JP6752642B2 - Fire detector - Google Patents

Description

The present invention relates to a fire detector installed on the ceiling of a building or the like, and more particularly to a fire detector having a built-in information transmission module.

A fire detector installed on the ceiling of a building or the like generally has a structure in which a detection unit for detecting a fire is covered with a detector cover (see, for example, Patent Documents 1 and 2). An opening window is provided on the sensor cover, and an external gas is introduced into the detection unit through the opening window.
On the other hand, in recent years, an information transmission module that wirelessly transmits identification information unique to a device as information for position detection may be installed in a building. In such a position detection system, map information in which each identification information of a plurality of information transmission modules and each installation position are associated with each other is prepared in advance and given to the terminal device. Then, the terminal device receives the identification information from the information transmission module in the building, and is used to detect the position in the building from the received identification information and the map information.

Japanese Unexamined Patent Publication No. 2006-195652 Japanese Unexamined Patent Publication No. 2012-256250

In a position detection system using an information transmission module, for example, there is a demand that the information transmission module be individually removed and installed for battery replacement, or the information transmission module can be replaced when updating the system. ..
By incorporating the information transmission module into the fire detector, the present inventors can arrange a plurality of information transmission modules at appropriate positions in the building at appropriate intervals without separately providing an installation location dedicated to the information transmission module. It was investigated.
As a result, it became clear that if the information transmission module is built into the fire detector without any ingenuity, there arises a problem that the information transmission module cannot be easily removed and attached.

Therefore, the present inventors have considered adopting a structure in which the information transmission module can be attached to and detached from the fire detector. However, even when such a structure is adopted, the following problems occur unless any ingenuity is taken. For example, when a structure is adopted in which the sensor cover is removed and the information transmission module is attached / detached, the attachment / detachment work may adversely affect the components of the fire detector, which reduces the reliability of the fire detection function. In addition, the fire detector has a detection unit that performs delicate detection, such as introducing smoke into a dark room and detecting it. Therefore, when the sensor cover is removed, the fire detection function may be deteriorated if the positions of the components of the detection unit are displaced or if small insects or dust enter the detection unit.

On the other hand, when a structure is adopted in which the information transmission module is housed in an independent place sufficiently distant from the detection means (detection unit, etc.) so that the function of the detection means (detection unit, etc.) for detecting the fire is not affected. , The fire detector becomes very large, and the fire detector looks bad.
Further, depending on how the information transmission module is incorporated, there are problems such as the signal strength of the signal being greatly attenuated and the directivity of the desired signal not being obtained.

An object of the present invention is to provide a fire detector capable of suppressing an increase in size and easily attaching and detaching an information transmission module without deteriorating the reliability of a fire detection function.

The fire detector of the present invention
A means of detecting a fire and
An information transmission module that wirelessly transmits information for position detection,
A main body case that holds the sensing means and
A cover member that is removable from the main body case and forms an accommodating portion of the information transmission module on the main body case side.
A light emitting element that displays the operating state of the sensing means, and
A ring-shaped light guide scattering member that guides the light of the light emitting element and emits it to the outside,
Equipped with a,
The sensing means is a detection unit that has a detection chamber and a bottom surface portion that covers the lower part of the detection chamber, and introduces gas into the detection chamber from the side to detect a fire.
The main body case is a sensor cover that has an opening at the lower center and holds the detection unit in a state where the bottom surface portion of the detection unit is exposed to the opening.
The cover member is a lid that can be attached to and detached from the sensor cover and that covers the opening and forms the accommodating portion between the detection portion and the bottom surface portion.
By attaching and detaching the lid, the information transmission module can be taken in and out of the accommodating portion while the detection unit is held by the detector cover.
The sensor cover has a wall portion that reflects light scattered from the light guide scattering member.
The lid is characterized that you have provided capable locking portion to be engaged is detachably attached to the opening side of the wall portion.

According to the fire detector of the present invention, the information transmission module can be easily removed and attached by attaching / detaching the cover member. At this time, since the sensing means is held in the main body case and the sensing means is unlikely to be affected, the reliability of the fire detecting function is not lowered. Further, since the information transmission module is housed on the main body case side of the cover member, it is possible to suppress the increase in size of the fire detector and realize a well-proportioned appearance of the fire detector.
That is, the information transmission module can be easily removed and attached by attaching / detaching the lid. At this time, the detection unit is held by the sensor cover, and the influence on the detection unit is unlikely to occur. In addition, since the information transmission module is accommodated by being sandwiched between the lid and the detection unit at the opening below the center of the sensor cover, it is possible to suppress the increase in size of the fire detector and to detect a well-proportioned fire. The appearance of the vessel can be realized.
Further, the ring-shaped light guide scattering member can avoid interference with the information transmission module and display the operating state of the sensing means. In addition, the lid can be detachably engaged by utilizing the wall portion that reduces the scattered light of the light guide scattering member from being scattered inward of the fire detector.

Further, it is preferable that a recess is provided in a portion of the detection portion facing the accommodating portion between the bottom surface portion and the lid body.
According to this configuration, the information transmission module can be stably held by the recess.

Further, the information transmission module has a circuit board, an antenna unit, and a power supply unit.
The information transmission module is engaged with a part of the information transmission module so that the power supply unit is located on the bottom surface side of the antenna portion on at least one of the lid body and the bottom surface portion. It is preferable that an engaging portion that defines the orientation is provided.
According to this configuration, when the information transmission module is attached, the orientation of the information transmission module can be specified. This makes it possible to stably transmit radio waves from the information transmission module to the space in which the fire detector is installed in the building.

