JP6829570B2 - Information transmission adapter - Google Patents

Description

The present invention relates to information transmission terminal and the information transmission terminal in the information transmission adapter equipped with such battery for supplying electric power, about the attachable information originating adapters to particular fire detector installed on a ceiling of a building.

In recent years, information transmission terminals such as beacons that wirelessly transmit device-specific identification information as position detection information and information transmission modules equipped with batteries that supply power to the information transmission terminals have been installed in buildings. is there. In such a position detection system, map information in which each identification information of a plurality of information transmission modules and each installation location 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.

By the way, as fire detectors installed on the ceiling of a building, in addition to the fire detector with an address function, there is also a general fire detector which is a fire detector without an address function, and the general fire detector is addressed. A repeater that imparts a function has been proposed (see, for example, Patent Document 1). Specifically, the repeater has its own unique address, and if a general fire detector issues a report, it can transmit its own address to the fire receiver together with the alarm signal, and the building. It can be arranged between the sensor base (base) fixed to the ceiling or the like (sensor mounting surface) and the sensor body (general fire detector) attached to the sensor base.
By attaching an information transmission adapter equipped with an information transmission module to a fire detector installed on the ceiling of a building, for example, like the repeater, a plurality of information transmission modules can be installed without providing a separate installation location. Information transmission modules can be placed at appropriate locations in the building at appropriate intervals.

Japanese Unexamined Patent Publication No. 10-293891

However, in the case of the above repeater, when replacing the components constituting the repeater (connecting terminal, connecting terminal, board provided with a circuit for detecting an alarm of a general fire detector, adding an address, etc.) Needs to disconnect the sensor body from the sensor base and disconnect the sensor base from the sensor body. When the connection between the sensor base and the sensor body is disconnected, the function of the fire detector is stopped, that is, the fire monitoring by the fire detector is interrupted. Therefore, when the above repeater configuration is applied to the information transmission adapter, the battery mounted on the information transmission adapter cannot be replaced unless the fire monitoring by the fire detector is interrupted.

Therefore, the present invention is an information transmission adapter that can be attached to a fire detector installed on the ceiling of a building or the like, and the battery can be replaced without interrupting fire monitoring by the fire detector. It shall be the object of the present invention to provide a.

The information transmission adapter of the present invention
An information transmission adapter that can be attached to a fire detector
An information transmission module having an information transmission terminal and a battery that supplies power to the information transmission terminal,
A movable body that can be operated by the external action of the fire detector,
A base member located outside the outer peripheral side surface of the fire detector is provided.
The base member has an accommodating recess for detachably accommodating the battery and a holding portion located inward of the outer peripheral side surface of the fire detector.
The movable body has a hole and is rotatably attached to the base member.
By rotating the movable body, it is possible to convert the housing recess into a state in which the housing recess is concealed by the movable body and a state in which the housing recess is exposed through the hole.
The shape of the base member, and wherein the shape der Rukoto the opening provided for communicating the inner and outer part of the annular.

According to the information originating adapter of the present invention, since the movable body is accommodating recess by rotating is convertible into an exposed state and the concealed, the movable body is rotated by the action of an external fire detector, The movable body can be rotated without disconnecting the sensor base and the sensor body. Therefore, the battery can be replaced without interrupting the fire monitoring by the fire detector.
Further, since the battery can be replaced only by rotating the movable body by the action from the outside of the fire detector, the battery can be easily replaced.

Alternatively, the information transmission adapter of the present invention
An information transmission adapter that can be installed inside a fire detector.
An information transmission module having an information transmission terminal and a battery that supplies power to the information transmission terminal,
A movable body that can be operated by an external action of the fire detector, and
Before Symbol movable body has an accommodating recess for removably receiving said battery is slidable relative to said fire detector,
When the movable body slides, the movable body is inserted from an attachment / detachment port provided on the outer surface of the fire detector, and the accommodating recess is concealed inside the fire detector, and the movable body. There wherein the housing recess is removed from the mounting port is a convertible and exposed to the outside, the.

According to the information transmission adapter of the present invention, the accommodating recess can be converted into a concealed state and an exposed state by sliding the movable body, but the movable body slides by the action from the outside of the fire detector. Therefore, the movable body can be slid and moved without disconnecting the sensor base and the sensor main body. Therefore, the battery can be replaced without interrupting the fire monitoring by the fire detector.
Further , since the battery can be replaced only by sliding the movable body by the action from the outside of the fire detector, the battery can be easily replaced.

According to the information transmission adapter of the present invention, the information transmission adapter can be attached to a fire detector installed on the ceiling of a building or the like, and the battery can be replaced without interrupting the fire monitoring by the fire detector. To.

It is a figure which shows the installation example of the information transmission adapter which concerns on 1st Embodiment. It is a figure which shows an example of the sensor base which concerns on 1st Embodiment. It is a figure which shows an example of the information transmission adapter which concerns on 1st Embodiment. It is a figure which shows an example of the adapter main body which comprises the information transmission adapter which concerns on 1st Embodiment. It is a figure which shows an example of the closed state and the open state of the information transmission adapter which concerns on 1st Embodiment. It is a figure which shows an example of the battery exchange device and the battery supply part which concerns on 1st Embodiment. It is a figure explaining an example of the battery exchange method in 1st Embodiment. It is a figure explaining an example of the battery exchange method in 1st Embodiment. It is a figure explaining an example of the battery exchange method in 1st Embodiment. It is a figure which shows the installation example of the information transmission adapter which concerns on 2nd Embodiment. It is a figure which shows an example of the sensor base and the information transmission adapter which concerns on 2nd Embodiment. It is a figure which shows an example of the sensor base and the information transmission adapter which concerns on 2nd Embodiment. It is a figure which shows an example of the battery exchange apparatus which concerns on 2nd Embodiment. It is a figure which shows an example of the battery exchange apparatus which concerns on 2nd Embodiment. It is a figure explaining an example of the battery exchange method in 2nd Embodiment. It is a figure explaining an example of the battery exchange method in 2nd Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the ceiling side is the upper side and the floor side is the lower side. Further, in the following description, the clockwise direction when viewed from the lower side (floor side) is simply referred to as "clockwise direction", and the counterclockwise direction when viewed from the lower side (floor side) is simply referred to as "counterclockwise direction". ".

<First Embodiment>
[Information transmission adapter]
FIG. 1 is a diagram showing an installation example of an information transmission adapter according to the first embodiment. FIG. 1B is a cross-sectional view showing only the information transmission adapter in FIG. 1A. FIG. 2 is a diagram showing an example of a sensor base of the fire detector according to the first embodiment, and is a view seen from the lower surface side. Of the drawings (FIGS. 1 to 9) used for the description of the first embodiment, in the drawings other than FIG. 2, the functional unit (connection terminal 212, insertion hole 213, and lead-in) that realizes the function as a sensor base. (Hole 214, etc.) is not shown.

The information transmission adapter 100 of the first embodiment can be arranged around the fire detector 200, for example, as shown in FIGS. 1A and 1B. Here, the mounted portion P to which the fire detector 200 is mounted is a ceiling surface, a box (outlet box, exposed box, etc.) used for indoor wiring or the like, a sensor mounting bracket, or the like.
As shown in FIG. 1B, for example, the fire detector 200 includes a disk-shaped sensor base 210 and an outer dome-shaped sensor main body 220.

The detector base 210 is the base of the fire detector 200 and is attached to the attached portion P by the attachment screw 230. As shown in FIG. 2, for example, the sensor base 210 includes a disk-shaped main body 211 and a plurality of (three in the present embodiment) connection terminals 212 mounted on the lower surface side of the main body 211. ..
The connection terminal 212 is for electrically connecting the sensor line Q (power line, transmission line, etc.) extending from the fire receiver or the like to the sensor main body 220. The connection terminal 212 has a box-shaped portion 212a and a blade-shaped portion 212b extending from the box-shaped portion 212a. The box-shaped portion 212a is an electric wire connection terminal, and the tip of the sensor line Q is inserted into the insertion hole 212a1 provided in the box-shaped portion 212a. The blade-shaped portion 212b is a connecting terminal, and engages with a claw piece (connecting terminal) provided on the sensor main body 220 that actually detects a fire to hold the detector main body 220. ..

