JPH10111988A - Fire sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fire sensor with which an actuation pilot lamp can be easily and surely fixed and never obstructs the assembly of the fire sensor and also to reduce the size of the fire sensor. SOLUTION: An ionization type smoke sensor 100 consists of its main body part 120 which shields a fire sensor circuit part 130 via a shielding member 140 and a 1st outer cover 150 which covers the part 120. A surface mounting type light emitting element 135 is added to the sensor 100 to notify the operation of the part 130 together with a guide lens 160 which leads the light emitted by the element 135, a lens attachment hole 147 which is drilled through the member 140 and holds one of both ends of the lens 160, and a lens storing part 155 which is formed on the cover 150 to store the other end of the lens 160 and also to expose the tip of the lens 160 to the outside.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to fire detectors such as ionizing smoke detectors, photoelectric smoke detectors and heat detectors.

[0002]

2. Description of the Related Art A fire detector has been provided with an operation indicator light, and when a fire is detected, the operation indicator light is turned on or blinks to determine which fire detector detects the fire. To inform.

[0003] As a structure of a conventional operation indicator lamp, for example, there is a fire detector disclosed in Japanese Utility Model Publication No. 61-1511. In this fire detector, as shown in FIG. 7 (a), an operation indicator light 12 is provided on a main body 10, while a light guide 22 is provided on a cover 20, and when the cover 20 is attached to the main body 10 by rotation. The light guide 22 is located immediately below the operation indicator light 12, and transmits the light of the operation indicator light 12 through a space.

Further, as an example of a structure of a conventional operation indicator lamp, there is an operation indicator lamp used in an ionization type smoke detector as shown in FIG. 7 (b). This operation indicator lamp has lead type discrete parts (LE
D: Light Emitting Diode 30 is used, and is mounted on the substrate 32 by soldering or the like.

[0005] Further, in the conventional fire detector, a type is indicated by attaching a sticker or marking by hot printing. The types include, for example, analog and on-off types, ionization and photoelectric types in smoke detectors, and constant temperature and differential types in heat detectors, and among others, waterproof having a waterproof function. There are types such as a type and a normal non-waterproof type.

[0006]

Among the structures of the operation indicator lamps of the conventional fire detector, for example, Japanese Utility Model Publication No. 61-15 / 1986
In the structure described in Japanese Patent Publication No. 11, since the operation indicator light 12 itself is located inside the main body 10 of the fire detector, there is a restriction that the internal space of the fire detector 9 needs to be large, or the operation is not possible. Since the indicator lamp 12 is protruded and attached, there is a problem that the position of the optical axis is easily changed by being caught by something, thereby reducing the amount of light reaching the light guide member 22. Further, when the light guide member 22 is fitted from above, there is a problem that the light guide member 22 comes off when a force is applied from below.

Further, the conventional ionization type smoke detector 29 described above is used.
In this case, since a slight gap h is formed between the LED 30 and the shield (metal shield plate) 33, insects and dust may enter the inside of the sensor from there, and may cause a fire alarm.

[0008] Also, regarding the type display of the fire detector,
In the conventional method of marking with a sticker or hot print, the display position is limited depending on the sensor, or a separate process is required for displaying the type,
In addition, there is also a problem that the method of attaching a seal peels off due to aging.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and has an operation indicator light which can be easily attached.
It is an object of the present invention to provide a fire detector in which an operation indicator light does not become an obstacle when assembling a fire detector, and which can securely fix the operation indicator light.

[0010]

According to a first aspect of the present invention, there is provided a main body provided with a circuit for sensing a fire, and a main body mounted on the main body. A shield member to shield, a mounting base equipped to mount the main body at a predetermined position,
In a fire detector including a first outer cover that covers the main body including the shield member, a surface-mounted light emitting element that is disposed in the circuit unit and notifies an operation of the circuit unit;
A guide lens for guiding light emitted from the surface-mounted light emitting element to the outside, and a lens mounting hole formed at a portion of the shield member corresponding to a light emitting direction of the surface-mounted light-emitting element, for fitting and holding one end of the guide lens. And a lens housing portion provided on the outer cover for housing the other end side of the guide lens and exposing the tip of the guide lens to the outside.

