JP3496324B2 - Automatic thermal switch - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention automatically turns on a controlled device by sensing a heat ray emitted from a human body.
The present invention relates to a heat-sensitive automatic switch that is turned off.

[0002]

2. Description of the Related Art Conventionally, as a heat-sensitive automatic switch of this kind, a heat ray radiated from a human body is detected by a heat ray sensor such as a pyroelectric element to detect the presence or absence of a person, so that the person can enter or leave the room. , Which automatically turn on and off controlled equipment such as lighting fixtures and ventilation fans by detecting leaving the room. Further, such a heat-sensitive automatic switch is generally mounted in a mounting hole provided on a construction surface such as a ceiling in which a case in which a heat ray sensor is housed is installed.

[0003]

Here, when the above-mentioned heat-sensitive automatic switch is to be installed outdoors, it is necessary to select a place such as the lower side of the eaves where it will not get wet as much as possible, but it is still completely installed. It is impossible to avoid rain. Therefore, there is a problem that rainwater enters the inside through a gap between the construction surface such as the lower surface of the eaves and the main body of the heat-sensitive automatic switch, causing a short circuit or the like to cause a malfunction.

By the way, in the above-mentioned conventional structure, when the heat ray is detected by the heat ray sensor in order to detect the human body and to inspect whether or not it is operating properly from the outside after mounting on the ceiling. There is a case that an operation indicator lamp that blinks and displays is provided. The operation indicator lamp is composed of a light emitting element such as a light emitting diode. However, when a thermal-type automatic switch equipped with an operation indicator light is installed outdoors like this, it is difficult to determine whether the operation indicator light is on because the surroundings are too bright in the daytime, which hinders the operation inspection. On the other hand, there is a problem that at night, if the brightness of the operation indicator light is high, it becomes more conspicuous than necessary.

The present invention has been made in view of the former problem, and an object of the present invention is to provide a heat-sensitive automatic switch which prevents intrusion of rainwater or the like from the outside to prevent malfunction. In .

[0006]

In order to achieve the above-mentioned object, a heat ray sensor for detecting a heat ray radiated from a human body, and the presence or absence of a person when the heat ray sensor detects a heat ray. A control means for outputting a corresponding control signal and a switch element which is inserted into a power supply path to the controlled device and whose on / off state is set by the control signal are housed in a case fixed to the ceiling. in thermal automatic switch, thermal automatic switch having a waterproof structure for preventing intrusion of water droplets blocking the gap formed between the case and the ceiling
H, insert the above case into the mounting hole on the ceiling.
Place the flange on the bottom of the case on the bottom of the ceiling.
And a fixing means for fixing the case to the ceiling.
Waterproof hand consisting of waterproof packing between the lunge and the underside of the ceiling
The step is interposed, and it is detachably attached to the lower surface side of the above flange.
It is equipped with a makeup plate that is
Drainage hole for draining water drops dripping from the side
And facing the flange of the decorative plate
On the surface from the peripheral edge of the decorative plate to the drain hole
It is characterized by having a protrusion .

[0007]

According to a second aspect of the present invention, in the first aspect of the present invention, an illuminance sensor for detecting the illuminance of the surroundings is housed in the case, and the ambient illuminance detected by the illuminance sensor is below a predetermined threshold value. It is characterized by comprising the above-mentioned control means for outputting a control signal only occasionally and a switching means for switching the threshold value for the illuminance sensor.

The invention of claim 3 is the same as the invention of claim 2.
The operation display means for displaying the operation state by blinking in response to the heat ray detection in the heat ray sensor only when the threshold value is changed to the predetermined value by the changeover means.
Characterized by comprising a.

[0010]