The main body 211 of the sensor base 210 is provided with an insertion hole 213 in which elongated holes 213a in the circumferential direction are connected in the vertical direction as screw holes for the mounting screws 230.
Further, in the substantially central portion of the main body 211 of the sensor base 210, a lead-in hole 214 for drawing the tip of the sensor line Q from the upper surface side to the lower surface side of the sensor base 210 penetrates in the vertical direction. It is provided.

Further, in the present embodiment, not only the insertion holes 213 and 213 (including the elongated holes 213a and 213a) of the sensor base 210, but also the first through holes 215 and 215 and the second through holes of the sensor base 210. 216 and 216 can also be used as screw holes for the mounting screws 230. That is, the sensor base 210 shown in FIG. 2 has three sets of screw holes, and among these three sets of screw holes, screws for mounting screws 230 provided on the mounted portion P or the like. It is configured so that a set of screw holes suitable for the position of the receiving portion can be selected and used. In this way, from the viewpoint of increasing the flexibility of the fire detector 200 (making it possible to support various mounting methods with one type of detector base 210), the fire detector 200 is provided with the mounting screw 230. A plurality of sets of screw holes are provided as screw holes.

FIG. 3 is a diagram showing an example of the information transmission adapter according to the first embodiment, and is a perspective view seen from the upper surface side. FIG. 4 is a diagram showing an example of an adapter main body constituting the information transmission adapter according to the first embodiment, and is a view seen from the lower surface side.
As shown in FIGS. 1A and 1B, for example, the information transmission adapter 100 includes an adapter main body 101 and a rotating cover 102 attached to the adapter main body 101.
As shown in FIG. 4, for example, the adapter main body 101 includes a base member 110 and an information transmission module 120 mounted on the base member 110.

As shown in FIG. 1B, for example, the base member 110 of the adapter main body 101 is located outside the outer peripheral side surface of the fire detector 200. Specifically, as shown in FIGS. 3A and 3B, for example, the base member 110 is formed in a C-shaped plate shape having an inner diameter slightly larger than the outer diameter of the detector base 210 of the fire detector 200. Has been done.
Further, as shown in FIG. 1B, for example, the base member 110 has a holding portion 111 located inward of the outer peripheral side surface of the fire detector 200. Specifically, as shown in FIGS. 3A and 3B, for example, the base member 110 is provided with a holding portion 111 that projects inward from the inner peripheral surface of the base member 110. The adapter main body 101 is fixed to the fire detector 200 by sandwiching the sandwiching portion 111 between the fire detector 200 and the attached portion P to which the fire detector 200 is attached.

As shown in FIG. 1B, for example, the rotating cover 102 is formed in a ring plate shape having an inner diameter slightly larger than the outer diameter of the detector base 210 of the fire detector 200. That is, as shown in FIGS. 3A and 3B, for example, the rotary cover 102 has an annular shape having a central opening 102a having a size through which the fire detector 200 can be inserted.
The rotating cover 102 is a lid that covers the lower surface of the adapter main body 101, and is detachably attached to the adapter main body 101 fixed to the fire detector 200 from below the fire detector 200.

For example, as shown in FIG. 3A, an annular locking wall 102b projecting upward is provided on the outer edge of the rotating cover 102. A locking claw 102b1 facing inward is provided at the tip of the locking wall 102b. On the other hand, an annular groove 110b for locking the locking claw 102b1 is formed at a position corresponding to the locking wall 102b on the outer peripheral surface of the base member 110 of the adapter main body 101.

For example, the rotary cover 102 is pushed up with the rotary cover 102 in contact with the lower surface side of the adapter main body 101. Then, the locking claw 102b1 of the rotating cover 102 fits into the groove 110b of the adapter body 101, so that the rotating cover 102 can be attached to the adapter body 101 so that the rotating cover 102 does not come off (see FIG. 3B). ). Further, for example, the rotary cover 102 can be removed from the adapter main body 101 by putting a finger on the tip (upper end) of the locking wall 102b of the rotary cover 102 and pushing down the rotary cover 102 (see FIG. 3A). ).

The groove 110b provided in the adapter body 101 is not spiral but annular. That is, the start point and the end point of the groove 110b coincide with each other. Therefore, the rotation cover 102 can be rotated in the clockwise direction and the counterclockwise direction with respect to the adapter body 101 in a state of being attached to the adapter body 101. That is, the rotary cover 102 is rotatably attached to the adapter body 101.
The locking structure for rotatably and detachably locking the rotary cover 102 to the adapter main body 101 is not limited to the one including the locking wall 102b and the groove 110b, and can be appropriately changed.
Further, a protrusion protruding downward may be provided at an appropriate position on the holding portion 111 of the adapter main body 101. In this case, the protrusion is caught in a recess (not shown) provided on the upper surface of the sensor base 210, so that when the rotation cover 102 attached to the adapter body 101 is rotated, the protrusion rotates to the adapter body 101. It can be prevented from being lost.

The information transmission module 120 of the adapter main body 101 is a module that wirelessly transmits identification information unique to the device for position detection. As shown in FIG. 4, the information transmission module 120 includes an information transmission terminal 121 including a circuit board, a transmission circuit unit, an antenna unit, and the like, and a battery (button type battery) 122 that supplies electric power to the information transmission terminal 121. Have.
The base member 110 of the adapter main body 101 is provided with four concave accommodating chambers 110c for detachably accommodating one battery 122 at equal intervals along the circumferential direction. Since these four storage chambers 110c are connected in parallel, power can be supplied to the information transmission terminal 121 if the battery 122 is housed in at least one of the four storage chambers 110c.
Since the storage chamber 110c opens downward, the battery 122 housed in the storage chamber 110c will fall if the rotation cover 102 is not attached to the adapter main body 101. That is, the rotating cover 102 is provided to maintain the state in which the battery 122 is housed in the storage chamber 110c.

FIG. 5A is a diagram showing a blocked state of the information transmission adapter 100, and FIG. 5B is a diagram showing an open state of the information transmission adapter 100. In FIG. 5, the mounting screw 230 is not shown.
The rotary cover 102 includes, for example, as shown in FIGS. 3A and 5B, a first hole portion 102c and a second hole portion 102d penetrating in the vertical direction, a recess 102e opening downward, and a recess 102e. have.

The first hole 102c, the second hole 102d, and the recess 102e are provided corresponding to three of the four storage chambers 110c, respectively. Therefore, the information transmission adapter 100 has four from the closed state (see FIG. 5A) in which all four storage chambers 110c are closed by turning the rotating cover 102 attached to the adapter main body 101. Any two of the accommodation chambers 110c in the above can be converted into an open state (see FIG. 5B).
That is, in the open state, the first hole 102c is arranged directly under one of the four accommodation chambers 110c, and the second hole 102d is arranged directly under one of the remaining three accommodation chambers 110c. To. On the other hand, in the closed state, the first hole 102c and the second hole 102d are not arranged directly under any of the four storage chambers 110c.

Here, in the present embodiment, the first hole 102c is provided corresponding to one of the four storage chambers 110c, and is adjacent to the one storage chamber 110c on the clockwise side. A second hole 102d is provided corresponding to the accommodation chamber 110c.
The position of the second hole 102d with respect to the first hole 102c can be appropriately selected, but from the viewpoints of allowing more batteries 122 to be mounted and replacing more batteries 122, the present invention is used. As in the embodiment, it is preferable to provide the first hole 102c corresponding to one of the two storage chambers 110c adjacent to each other and the second hole 102d corresponding to the other.

Next, an example of how to install the information transmission adapter 100 will be described.
First, in the fire detector 200 installed in the attached portion P, the detector main body 220 is removed from the detector base 210 (first step).
Next, the mounting screw 230 is loosened to create a predetermined gap between the sensor base 210 and the mounted portion P (second step).

Next, the adapter main body 101 in which the battery 122 is not housed in the storage chamber 110c is inserted between the sensor base 210 and the attached portion P (third step). In the present embodiment, the base member 110 of the adapter main body 101 is formed in a C shape in which an opening portion 110a is provided in a part of an annular shape (see FIGS. 3A, 3B and 4). The opening portion 110a is provided to avoid interference with the mounting screw 230 and the detector line Q when the adapter main body 101 is inserted between the fire detector 200 and the mounted portion P. That is, since the adapter main body 101 has the opening portion 110a, it can be inserted between the fire detector 200 and the attached portion P without being disturbed by the mounting screw 230 or the detector line Q. .. Therefore, the adapter main body 101 can be arranged between the fire detector 200 and the attached portion P to which the fire detector 200 is attached by simply removing the sensor main body 220 and loosening the mounting screw 230. it can.