According to the first aspect of the present invention, when the surface mount type light emitting element emits light in the circuit section to notify the operation of the fire detector, the guide lens guides the emitted light to the outside. Here, as a light emitting element indicating the operation of the fire detector, a surface mount type light emitting element is disposed in the circuit section, so that the light emitting element (for example, an LED with a lens, etc.) is provided in the circuit section as in the related art. Does not protrude greatly, and the handling of the circuit section becomes easy when assembling a fire detector. Further, unlike the related art, the light emitting element is not caught and the optical axis is not shifted. In addition, the size of the circuit portion can be reduced and the size of the fire detector can be reduced by using the surface mount type light emitting element. Further, since the guide lens for guiding the light emission of the surface mount type light emitting element to the outside is fitted in the lens mounting hole of the shield member and is held and held in the lens housing portion of the outer cover, the fixing is sure. So that it does not come off when pushed from outside. Also,
No adhesive is required to attach the guide lens. Also,
Since the guide lens is only held by the lens mounting hole of the shield member and the lens housing of the outer cover, the guide lens can be easily attached and detached simply by removing the outer cover from the main body. Therefore, it is convenient to replace the guide lens when the guide lens is damaged, for example.

The present invention can be applied to any fire detector having the above-described circuit section, shield member, and outer cover, regardless of the type of fire detection, such as a smoke detector and a heat detector. The shield member electrically shields the circuit unit. In addition, as the shield member, for example, a member that shields and prevents intrusion of large dust and insects may be included. The surface-mounted light-emitting element is, for example, a surface-mounted light bulb or a surface-mounted LED.
(Light Emitting Diode). The above-described guide lens can be configured by, for example, molding a synthetic resin that transmits light into, for example, a rod shape along an optical path for guiding light. Further, when the guide lens is fitted into the lens mounting hole of the shield member, the lens mounting hole is closed, so that it is possible to further prevent dust and insects from entering the circuit portion. . Further, the structure in which the guide lens is exposed to the outside in the lens housing portion of the outer cover is configured by, for example, piercing a through hole communicating with the outside in the lens housing portion, and forming a window with a member that transmits light. You may comprise.

According to a second aspect of the present invention, an ionization current is generated in an internal ionization chamber into which smoke does not easily flow and an external ionization chamber into which smoke can flow, and the ionization current in the internal ionization chamber is received by an intermediate electrode. Receiving the ionization current of the external ionization chamber at an external electrode,
The ionization type smoke detection type fire detector according to claim 1, wherein the smoke is detected based on the ionization current received by the intermediate electrode and the ionization current received by the external electrode, wherein the shield member has conductivity. The shield member is electrically connected to the circuit section by screwing and serves also as the external electrode.

According to the second aspect of the present invention, in the fire detector of the ionization type smoke detection type, one member can be used for the shield of the circuit part, the external electrode, and the member for attaching the lens, and the components can be used. The reduction can be measured. In addition, since the shield member and the circuit portion are connected by screws, electrical connection can be reliably performed.

Here, the conductive shield member is
For example, it can be formed of a conductive resin, and in addition,
A non-conductive member may be formed by applying a conductive coating agent.

According to a third aspect of the present invention, in the fire detector according to the second aspect, the shield member is formed of a conductive resin.

According to the third aspect of the present invention, since the shield member is formed of resin, the fitting between the lens mounting hole formed in the shield member and the guide lens can be easily and accurately performed. You can do it.

According to a fourth aspect of the present invention, there is provided a fire detecting apparatus comprising: a main body provided with a circuit for detecting a fire in a main body case; and a second outer cover for covering at least a part of the main body case. In the device, the circuit unit is provided with a surface-mounted light-emitting element for notifying the operation of the circuit unit, and a portion of the main body case corresponding to a light-emitting direction of the surface-mounted light-emitting element is provided with a A guide lens for guiding light emission to the outside was attached.