According to the first aspect of the present invention, since the waterproof means for closing the gap formed between the case and the ceiling to prevent the entry of water droplets is provided, the case can be installed even when the heat-sensitive automatic switch is installed outdoors. It is possible to prevent rainwater and the like from entering through the gap between the roof and the ceiling, and prevent a failure or malfunction due to a circuit short circuit or the like. Also the ceiling
Insert the above case into the mounting hole provided on the
Place the case on the ceiling by bringing the provided flange into contact with the lower surface of the ceiling.
Provided with fixing means for fixing, the flange and the lower surface of the ceiling
The waterproofing means consisting of waterproof packing was inserted between
When installing a thermal type automatic switch embedded in the ceiling,
Even the waterproof packing between the case flange and the ceiling surface.
You can prevent rainwater from entering by installing it and distribute it outdoors.
Rainwater, etc. for embedded heat-sensitive automatic switches installed
It is possible to prevent failures and malfunctions caused by
The makeup that is detachably attached to the lower surface of the flange.
It is equipped with a plate and drops on this decorative plate from the flange side.
A drain hole was provided to drain the drops of water to the outside.
So, even if rainwater enters the case, it will enter.
Water drops can be drained to the outside from the drain hole, causing a malfunction.
It is possible to prevent the occurrence of
Also, make-up play on the surface facing the flange of the above-mentioned makeup plate
The guide ribs from the peripheral edge of the
The guide ribs to drain water that has entered the case.
Guided to the hole, water drops can be drained quickly and reliably.
It

[0011]

[0012]

According to the second aspect of the present invention, the illuminance sensor for detecting the illuminance of the surroundings is housed in the case, and the control signal is output only when the illuminance of the surroundings detected by the illuminance sensor is equal to or less than a predetermined threshold value. Since it has the above-mentioned control means for outputting and the switching means for switching the threshold value for the illuminance sensor, the controlled device can be controlled according to the brightness of the surroundings, and the range of application of the heat-sensitive automatic switch is expanded. be able to.

[0014] In the configuration of the invention of claim 3, operation display for displaying the operating state by blinking in response to the heat ray detection in hot wire sensor only when the threshold by the switching means is switched to a predetermined value Since the means is provided, it is possible to make the operation display means blink by the switching means only at the time of operation inspection, and as a result, by increasing the brightness of the operation display means, the operation confirmation can be surely performed even in the daytime. In addition, by preventing the operation indicator lamp from blinking by the switching means, the operation indicator lamp is not conspicuous at night.

[0015]

EXAMPLES ( Basic Example ) FIGS. 1 (a) to 1 (d) are views showing an external configuration of a heat-sensitive automatic switch of a basic example of the present invention . As shown in FIG. 1, the case 3 is composed of a body 4 having a flange 6 having a disk-shaped outer shape at its lower end, and a cover 5 attached to the upper surface of the body 4. As shown in FIG. 3C, a plurality of (four) assembly pieces 4a are provided on the upper edge of the body 4 to the right in the figure, and the assembly holes 4b are opened in the assembly pieces 4a. Then, the body 4 and the cover 5 are coupled by engaging the assembly claw 5a provided on the lower peripheral surface of the cover 5. Printed boards 7a and 7b mounted with components of a circuit section described later are housed in the body 4 and the cover 5, respectively. Inside the body 4, a heat ray sensor 1 including a pyroelectric element and a CdS element described below are included. And a light receiving lens 9 that collects heat rays from a detection area on the heat ray sensor 1 and the illuminance sensor 33 (see FIG. 3). ) Is stored. It should be noted that the sensor elements constituting the heat ray sensor 1 and the illuminance sensor 33 are not limited to those described above , and other sensor elements having the same function may be used.

At both ends of the flange 6, two mounting holes 53, 53 for directly attaching to the embedding box or the ceiling material are provided, and the ceiling material between the flange 6 is provided on the upper surfaces of both sides. A mounting portion 54 for detachably mounting a mounting bracket 55 for sandwiching is provided. Further, the lower surface of the flange 6 is covered with the decorative plate 56 except for the central portion. A terminal cover 24 is detachably attached to the upper surface of the case 3 so as to protect the terminal portion 20.

As for the mounting bracket 55, the upper part of the case 3 is inserted into the mounting hole formed in the ceiling material, and the flange 6 is provided on the lower surface of the ceiling material.
The case 3 is fixed to the ceiling material with the upper surface of the metal body 57 abutting, and as shown in FIG. 4, a vertically elongated metal fitting body 57 whose one side is open and a bottom portion of the metal fitting body 57 are penetrated from below. It is composed of a screw body 58 whose tip is rotatably held on the ceiling portion of the metal fitting body 57, and a metal holding body 59 in which the screw portion of the screw body 58 is screwed into a screw hole.