Next, the mounting screw 230 is tightened, and the holding portion 111 provided on the base member 110 is sandwiched between the sensor base 210 and the mounted portion P (fourth step).
Next, the sensor main body 220 is attached to the sensor base 210 to form the fire detector 200 (fifth step).
Next, the rotating cover 102 is attached to the adapter body 101 from below the fire detector 200 (sixth step). In the present embodiment, since the rotary cover 102 has a central opening 102a having a diameter slightly larger than the diameter of the fire detector 200, it should be attached to the adapter main body 101 without being disturbed by the fire detector 200. Can be done.
Then, the battery 122 is housed in the storage chamber 110c of the base member 110 to form the information transmission adapter 100 (sixth step).

In the sixth step, the rotary cover 102 is rotated to position the second hole 102d directly under the empty storage room 110c among the four storage rooms 110c, and the empty hole 102d is placed through the second hole 102d. The battery 122 (unused battery 122) is housed in the storage chamber 110c. By repeating this accommodating work, a plurality of batteries 122 can be mounted on the information transmission adapter 100.

In the case of the present embodiment, a maximum of three batteries 122 can be mounted on the information transmission adapter 100, and an example of the method will be described.
Here, the four storage chambers 110c included in the information transmission adapter 100 are referred to as "containment chamber A", "containment chamber B", "containment chamber C", and "containment chamber D", respectively. Then, it is assumed that these accommodation chambers are arranged in the counterclockwise direction in the order of accommodation chamber A → accommodation chamber B → accommodation chamber C → accommodation chamber D.

As described above, in the present embodiment, the first hole 102c is provided corresponding to one of the four storage chambers 110c, and the one storage chamber 110c is clockwise. A second hole 102d is provided corresponding to the adjacent accommodation chamber 110c. Therefore, when the first hole 102c is located directly under the accommodation chamber A, the second hole 102d is located directly under the accommodation chamber D adjacent to the accommodation chamber A on the clockwise side, and the accommodation chamber B is located. When the first hole 102c is located directly below the accommodation chamber B, the second hole 102d is located directly below the accommodation chamber A adjacent to the accommodation chamber B on the clockwise side, and the first hole 102d is directly below the accommodation chamber C. When 102c is located, the second hole 102d is located directly under the accommodation chamber B adjacent to the accommodation chamber C on the clockwise side, and the first hole 102c is located directly under the accommodation chamber D. The second hole 102d is located directly below the accommodation chamber C adjacent to the accommodation chamber D on the clockwise side.

Specifically, in the sixth step, first, the rotary cover 102 is rotated to position the second hole 102d directly under the storage chamber A, and the battery 122 (to the storage chamber A via the second hole 102d). The unused battery 122) is housed (step 6-1).
Next, the rotating cover 102 is rotated 90 degrees in the counterclockwise direction to position the second hole 102d directly under the storage chamber B, and the battery 122 (unused) is placed in the storage chamber B via the second hole 102d. The battery 122) is housed (step 6-2). After the 6-1st step, the rotary cover 102 may be rotated 90 degrees clockwise to position the second hole 102d directly under the accommodation chamber D, but in that case, directly under the accommodation chamber A. The first hole 102c will be located, and the battery 122 housed in the storage chamber A in the 6-1 step will fall through the first hole 102c. Therefore, in the 6-2 step, the rotary cover 102 is rotated in the counterclockwise direction.

Next, the rotary cover 102 is rotated 90 degrees counterclockwise to position the second hole 102d directly under the storage chamber C, and the battery 122 (unused) is placed in the storage chamber C via the second hole 102d. The battery 122) is housed (steps 6-3). After the 6-2 step, the rotating cover 102 may be rotated 90 degrees clockwise to position the second hole 102d directly under the accommodating chamber A, but in that case, directly under the accommodating chamber B. The first hole 102c will be located, and the battery 122 housed in the storage chamber B in the 6-2 step will fall through the first hole 102c. Therefore, in the sixth to third steps, the rotary cover 102 is rotated in the counterclockwise direction.
Then, the rotation cover 102 is rotated counterclockwise by about 45 degrees to position the second hole 102d between the accommodation chamber C and the accommodation chamber D, and the information transmission adapter 100 is closed (sixth). -4 steps). After the 6th-3 steps, when the rotary cover 102 is rotated 90 degrees counterclockwise to position the second hole 102d directly under the accommodation chamber D, the first hole 102c is directly under the accommodation chamber A. Is located, and the battery 122 housed in the storage chamber A in the 6-1 step falls through the first hole 102c. Therefore, in the 6th-4th steps, the rotation cover 102 is rotated by about 45 degrees.
As a result, the batteries 122 (unused batteries 122) can be supplied to the accommodation chamber A, the accommodation chamber B, and the accommodation chamber C, that is, the information transmission adapter 100 can be equipped with three batteries 122.

As described above, the first hole 102c is provided corresponding to one of the plurality of accommodation chambers 110c, and the accommodation chamber 110c adjacent to the one accommodation chamber 110c on the clockwise side is provided. When the second hole 102d is provided correspondingly, the rotating cover 102 can be rotated counterclockwise (rotating about 270 degrees when the sixth step is started from the closed state). Many batteries 122 can be mounted on the information transmission adapter 100. Similarly, when replacing the battery 122 mounted on the information transmission adapter 100, more batteries 122 can be replaced by rotating the rotating cover 102 in the counterclockwise direction.

In the above description, the battery 122 (unused battery 122) is supplied to the storage chamber 110c via the second hole 102d, but the present invention is not limited to this, and the storage chamber 110c is supplied via the first hole 102c. The battery 122 may be supplied to the vehicle. When the battery 122 is supplied to the storage chamber 110c via the first hole 102c, more batteries 122 can be mounted on the information transmission adapter 100 by rotating the rotating cover 102 in the clockwise direction. It becomes.

Further, the number of the accommodation chambers 110c included in the information transmission adapter 100 is not limited to four, and may be a plurality. Further, regardless of the number of storage chambers 110c included in the information transmission adapter 100, two storage chambers adjacent to each other can be mounted, and more batteries 122 can be replaced. Of the 110c, it is preferable to provide the first hole 102c corresponding to one and the second hole 102d corresponding to the other.

[Battery replacement device]
FIG. 6A is a view for explaining the battery replacement device according to the first embodiment, and is a perspective view seen from the upper surface side. FIG. 6B is a diagram illustrating a battery supply unit included in the battery replacement device according to the first embodiment.
The battery replacement device 10 of the first embodiment is provided in the sensor tester 20.
The sensor tester 20 is a heating / heating device that can be used for both a heat detector and a smoke detector among the sensor operation testers used for an operation test for confirming whether the fire detector 200 operates normally. It is a smoke tester, and is configured to include, for example, as shown in FIG. 6A, a head portion 20a, a grip portion 20b, and a connecting portion 20c for connecting the head portion 20a and the grip portion 20b. ..
The detector tester 20 is not limited to the heating / smoke tester, and may be a tester that can be used for a heat detector or a smoke detector. However, it may be a tester that can be used as a flame detector.

The head portion 20a has a shape that can surround and cover the fire detector 200 from below the fire detector 200 installed in the attached portion P. Inside the head portion 20a, a smoke / heat generating portion (not shown) that generates a pseudo fire, a detector operation detecting unit (not shown) that detects the operating state of the fire detector 200, and the like are provided.
The grip portion 20b is a rod-shaped member gripped by an operator who performs maintenance and inspection of the fire detector 200, and is used to bring the head portion 20a closer to the fire detector 200 installed in the attached portion P.
The connecting portion 20c connects the head portion 20a and the grip portion 20b so that the angle of the head portion 20a with respect to the grip portion 20b can be switched. That is, the sensor tester 20 of the present embodiment is configured so that the head angle can be switched according to the position of the operator with respect to the fire detector 200 to be tested.

The battery replacement device 10 is mounted around the head portion 20a, for example.
Specifically, as shown in FIG. 6A, for example, the battery replacement device 10 is rotatably mounted on the support frame 11 mounted on the head portion 20a and the support frame 11 on the support frame 11. An annular rotating plate 12 is provided, and a cylindrical battery collecting unit 13, a cylindrical battery supply unit 14, and a cylindrical convex portion 15 projecting upward from the rotating plate 12 are provided. It is composed.

