It is larger than the distance W21 between the positions farthest from the center of the cover top surface portion 39 of the portion 21a and the long leg portion 21b (indicated by “A” in the figure). Therefore, when the distance between the end horizontal portion 28a and the end horizontal portion 28b arranged in parallel to each other is a distance W28, these distances have the following relationship.
W29> W28 Formula 1
W21> W28 ... Formula 2
W29> W21 ... Formula 3

  Further, the base horizontal portions 22a and 22b are substantially parallel to the end horizontal portions 28a and 28b, respectively, in a plan view, and form predetermined gaps 26a and 26b with the cover top surface portion 39 in a side view. Therefore, in side view, the upper edges of the base horizontal parts 22a and 22b, the edges of the long legs 21a and 21b closer to the center of the dark box 3, the lower edges of the end horizontal parts 28a and 28b, and the short legs The substantially rectangular spaces 27a and 27b having gaps 26a and 26b are formed by the edges of 29a and 29b far from the center of the dark box 3.

  Here, as shown in FIG. 3, the tip of the thermistor 2 is provided at a height protruding from the cover top surface portion 39 on the side of the dark box 3 in a side view. That is, since it is not hidden behind the dark box 3, the tip of the thermistor 2 with respect to the flow of air flowing along the outer surface of the cover top surface portion 39 (the airflow from above in FIG. 2A) is Since it is directly exposed, it is possible to effectively capture the hot air flow from the direction sandwiching the low-sensitivity dark box 3, so that the air temperature in that direction can be detected well. At this time, since the pair of short legs 29a and 29b has a letter C shape spreading toward the center of the cover top surface 39 in plan view, the flow of air flowing along the outer surface of the cover top surface 39 is a pair of It is collected by the short legs 29a and 29b and flows toward the thermistor 2 effectively.

That is, with respect to the airflow from above in FIG. 2A, the pair of short legs 29 a and 29 b are formed in a letter C shape (radial shape) such that the interval is narrowed toward the thermistor 2. As a result, airflow can be effectively collected in the thermistor 2, and similarly, a pair of long legs 21a and 21b against the airflow from below in FIG. ) For the airflow from the left direction, the short leg portion 29a and the long leg portion 21a, and for the airflow from the right direction in FIG. 2A, the short leg portion 29b and the long leg portion 21b. However, the air currents can be effectively collected in the thermistor 2 by being formed in a C-shape (radial) such that the interval is narrowed toward the thermistor 2.
And since the opening degree (distance W29) of the short leg parts 29a and 29b is larger than the opening degree (distance W21) of the long leg parts 21a and 21b, the hot airflow from the direction which pinched | interposed the low sensitivity dark box 3 is produced. The sensitivity characteristics in the entire circumference direction of the thermistor 2 can be made uniform.

And the front-end | tip of the thermistor 2 exists in the position near the lower edge of the edge part horizontal part 28a, 28b in side view, and can be visually recognized through space 27a, 27b. That is, air (including smoke) flowing along the outer surface of the cover peripheral surface portion 31 from the side view direction (left-right direction in FIG. 2A) collides with the base horizontal portions 22a and 22b and descends. Since it becomes an air current and passes through the spaces 27 a and 27 b and reaches the tip of the thermistor 2, even if the thermistor 2 protrudes from the cover top surface 39 in a side view, the thermistor 2 effectively Since it flows toward the tip, the temperature of the air can be detected well (see FIGS. 3, 5, and 7). Here, in order to minimize the influence on the smoke detection due to the installation of the base horizontal portions 22a and 22b, the gap 26a for smoke inflow is formed between the base horizontal portions 22a and 22b and the cover top surface portion 39 in a side view. , 26b.
In addition, since air (including smoke) from the lower side of FIG. 2A flows along the outer surface of the cover peripheral surface portion 31 and then flows into the dark box 3, smoke can be detected well. Further, since this air descends on the side surface of the dark box 3 and reaches the tip of the thermistor 2, the temperature of the air is good without providing a base horizontal portion in this direction. Can be detected. That is, the base horizontal portions 22a and 22b are provided only on both sides of the thermistor through-hole 32 in order to minimize the influence on the smoke detection due to the installation of the base horizontal portions 22a and 22b.
Further, with respect to the airflow from directly below, the tip of the thermistor 2 has flowed substantially vertically toward the thermistor 2 by being positioned between the end horizontal portions 28a and 28b in plan view (ascending). Since the air collides with the thermistor 2 as it is, the air temperature from directly below can be detected well.
As described above, the arch-shaped members 20a and 20b function not only as a protector that prevents foreign matter and the like from colliding with the thermistor 2, but also effectively detect and detect this without disturbing the air flow. In addition to the function of promoting the above, the cover peripheral surface portion 31 and the cover top surface portion 39 function as a leg and also function as a pair of rigid legs, so that deformation and damage of the cover top surface portion 39 are suppressed.