Further, the detection unit
A dark box having the detection chamber and the bottom surface and capable of introducing smoke from the side,
A dark box base that is combined with the dark box and covers the upper part of the detection chamber,
An insect net that covers the side of the dark box,
Have,
The dark box may be held by the sensor cover, and the lid may be detachable from the sensor cover while the dark box base and the insect repellent net are fixed.
According to this configuration, when assembling and assembling the information transmission module, it is unlikely that the position of the dark box base and the dark box will be misaligned, or that small insects or dust will enter the dark box. Therefore, the information transmission module can be easily attached / detached without deteriorating the reliability of the fire detector.

According to the present invention, in a fire detector incorporating an information transmission module, it is possible to suppress an increase in size and easily attach / detach the information transmission module without deteriorating the reliability of the fire detector.

It is an exploded perspective view which shows the fire detector which concerns on 1st Embodiment. It is a vertical sectional view which shows the fire detector of 1st Embodiment. It is a vertical cross-sectional view which shows the state which removed the lid body in the fire detector of 1st Embodiment. It is a figure explaining an example of the attachment / detachment structure of a lid body. It is an exploded perspective view which shows an example of the fire detector which concerns on 2nd Embodiment. It is a figure which shows the main body case. It is a figure which shows the substrate. It is a figure which shows the lid. It is the top view of the state which the substrate is set in the main body case. It is a top view of the state where the substrate and the lid are set in the main body case. FIG. 10 is a cross-sectional view taken along the line AA of FIG. (A) is a top view showing an example of a state in which an information transmission module is set on a decorative cover, and (b) is a sectional view showing an example of a fire detector according to a second embodiment. (A) is a diagram for explaining an example of an attachment / detachment structure of an information transmission module, and (b) is a diagram for explaining an example of an attachment / detachment structure of a decorative cover. It is an exploded perspective view which shows an example of the fire detector which concerns on 3rd Embodiment. It is sectional drawing which shows an example of the fire detector which concerns on 3rd Embodiment.

<First Embodiment>
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is an exploded perspective view showing a fire detector according to the first embodiment of the embodiment of the present invention. FIG. 2 is a vertical cross-sectional view showing the fire detector of the first embodiment.
The fire detector 100 of the first embodiment includes a detector base 110, a circuit board 112, a dark box base 114, an insect net 116, a dark box 118, a sensor cover 120, and information transmission such as a beacon. It includes a module 122 and a lid 124.
The elements and circuits on the dark box base 114, the dark box 118, and the circuit board 112 correspond to an example of the detection unit according to the present invention, that is, the detection unit as a detection means for detecting a fire.
Further, the sensor cover 120 corresponds to a main body case that holds the sensing means.
Further, the lid body 124 is removable from the main body case, and corresponds to a cover member forming an accommodating portion of the information transmission module 122 on the main body case side.

The detector base 110 is the base of the fire detector 100 and is attached to the ceiling of a building or the like. The power line of the fire detector 100 and the signal line of the fire alarm are pulled out to the ceiling via the detector base 110.
The circuit board 112 includes a circuit for detecting a fire and a transmitting circuit for notifying a fire. Specifically, a light emitting element for fire detection, a light receiving element, a signal processing circuit for outputting a fire alarm signal, a light emitting element for displaying an operating state, and the like are mounted on the circuit board 112. The circuit board 112 is fastened to, for example, the sensor base 110.

The dark box base 114 is a member that covers the upper part of the dark box 118. The dark box base 114 may be provided with a component 114a of a labyrinth structure portion for blocking the incident of external light and allowing smoke to enter the detection chamber. Further, the dark box base 114 may be provided with a through hole for passing a light emitting element and a light receiving element for fire detection from the circuit board 112 to the detection chamber through the through hole. The dark box base 114 is locked and fixed to, for example, a circuit board 112.

The dark box 118 has a bottom surface portion 118a, and a detection chamber for detecting smoke is formed between the bottom surface portion 118a and the dark box base 114. The dark box 118 is provided with a labyrinth structure 118b that blocks the incident of external light and guides smoke to the detection chamber. The central portion of the labyrinth structure portion 118b is the detection chamber. Gas outside the detection chamber can be introduced into the detection chamber from the side of the dark box 118 via the labyrinth structure 118b. The dark box 118 is combined with the dark box base 114 in a predetermined arrangement with respect to the dark box base 114, with the upper portion in contact with the dark box base 114. The dark box 118 is held and fixed to the sensor cover 120. In addition, the dark box 118 may have a structure that is engaged and fixed to the dark box base 114.

The bottom surface 118a of the dark box 118 is provided with a recess 118c into which the battery portion 122a of the information transmission module 122 can be loosely fitted.
The insect net 116 covers the side of the dark box 118 to prevent small insects or dust from entering the detection chamber. The insect net 116 is fixed to, for example, a dark box 118.

The sensor cover 120 surrounds and protects the circuit board 112 and the dark box 118. The sensor cover 120 is engaged and fixed to the sensor base 110. The sensor cover 120 is provided with a circular opening 120a below the center. Further, the sensor cover 120 has an opening window 120b at a portion located laterally of the dark box 118. The sensor cover 120 holds the dark box 118 by locking a part of the dark box 118 in a state where the bottom surface 118a of the dark box 118 is exposed to the opening 120a.

The sensor cover 120 is provided with a ring-shaped light guide scattering member 121. The light guide scattering member 121 is arranged so as to surround the opening 120a. The light guide scattering member 121 is made of, for example, a transparent resin, has a light guide portion extending to the vicinity of the circuit board 112, guides the light incident from the light emitting element of the circuit board 112, and scatters the light in the middle. Light is emitted to the outside from almost the entire circumference of the ring. The light guide scattering member 121 may be configured to be supported by the lid 124, or may be configured to be locked and fixed to the sensor cover 120.