According to the fourth aspect of the present invention, when the surface mount type light emitting element emits light in the circuit section to notify the operation of the fire detector, the guide lens guides the emitted light to the outside. As a light emitting element that indicates the operation of the fire detector,
Since the surface-mounted light-emitting elements are provided in the circuit section, the light-emitting elements do not protrude significantly in the circuit section as in the past, making it easy to handle the circuit section when assembling a fire detector. Become. Further, unlike the related art, the light emitting element is not caught and the optical axis is not shifted. In addition, the size of the circuit portion can be reduced and the size of the fire detector can be reduced by using the surface mount type light emitting element.

Here, the fire detector may be any type of fire detector such as a smoke detector and a heat detector. The surface-mounted light-emitting element is, for example, a surface-mounted light bulb or a surface-mounted LED. The guide lens can be configured, for example, by molding a synthetic resin that transmits light into a rod shape along an optical path for guiding light.

According to a fifth aspect of the present invention, in the fire detector according to the fourth aspect, the guide lens is exposed to the outside through a through hole formed in the second outer cover, and a tip of the guide lens is provided. Are formed in a planar shape and the second
Of the outer cover is made substantially flush with the outer surface of the outer cover.

According to the fifth aspect of the present invention, the guide lens is exposed to the outside through the main body case and the second outer cover. Since the outer cover is almost flush with the outer cover, it is less likely to be caught by the guide lens than when the guide lens is protruding (unintended force is less likely to be applied to the guide lens), and the fire detector is placed on the ceiling. Handling becomes easy when installing. That is, it is possible to prevent the guide lens from being caught and damaged. Further, since the guide lens does not affect the flow of air along the fire detector, the guide lens does not affect the detection of smoke or heat based on the flow of air.

Here, the second outer cover that covers at least a part of the main body case includes, for example, an outer cover that covers the whole main body case, and a heat sensing element exposed from the main body case in a heat sensing type fire detector. An external cover (also referred to as a protector) for carding the card, or an external cover for any type and purpose, such as an external cover attached for decoration, may be included.

According to a sixth aspect of the present invention, in the fire detector according to any one of the first to fifth aspects, the guide lens is colored for a type of the fire detector.

According to the sixth aspect of the invention, the type of the fire detector is determined by the color of the guide lens. Therefore, as in the conventional case, a sticker is attached for the type or a mark is formed by hot printing. You don't have to. Therefore, it is possible to prevent a problem that the seal of the type is peeled off, and it is not necessary to provide a separate process for the type in the manufacturing process of the fire detector.

The type of the fire detector is, for example, an analog type or an on / off type, a smoke detector of an ionization type or a photoelectric type, or a heat detector of a constant temperature type or a differential type. Further, among them, any type such as a waterproof type having a waterproof function or a normal non-waterproof type may be included.

[0027]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to FIGS.

[First Embodiment] FIG. 1 is an external view of an ionization type smoke detector according to a first embodiment of the present invention. FIG. 1A is a front view, and FIG. 1B is a plan view. FIG. 2 is an exploded perspective view in which each part of the ionization type smoke detector is separated, and FIG. 3 is an arrow A- shown in FIG.
FIG. 2 shows a cross-sectional view of the A-line portion viewed from the direction of the arrow.

The ionization type smoke detector 10 of this embodiment
0 is an internal ion chamber (external ionization chamber) where smoke does not enter, and an external ion chamber (external ionization chamber) where smoke freely enters and exits.
A fire detector of a type that senses smoke based on the ionization current generated in each of these ion chambers. As shown in FIG. 2, the mounting base 110, the main body 120, the shield member 140, and It comprises the first outer cover 150 and the like.