(Light guide protection leg)
The light guide protection leg 50 communicates with the light guide through-hole 35 and includes a cylindrical protection leg cylinder portion 50a formed on the upper surface of the cover peripheral surface portion 31, an upper end of the protection leg cylinder portion 50a, and a cover top surface portion 39. A protective leg connecting portion 50b to be connected, and a rib indented portion 50d formed on the lower surface of the cover peripheral surface portion 31 in communication with the light guide through-hole 35 (see FIGS. 6 and 7). The light guide through hole 35 also functions as the light guide protection leg 50.
The light guide 5 is inserted into the light guide through hole 35 from the lower surface side of the cover peripheral surface portion 31, and penetrates the protective leg cylinder portion 50a. At this time, since the rib 5d formed on the side surface of the light guide 5 enters and locks into the rib indented portion 50d (the same as the indent), the height of the light guide 5 is accurate, and the light guide 5 The upper end of 5 is located at substantially the same height as the upper surface of the cover top surface 39.
Therefore, when installed on the ceiling surface, the visibility is not hindered by the dark box 3, and the light emitted from the indicator lamp 4 can be viewed from a wide range (360 °). Further, since the light guide 5 is disposed opposite to the thermistor 2 with the dark box 3 interposed therebetween, and the thermistor 2 has a farthest positional relationship, the visibility is not hindered by the thermistor 2. Note that the upper end of the light guide 5 may be a height protruding from the upper surface of the cover top surface portion 39. Further, when the protection cover 30 does not protect the dark box 3, that is, when the cover top surface portion 39 and the cover leg portion 40 are deleted and only the cover peripheral surface portion 31 is configured, the upper end of the light guide 5 What is necessary is just to set it as the height which is substantially the same as the upper surface, or protruded from the upper surface of the dark box 3.

Further, since the light guide 5 is protected by the protection leg tube portion 50a formed on the light guide protection leg 50, damage due to collision of foreign matter or the like is prevented. In addition, the light guide 5 is disposed in the vicinity of the side of the dark box 3, and the light guide 5 has an arrangement relationship in which objects or the like are not easily hit.
The protective leg connecting part 50b is formed thinner than the protective leg cylinder part 50a, and the protective leg cylinder part 50a is suppressed to the minimum height necessary for protecting the light guide 5 from collisions of foreign matters. The amount of protrusion from the cover peripheral surface portion 31 is smaller than that of the cover top surface portion 39. Therefore, the air (including smoke) flowing along the upper surface of the cover peripheral surface portion 31 is prevented from being disturbed by the light guide 5, the protective leg cylinder portion 50a, and the protective leg connecting portion 50b. 3 can flow in.
Further, since the light guide 5 is substantially the same height as the cover top surface portion 39, the air flowing along the upper surface of the cover peripheral surface portion 31 is not obstructed by the light guide 5 and is not disturbed by the cover top surface portion 39. Since it flows along the upper surface and surely flows to the thermistor 2 facing the dark box 3, it does not affect the capture of the hot airflow by the thermistor 2.
Furthermore, the light guide protective leg 50 functions as a cover leg 40 that connects the cover peripheral surface 31 and the cover top surface 39 together with the function of preventing the light guide 5 from being damaged, and further includes a protective leg cylinder 50a. Therefore, the cover top surface 39 is prevented from being deformed or damaged.

(Light guide installation mode)
10 to 12 are views for explaining a light guide installation mode in the combined heat and smoke fire detector according to the embodiment of the present invention, and FIG. 10 is a three-side view showing an embodiment of the light guide. FIG. 11 is a rear view showing a cover peripheral surface portion, and FIG. 12 is a perspective view showing a light guide installation form.
In FIG. 10, a light guide 5 is obtained by injection molding a resin having translucency (for example, acrylic), and light is guided through a substantially columnar column portion 5c. Further, the lower end surface of the column portion 5c that protrudes downward from the protective cover 30 (same as the end surface facing the indicator lamp 4) is formed with a substantially spheroid-shaped recess 5a that promotes condensing performance. The upper end surface protruding upward from the cover 30 is formed with a substantially spheroidal recess 5b that promotes light diffusivity, and a pair of substantially rectangular ribs 5d and 5d facing each other on the side surface close to the lower end surface. Is formed.
Since the concave portions 5a and 5b are formed on both end surfaces of the light guide, the light emitted from the indicator lamp 4 is effectively received from one end surface (recessed portion 5a), and the light applied from the other end surface (recessed portion 5b) is wide. Since it can radiate | emit to the range, it is high-intensity and it is rich in the visibility from a wide direction.
The rib lower end surfaces 5e and 5e of the ribs 5d and 5d are in positions where the ejector pins for extraction from the mold after injection molding come into contact with the rib side surfaces 5f and 5f of the ribs 5d and 5d. An injection gate is provided. Therefore, the cylindrical portion (column portion 5c) through which light is guided is kept healthy, and unnecessary light dissipation from the side surface is prevented.