The sensor cover 120 is provided with a first wall portion 120 m, a second wall portion 120n, and the like adjacent to the upper surface and the inner peripheral side surface of the light guide scattering member 121, respectively. The first wall portion 120m faces the upper side of the ring-shaped light guide scattering member 121 and reflects the light scattered upward from the light guide scattering member 121. The second wall portion 120n faces the inner peripheral surface of the ring-shaped light guide scattering member 121 and reflects the light scattered in the inner peripheral direction from the light guide scattering member 121. The first wall portion 120 m may be configured to be connected in a ring shape corresponding to the ring-shaped light guide scattering member 121, or may be configured such that a part in the circumferential direction is missing. Similarly, the second wall portion 120n may be configured to be connected in a ring shape corresponding to the ring-shaped light guide scattering member 121, or may be configured to have a part missing in the circumferential direction.

The information transmission module 122 is a module that wirelessly transmits identification information unique to a device for position detection. The information transmission module 122 has a battery unit 122a as a power supply unit, a circuit board 122b, a transmission circuit unit 122c, and an antenna unit 122d. The battery unit 122a is fixed on one surface of the circuit board 122b. The transmission circuit unit 122c is fixed on the surface of the circuit board 122b opposite to the battery unit 122a. The transmission circuit unit 122c protrudes from the circuit board 122b in a convex shape. The antenna portion 122d is formed by, for example, printed wiring, and is provided on the surface of the circuit board 122b on the same side as the transmission circuit portion 122c.

FIG. 3 is a vertical cross-sectional view showing a state in which the lid is removed in the fire detector of the first embodiment.
The lid 124 is made removable from the sensor cover 120 and closes the opening 120a of the sensor cover 120 when attached to the sensor cover 120. The lid 124 is attached to the sensor cover 120 at a distance from the bottom surface 118a of the dark box 118. The space between the bottom surface portion 118a and the lid body 124 at this time serves as the accommodating portion (module accommodating portion) 131 (see FIG. 2) of the information transmission module 122.

A recess 124a as an engaging portion that engages with a part of the information transmission module 122 is provided on the upper portion of the lid 124. The recess 124a has a shape in which, for example, the transmission circuit portion 122c of the information transmission module 122 is fitted. As a result, when the information transmission module 122 is held by the lid 124, the vertical orientation of the information transmission module 122 is defined.

The engaging portion for defining the orientation of the information transmission module 122 is not limited to the recess 124a. For example, a concave portion may be provided at the lower part of the information transmission module 122, and a convex portion may be provided at the upper part of the lid 124 so that they are engaged with each other to define the orientation.
Further, the information transmission module 122 may be fastened to the lid body 124, for example, with a screw or the like.

FIG. 4 is a diagram illustrating an example of a lid attachment / detachment structure. FIG. 4 (a) is the first example, and FIG. 4 (b) is the second example.
Subsequently, a structure that allows the lid body 124 to be attached to and detached from the sensor cover 120 will be described. As shown in FIGS. 1 and 3, a plurality of locking pieces 124b are provided on the lid body 124, and an outwardly facing locking claw 124c is provided at the tip of each locking piece 124b. On the other hand, in the inner peripheral portion 120a1 of the opening 120a of the sensor cover 120, a vertical groove 120d for passing the locking claw 124c and a locking claw 124c are locked at each position corresponding to the plurality of locking pieces 124b. A lateral groove 120e is provided. The vertical groove 120d and the horizontal groove 120e correspond to an example of the locking portion according to the present invention. The vertical groove 120d and the horizontal groove 120e are provided on the inner peripheral side of the second wall portion 120n provided so as to face the inner peripheral surface of the light guide scattering member 121.

With such a structure, the lid body 124 is set so that the locking piece 124b of the lid body 124 enters the inside of the opening 120a of the sensor cover 120, and the lid body 124 is rotated. Then, as shown in FIG. 4A, the tip of the locking claw 124c moves along the lateral groove 120e, whereby the lid 124 is locked to the sensor cover 120 so that the lid 124 does not come off. Can be done. Further, by turning in the opposite direction, the lid body 124 can be removed from the sensor cover 120.

In the example of FIG. 4A, a latch mechanism or the like may be provided in the vertical groove 120d and the horizontal groove 120e so that the lid body 124 does not come off naturally. Further, as shown in FIG. 4B, instead of forming the lateral groove, the locking piece 124b is lengthened, and the tip of the locking claw 124c slides along the edge portion 120f of the inner peripheral portion 120a1 to lock. It may be in the form of being. In addition, the structure of the locking portion that allows the lid body 124 to be attached to and detached from the sensor cover 120 is not limited to the structures shown in FIGS. 4A and 4B, and various structures can be adopted.

Next, the accommodation structure of the information transmission module 122 will be described.
The information transmission module 122 is housed in a housing section (module housing section) 131 (see FIG. 2) between the lid body 124 and the bottom surface portion 118a of the dark box 118. In the housed state, the information transmission module 122 is loosely fitted into the recess 118c of the bottom surface 118a and the recess 124a of the lid 124, and the orientation is defined and stably held.
Further, by removing the lid 124 from the sensor cover 120 while the information transmission module 122 is held, the information transmission module 122 is assembled while the dark box 118, the dark box base 114, and the insect screen 116 are fixed. It is possible.

As described above, according to the fire detector 100 of the first embodiment, the position detection is performed wirelessly with the detection means (dark box base 114, dark box 118, elements and circuits on the circuit board 112, etc.) for detecting the fire. The information transmission module 122 that transmits the information of the above, the main body case (sensor cover 120) that holds the sensing means, and the main body case that can be attached to and detached from the main body case, and the storage portion (module housing portion) of the information transmission module 122 on the main body case side. ) 131 is provided with a cover member (lid body 124).
Therefore, the information transmission module 122 can be easily removed and attached without deteriorating the reliability of the fire detection function of the fire detector 100. Further, since the information transmission module 122 is accommodated between the bottom surface portion 118a of the dark box 118 and the lid body 124 in the opening 120a below the center of the detector cover 120, it is possible to suppress the increase in size of the fire detector. , The appearance of a well-proportioned fire detector can be maintained.