The mounting base 110 is provided for mounting the main body 120 on the ceiling, and is provided with screw holes 111 for mounting on the ceiling, and introduction holes 112 for drawing wiring such as power supply and signal lines from the ceiling. , A guide groove 113 for assembling the main body, a connecting piece 114, and the like. By rotating the frame piece 121 of the main body 120 along the guide grooves 113, the main body 120 is rotated.
Locking claws (not shown) provided on the upper surface are hooked on connecting pieces 114..., And the main body 120 is connected to the mounting base 110. The connection pieces 114 and the locking claws (not shown) of the main body 120 also serve as electrodes, and the wiring drawn from the ceiling and the circuit section 130 of the main body 120 are electrically connected via these electrodes. Have been.

The main body 120 includes a circuit unit 130 (circuit board 130A) for sensing smoke and a board mounting base 125.
It is configured to be attached to the concave chamber part.

The radiation source 131,
In addition to a predetermined circuit for sensing smoke, such as an intermediate electrode 132 receiving the ionization current of the internal ion chamber, a field effect transistor (FET) 133 for comparing the ionization currents of the external ion chamber and the internal ion chamber, A surface mount LED (Ligh) for notifying the operation of the ionization type smoke detector 100
t Emitting Diode) 135 is provided.

This surface-mounted LED 135 is, for example,
The light emitting diode is formed by solidifying the element portion of the light emitting diode in a planar shape with light-transmitting epoxy (or glass), and has substantially the same height and the same size as a small resistor or capacitor. Here, the colorless surface mount type LED 1
35 are used. This surface mount LED 135
Is a device that emits light when the ionization type smoke detector 100 detects smoke, but the condition in which the device emits light is not particularly limited.

The shield member 140 is connected to the circuit board 130A.
, And a convex chamber portion 142 bulging in a convex shape are integrally formed. This convex chamber part 1
Reference numeral 42 denotes an external ion chamber, and a vent hole 142a through which smoke can enter and exit is formed on the outer periphery thereof. An insect screen 143 for preventing insects and the like from entering the ventilation hole 142a is hung.

The shield member 140 is formed of a conductive resin, and is electrically connected to the circuit portion 130A to constitute an external electrode for receiving an ionization current in an external ionization chamber.
This shield member 140 has a locking piece (not shown) on one end side.
Is formed and a screw hole 145 is provided on the other end side,
The locking piece engages with a locking portion 127 provided on the board mounting base 125, and the circuit board 1 is inserted through the screw hole 145.
It is fixed by being screwed into a screw hole 137 of 30A. By this screwing, the shield member 140 and the circuit section 130 are electrically connected.

The shield member 140 is provided with a lens mounting hole 147 into which the upper end of the rod-shaped lens 160 as a guide lens is tightly (forcibly fitted).
The lens mounting hole 147 is provided at a position corresponding to the light emitting direction of the surface mounted LED 135 (vertically below the circuit board 130A) of the circuit board 130A. The lower end is positioned so as to be directly below the surface mount LED 135.

The first outer cover 150 covers the entire lower side of the main body 120. The first outer cover 150 is pressed into the main body 120 in a straight line to form an engagement formed inside the first outer cover 150. The pawls (not shown) are engaged with locking pieces 128 formed on the outer periphery of the substrate mounting base 125 to form the main body 1.
20. The center of the first outer cover 150 protrudes in a convex shape in accordance with the convex chamber portion 142 of the shield member 140, and a vent window 152 through which smoke can enter and exit is opened on the outer periphery of the protruding portion.

The first outer cover 150 has a receiving portion 155 for receiving the rod-shaped lens 160, and the receiving portion 155 has an opening window 155a for exposing the tip of the rod-shaped lens 160 to the outside. . This housing part 155
Is provided at a position where the rod-shaped lens 160 protrudes from the lens mounting hole 147 of the shield member 140.
In a state where the outer cover 150 is connected to the main body 120, one end side of the rod-shaped lens 160 (a tip side from a flange 162 described later) is positioned and formed so as to be accommodated in the housing section 155.