In FIG. 11, a pair of substantially arc-shaped light guide fixing portions 50 c and 50 c are formed on the lower surface of the cover peripheral surface portion 31 so as to surround the light guide through hole 35, and a gap between both ends of the light guide fixing portions 50 c and 50 c is formed. Forms a rib indentation 50d.
FIG. 12A shows a state immediately before the column portion 5c of the light guide 5 is inserted into the light guide through hole 35 and the ribs 5d and 5d are press-fitted into the rib indented portion 50d. A partially enlarged view is shown in FIG. In the figure, the arrow indicates the press-fitting direction.

  As described above, the combined heat and smoke fire detector according to the present invention has a simple structure and can visually recognize the light emitted from the indicator lamp from a wide direction. It can be widely used as a combined fire detector.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall perspective view illustrating a thermal smoke combined fire detector according to an embodiment of the present invention. The top view and the enlarged plan view which show the part which demonstrate the whole which demonstrates the thermal smoke combined fire detector shown in FIG. The side view which shows the whole explaining the hot smoke combined fire detector shown in FIG. The front view which shows the whole explaining the thermal smoke combined fire detector shown in FIG. The sectional view of the side view which shows the whole explaining the hot smoke combined fire detector shown in FIG. FIG. 6 is an enlarged cross-sectional view of a part of the thermal smoke combined fire detector shown in FIG. 5. Sectional drawing of the side view shown divided into the site | part of the thermal smoke combined fire detector shown in FIG. FIG. 2 is a cross-sectional view in a schematic side view illustrating the whole of the thermal smoke combined fire detector shown in FIG. 1. Sectional drawing of the planar view which expands and shows some thermal smoke composite type fire detectors shown in FIG. FIG. 3 is a three-sided view showing an embodiment of a light guide of the thermal smoke combined fire detector shown in FIG. 1. The rear view which shows the cover peripheral surface part of the thermal smoke combined fire detector shown in FIG. The perspective view which shows the installation form of the light guide of the thermal smoke combined fire detector shown in FIG.

Explanation of symbols

1 Printed circuit board 2 Thermistor (thermal element)
DESCRIPTION OF SYMBOLS 3 Dark box 3a Optical stand 3b Optical stand cover 4 Indicator lamp 5 Light guide 5a Recessed part 5b Recessed part 5c Column part 5d Rib 5e Rib lower end surface 5f Rib side face 6 Fixing screw 10 Main body base 11 Main body bottom part 12 Main body cylinder part 13 Substrate support part 14 Screw fixing hole 20 Protector (Thermal element protector)
20a Arch-shaped member 21a Long leg portion 22a Base horizontal portion 26a Clearance 27a Space 28a End horizontal portion 29a Short leg portion 30 Protective cover 31 Cover peripheral surface portion 32 Thermistor through hole (heat sensing element through hole)
33 Dark box through hole 34 Screw fixing boss 35 Light guide through hole 38 Opening part 39 Cover top surface part 40 Cover leg part 50 Light guide protection leg 50a Protection leg cylinder part 50b Protection leg connecting part 50c Light guide fixing part 50d Rib insertion part 100 Fire detector

Claims (5)

Body base,
A printed circuit board installed on the main body base;
A thermal element installed on the printed circuit board;
A dark box installed on the printed circuit board to block outside light and flow smoke particles;
An indicator lamp installed on the printed circuit board;
Each of the thermosensitive element and the dark box is provided with each opening, and a protective cover joined to the main body base;
A light guide for guiding the light emitted from the indicator lamp to the outside of the protective cover;
Have
The light guide is formed only from a rod-shaped portion , passes through a through-hole formed in the protective cover, is installed in the through-hole, and one end face thereof faces the indicator lamp, and the other side The end surface protrudes outside the protective cover at a height substantially equal to or higher than the protruding height of the dark box,
Furthermore, the light guide is disposed opposite to the heat sensitive element with the dark box interposed therebetween, and the combined heat and smoke fire detector. The protective cover has a cover peripheral surface portion that forms an opening in the center for the dark box to pass through, and a cover top surface portion that is disposed to protrude from the cover peripheral surface portion by a predetermined distance so as to cover the opening, A plurality of legs connecting the cover top surface portion and the cover peripheral surface portion;
2. The combined heat and smoke fire sensor according to claim 1, wherein a protruding amount of the other end surface of the light guide from the cover peripheral surface portion is substantially the same as that of the cover top surface portion.   The leg portion of the plurality of leg portions includes a cylindrical portion that is formed on an upper surface of the peripheral surface portion of the cover so as to communicate with the through hole and through which the light guide passes. 2. A thermal smoke combined fire detector according to 2.   2. The combined heat and smoke fire sensor according to claim 1, wherein a concave portion having a substantially spheroidal shape is formed on an end face of the light guide.   2. The combined heat and smoke fire detector according to claim 1, wherein a pair of opposed substantially rectangular ribs are formed on a side surface close to one end surface of the light guide.

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