A rubber waterproof packing 40 is attached to the upper surface of the flange 6 (the surface on the body 4 side). As shown in FIG. 2, the waterproof packing 40 is formed in a ring shape, and the body 4 is made to protrude from the central opening 41 so as to be closely attached to the upper surface of the flange 6. A plurality of ribs 42 are concentrically formed on both surfaces of the waterproof packing 40 along the circumferential direction. That is, a total of two ribs 42 project from the peripheral portion and the inner side of the surface on the side that contacts the flange 6, and on the opposite surface (the surface that contacts the construction surface such as the ceiling material). Has a total of four ribs 42 projecting from the periphery to the periphery of the opening 41. Further, a pair of substantially triangular anti-reassembly claws 43 project from the peripheral edge of the opening 41 toward the opening side, and when the waterproof packing 40 is attached to the case 3 upside down, this The disassembly preventing claw 43 interferes with the body 4 to prevent the above-mentioned mounting error. It should be noted that both ends of the waterproof packing 40 are provided with insertion holes 44 communicating with the attachment holes 53, 53 formed in the flange 6.

As shown in FIG. 3, the movable body 8 has a horn 11 to which a light receiving lens 9 having a hemispherical outer peripheral shape and a hemispherical Fresnel lens is attached, and an upper surface of the horn 11. The outer peripheral shape is formed into a spherical outer peripheral shape by the lid 12 having a hemispherical shape.
In the internal space surrounded by and, the heat ray sensor 1 and the illuminance sensor 3
Circuit board 1 so that 3 and 3 face the light receiving lens 9
It is configured to store 0. A shaft portion 13 is projectingly provided on both side surfaces of the horn 11, and the shaft portion 13 is vertically movable in a vertical groove (not shown) provided on the inner peripheral surface of the body 4 and the shaft portion 13 is provided. It is inserted so as to be rotatable around, and the direction of the movable body 8 can be changed. A circular window hole 4c penetrating the inside and outside of the body 4 is formed on the lower surface of the body 4, and substantially the entire light receiving lens 9 attached to the lower surface of the movable body 8 is exposed through the window hole 4c. The size of the window hole 4c is set.

Inside the body 4, there is fixed a pressing member 14 made of a strip-shaped sheet metal and bent in a shape such that the central portion in the longitudinal direction projects upward. As shown in FIG. 5, the retainer 14 has fixing holes 14a formed at both ends in the longitudinal direction, and screws 15 screwed to the body 4 through the fixing holes 14a.
It is fixed to the body 4 by. A support body 16 is attached to the lower surface side of the central portion of the retainer 14. Support 16
Is the two hook holes 14 formed in the center of the retainer 14.
Two leg pieces 16a inserted into b and one shaft piece 16 inserted into a through hole 14c formed in the center of the retainer 14.
b, a claw portion 16c is formed at the upper end portion of the leg piece 16a and is locked to the peripheral portion of the hook hole 14b to prevent the support body 16 from coming off downward. Presser 14 and support 16
A pressing spring 17 made of a coil spring is interposed between the supporting member 16 and the supporting member 16 by the pressing spring 17.
Is urged downwards. Here, the lower end of the pressing spring 17 is held in a groove formed between the leg pieces 16 a and the shaft piece 16 b, and the upper end of the pressing spring 17 contacts the pressing tool 14. Further, on the lower surface of the support body 16, an O-ring 1 as a slip stopper made of an elastic body having a large friction coefficient such as rubber.
8 is fixed.

As described above, the leg piece 16a of the support 16 is inserted into the retainer 14 and the claw portion 16c is provided at the tip of the leg piece 16a, so that the spring of the retainer spring 17 is assembled. Even if force is applied, the support 16 can be held by the retainer 14 as shown in FIG.
It is possible to prevent 6 from coming off from the pressing tool 14. That is, the assembling work is simplified.

Inside the body 4, as shown in FIG. 6A, the support 16 is arranged so as to abut the upper surface of the movable body 8, and the movable body 8 is surrounded by the window hole 4c. It is sandwiched between the portion and the support body 16 and held by the spring force of the pressing spring 17. Therefore, when an impact force acts on the movable body 8 due to the fall of the case 3 or the like, the pressing spring 17 is compressed, and as shown in FIG. 6B, the periphery of the base of the shaft piece 16b of the support 16 is pressed. 14
Since the pressing spring 17 is a coil spring and has a large amount of bending, the effect of alleviating the impact force becomes large. When the external force such as the impact force is released, the movable body 8 returns to the original position by the spring force of the pressing spring 17. Further, an annular position regulating rib 19 formed coaxially with the light receiving lens 9 attached to the lower surface of the horn 11 is provided on the upper surface of the lid body 12 of the movable body 8, and the position regulating rib 19 is provided. The support 16 can contact the movable body 8 only within a range surrounded by. That is, when the movable body 8 is rotated with respect to the body 4,
As shown in FIG. 6C, the rotation range of the movable body 8 is regulated by the position regulating rib 19 contacting the support body 16. In this rotation range, the light receiving lens 9 on the lower surface of the horn 11 moves. The window portion 4c is not covered with the peripheral portion. In addition, as described above, the lower surface of the support 16 has an O
Since the ring 18 is fixed and the O-ring 18 contacts the movable body 8, the movable body 8 may not move even if a small rotational force acts on the movable body 8 due to the frictional force between the movable body 8 and the O-ring 18. I am doing it.