The rod-shaped lens 160 is made of a synthetic resin that transmits light, and is a surface-mounted LED 135 of the circuit board 130A.
From the lens mounting hole 147 of the shield member 140
And a rod body extending to the outside via the lens housing portion 155 of the first outer cover 150, and a flange 162 extending in the outer peripheral direction is integrally formed at the center side thereof. The flange 162 is provided at the entrance of the lens mounting hole 147 of the shield member 140 and the first outer cover 150.
Of the rod-shaped lens 1
60 positioning. That is, the collar 162 is held between the entrance of the lens housing portion 155 of the first outer cover 150 and the entrance of the lens mounting hole 147 of the shield member 140. And this collar 162
However, even if the rod-shaped lens 160 is pushed, the mounting position of the rod-shaped lens 160 does not move. In addition, the rod-shaped lens 160 is provided with a taper at an end so as to be easily fitted into the lens mounting hole 147. In addition,
Here, a red rod-shaped lens is used.

As described above, the ionization type smoke detector 100 of this embodiment is a surface mount type LED mounted on the circuit board 130A as an LED indicating the operation of the ionization type smoke detector 100.
Since the ED 135 is provided, the LED does not greatly protrude from the circuit board as in the related art, and the handling of the circuit board 130A when assembling the ion type smoke detector 100 is simplified. Further, unlike the conventional case, the LED is not caught and the optical axis is not shifted. In addition, the size of the circuit unit 130 and the size of the ion-type smoke detector 100 are reduced by the surface-mounted LED 135.

Further, the rod-shaped lens 160 is fitted in the lens mounting hole 147 of the shield member 140 and the first
Is held in the lens housing portion 155 of the outer cover 150, so that the rod-shaped lens 160 is securely fixed.
That is, even if it is pushed from the outside by an unexpected force, it does not come off without requiring bonding. Further, the bar-shaped lens 160 can be easily attached and detached simply by removing the first outer cover 150 from the main body 120, and the bar-shaped lens 160 can be easily replaced.

Also, the shield member 140 is
Shield, external electrode of ionizing smoke detector, and
Since the member for mounting the rod-shaped lens 160 is also used, the number of parts can be reduced.

[Second Embodiment] FIG. 4 is an external view of a heat detector 200 according to a second embodiment of the present invention. FIG. 4A is a front view, and FIG. 4B is a plan view.
FIG. 5 is an exploded perspective view in which the components of the heat detector 200 are separated, and FIG. 6 is a cross-sectional view taken along the line BB of FIG.

The heat detector 200 is a fire detector of a type that detects heat by a heat-sensitive element such as a thermistor, and has a heat-sensing circuit 240 (FIG. 6) as shown in FIG. The main body 230 is composed of a second outer cover 210 and a third outer cover 220 that cover the outside of the main body 230.

The main body 230 is configured such that the circuit section 240 is accommodated in the concave chamber 233 of the main body case 231, and the opening of the concave chamber 233 is closed by the lid 232.

In the circuit section 240 (circuit board 240A),
A heat-sensitive element 241 such as a thermistor is provided, and this heat-sensitive element 241 is formed in a through hole 2 formed in the lower surface of the concave chamber 233.
It is exposed to the outside through. The circuit unit 240 (circuit board 240A) is provided with a surface-mounted LED 242 that indicates the operation of the heat detector 200. This surface mount type LED 242 is the same as that shown in the first embodiment.

The main body case 230 has a concave chamber 233
Inside, a lens housing portion 238 for housing a rod-shaped lens 250 as a guide lens is provided. A through hole is formed in the lens housing portion 238, and the rod-shaped lens 250 is exposed to the outside through the through hole. This lens housing 23
Numeral 8 is formed at a position corresponding to the light emitting direction of the surface-mounted LED 242 (vertically below the circuit board 240A), and with the rod-shaped lens 250 attached, the light-incident side end of the rod-shaped lens is directly below the surface-mounted LED 242. Is positioned to come to.