<Second Embodiment>
Like the fire detector 200 of the second embodiment, the fire detector of the present invention is attached to a mounting location (attached portion P) such as the ceiling of a building without going through a detachable and separately provided sensor base. ) May be a fire detector that can be attached in an integrated configuration. Hereinafter, parts having the same configuration as that of the first embodiment are designated by the same reference numerals, description thereof will be omitted, and different parts will be mainly described.
FIG. 5 is an exploded perspective view showing an example of the fire detector 200 according to the second embodiment of the embodiment of the present invention. 6A and 6B show a main body case 10 of the fire detector 200, in which FIG. 6A is a plan view and FIG. 6B is a perspective view. 7A and 7B show a substrate 30 for a circuit of a fire detector 200, in which FIG. 7A is a bottom view and FIG. 7B is a top view. 8A and 8B show a lid 40 of the fire detector 200, in which FIG. 8A is a top view and FIG. 8B is a bottom view.

The fire detector 200 of the second embodiment is mounted directly and integrally with a mounting location (mounted portion P) such as a ceiling without going through a mounting base (sensor base) connected to a line. As shown in FIG. 5, it is attached to the main body case 10, the substrate 30 on which the sensing circuit (sensing means) for detecting heat and the like is mounted, the lid 40, and the lower side of the main body case 10. The sensor main body 1 is provided with a protector (not shown) or the like. Further, it includes an information transmission module 50 such as a beacon, and a decorative cover 60 attached to the lower side of the main body case 10. The decorative cover 60 is removable from the main body case 10, and corresponds to a cover member that forms an accommodating portion of the information transmission module 50 on the main body case 10 side.
The main body case 10 is composed of a central substrate accommodating portion 15 accommodating the substrate 30, and a frame portion 12 for fixing a sensor overhanging around the substrate accommodating portion 15.

The upper surface of the substrate accommodating portion 15 is an opening, and inside the substrate accommodating portion 15, a through hole 16 for exposing the thermistor mounted on the substrate 30 to the outside, a lens hole 17, a leg piece (leg portion) 18, ... A groove portion 24 ... for exposing the connected lead wire 31 ... To the outside, and a hooking piece (hooking portion) 25 for hooking the locking claw 41 of the lid 40 are provided, respectively.
Further, inside the opening of the substrate accommodating portion 15, a step portion 29 on which the lid 40 is placed and positioned, and two locking portions into which the locking pieces 42 and 42 of the lid 40 are inserted and locked are inserted. 28, 28 are formed.

As shown in FIG. 6, the bottom surface of the substrate accommodating portion 15 is provided with through holes 19 ..., 20 ..., 21 ... For draining the infiltrated water. Of these, the through hole 20 ... Is provided on the lower side of the groove portion 24 ...
The leg pieces 18 ... Are provided at positions corresponding to the three corners of the substrate 30, and the substrate 30 is supported by a flat portion, and the inclined portion enters the groove 33 ... of the substrate 30 to position the substrate 30. ..

The lens hole 17 is a hole through which the lens 13 that guides the light of the indicator lamp on the substrate 30 to the outside passes, and the inner diameter thereof is formed so that the lens 13 fits tightly. A recess 17a in which the brim portion 13a of the lens 13 is accommodated and a wall portion 17b surrounding the lens 13 are provided around the lens hole 17. The lens 13 is fitted and fixed in the lens hole 17. Further, when the lens 13 is fitted into the lens hole 17, the upper portion of the lens 13 becomes the same height as the lower surface of the substrate 30, and the lens 13 also serves as a leg portion that supports the substrate 30 from below. .. When the lens 13 supports the substrate 30, the light emitting element on the substrate 30 is avoided in the recess 13b at the top of the lens 13.

The hook piece 25 is configured so that the locking claw 41 does not come off unless the locking claw 41 is moved corresponding to the hook-shaped locking claw 41. Further, an opening hole 26 for removing the locking claw 41 is provided on the lower side of the hook piece 25, and a sharp object such as a screwdriver is inserted through the opening hole 26 to apply force to the locking claw 41. Then, the locking claw 41 and the hooking piece 25 are unlocked.
The frame portion 12 is formed so that its upper surface is positioned on the same plane as the upper surface of the substrate accommodating portion 15 (upper surface of the lid 40). The frame portion 12 is provided with a plurality of screw insertion holes 12a, 12a, 12b, 12b, 12c, 12c so that the frame portion 12 can be directly attached to a mounting portion (attached portion P) such as a ceiling.

As shown in FIG. 7, the substrate 30 is provided with an integrated circuit (not shown) for detecting a fire, a light emitting element 35 for an indicator lamp that emits light when a fire is detected, and a receiver. A lead wire 31 with a connector for connecting the fire detector 200 to a sensor line extending from the above or a test wire for testing the fire detector 200 is connected to the electrode 38. These lead wires 31 ... Are connected so as to extend from the lower surface side of the substrate 30. A heat detection element (thermistor or the like) is connected to the electrode hole 39 in the center of the substrate 30.
Further, the substrate 30 is provided with groove portions 33 ... For positioning into which the inclined portions of the leg pieces 18 ... Of the substrate accommodating portion 15 are inserted, respectively, at the three corner portions. Since the positioning groove 33 ... Is not symmetrical, it is possible to avoid a problem that the front and back surfaces of the substrate 30 are set by mistake.