By the way, the printed circuit boards 7a and 7b are arranged in the case 3 so as to be vertically stacked, and are connected to each other through a connecting portion 7c made of a flat cable or a flexible substrate. On the upper surface of the upper printed circuit board 7b, a quick-connect terminal 21 is provided for connecting a load and a power source.
Three pairs of the terminal portions 20 are mounted (see FIG. 7). As is well known, the quick-connect terminal 21 has a lock spring 21a provided in a terminal frame 21b and locks an electric wire inserted from an electric wire insertion port 22 (see FIG. 1 (d)) provided on the upper surface of the cover 5. The lock spring 21a is made of a leaf spring and is configured to bite into the wire to prevent the wire from coming off when the wire is connected. Further, a release button 23 is provided to release the connection state of the electric wire by the lock spring 21a.
Part 3 is exposed from the upper surface of the cover 5 so that it can be operated with a tool such as a driver. In addition, the wire insertion port 22 is
It is covered by a terminal cover 24 fitted to the cover 5 shown in FIG. On the other hand, the lead wire 25 from the heat ray sensor 1 and the illuminance sensor 33 drawn from the movable body 8 is connected to the lower printed circuit board 7a.

On the other hand, a circuit as shown in FIG. 9 is mounted on the printed boards 7a and 7b. The feeder line connection terminal T ₁ of the terminal portion 20 is connected to the first power supply circuit 26, and in the first power supply circuit 26, the commercial power source AC input through the feeder line connection terminal T ₁ has a stabilized DC voltage ( 24V) and output. The output voltage of the first power supply circuit 26 is supplied to the relay drive circuit 27. In addition, the feeder line connection terminal T ₁
A lighting fixture that is a load L is connected to a load connection terminal T ₂ that is connected via a relay contact r that is a switch element.

Further, a second power supply circuit 28 is connected to the next stage of the relay drive circuit 27, and in the second power supply circuit 28, the output voltage of the first power supply circuit 26 is stabilized at a DC voltage lower than that. Converted to voltage (5V) and output. The output voltage of the second power supply circuit 28 is the heat ray sensor 1, the illuminance sensor 3
3 and a timer circuit described later are supplied with power. An amplifier circuit 29 is connected to the heat ray sensor 1, and the amplifier circuit 29 amplifies the detection output of the heat ray sensor 1 to an appropriate level.
The amplified detection output is compared with a reference value in the comparator 30 in order to prevent erroneous detection in the heat ray sensor 1. Further, the timer circuit 31 is triggered by the detection output of the heat ray sensor 1 after being compared in the comparator 30, starts the time-delayed operation for a fixed time from that point, and through the pulse generation circuit 32 during the time-delayed operation. Relay drive circuit 2
7 is operated to turn on the contact r of the relay.

Further, the timer circuit 31 is retriggerable, and when it is triggered again by the detection output of the heat ray sensor 1 during the timed operation, it newly performs the timed operation for a fixed time.
Therefore, when a new detection output is obtained from the heat ray sensor 1 within the time limit operation, the contact r of the relay can be continuously kept on. When the heat ray is no longer detected by the heat ray sensor 1 and the time delay operation of the timer circuit 31 ends, the contact r of the relay is turned off. The time for the timed operation in the timer circuit 31 can be adjusted by a variable resistor (not shown) provided as a time setting unit. An operating knob 34 for operating the variable resistor is provided on the lower surface of the flange 6.