The battery recovery unit 13, the battery supply unit 14, and the convex portion 15 are provided corresponding to the first hole portion 102c, the second hole portion 102d, and the concave portion 102e of the rotating cover 102 of the information transmission adapter 100, respectively. ..
That is, when the battery replacement device 10 is brought close to the fire detector 200 (the head portion 20a covers the fire detector 200) with the convex portion 15 aligned with the concave portion 102e, the convex portion 15 becomes the concave portion 102e of the rotation cover 102. The battery recovery unit 13 is inserted into the first hole portion 102c of the rotary cover 102, and the battery supply unit 14 is inserted into the second hole portion 102d of the rotary cover 102.

The battery recovery unit 13 is configured to accommodate a plurality of batteries 122 (used batteries 122) stacked therein.
Further, the battery supply unit 14 is configured to accommodate a plurality of batteries 122 (unused batteries 122) stacked therein. Further, inside the battery supply unit 14, for example, as shown in FIG. 6B, a mounting plate 14a on which the battery 122 is mounted and a mounting plate 14a are placed on the upper side (open end side of the battery supply unit 14). ) Is provided with a coil spring 14b. That is, the battery supply unit 14 is configured to be able to supply the battery 122 to the empty storage chamber 110c by utilizing the urging force of the coil spring 14b.

In the present embodiment, the battery replacement device 10 includes a plate rotation mechanism (not shown) that rotates the rotating plate 12 in a predetermined direction (counterclockwise in the case of the present embodiment) around the head portion 20a. ..
The plate rotation mechanism has, for example, a drive source and a transmission member that transmits the drive force of the drive source to the rotation plate 12. Further, the plate rotation mechanism is configured to automatically stop rotating when the rotation angle from the start of rotation reaches a predetermined angle (270 degrees in the case of the present embodiment).

Further, in the present embodiment, the battery replacement device 10 prevents the battery 122 included in the battery supply unit 14 from falling when the battery replacement device 10 is brought close to or away from the fire detector 200. It is equipped with a battery fall prevention mechanism (not shown).
The battery fall prevention mechanism is in a state in which a force resisting the urging force of the coil spring 14b is applied (battery drawing state (see the left side of FIG. 6B)) and a state in which the force is not applied (battery extrusion state (FIG. 6B)). See the right side))) and can be switched. Specifically, the battery fall prevention mechanism has, for example, a drive source and a transmission member that transmits the driving force of the drive source to the mounting plate 14a, and pulls the mounting plate 14a downward. A state in which a force is applied to the mounting plate 14a to restrict the movement of the mounting plate 14a (battery lead-in state), a state in which the application is released and the movement of the mounting plate 14a is not restricted (battery extrusion state). Can be switched to.

In the present embodiment, the grip portion 20b is provided with a switch (not shown) that can be operated by the user, and when the switch is turned on, the battery fall prevention mechanism of the battery replacement device 10 is brought into the battery state. The state is switched to the extruded state, and then the plate rotation mechanism of the battery changing device 10 is switched from the stopped state to the rotating state. Then, when the switch is turned off, the plate rotation mechanism returns from the rotating state to the stopped state, and then the battery fall prevention mechanism returns from the battery extrusion state to the battery insertion state.
Further, the plate rotation mechanism of the battery exchange device 10 automatically returns from the rotating state to the stopped state when the rotation angle reaches a predetermined angle (270 degrees in the case of the present embodiment). When the switch provided on the grip portion 20b is turned off while the plate rotation mechanism has returned to the stopped state, the battery fall prevention mechanism returns from the battery extrusion state to the battery insertion state while the plate rotation mechanism remains stopped. It is configured as.

When the rotating plate 12 rotates, the battery collecting unit 13, the battery supply unit 14, and the convex portion 15 fixed on the rotating plate 12 orbit the head portion 20a. Therefore, when the rotating plate 12 rotates with the convex portion 15 inserted into the concave portion 102e of the rotating cover 102, the rotating cover 102 follows the rotation and the rotating cover 102 moves in the same direction as the rotating direction of the rotating plate 12. Rotate against.

Here, an example of a battery replacement method of the information transmission adapter 100 using the battery replacement device 10 will be described.
When it is time to replace the battery of the information transmission adapter 100, first, as shown in FIG. 7, the battery replacement device 10 is brought closer to the fire detector 200, and the convex portion 15 of the battery replacement device 10 is moved to the information transmission adapter. It is aligned with the recess 102e of the rotating cover 102 of 100. Then, in this state, when the battery replacement device 10 is brought closer to the fire detector 200 (the head portion 20a covers the fire detector 200), the convex portion 15 becomes the concave portion 102e, and the battery recovery portion 13 of the battery replacement device 10 becomes. The battery supply unit 14 of the battery exchange device 10 is inserted into the second hole 102d of the rotating cover 102 into the first hole 102c of the rotating cover 102.

In the case of the present embodiment, since the battery replacement device 10 is provided in the detector tester 20, the battery of the information transmission adapter 100 can be replaced while performing the operation test of the fire detector 200. Therefore, for example, the battery can be replaced during the waiting time of the operation test, so that the work efficiency of the periodic inspection is improved.
The battery replacement device 10 may not be provided in the sensor tester 20. In this case, the battery replacement device 10 includes, for example, an inverted truncated cone-shaped support portion (a portion corresponding to the support frame 11) and a rotating plate 12 rotatably attached to the support portion on the support portion. , The battery recovery unit 13, the battery supply unit 14, and the convex portion 15 fixed to the upper surface of the rotating plate 12, the grip portion (the portion corresponding to the grip portion 20b of the sensor tester 20), the support portion, and the support portion. It is configured to include a connecting portion (a portion corresponding to the connecting portion 20c of the sensor tester 20) for connecting the grip portion.

Further, in the case of the present embodiment, for example, as shown in FIG. 5B, the diameters of the recess 102e, the first hole 102c, and the second hole 102d are larger than the diameter of the storage chamber 110c. Therefore, even if the alignment accuracy of the convex portion 15 with respect to the concave portion 102e is low, the convex portion 15 is inserted into the concave portion 102e, the battery recovery portion 13 is inserted into the first hole portion 102c, and the battery supply portion is inserted into the second hole portion 102d. The insertion of 14 can be easily achieved.

Next, when the switch provided on the grip portion 20b is turned on, for example, as shown in FIG. 8, the battery fall prevention mechanism of the battery replacement device 10 switches from the battery insertion state to the battery extrusion state, and then the plate of the battery replacement device 10 The rotation mechanism switches from the stopped state to the rotating state. As a result, the rotating plate 12 of the battery changing device 10 rotates in a predetermined direction (counterclockwise in the case of this embodiment), and the rotating cover 102 of the information transmission adapter 100 follows the rotation in the predetermined direction. Rotate to.

Then, of the four storage chambers 110c of the information transmission adapter 100, the first hole 102c (and the battery recovery unit inserted into the first hole 102c) are directly below the storage chamber 110c in which the battery 122 is housed. When 13) is located, for example, as shown in FIG. 9, the battery 122 falls through the first hole 102c and is housed in the battery recovery unit 13. As a result, the used battery 122 can be collected.
Further, of the four storage chambers 110c of the information transmission adapter 100, the battery inserted in the second hole 102d (and the second hole 102d) directly below the empty storage chamber 110c in which the battery 122 is not housed. When the supply unit 14) is located, for example, as shown in FIG. 9, the battery 122 of the battery supply unit 14 is pushed out into the storage chamber 110c by the urging force of the coil spring 14b and is housed in the storage chamber 110c. .. As a result, the unused battery 122 can be supplied to the empty storage chamber 110c.

In the case of this embodiment, it is possible to replace up to three batteries 122, and an example of the method will be described.
Here, the four storage chambers 110c included in the information transmission adapter 100 are referred to as "containment chamber A", "containment chamber B", "containment chamber C", and "containment chamber D", respectively. These containment chambers are arranged in the order of containment chamber A → containment chamber B → containment chamber C → containment chamber D in the counterclockwise direction, and in containment chamber A, containment chamber B, and containment chamber C. It is assumed that the battery 122 is housed and the battery 122 is not housed in the storage room D.