The lid 40 is fitted inside the opening of the substrate accommodating portion 15 to close the opening, and as shown in FIG. 8, these grooves 24 ... Are located at locations corresponding to the grooves 24 ... of the opening. A convex portion 46 ... That meshes with the above is provided. Further, a groove 45 ... for passing the lead wire 31 ... Is also provided on the tip end side of these convex portions 46 ..., and the lead wire 31 is sandwiched between the groove 24 of the substrate accommodating portion 15 and the groove 45 ... of the lid 40. The lead wire 31 ... extends to the outside without a gap.
Further, on the outer peripheral portion of the lid 40, two locking pieces 42, 42 protruding in the radial direction are provided at a position one step lower than the upper surface. Further, on the lower surface of the lid 40, a locking claw 41 that is hooked to the hook piece 25 of the substrate accommodating portion 15 and a pressing portion 43 that presses the substrate 30 from above are provided.

The information transmission module 50 is a module that wirelessly transmits identification information unique to a device for position detection. As shown in FIG. 5, the information transmission module 50 includes a first unit 51 having a battery unit 122a and a second unit 52 including an information transmission terminal having a circuit board 122b, a transmission circuit unit 122c, an antenna unit 122d, and the like. It consists of two units, and.
The first unit 51 and the second unit 52 are connected by a lead wire 53, and a battery (even a primary battery is a secondary battery) that is detachably attached to the battery unit 122a via the lead wire 53. The power (which may be a battery) can be supplied to the information transmission terminal.

The decorative cover 60 corresponds to a central concave portion 61 provided corresponding to the substrate accommodating portion 15 of the main body case 10 and a flange portion 62 protruding around the concave portion 61, that is, a frame portion 12 of the main body case 10. It is a substantially hat-shaped member composed of a collar portion 62 provided in the above. The decorative cover 60 is attached to the lower side of the sensor main body 1 (the side opposite to the attached portion P). The space between the collar portion 62 and the frame portion 12 at this time becomes the accommodating portion (module accommodating portion) 131 of the information transmission module 50 (see FIG. 12B).

Next, the assembly structure of the sensor main body 1 having the above configuration will be described.
FIG. 9 shows a top view of the main body case 10 with the substrate 30 set, and FIG. 10 shows a top view of the main body case 10 with the substrate 30 and the lid 40 set. Note that the lead wires 31 ... Are not shown in FIGS. 9 and 10.
Assembling the main body case 10 and the substrate 30 only accommodates the groove portions 33 at the three corners of the substrate 30 together with the leg pieces 18 in the substrate accommodating portion 15, and does not require fixing such as screwing. The lead wire 31 ... Extending from the lower surface side of the substrate 30 bypasses the outside of the substrate 30 and is brought out through the groove portion 24. In this state, by fitting the lead wire 31 ... Into the groove, the substrate 30 is temporarily fixed to the extent that the substrate 30 does not come off even if the main body case 10 is turned inside out.

To assemble the main body case 10 and the lid 40, first, the locking pieces 42, 42 of the lid 40 are inserted into the locking portions 28, 28 of the main body case 10, and then the lid 40 is inserted into the opening of the main body case 10 (the substrate is accommodated). It is completed by pushing it into the portion 15) and locking the locking claw 41 to the hook piece 25 of the main body case 10. In this state, the lid 40 is placed on the stepped portion 29 of the substrate accommodating portion 15, and at the same time, the locking pieces 42, 42 are placed on the locking portions 28, 28 of the substrate accommodating portion 15, and the locking claw 41 is placed on the substrate accommodating portion 15. It is locked and fixed to each of the hook pieces 25.

FIG. 11 is a cross-sectional view taken along the line AA of FIG.
As shown in FIG. 11, when the lid 40 is assembled, the substrate 30 is pressed and fixed by the holding portion 43 of the lid 40 and the leg piece 18 of the main body case 10 or the upper part of the lens 13. There is. Further, the lead wire 31 is sandwiched and fixed without a gap by the groove portion 24 of the main body case 10 and the groove portion 45 of the lid 40.
Further, since the lead wire 31 extends from the lower surface of the substrate 30 to the outside along the groove portion 24 by bypassing the outside of the substrate 30, even if water infiltrates through the lead wire 31, water is on the substrate 30. It is not listed in. Further, since the through hole 20 for draining water is formed under the groove portion 24, the water that has passed through the lead wire 31 is discharged to the outside through the through hole 20.

FIG. 12A is a top view showing an example of a state in which the information transmission module 50 is set on the decorative cover 60. FIG. 12B is a cross-sectional view showing an example of the fire detector 200 according to the second embodiment.
As shown in FIGS. 12A and 12B, an opening 61a for exposing the lower portion of the sensor main body 1 is provided on the bottom surface of the concave portion 61 of the decorative cover 60. That is, the concave portion 61 has a truncated cone shape (or may be cylindrical or the like) having a hollow inside and no bottom surface and upper surface. The protector (not shown) described above is mounted on the lower end of the opening 61a of the concave portion 61 (the end opposite to the attached portion P).
On the upper surface side of the flange portion 62 of the decorative cover 60, a pair of first support pieces 63 that detachably hold the first unit 51 of the information transmission module 50 at a predetermined position, and a second of the information transmission module 50. A pair of second support pieces 64 that detachably hold the unit 52 at a predetermined position are provided.

FIG. 13A is a diagram illustrating an example of a detachable structure of the information transmission module 50.
As shown in FIG. 13A, the pair of first support pieces 63 can be elastically deformed in a direction away from each other. Further, the tip portion of the first support piece 63 is provided with a claw portion 63a facing each other, and the first unit 51 is sandwiched and fixed between the claw portion 63a and the upper surface of the flange portion 62. It has become.
To attach the first unit 51, first, the first unit 51 is placed on the claw portion 63a from above the first support piece 63 so as to bridge the pair of first support pieces 63, and then the first unit 51 is attached. It is completed by pushing down 51. By pushing down the first unit 51, the pair of first support pieces 63 are elastically deformed in the direction away from each other, so that the first unit 51 moves to the lower side of the claw portion 63a, which causes the first unit 51 to move. The first unit 51 can be locked to the decorative cover 60 so as not to come off. Further, the first unit 51 can be removed from the decorative cover 60 by pulling up the first unit 51.