An illuminance sensor 33 is connected to the timer circuit 31 via an operating illuminance adjusting circuit 36.
The illuminance sensor 33 is mounted on the circuit board 10 housed in the movable body 8 in the vicinity of the heat ray sensor 1 and detects the illuminance of the surroundings. Then, the detection output of the illuminance sensor 33 is compared with the threshold value set in the operation illuminance adjustment circuit 36, and when the detection output exceeds the threshold value (when the ambient illuminance is equal to or higher than a predetermined brightness). The signal is output to the timer circuit 31. On the other hand, the timer circuit 31 does not accept the trigger by the detection output of the heat ray sensor 1 unless the above signal from the operation illuminance adjusting circuit 36 is input. That is,
Lighting is not necessary when the surroundings are bright to some extent,
Even if the human body is detected by the heat ray sensor 1, the illumination is not turned on,
We are trying to save energy.

Here, in the operation illuminance adjusting circuit 36, the above threshold value can be switched by using a variable resistor (not shown) or the like, and an operation switch piece for operating this variable resistor. 35 is provided on the lower surface of the flange 6. Further, in this basic example , the operation switch piece 35 allows the threshold value to be set in three levels, that is, a first threshold value corresponding to a relatively low ambient illuminance and a value larger than the first threshold value. It is adapted to switch between the second threshold value and the third threshold value whose magnitude is substantially zero.

On the other hand, the output of the timer circuit 31 is also input to the operation indicator lamp lighting circuit 38 for blinking the operation indicator lamp 37 composed of a light emitting diode. That is, when the human body is detected by the heat ray sensor 1 while the signal is being input from the operation illuminance adjusting circuit 36 to the timer circuit 31, the operation indicator lamp lighting circuit 38 is operated by the output signal from the timer circuit 31. The operation indicator lamp 37 is adapted to be turned on (or blinking) so that the operation check whether the heat-sensitive automatic switch is operating properly,
You can check the operation during normal use. In addition, such an operation inspection is performed by setting the threshold value of the operation illuminance adjusting circuit 36 to the third threshold value by the normal operation switch piece 35. The operation indicator lamp 37 is mounted on the circuit board 10 in the movable body 8 so that the light emission can be confirmed through the light receiving lens 9.

The case 3 of the heat-sensitive automatic switch configured as described above is mounted on the ceiling by using the mounting bracket 55 as follows. First, the head portion of the screw body 58 is fitted from the upper surface side of the flange 6 into the round hole portions of the countersunk holes 60, 60 punched in the flange 6 to expose the lower surface side of the flange 6. At this time, at the same time, the fixing grooves 61 provided on the upper surface of the flange 6 in parallel on both sides of the daruma hole 60.
The fixing pieces 62, 62 provided on both sides of the lower surface of the metal fitting body 57.
Fit in. In this state, when the fixing piece 62 is slid in the fixing groove 61 and the metal fitting body 57 is moved toward the center of the flange 6, the head of the screw body 58 exposed to the outside from the lower surface of the metal fitting body 57 is dulled. Guided by the elongated hole portion of the hole 60, the peripheral portion of the daruma hole 60 is sandwiched between the lower surface of the metal fitting body 57 and the head portion of the screw body 58.

Next, the holding body 59 is provided in the notch 57a formed in the side wall on one side of the metal fitting body 57 in the opposite tightening direction of the screw body 58.
The upper part of the case 3 into which is inserted is inserted into a mounting hole formed in the ceiling material. At this time, since the holding body 59 projects in the direction along the side surfaces of the body 4 and the cover 5 with respect to the metal fitting body 57, the holding body 59 can be inserted without being caught in the mounting hole. After that, when the screw body 58 is rotated in the tightening direction with a screwdriver or the like in a state where the upper surface of the flange 6 is in contact with the lower surface of the ceiling material, the gripping body 59 comes out of the notch 57a by the rotation of the screw body 58, and the metal fitting body is The side edge will hit the other side wall of 57. At this time, the tip of the holding body 59 is located outside the projection range of the mounting hole and above the ceiling material. Therefore, the holding body 59 moves toward the flange 6 as the screw body 58 is tightened, and when the tip of the holding body 59 hits the upper surface of the ceiling material, the holding body 59 and the flange 6 are separated from each other via the waterproof packing 40. The ceiling material is sandwiched between the two, and the case 3 can be fixed to the ceiling material.