The rotation of the rotating plate 12 starts, the rotating cover 102 rotates counterclockwise, and the first hole 102c (and the battery recovery unit 13 inserted into the first hole 102c) directly below the accommodating chamber A. ) Is located, the battery 122 (used battery 122) housed in the storage chamber A is collected. Further, when the first hole portion 102c is located directly under the accommodation chamber A, the second hole portion 102d (and the battery supply portion 14 inserted in the second hole portion 102d) is located directly under the accommodation chamber D. , The battery 122 (unused battery 122) is supplied to the accommodation chamber D.
Further, when the rotation cover 102 is rotated 90 degrees counterclockwise and the first hole 102c (and the battery recovery unit 13 inserted in the first hole 102c) is located directly under the storage chamber B, the storage chamber 102 is located. The battery 122 (used battery 122) housed in B is collected. Further, when the first hole portion 102c is located directly under the accommodation chamber B, the second hole portion 102d (and the battery supply portion 14 inserted into the second hole portion 102d) is located directly under the accommodation chamber A. , The battery 122 (unused battery 122) is supplied to the storage chamber A that has been emptied earlier.

Further, when the rotating cover 102 is rotated 90 degrees in the counterclockwise direction and the first hole 102c (and the battery recovery unit 13 inserted in the first hole 102c) is located directly under the storage chamber C, the storage chamber 102 is located. The battery 122 (used battery 122) housed in C is collected. Further, when the first hole portion 102c is located directly under the accommodation chamber C, the second hole portion 102d (and the battery supply portion 14 inserted in the second hole portion 102d) is located directly under the accommodation chamber B. , The battery 122 (unused battery 122) is supplied to the storage chamber B that has been emptied earlier.
Then, when the rotation angle of the rotation cover 102 from the start of rotation reaches 270 degrees, that is, when the first hole 102c is located between the accommodation chamber C and the accommodation chamber D and the information transmission adapter 100 is closed. , The rotation of the rotating plate 12 is stopped. As a result, all the batteries 122 (used batteries 122) housed in the containment chamber A, the containment chamber B, and the containment chamber C are collected, and the batteries 122 are stored in the containment chamber D, the containment chamber A, and the containment chamber B. (Unused battery 122) can be supplied.

As in the present embodiment, in the case where the four accommodation chambers 110c are arranged at equal intervals, the first hole 102c corresponds to the accommodation chamber 110c of one of the four accommodation chambers 110c. When the second hole 102d is provided corresponding to the accommodation chamber 110c adjacent to the one accommodation chamber 110c on the clockwise side, the rotating plate 12 is 270 in the counterclockwise direction. By rotating the rotating cover 102 by about 270 degrees in the counterclockwise direction by rotating the rotating cover 102 by about 270 degrees, more batteries 122 can be replaced.

In the present embodiment, the battery recovery unit 13 corresponds to the first hole portion 102c, and the battery supply unit 14 corresponds to the second hole portion 102d, but the present invention is not limited to this, and the battery recovery unit 13 is not limited to this. Can be configured to correspond to the second hole 102d and the battery supply 14 to correspond to the first hole 102c. In this case, by rotating the rotating cover 102 in the clockwise direction, more batteries 122 can be replaced.
Further, the battery replacement device 10 should be used not only when replacing the battery 122 but also when installing the information transmission adapter 100 (specifically, in the sixth step in the installation method of the information transmission adapter 100). Can be done.

As described above, in the information transmission adapter 100 of the present embodiment, only the battery 122 can be attached / detached while being installed in the vicinity of the fire detector 200. Therefore, only the battery 122 can be attached / detached without removing the fire detector 200 from the attached portion P, removing the detector main body 220 from the detector base 210, or loosening the mounting screw 230. The battery can be replaced without interrupting the fire monitoring by the fire detector 200.
Further, by using the battery replacement device 10 of the present embodiment, the battery replacement of the information transmission adapter 100 can be easily performed.

The information transmission adapter 100 of the first embodiment described above is an information transmission adapter that can be attached to the fire detector 200, and has information including an information transmission terminal 121 and a battery 122 that supplies power to the information transmission terminal 121. A transmission module 120 and a movable body (rotary cover 102) that can be operated by an external action of the fire detector 200 are provided, and the battery 122 can be replaced by the operation of the movable body. ..
Therefore, according to the information transmission adapter 100 of the first embodiment, the battery 122 can be replaced by operating the movable body (rotary cover 102), but the movable body is acted on from the outside of the fire detector 200. Since it operates, the movable body can be operated without disconnecting the sensor base 210 and the sensor main body 220. Therefore, the battery can be replaced without interrupting the fire monitoring by the fire detector 200.

Specifically, the information transmission adapter 100 of the first embodiment can be attached in the vicinity of the fire detector 200, and includes a base member 110 located outside the outer peripheral side surface of the fire detector 200, and is a base member. The 110 has a storage recess (storage chamber 110c) for detachably accommodating the battery 122, and the movable body (rotary cover 102) has holes (first hole 102c, second hole 102d). A state in which the accommodating recess is concealed by the movable body (closed state) and a state in which the accommodating recess is exposed through the hole (open state) by being rotatably attached to the base member 110 and rotating the movable body. ) And, it is configured to be convertible to.
Therefore, since the battery 122 can be replaced only by rotating the movable body (rotating cover 102) by the action from the outside of the fire detector 200, the battery can be easily replaced.

Further, the battery replacement device 10 of the first embodiment described above is a battery replacement device for replacing the battery 122 mounted on the information transmission adapter 100 provided with the battery-driven information transmission module 120. A battery collection unit 13 that collects used batteries 122 from the information transmission adapter 100, a battery supply unit 14 that supplies unused batteries 122 to the information transmission adapter 100, and a rotatable rotating unit (rotating plate 12). At least one of the battery recovery unit 13, the battery supply unit 14, and the rotating unit (in the case of this embodiment, the battery collecting unit 33 and the battery supply unit 34) is a part of the information transmission adapter 100 (rotating cover). The battery 122 can be replaced by rotating the rotating portion in contact with 102).

Therefore, according to the battery exchange device 10 of the present invention, the battery of the information transmission adapter 100 is simply rotated by rotating the rotating portion (rotating plate 12) in contact with the movable body (rotating cover 102) of the information transmission adapter 100. Since the 122 can be replaced, the battery can be easily replaced.

<Second Embodiment>
Next, a second embodiment of the present invention will be described. 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.

[Information transmission adapter]
FIG. 10 is a diagram showing an installation example of the information transmission adapter according to the second embodiment.
The information transmission adapter 300 of the second embodiment can be arranged in the fire detector 200, for example, as shown in FIG. In the present embodiment, the information transmission adapter 300 is configured to be arranged in the sensor base 210, but the present invention is not limited to this, and the information transmission adapter 300 is arranged in the sensor main body 220. It may be configured to do so.

FIG. 11A is a view showing an example of the sensor base according to the second embodiment, and is a perspective view seen from the upper surface side. FIG. 11B is a diagram showing an example of the information transmission adapter according to the second embodiment, and is a perspective view seen from the upper surface side. 12A and 12B are views showing an example of the sensor base and the information transmission adapter according to the second embodiment, FIG. 12A is a perspective view seen from the upper surface side, and FIG. 12B is a view seen from the upper surface side. Is. In each drawing (FIGS. 10 to 16) used for the description of the second embodiment, the functional unit (connection terminal 212, insertion hole 213, lead-in hole 214, etc.) that realizes the function as a sensor base is omitted. doing.

The sensor base 210 of the present embodiment is different from the sensor base 210 of the first embodiment only in that an adapter space 218 for accommodating the information transmission adapter 300 is provided inside the main body 211 (housing). ..
Specifically, as shown in FIG. 11A, for example, the sensor base 210 of the present embodiment has an adapter space 218 and a functional unit space inside the main body 211 (housing). doing. Here, the space for the functional unit is a space for the functional unit (connection terminal 212, insertion hole 213, lead-in hole 214, etc.) that realizes the function as a sensor base.

That is, in an existing sensor base (a sensor base that does not have an adapter space 218 such as the sensor base 210 of the first embodiment), it is used for any of the internal spaces of the main body of the sensor base. The empty space that is not created can be the adapter space 218. Therefore, since the adapter space 218 is provided in the space inside the main body 211 (housing) of the sensor base 210 that is not used as the space for the functional part, it is possible to suppress the increase in size of the sensor base 210. , The appearance of the well-proportioned sensor base 210 can be maintained.