Similarly, the pair of second support pieces 64 are elastically deformable in directions away from each other. Further, a claw portion 64a facing each other is provided at the tip portion of the second support piece 64, and the second unit 52 is sandwiched and fixed between the claw portion 64a and the upper surface of the flange portion 62. It has become.
To attach the second unit 52, first, the second unit 52 is placed on the claw portion 64a from above the second support piece 64 so as to bridge the pair of second support pieces 64, and then the second unit 52 is attached. It is completed by pushing down 52. By pushing down the second unit 52, the pair of second support pieces 64 are elastically deformed in the direction away from each other, so that the second unit 52 moves to the lower side of the claw portion 64a, which causes the second unit 52 to move. The second unit 52 can be locked to the decorative cover 60 so as not to come off. Further, the second unit 52 can be removed from the decorative cover 60 by pulling up the second unit 52.

The attachment / detachment structure of the information transmission module 50 is not limited to the one including the pair of first support pieces 63 and the pair of second support pieces 64, and can be changed as appropriate. For example, the detachable structure is composed of screws, screw holes provided at the corners of the units 51 and 52, and screw receiving portions provided on the decorative cover 60, and the units 51 and 52 are used as the decorative cover 60. It can also be screwed.

FIG. 13B is a diagram illustrating an example of a removable structure of the decorative cover 60.
As shown in FIGS. 5 and 13 (b), a plurality of (four in the present embodiment) locking pieces 11 projecting downward are provided at the outer peripheral end of the frame portion 12 of the main body case 10. Each locking piece 11 has a locking claw 11a facing inward at the tip end portion. On the other hand, on the outer peripheral surface of the flange portion 62 of the decorative cover 60, groove portions 65 are provided at each position corresponding to the plurality of locking pieces 11. Each groove portion 65 has a vertical groove 65a through which the locking claw 11a is passed and a lateral groove 65b for locking the locking claw 11a.

To assemble the decorative cover 60 and the sensor main body 1, first set the decorative cover 60 so that the locking piece 11 of the main body case 10 enters the vertical groove 65a of the decorative cover 60, and then turn the decorative cover 60. Complete. By turning the decorative cover 60, the tip of the locking claw 11a moves along the lateral groove 65b, whereby the decorative cover 60 can be locked to the sensor body 1 so that the decorative cover 60 does not come off. Further, by turning in the opposite direction, the decorative cover 60 can be removed from the sensor main body 1.
A latch mechanism or the like may be provided in the vertical groove 65a and / or the horizontal groove 65b so that the decorative cover 60 does not come off naturally.
Further, the detachable structure of the decorative cover 60 is not limited to the one including the locking piece 11 and the groove portion 65, and can be appropriately changed.

Next, the accommodation structure of the information transmission module 50 will be described.
The information transmission module 50 is housed in a housing section (module housing section) 131 (see FIG. 12B) between the decorative cover 60 and the main body case 10. In the housed state, the information transmission module 50 is sandwiched between the claw portions 63a, 64a and the collar portion 62 of the support pieces 63, 64, and the orientation is defined and stably held.
Further, by removing the decorative cover 60 from the sensor main body 1 while the information transmission module 50 is held, the information transmission module 50 is disassembled while the sensor main body 1 is attached to the attached portion P. It is possible.

As described above, according to the fire detector 200 of the second embodiment, since the fire detector 200 is directly attached to the attachment location (attached portion P) without the need for the detector base, the fire detector 200 The amount of protrusion due to installation can be reduced. On top of that, since the upper surfaces of the substrate accommodating portion 15 and the frame portion 12 are provided in substantially the same plane, a hole to be provided at the mounting location (mounted portion P) when mounting the fire detector 200 is provided as compared with the conventional case. It can be made smaller. That is, the hole for inserting the upper part of the accommodating portion is not required as in the conventional case, and only the hole for passing the lead wire 31 ... Extending from the fire detector 200 may be provided.

Further, since the lid 40 that closes the opening of the substrate accommodating portion 15 is fitted inside the opening to close the opening, the configuration in which the frame portion 12 and the upper surface of the substrate accommodating portion 15 are substantially flush with each other is simple. It can be easily realized by the structure. Further, while the lid 40 is provided with the locking pieces 42, 42 and the locking claws 41, the locking portion 28, which accommodates and locks the locking pieces 42, 42 of the lid 40 in the opening of the substrate accommodating portion 15. By providing the hook 28 and the hook piece 25 on which the locking claw 41 of the lid 40 is hooked, a configuration in which the lid 40 is fitted inside the opening and locked can be realized with a simple structure.

Further, since the substrate 30 is supported from below by the leg piece 18 and the lens 13 in the substrate accommodating portion 15, it is pressed and fixed to the holding portion 43 ... Of the lid 40 from above, so that the fire detector 200 can be used. Assembling work can be done easily. Further, since the lens 13 also serves as a leg portion for supporting the substrate, the substrate 30 can be supported more stably and the configuration can be made compact.

Further, since the lead wire 31 ... is configured to extend upward from the lower side of the substrate 30 by bypassing the outside of the edge portion of the substrate 30, the water entering through the lead wire 31 ... is placed on the substrate 30. Can be prevented. Further, even if water enters the inside of the sensor main body 1, water can be discharged from the through holes 19 ..., 20 ..., 21 ... For draining water, and if the water accumulates in the sensor main body 1. You can avoid the inconvenience.