The main body case 231 has an engaging claw 23 for connecting to the second outer cover 210 on the outside thereof.
5. Engaging claw 2 for connecting to third outer cover 220
36, screw holes 239 for mounting on the ceiling, etc. are integrally formed.

The rod-shaped lens 250 is formed by molding a synthetic resin or the like having a high refractive index. A concave portion 251 is provided on the light incident side, a flange 252 extending in the outer peripheral direction is provided on the central side, and a distal end side is provided. It is formed by forming a rod that guides light to the outside. The bottom surface of the concave portion 251 is formed in a convex lens shape, and the surface mount type L
The light emitted from the ED 242 is collected. Also,
The collar 252 contacts the lens housing portion 238 to position the rod-shaped lens 250. The tip of the rod-shaped lens 250 is formed in a substantially planar shape so as to be substantially flush with a second outer cover 210 described later. Bar lens 25
Numeral 0 is attached to the housing section 238 by, for example, bonding or the like.

Here, a transparent synthetic resin is used for the rod-shaped lens 250, and the type of the fire detector is classified according to the color attached to the rod-shaped lens 250. A correspondence table showing an example of correspondence between the color of the rod-shaped lens and the type of the fire detector is shown below.

[Table 1]

In Table 1, the "constant temperature spot type" senses when the temperature rises above a certain fixed temperature, and the "thermal difference spot type" senses when the temperature rise rate during a predetermined time exceeds a certain rate. Things. The “waterproof type” means the circuit unit 2
The main body 230 is waterproofed by packing or epoxy putty or the like so that water does not enter the 40, and the "non-waterproof type" is not subjected to such processing. The heat sensor 200 described here is a constant temperature spot type non-waterproof type, but other heat sensors are substantially similar in appearance to the heat sensor 200 here.

Second outer cover (protector) 210
Is for protecting the heat-sensitive element 241 without preventing the outside air from flowing into the heat-sensitive element 241. The frame member 212 is attached to the protector base 218 to be attached to the main body 230.
, 213 are formed. These frame members 212
, 213 form the frame of the inflow window through which outside air flows, and protect the heat-sensitive element 241. Locking claws 212 are formed integrally with the protector base 218, and the protector base 218 is pushed straight into the main body 230 to thereby lock the locking claws 235 of the main body case 231 and the locking claw 235 of the protector base 218 described above. Are engaged so that the protector base 218 is connected to the main body 230.

The protector base 218 has a donut shape having an opening at the center in order to avoid the heat-sensitive element 241. When the protector base 218 is attached to the main body case 231, the outer surface of the protector base 218 projects from the heat-sensitive element 241. It is formed so that it may become almost the same height as the surface which did. Since the protector base 218 overlaps with the mounting position of the rod-shaped lens 250, a through hole (a passing hole)
The rod-shaped lens 250 is exposed to the outside through the through hole 215. The tip of the rod-shaped lens 250 is connected to the protector base 2 of the second outer cover 210.
The outer surface 18 is formed substantially flush with the outer surface so as not to be caught and not to hinder the inflow of outside air.

The third outer cover 220 is a decorative cover for concealing the screw holes 239 of the main body 230, and is provided with the locking claws 222 of the main body case 231.
6 and attached.

As described above, the heat sensor 200 according to the present embodiment includes LEDs that indicate the operation of the heat sensor 200,
Since the surface-mount type LEDs 242 are provided in the circuit portion 240, the LEDs do not protrude significantly from the circuit portion as in the related art, and the handling of the circuit portion is simplified when the heat detector 200 is assembled. . Also, as in the past, LE
It is also possible to prevent the optical axis from shifting due to D. In addition, the circuit unit 2
For example, the size of the heat detector 200 is reduced.