The adapter space 218 and the functional unit space are separated by a partition wall forming the adapter space 218. That is, the information transmission adapter 300 housed in the adapter space 218 is configured so that the influence of the information transmission adapter 300 does not affect the functional unit arranged in the functional unit space.
Further, the adapter space 218 and the sensor main body 220 are separated from each other by the lower wall portion of the partition wall forming the adapter space 218. That is, the information transmission adapter 300 housed in the adapter space 218 is configured so that the influence of the information transmission adapter 300 does not extend to the functional unit that realizes the function as the sensor main body.
As described above, in the present embodiment, the influence of the information transmission adapter 300 arranged in the fire detector 200 is configured so as not to affect the functional unit that realizes the function as the fire detector. The reliability of the fire detection function of the fire detector 200 is not reduced.

For example, as shown in FIG. 11A, the adapter space 218 is open toward the side. That is, an opening of the adapter space 218 is provided on the outer peripheral side surface of the main body 211 (housing) of the sensor base 210. Then, the information transmission adapter 300 is inserted into the adapter space 218 from the outside of the fire detector 200 through the opening.

As shown in FIG. 11B, for example, the information transmission adapter 300 includes an adapter base 310 having a shape that matches the shape of the adapter space 218, and an information transmission module 120 mounted on the adapter base 310. It is composed.
The adapter base 310 is configured to be separable into a terminal base member 311 and a battery base member 312. Specifically, the adapter base 310 is a combination of a terminal base member 311 and a battery base member 312 that can be divided by a cut surface substantially orthogonal to the thickness direction (vertical direction in this embodiment) of the adapter base 310. It becomes.

The information transmission terminal 121 of the information transmission module 120 is mounted on the terminal base member 311, and the battery 122 of the information transmission module 120 is mounted on the battery base member 312. The battery base member 312 is provided with one concave storage chamber 312a that opens downward, and one battery 122 is detachably housed in the storage chamber 312a.
Further, the terminal base member 311 and the battery are provided on both the cut surface of the terminal base member 311 and the cut surface of the battery base member 312 so that electric power can be supplied from the battery 122 to the information transmission terminal 121. A contact terminal (not shown) that contacts and conducts with each other in a state where the base member 312 is united (the state shown in FIG. 11B) is provided.

As shown in FIG. 12A, for example, the terminal base member 311 is housed in a state of being joined to the adapter space 218, and cannot be removed from the adapter space 218 unless the joint is released. Here, the state of being joined to the adapter space 218 means a state of being screwed to the adapter space 218, a state of being locked to the adapter space 218 with a claw, or being adhered to the adapter space 218. It is in a state of being welded or in a state of being welded to the adapter space 218. That is, the terminal base member 311 is housed in the adapter space 218 so as to be difficult to attach and detach.
The terminal base member 311 may be integrally formed with the main body 211 of the sensor base 210.
Further, the terminal base member 311 may be housed in a state where it is not joined to the adapter space 218.
Further, the terminal base member 311 may be integrally formed with the battery base member 312.

On the other hand, the battery base member 312 is housed in a state where it is not joined to the adapter space 218. That is, the battery base member 312 is easily attached and detached in the adapter space 218.
The attachment / detachment direction of the battery base member 312 with respect to the adapter space 218 is arbitrary. When the battery replacement device 30 (described later) of the present embodiment is used, the battery base member 312 is located at a predetermined position outside the fire detector 200, for example, as shown in FIGS. 12A and 12B. It can be attached and detached along the circumferential direction centered on the rotation axis.

The sensor base 210 of the present embodiment is an existing sensor regardless of whether the information transmission adapter 300 is housed in the adapter space 218 or the information transmission adapter 300 is not housed in the adapter space 218. It can be used in the same way as a base, i.e. a sensor base that does not have an adapter space 218.
Here, the state in which the information transmission adapter 300 is housed in the adapter space 218 means that the terminal base member 311 on which the information transmission terminal 121 is mounted and the battery base member 312 on which the battery 122 is mounted. Both are in a state of being arranged in the adapter space 218.
Further, the state in which the information transmission adapter 300 is not accommodated in the adapter space 218 is one of the terminal base member 311 in which the information transmission terminal 121 is mounted and the battery base member 312 in which the battery 122 is mounted. Alternatively, both are not arranged in the adapter space 218.

Further, the sensor base 210 of the present embodiment may be configured to include a sealing member that closes the opening of the adapter space 218. With this configuration, the opening of the adapter space 218 is closed when the sensor base 210 is used or stored in a state where the information transmission adapter 300 is not accommodated in the adapter space 218. Therefore, it is possible to prevent dust and the like from entering the adapter space 218. The sealing member can be appropriately selected as long as it can close the opening of the adapter space 218, and is, for example, a non-adhesive member such as a lid made of the same material as the main body 211 of the sensor base 210. It may be present, or it may be an adhesive member such as an adhesive tape.

In the present embodiment, for example, as shown in FIG. 12A, the terminal base member 311 is arranged above the adapter space 218, and the battery base member 312 is arranged below the adapter space 218. However, the present invention is not limited to this, and for example, the battery base member 312 may be arranged above the adapter space 218, and the terminal base member 311 may be arranged below the adapter space 218. ..
Further, the number of divisions of the adapter base 310 is not limited to the two of the terminal base member 311 and the battery base member 312, and can be appropriately changed. Further, the division direction is not limited to the top and bottom and can be changed as appropriate. Further, the adapter base 310 does not have to be divisible. In that case, for example, the information transmission terminal 121 is mounted on the upper surface side of the non-disassembleable adapter base 310, and the battery 122 is mounted on the lower surface side.

Further, in the present embodiment, one adapter space 218 is provided in the sensor base 210, and the terminal base member 311 and the battery base member 312 are accommodated in the same adapter space 218, but the present invention is limited to this. It's not a thing. For example, it is possible to provide a plurality of adapter spaces 218 in the sensor base 210 so that the terminal base member 311 and the battery base member 312 are accommodated in another adapter space 218.

[Battery replacement device]
13A and 13B are views showing an example of the battery replacement device according to the second embodiment, FIG. 13A is a view seen from the upper surface side, and FIG. 13B is a perspective view seen from the upper surface side. FIG. 14 is a diagram showing an example of the battery replacement device according to the second embodiment, and is a diagram showing a state in which the battery base member is placed on the support plate in FIG. 13.
The battery replacement device 30 of the second embodiment has, for example, as shown in FIGS. 13A and 13B, a support plate 31 and a rotation rotatably mounted on the support plate 31 with respect to the support plate 31. The body 32, the bottomed cylindrical battery recovery unit 33 and the bottomed cylindrical battery supply unit 34 projecting downward from the support plate 31, the grip portion 35, and the support plate 31 and the grip portion 35. 36 is provided with a connecting portion 36 for connecting the above.

As shown in FIG. 14A, for example, the battery replacement device 30 is used in a state of being in contact with the outer peripheral side surface of the fire detector 200. In the battery replacement device 30, for example, as shown in FIGS. 14A and 14B, two battery base members 312 can be placed on the support plate 31, and the rotating body 32 rotates to cause an adapter. The battery base member 312 housed in the space 218 can be replaced with the battery base member 312 (battery base member 312 on which the unused battery 122 is mounted) on the support plate 31.

As shown in FIGS. 13 (a) and 13 (b), for example, the rotating body 32 is attached to the support plate 31 so that the rotating body 32 can rotate around the rotating shaft 32a.
The rotating body 32 has a shape in which recesses 32b recessed with a predetermined curvature are provided on each side of a regular triangular plate. The radius of curvature of the recess 32b is the same as the radius of the sensor base 210. Therefore, the entire recess 32b can be brought into contact with the outer peripheral surface of the battery base member 312 (the surface exposed from the opening of the adapter space 218).

The support plate 31 has a shape in which a recess 31a recessed with a predetermined curvature is provided on a disk having a diameter smaller than the outer diameter of the sensor base 210 of the fire detector 200. Since the radius of curvature of the recess 31a is the same as the radius of the sensor base 210, the entire recess 31a can be brought into contact with the outer peripheral side surface of the sensor base 210. As a result, the battery can be replaced while the position of the battery replacement device 30 with respect to the fire detector 200 is properly maintained.
Further, a wall portion 31b protruding upward is provided on the outer edge (excluding the recessed portion 31a) of the support plate 31. The wall portion 31b slides (slides along the circumferential direction around the rotation shaft 32a) so that the battery base member 312 on the support plate 31 follows the rotating rotating body 32. It is provided to bring the outer peripheral surface of the base member 312 into contact with the entire recess 32b of the rotating body 32.
Further, the support plate 31 is provided with a first hole portion 31c and a second hole portion 31d penetrating in the vertical direction. The first hole portion 31c and the second hole portion 31d are arranged in the counterclockwise direction in the order of the first hole portion 31c → the second hole portion 31d. That is, the first hole portion 31c is located on the clockwise side of the second hole portion 31d.