Further, when the lead wire 31 ... bypasses the outside of the edge portion of the substrate 30, the lead wire 31 ... acts like a spring, and the substrate 30 can be temporarily fixed by this action. This facilitates the assembly and disassembly work of the fire detector.
Further, since the lead wire 31 ... Is sandwiched between the groove portions 24 ..., 45 ... Provided in both the opening of the substrate accommodating portion 15 and the lid 40 and passed to the outside, a gap is created around the lead wire 31 ... The lead wire 31 ... Can be easily passed through without assembling.

Further, according to the fire detector 200 of the second embodiment, a detection means (such as a detection circuit on the substrate 30) for detecting a fire, an information transmission module 50 for transmitting information for position detection wirelessly, and a detection means. A main body case 10 for holding the main body case 10 and a cover member (decorative cover 60) that is removable from the main body case 10 and forms a housing portion (module housing portion) 131 of the information transmission module 50 on the main body case 10 side. ing.
Therefore, since the information transmission module 50 can be removed and attached simply by attaching and detaching the cover member (decorative cover 60) from the main body case 10, the information transmission module 50 can be easily removed and attached. At this time, since the sensing means is held in the main body case 10 and is unlikely to affect the sensing means, the reliability of the fire detection function of the fire detector 200 does not deteriorate. Further, since the information transmission module 50 is housed between the cover member (decorative cover 60) and the main body case 10, it is possible to suppress the increase in size of the fire detector and maintain a well-proportioned appearance of the fire detector. be able to.

Further, if the detector main body 1 is removed from the attached portion P, the fire monitoring by the fire detector 200 is interrupted. However, in the fire detector 200 of the present embodiment, the detector main body 1 is removed from the attached portion P. The decorative cover 60 can be attached to and detached from the sensor body 1 without removing it.
Therefore, while continuing the fire monitoring by the fire detector 200, the work of attaching the decorative cover 60 to the sensor main body 1 and the work of replacing the decorative cover 60 attached to the detector main body 1 can be performed.

Further, while continuing the fire monitoring by the fire detector 200, the work of removing and reattaching the decorative cover 60 attached to the detector main body 1 can be performed. However, by removing the decorative cover 60, the information transmission module can be performed. The battery mounted on the battery unit 122a of the 50 can be replaced, or the information transmitting terminal of the information transmitting module 50 can be replaced. Therefore, it is possible to replace the components of the information transmission module 50 while continuing the fire monitoring by the fire detector 200.
As described above, in the present embodiment, the decorative cover 60 and the information transmission module 50 itself are replaced, the components of the information transmission module 50 are replaced (replacement of batteries, information transmission terminals, etc.), and the components are added (replacement of components, etc.). For example, the fire detector 200 can be realized by mounting a new component on the first unit 51 or the second unit 52, or by adding a function (for example, by exchanging the circuit board 122b). Because it can be easily performed while continuing the fire monitoring by, it is excellent in maintainability and workability at the time of renewal.
The shape of the decorative cover 60 is not limited to a substantially hat shape and can be changed as appropriate.

<Third Embodiment>
The fire detector 300 of the third embodiment does not include the decorative cover 60, and the information transmission module 50 is housed between the main body case and the attached portion P. Different from the detector 200. Hereinafter, parts having the same configuration as that of the second embodiment are designated by the same reference numerals, description thereof will be omitted, and different parts will be mainly described.
FIG. 14 is an exploded perspective view showing an example of the fire detector 300 according to the third embodiment of the embodiment of the present invention. FIG. 15 is a cross-sectional view showing an example of the fire detector 300 according to the third embodiment.

As shown in FIGS. 14 and 15, the main body case 70 of the fire detector 300 has a central substrate accommodating portion 15 accommodating the substrate 30 and a frame portion for fixing the detector overhanging around the substrate accommodating portion 15. It is composed of 72.
The frame portion 72 has a frame main body 72a (corresponding to the frame portion 12 of the second embodiment) formed so that the upper surface thereof is positioned on the same plane as the upper surface of the substrate accommodating portion 15 (upper surface of the lid 40), and the frame main body. It is composed of a protruding edge portion 72b that projects upward and is provided over the entire outer peripheral end of 72a. The frame portion 72 is provided with a pair of screw insertion holes 12d so that the frame portion 72 can be directly mounted at a mounting location (attached portion P) such as a ceiling. Note that in FIG. 15, the screw insertion hole 12d and the screw are not shown.
The space between the main body case 70 (specifically, the frame main body 72a) and the attached portion P when the fire detector 300 is attached to the attached portion P is the accommodating portion (module accommodating portion) of the information transmission module 50. ) 131.

On the upper surface side of the frame body 72a of the frame portion 72, a pair of first support pieces 63 that detachably hold the first unit 51 of the information transmission module 50 at a predetermined position, and a second of the information transmission module 50. A pair of second support pieces 64 that detachably hold the unit 52 at a predetermined position are provided. That is, the attachment / detachment structure of the information transmission module 50 is the same as that of the second embodiment.
As described above, the attachment / detachment structure of the information transmission module 50 is not limited to the one including the pair of first support pieces 63 and the pair of second support pieces 64, and can be changed as appropriate.

Next, the accommodation structure of the information transmission module 50 will be described.
The information transmission module 50 is housed in a housing section (module housing section) 131 between the main body case 70 and the mounted portion P. In the housed state, the information transmission module 50 is sandwiched between the claw portions 63a, 64a of the support pieces 63, 64 and the frame main body 72a, and the orientation is defined and stably held.
Further, the information transmission module 50 can be disassembled by removing the fire detector 300 from the attached portion P while the information transmission module 50 is held.