Further, since the tip of the rod-shaped lens 250 is formed in a flat shape and is substantially flush with the outer surface of the second outer cover 210, compared to the case where the rod-shaped lens 250 protrudes from the outer cover 210, There is no catch by the rod-shaped lens 250 (it is difficult for an unexpected force to be applied to the rod-shaped lens 250), and handling becomes easy when the heat detector 200 is installed on the ceiling. Therefore, for example, it is possible to prevent the rod-shaped lens 250 from being caught and damaged. In addition, since the rod-shaped lens 250 does not hinder the flow of air along the heat detector 200, it does not affect the heat detection based on the flow of air.

Further, since the type of the heat sensor 200 is determined by coloring applied to the rod-shaped lens 250, a sticker is affixed for the type or a mark is formed by hot printing as in the conventional case. This eliminates the necessity and eliminates the problem that the seal of the model type is peeled off, and the process for the model type is omitted in the manufacturing process of the heat detector 200.

Note that the fire detector of the present invention is not limited to the ionized smoke detector 100 of the first embodiment or the heat detector 200 of the second embodiment. It can be changed as appropriate without departing from the scope. For example, as a type of fire detector, it can be applied to various types of fire detectors such as a photoelectric smoke detector, and the shape and purpose of the outer cover can be applied to various types of outer covers. is there.

[0059]

According to the first aspect of the present invention, a surface mount type light emitting element is provided in the circuit section as a light emitting element for indicating the operation of the fire detector. Since the light emitting element does not protrude significantly, the handling of the circuit portion is simplified when assembling a fire detector. Further, unlike the related art, the light emitting element is not caught and the optical axis is not shifted. In addition, the size of the circuit portion can be reduced and the size of the fire detector can be reduced by using the surface mount type light emitting element. Further, the guide lens for guiding the light emission of the surface mount type light emitting element to the outside is fitted in the lens mounting hole of the shield member and is held and held in the lens housing portion of the outer cover, so that the guide lens can be fixed. It can be done reliably. In addition, no adhesive is required for mounting the guide lens, and the guide lens does not come off even if it is pushed from the outside by an unexpected force. In addition, since this guide lens is merely fitted into the lens mounting hole of the shield member and held in the lens housing of the outer cover, the guide lens can be easily attached and detached simply by removing the outer cover from the main body. It is convenient for replacing guide lenses.

According to the second aspect of the present invention, in the fire detector of the ionization type smoke detection type, one member can be used for the shield of the circuit portion, the external electrode, and the member for mounting the guide lens, and the components can be used. The reduction can be measured. Also, since the shield member and the circuit portion are screwed, electrical connection can be reliably performed.

According to the third aspect of the present invention, since the shield member is formed of conductive resin, the fitting of the lens mounting hole formed in the shield member with the guide lens is easy and accurate. Can be performed.

According to the fourth aspect of the present invention, a surface mount type light emitting element is provided in the circuit section as a light emitting element for indicating the operation of the fire detector. The element does not protrude significantly, and the handling of the circuit section is simplified when assembling a fire detector. Further, unlike the related art, the light emitting element is not caught and the optical axis is not shifted. In addition, the size of the circuit portion can be reduced and the size of the fire detector can be reduced by using the surface mount type light emitting element.

According to the fifth aspect of the present invention, the tip of the guide lens is formed in a flat shape and is substantially flush with the second outer cover, so that the guide lens protrudes from the outer cover. The guide lens is no longer caught (it is difficult for unexpected force to be applied to the guide lens),
Handling is simplified when the fire detector is installed on the ceiling. For example, it is possible to prevent the guide lens from being caught and damaged. Also, since the guide lens does not affect the flow of air along the fire detector,
The detection of smoke and heat based on the air flow can be prevented from being affected.

According to the sixth aspect of the invention, the type of the fire detector is determined by the color of the guide lens.
It is no longer necessary to attach a sticker or mark by hot printing for the model type as in the past, and it is possible to avoid the problem that the seal of the model type is peeled off, or to use the model type in the manufacturing process of the fire detector. Process can be omitted.