Similar to the battery recovery unit 13 of the first embodiment, the battery recovery unit 33 is configured to accommodate a plurality of batteries 122 (used batteries 122) stacked therein.
The outer diameter of the battery recovery unit 33 is the same as the diameter of the first hole portion 31c of the support plate 31. The battery recovery unit 33 is joined to the peripheral wall surface where the outer peripheral surface of the battery recovery unit 33 forms the first hole portion 31c, with the open end of the battery collection unit 33 flush with the upper surface of the support plate 31. There is.

Similar to the battery supply unit 14 of the first embodiment, the battery supply unit 34 is configured so that a plurality of batteries 122 (unused batteries 122) can be stacked and accommodated inside the battery supply unit 34, and the battery 122 is contained therein. A mounting plate 14a on which the battery is mounted and a coil spring 14b for urging the mounting plate 14a to the upper side (open end side of the battery supply unit 34) are arranged.
The outer diameter of the battery supply unit 34 is the same as the diameter of the second hole portion 31d of the support plate 31. The battery supply unit 34 is joined to the peripheral wall surface where the outer peripheral surface of the battery supply unit 34 forms the second hole portion 31d while the open end of the battery supply unit 34 is flush with the upper surface of the support plate 31. There is.

The grip portion 35 is a rod-shaped member gripped by an operator who replaces the battery of the information transmission adapter 300, and is used to bring the support plate 31 closer to the fire detector 200 installed in the attached portion P.
The connecting portion 36 connects the support plate 31 and the grip portion 35 so that the angle of the support plate 31 with respect to the grip portion 35 can be switched.

In the present embodiment, the battery exchange device 30 includes a rotation mechanism (not shown) that rotates the rotating body 32 in a predetermined direction (counterclockwise in the case of the present embodiment) about the rotation shaft 32a.
The rotation mechanism has, for example, a drive source and a transmission member that transmits the drive force of the drive source to the rotating body 32.
In the present embodiment, the grip portion 35 is provided with a button (not shown) that can be operated by the user, and when the button is pressed, the rotating mechanism of the battery changing device 30 switches from the stopped state to the rotating state. It is configured as. Further, the rotation mechanism is configured to automatically stop rotating when the rotation angle from the start of rotation reaches a predetermined angle (120 degrees in the case of the present embodiment).

In the stopped state of the rotating mechanism, for example, as shown in FIGS. 13A and 13B, two of the three recesses 32b of the rotating body 32 face the wall portion 31b of the support plate 31, and the rest. One faces the same direction as the recess 31a of the support plate 31.
In this state, of the two battery base members 312 on the support plate 31, one of the storage chambers 312a is located directly above the first hole 31c of the support plate 31, and the other storage chamber 312a supports it. It is located directly above the second hole 31d of the plate 31. That is, in this state, of the two battery base members 312 on the support plate 31, one is located in the region on the support plate 31 on the first hole 31c side, and the other is the second on the support plate 31. It is located in the area on the hole 31d side.

Since the battery recovery unit 33 is attached to the first hole portion 31c, when the battery base member 312 on which the battery 122 is mounted is located in the region on the support plate 31 on the first hole portion 31c side, the battery 122 Drops through the first hole 31c and is housed in the battery recovery unit 33. As a result, the used battery 122 can be collected.
Further, since the battery supply unit 34 is attached to the second hole portion 31d, the battery base member 312 (that is, the battery 122) in which the accommodating chamber 312a is empty in the region on the support plate 31 on the second hole portion 31d side is empty. When the battery base member 312) to which is not mounted is located, the battery 122 of the battery supply unit 34 is pushed out into the storage chamber 312a by the urging force of the coil spring 14b of the battery supply unit 34, and the storage chamber 312a is pushed out. Is housed in. As a result, the unused battery 122 can be supplied to the empty storage chamber 312a.

As described above, in the present embodiment, the first hole portion 31c to which the battery recovery portion 33 is attached is located on the clockwise side of the second hole portion 31d to which the battery supply portion 34 is attached. Therefore, by rotating the rotating body 32 in the counterclockwise direction and sliding the two battery base members 312 on the support plate 31 and the battery base member 312 in the adapter space 218 in the counterclockwise direction. , The battery 122 of the information transmission adapter 300 can be replaced.

Specifically, by rotating the rotating body 32 in the counterclockwise direction, it is located in the region on the support plate 31 on the first hole 31c side, for example, as shown in FIGS. 15A to 15C. The battery base member 312 (battery base member 312 with diagonal hatching) was moved to the region on the second hole 31d side and located in the region on the support plate 31 on the second hole 31d side. The battery base member 312 (battery base member 312 with polka dot hatching) was moved into the adapter space 218, and the battery base member 312 (battery with lattice hatching) in the adapter space 218 was moved. The base member 312) can be moved to the region on the support plate 31 on the side of the first hole 31c.
As a result, the battery base member 312 and the battery 122 (used battery 122) mounted on the battery base member 312 are taken out from the adapter space 218, and the battery 122 (not yet) supplied from the battery supply unit 34. The battery base member 312 on which the battery used 122) is mounted can be attached to the adapter space 218. That is, the battery 122 of the information transmission adapter 300 can be replaced while reusing the battery base member 312.

Here, an example of a battery replacement method of the information transmission adapter 300 using the battery replacement device 30 will be described.
When it is time to replace the battery of the information transmission adapter 300, first, the support plate 31 is brought closer to the fire detector 200, and one recess 32b of the rotating body 32 (the support plate of the three recesses 32b). The recess 32b) facing the same direction as the recess 31a of 31 is aligned so as to face the outer peripheral surface of the battery base member 312 in the adapter space 218. Then, in this state, when the support plate 31 is brought closer to the fire detector 200 (the recess 31a of the support plate 31 is brought into contact with the outer peripheral side surface of the fire detector 200), the one recess 32b of the rotating body 32 is brought into contact with the fire detector 200. Is in contact with the outer peripheral surface of the battery base member 312 in the adapter space 218.

Next, when the button provided on the grip portion 35 is pressed, the rotating mechanism of the battery changing device 30 switches from the stopped state to the rotating state. As a result, the rotating body 32 rotates in a predetermined direction (counterclockwise in the case of this embodiment), and following the rotation, the two battery base members 312 and the adapter space 218 on the support plate 31 follow the rotation. The battery base member 312 inside slides in the predetermined direction.

Specifically, since the battery base member 312 in the adapter space 218 slides and moves to the region on the support plate 31 on the first hole 31c side, the battery base, for example, as shown in FIG. The battery 122 (used battery 122) housed in the storage chamber 312a of the member 312 is collected by the battery collecting unit 33.
Further, the battery base member 312 (that is, the battery base member 312 in which the storage chamber 312a is empty) located in the region on the support plate 31 on the side of the first hole 31c is the second hole 31d on the support plate 31. In order to slide and move to the side region, for example, as shown in FIG. 16, the battery 122 (unused battery 122) is supplied from the battery supply unit 34 to the storage chamber 312a of the battery base member 312.
Further, the battery base member 312 (that is, the battery base member 312 on which the battery 122 supplied from the battery supply unit 34 is mounted) located in the region on the support plate 31 on the second hole 31d side is used for the adapter. Move into space 218.
As a result, the battery 122 of the information transmission adapter 300 is replaced.

In the present embodiment, the battery recovery unit 33 is attached to the first hole portion 31c and the battery supply unit 34 is attached to the second hole portion 31d, but the present invention is not limited to this, and the battery recovery unit 33 is provided. In addition to being attached to the second hole portion 31d, the battery supply portion 34 can be configured to be attached to the first hole portion 31c. In this case, the battery 122 of the information transmission adapter 300 can be replaced by rotating the rotating body 32 in the clockwise direction.
Further, the battery replacement device 30 is used not only when the battery 122 is replaced, but also when the information transmission adapter 300 is installed (specifically, for example, when the information transmission adapter 300 is not accommodated in the adapter space 218). It can also be used (when attaching the battery base member 312 to which the battery 122 is mounted) to the fire detector 200 in use. In this case, a battery base member 312 having an empty storage chamber 312a is arranged in advance in the adapter space 218, and the battery base member 312 is provided with the unused battery 122 by using the battery replacement device 30. It may be replaced with the attached battery base member 312.