As described above, according to the fire detector 300 of the third embodiment, the fire is detected by the fire detector that is detachable and can be attached to the attached portion P without going through the detector base provided separately. The main body case 70 includes a sensing means (a sensing circuit on the substrate 30 and the like), an information transmitting module 50 that wirelessly transmits information for position detection, and a main body case 70 that holds the sensing means. An accommodating portion (module accommodating portion) 131 of the information transmission module 50 is formed on the P side.
Therefore, since the information transmission module 50 can be removed and attached simply by attaching and detaching the main body case 70 from the attached portion P, the information transmission module 50 can be easily removed and attached. At this time, since the sensing means is held in the main body case 70 and is unlikely to affect the sensing means, the reliability of the fire detection function of the fire detector 300 does not decrease. Further, since the information transmission module 50 is housed between the main body case 70 and the attached portion P, it is possible to suppress an increase in the size of the fire detector and maintain a well-proportioned appearance of the fire detector. ..

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments.
For example, in the above-described embodiment, the information transmission modules 122 and 50 having a transmission function are shown, but those having a reception function may be used in addition to the transmission function.
Further, in the first embodiment, as a detection unit for detecting a fire, a detection unit of a method of optically detecting the smoke flowing into the detection room of the dark box 118 is shown, but the fire is detected by various methods. The configuration may be adopted.

Further, in the first embodiment, an example in which a battery is used as a power supply unit of the information transmission module is shown. However, a plurality of terminals for electrically connecting to each other are provided on the surface of the information transmission module that contacts the dark box and the surface of the dark box that contacts the information transmission module, and the information transmission module 122 is provided through these terminals. May be supplied with power. In this configuration, the terminal provided on the surface of the information transmission module in contact with the dark box functions as a power supply unit. In this case, for example, a hole for inserting an electric wire may be provided in the dark box, and the power supplied to the circuit board via the electric wire may be supplied to the terminal of the dark box.
Similarly, in the second embodiment, the surface of the first unit 51 of the information transmission module 50 that contacts the decorative cover 60 and the surface of the decorative cover 60 that contacts the first unit 51 are electrically connected to each other. A plurality of terminals may be provided to supply power to the information transmission module 50 via these terminals.
Similarly, in the third embodiment, the surface of the first unit 51 of the information transmission module 50 that contacts the main body case 70 and the surface of the main body case 70 that contacts the first unit 51 are electrically connected to each other. A plurality of terminals for which various connections are made may be provided, and power may be supplied to the information transmission module 50 via these terminals.

In the second embodiment and the third embodiment, the information transmission module 50 is configured by being separated into two units, a first unit 51 and a second unit 52, but is not separated into two units. Is also possible. That is, it is also possible to integrally configure the first unit 51 and the second unit 52. It is also possible to configure the information transmission module 50 separately into three or more units.
Further, in the second embodiment and the third embodiment, the fire detectors 200 and 300 that electrically detect heat are shown as fire detectors, but the type that detects smoke and the thermal expansion are used mechanically. It can also be applied to heat-sensing type detectors. In addition, the arrangement and shape of the legs that support the substrate, the arrangement and shape of the groove 24 ... Through which the lead wire 31 is passed, the arrangement of the through holes for draining water, the locking structure between the lid and the accommodating portion, etc. The specific structure described in the form can also be appropriately changed without departing from the spirit of the invention.
In addition, the configuration shown in each embodiment can be appropriately changed without departing from the spirit of the invention.

10,70 Body case 30 Board (sensing means)
50,122 Information transmission module 60 Cosmetic cover (cover member)
100, 200, 300 Fire detector 110 Sensor base 112 Circuit board (sensing means, detector)
114 Dark box base (sensing means, detector)
116 Insect repellent net 118 Dark box (sensing means, detector)
118a Bottom part 118c Recessed part 120 Sensor cover (main body case)
120a Opening 120b Opening window 120d Vertical groove (locking part)
120e lateral groove (locking part)
120m 1st wall 120n 2nd wall 121 Light guide scattering member 122a Battery part 122b Circuit board 122c Transmission circuit part 122d Antenna part 124 Lid (cover member)
124a recess (engagement part)
131 Accommodating part P Attached part

Claims (4)

A means of detecting a fire and
An information transmission module that wirelessly transmits information for position detection,
A main body case that holds the sensing means and
A cover member that is removable from the main body case and forms an accommodating portion of the information transmission module on the main body case side.
A light emitting element that displays the operating state of the sensing means, and
A ring-shaped light guide scattering member that guides the light of the light emitting element and emits it to the outside,
Equipped with a,
The sensing means is a detection unit that has a detection chamber and a bottom surface portion that covers the lower part of the detection chamber, and introduces gas into the detection chamber from the side to detect a fire.
The main body case is a sensor cover that has an opening at the lower center and holds the detection unit in a state where the bottom surface portion of the detection unit is exposed to the opening.
The cover member is a lid that can be attached to and detached from the sensor cover and that covers the opening and forms the accommodating portion between the detection portion and the bottom surface portion.
By attaching and detaching the lid, the information transmission module can be taken in and out of the accommodating portion while the detection unit is held by the detector cover.
The sensor cover has a wall portion that reflects light scattered from the light guide scattering member.
Fire detector characterized that you have locking portions which the lid is locked detachably is provided on the opening side of the wall portion. Fire detector according to claim 1, wherein the at least one recess in the region facing the receiving portion is provided between the bottom portion and the lid of the detection portion. The information transmission module has a circuit board, an antenna unit, and a power supply unit.
The information transmission module is engaged with a part of the information transmission module so that the power supply unit is located on the bottom surface side of the antenna portion on at least one of the lid and the bottom surface portion. The fire detector according to claim 1 or 2, wherein an engaging portion that defines the orientation is provided. The detector is
A dark box having the detection chamber and the bottom surface and capable of introducing smoke from the side,
A dark box base that is combined with the dark box and covers the upper part of the detection chamber,
An insect net that covers the side of the dark box,
Have,
1 to a claim, wherein the lid body can be attached to and detached from the sensor cover while the dark box is held by the sensor cover and the dark box base and the insect net are fixed. The fire detector according to any one of 3 .

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