[Brief description of the drawings]

FIG. 1 shows an external view of an ionization type smoke detector as a first embodiment of the present invention, wherein (a) is a front view thereof,
(B) is a plan view.

FIG. 2 is an exploded perspective view in which respective parts of the ionization type smoke detector of FIG. 1 are separated.

FIG. 3 is a sectional view taken along the line AA of the ionization type smoke detector of FIG. 1;

4A and 4B show the appearance of a heat detector according to a second embodiment of the present invention, wherein FIG. 4A is a front view and FIG. 4B is a plan view.

FIG. 5 is an exploded perspective view in which respective parts of the heat detector of FIG. 4 are separated.

FIG. 6 is a cross-sectional view of the heat detector of FIG. 4 taken along line BB.

FIG. 7 is a cross-sectional view showing an example of the structure of a conventional operation indicator of a fire detector.

[Explanation of symbols]

 REFERENCE SIGNS LIST 100 ionization type smoke detector 110 mounting base 120 main body 125 substrate mounting base 130 circuit section 135 surface mount type LED 140 shield member 147 lens mounting hole 150 first outer cover 155 lens housing 155a opening window 160 rod-shaped lens (guide) Lens) 200 Heat sensor 210 Second outer cover 215 Through hole (passing hole through which guide lens passes) 220 Third outer cover 230 Main body 231 Main body case 238 Lens housing 240 Circuit 241 Thermal element 242 Surface mount type LED 250 rod lens (guide lens)

Continued on the front page (51) Int.Cl. ⁶ Identification code FI G08B 17/11 G08B 17/11 A (72) Inventor Takashi Numazawa 1-11-6 Hatagaya, Shibuya-ku, Tokyo Inside Nittan Co., Ltd.

Claims (6)

[Claims] 1. A main body provided with a circuit unit for detecting a fire, a shield member attached to the main body unit for shielding the circuit unit, and a device provided for attaching the main body unit to a predetermined location. A fire detector comprising: a mounting base; and a first outer cover that covers the main body including the shield member. A surface-mounted light emitting element that is disposed in the circuit unit and notifies an operation of the circuit unit. A guide lens that guides light emitted from the surface-mounted light emitting element to the outside; and a lens mount formed at a portion of the shield member corresponding to a light emitting direction of the surface mounted light-emitting element and fitted and held at one end of the guide lens. And a lens housing provided in the outer cover for housing the other end of the guide lens and exposing the tip of the guide lens to the outside. Fire detector. 2. An ionization current is generated in an internal ionization chamber through which smoke is unlikely to flow and an external ionization chamber through which smoke is allowed to flow, and an ionization current of the internal ionization chamber is received by an intermediate electrode, while ionization of the external ionization chamber is performed. An ionization type smoke detection type fire sensor that receives current at an external electrode and detects smoke based on the ionization current received at the intermediate electrode and the ionization current received at the external electrode, wherein the shield member has conductivity. The fire detector according to claim 1, wherein the shield member is electrically connected to the circuit unit by screwing and serves also as the external electrode. 3. The fire detector according to claim 2, wherein the shield member is formed of a conductive resin. 4. A fire detector comprising: a main body provided with a circuit for detecting a fire in a main body case; and a second outer cover that covers at least a part of the main body case. A surface-mounted light emitting element for notifying the operation of the circuit section is disposed in the portion, and the light emission of the surface mounted light emitting element is guided to the outside of the main body case in a light emitting direction of the surface mounted light emitting element. A fire detector equipped with a guide lens. 5. The guide lens is exposed to the outside through a through hole formed in the second outer cover, and a tip of the guide lens is formed in a flat shape, and an outer surface of the second outer cover. The fire detector according to claim 4, wherein the fire detector is substantially flush with the fire detector. 6. The fire sensor according to claim 1, wherein the rod-shaped guide lens is colored for a type of a fire detector.
The fire detector according to any one of claims 1 to 4.