As described above, in the information transmission adapter 300 of the present embodiment, only the battery base member 312 to which the battery 122 is mounted can be attached / detached while being installed inside the fire detector 200. Therefore, the battery base member 312 to which the battery 122 is mounted does not need to remove the fire detector 200 from the attached portion P, remove the sensor main body 220 from the detector base 210, or loosen the mounting screw 230. Since only the battery can be attached and detached, the battery can be replaced without interrupting the fire monitoring by the fire detector 200.

Further, by using the battery replacement device 30 of the present embodiment, the battery replacement of the information transmission adapter 300 can be easily performed.
The battery replacement device 30 of the present embodiment can also be provided in the sensor tester 20. In this case, the battery replacement device 30 is, for example, projecting downward from the support plate 31, the rotating body 32 rotatably attached to the support plate 31 on the support plate 31, and the support plate 31. When the fire detector 200 is covered with the head portion 20a, the recessed portion 31a of the support plate 31 is provided with the battery collecting portion 33 and the battery supply portion 34, and the connecting portion for connecting the support plate 31 and the head portion 20a. It is configured to abut on the outer peripheral side surface of the fire detector 200. By providing the battery replacement device 30 in the detector tester 20, the battery of the information transmission adapter 300 can be replaced while performing the operation test of the fire detector 200, so that the work efficiency of the periodic inspection is improved.
Further, the battery replacement device 30 of the present embodiment can replace only the battery base member 312 to which the battery 122 is mounted, but the present invention is not limited to this, and the battery replacement device 30 is mounted with the battery 122. The battery base member 312 and the terminal base member 311 to which the information transmission terminal 121 is mounted may be exchanged together, that is, the entire information transmission adapter 300 may be exchangeable. When the battery changing device 30 is configured so that the entire information transmission adapter 300 can be replaced, the terminal base member 311 and the battery base member 312 may be formed inseparably (integrally). It may be formed so as to be separable as in the present embodiment.

The information transmission adapter 300 of the second embodiment described above is an information transmission adapter that can be attached to the fire detector 200, and has information including an information transmission terminal 121 and a battery 122 that supplies power to the information transmission terminal 121. A transmitter module 120 and a movable body (battery base member 312) that can be operated by an external action of the fire detector 200 are provided, and the battery 122 can be replaced by the operation of the movable body. ing.
Therefore, according to the information transmission adapter 300 of the second embodiment, the battery 122 can be replaced by operating the movable body (battery base member 312), but the movable body is from the outside of the fire detector 200. Since it operates by the action, the movable body can be operated without disconnecting the sensor base 210 and the sensor main body 220. Therefore, the battery can be replaced without interrupting the fire monitoring by the fire detector 200.

Specifically, the information transmission adapter 300 of the second embodiment can be attached to the inside of the fire detector 200, and the movable body (battery base member 312) is a storage recess (removably housed) for accommodating the battery 122. It has a storage chamber 312a) and can be slidably moved with respect to the fire detector 200. When the movable body slides and moves, the movable body is provided with an attachment / detachment port (space for an adapter) provided on the outer surface of the fire detector 200. A state in which the accommodating recess is concealed inside the fire detector 200 (a state in which the battery base member 312 is arranged in the adapter space 218) and the movable body is inserted from the attachment / detachment opening. It is configured so that it can be converted into a state in which the housing base member 312 is exposed to the outside by being removed (a state in which the battery base member 312 is arranged outside the adapter space 218 (for example, on the support plate 31).
Therefore, the battery 122 can be replaced simply by sliding the movable body (battery base member 312) by the action from the outside of the fire detector 200, so that the battery can be easily replaced.

Further, the battery replacement device 30 of the second embodiment described above is a battery replacement device for replacing the battery 122 mounted on the information transmission adapter 100 provided with the battery-driven information transmission module 120. A battery collection unit 33 that collects used batteries 122 from the information transmission adapter 100, a battery supply unit 34 that supplies unused batteries 122 to the information transmission adapter 100, and a rotatable rotating unit (rotating body 32). At least one of the battery recovery unit 33, the battery supply unit 34, and the rotating unit (in the case of this embodiment, the rotating unit (rotating body 32)) is a part of the information transmission adapter 100 (battery base member). The battery 122 can be replaced by rotating the rotating portion in contact with 312).

Therefore, according to the battery exchange device 30 of the present invention, the information transmission adapter 300 is simply rotated by rotating the rotating portion (rotating body 32) in contact with the movable body (battery base member 312) of the information transmission adapter 300. Since the battery 122 of the above can be replaced, the battery can be easily replaced.

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 embodiment, the information transmission module 120 having a transmission function is used, but a module having a reception function may be used in addition to the transmission function.
Further, the fire detector 200 is not limited to the one that can be separated into the detector base 210 and the detector main body 220, and can be changed as appropriate. For example, a fire detector without the detector base 210, that is, a detector. It may be a fire detector that can be attached to the attached portion P in an integrated configuration without using a base.

Further, in the first embodiment, the shapes of the base member 110 and the rotating cover 102 of the adapter main body 101 can be changed as appropriate, but regardless of the shapes of the base member 110 and the rotating cover 102, the information transmission adapter 100 A position that does not interfere with the detection function of the fire detector 200 (specifically, if the fire detector 200 is of a heat detection type, a position that avoids the area around the thermista and protector, and the fire detector 200 detects smoke If it is a type, it is preferable that it is arranged at a position avoiding the vicinity of the smoke inflow portion).

Further, in the second embodiment, the sensor main body 220 may be provided with an adapter space 218. In this case, the adapter space 218 is arranged in a space inside the housing of the sensor main body 220 that is not used as a functional unit space for the functional unit that realizes the function as the sensor main body. Here, the functional unit that realizes the function as the sensor main body is, for example, a sensing means for detecting a fire, a notifying means for notifying when a fire is detected, and the like. That is, in this case, in the existing sensor body (sensor body that does not have the adapter space 218), the empty space that is not used for anything in the internal space of the housing of the sensor body is It can be an adapter space 218.
In addition, the configuration shown in the embodiment can be appropriately changed without departing from the spirit of the invention.

10, 30 Battery replacement device 12 Rotating plate (rotating part)
13,33 Battery recovery unit 14,34 Battery supply unit 32 Rotating body (rotating unit)
100,300 Information transmission adapter 102 Rotating cover (movable body)
102c First hole (hole)
102d Second hole (hole)
110 Base member 110c Storage chamber (storage recess)
120 Information transmission module 121 Information transmission terminal 122 Battery 200 Fire detector 312 Battery base member (movable body)
312a Containment chamber (containment recess)

Claims (2)

An information transmission adapter that can be attached to a fire detector
An information transmission module having an information transmission terminal and a battery that supplies power to the information transmission terminal,
A movable body that can be operated by the external action of the fire detector,
A base member located outside the outer peripheral side surface of the fire detector is provided.
Before SL base member has a receiving recess for detachably accommodating said battery, and a clamping portion located inward from the outer peripheral side of the fire detector,
The movable body has a hole and is rotatably attached to the base member.
By the movable body is rotated, a state in which the accommodating recess is hidden by the movable member, and a state in which the accommodating recess is exposed through the hole portion, convertible der to is,
The shape of the base member, information originating adapter you wherein shape der Rukoto provided an opening for communicating the inner and outer part of the annular. An information transmission adapter that can be installed inside a fire detector.
An information transmission module having an information transmission terminal and a battery that supplies power to the information transmission terminal,
A movable body that can be operated by an external action of the fire detector, and
Before Symbol movable body has an accommodating recess for removably receiving said battery is slidable relative to said fire detector,
When the movable body slides, the movable body is inserted from an attachment / detachment port provided on the outer surface of the fire detector, and the accommodating recess is concealed inside the fire detector, and the movable body. There information originating adapter you characterized in that the accommodating recess is removed from the mounting port is a convertible and exposed to the outside, the.

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