At this time, ribs 42 projecting from both sides of the waterproof packing 40 come into close contact with the flange 6 and the ceiling material, respectively, so that rainwater and the like enter the inside of the case 3 through the gap between the flange 6 and the ceiling material. Can be prevented. A decorative plate 56 as shown in FIG. 10 is detachably attached to the lower surface of the flange 6. The decorative plate 56 has a peripheral wall that surrounds the peripheral edge of the flange 6, and a locking groove that engages with a locking claw 6c that projects from the peripheral edge of the flange 6 is formed on the inner peripheral surface of the peripheral wall. By utilizing the elasticity of 56, the locking claw 6c can be detachably engaged with the locking groove. A round hole 56a corresponding to the window hole 4c of the body 4 is provided at the center of the decorative plate 56.
Is formed, and the light receiving lens 9 is exposed through this round hole 56a.

In the structure of this basic example , the waterproof packing 40 is provided between the construction surface such as the ceiling surface and the flange 6 of the case 3.
Since the heat-sensitive automatic switch is attached to the building surface by interposing, the rainwater and the like can enter the case 3 through the gap between the building surface and the case 3 even when the heat-sensitive automatic switch is installed outdoors. It is possible to prevent the occurrence of malfunction due to a failure such as a short circuit of the circuit due to the intrusion of rainwater into the case 3.

(Embodiment 1 ) FIG. 11 is a plan view showing a heat-sensitive automatic switch of this embodiment. As shown in FIG. 11, the basic configuration of this embodiment is basically
The same parts as those of the example are designated by the same reference numerals, and the description thereof will be omitted. Only the parts characteristic of the present embodiment will be described. In the heat-sensitive automatic switch of this embodiment, rainwater should intrude into the gap between the flange 6 and the ceiling material even if the waterproof packing 40 is interposed between the flange 6 of the case 3 and the ceiling material. A feature is that the decorative plate 56 is provided with a hole 45 for draining water in preparation for a case.

FIG. 12 shows the decorative plate 5 in this embodiment.
6A and 6B are a plan view and a partially cutaway sectional view. Four semi-circular water drainage holes 45 are provided in the periphery of the round hole 56a at the center of the decorative plate 56 at positions symmetrical to each other with respect to the approximate center of the round hole 56a. As shown in FIG. 7B, the back surface side of the decorative plate 56 is a tapered surface that inclines toward the front surface side from the peripheral wall 56b to the round hole 56a. Furthermore, as shown in FIG. Rubber guide ribs 46 are attached from 56b to the water draining hole 45, respectively.

On the other hand, in the strip-shaped portion surrounded by each guide rib 46, the decorative plate 56 is the flange 6 of the case 3.
In the state where it is attached to, the water droplets may come into contact with the portion (the daruma hole 60 and the fixing groove 61) where water droplets may enter, and the water droplets such as rainwater that have entered through the gap between the ceiling material and the flange 6 are When dripping through the daruma hole 60 and the fixing groove 61, the taper surface on the rear surface side of the decorative plate 56 and the guide rib 46 can guide the dripping water droplet in a certain direction, that is, toward the water draining hole 45.
Thereby, the drainage property by the water drain hole 45 can be improved.

(Embodiment 2 ) FIG. 13 is a block diagram showing a circuit configuration in this embodiment. Note that the external structure of the present embodiment is common with the basic example or the first embodiment, furthermore, since even the basic configuration with respect to the circuit configuration is the same as the basic embodiment shown in FIG. 13, the same parts the same reference numerals The description will be omitted, and only the characteristic parts of this embodiment will be described.

In this embodiment, the operation illuminance adjusting circuit 36 is provided by the operation switch piece 35 provided on the lower surface of the flange 6.
The operation indicator lamp lighting circuit 38 is characterized in that the operation indicator lamp 37 can blink the operation indicator lamp 37 only when the threshold value is set to the third threshold value. That is, the threshold value of the operating illuminance adjusting circuit 36 is the third threshold value.
When the threshold value is set to, the operation illuminance adjusting circuit 36 outputs a signal to the operation indicator lighting circuit 38, and the operation indicator lighting circuit 38 receives the signal from the operation illuminance adjusting circuit 36. Only during the period, the operation indicator lamp 37 blinks according to the signal from the comparator 30.

As shown in FIG. 1 (b), the letters "dark", "bright" and "inspection" are marked on the lower surface of the flange 6 in correspondence with the operation switch pieces 35, and at the respective character positions. By sliding the operation switch piece 35 to the click position, the threshold value of the operation illuminance adjusting circuit 36 can be switched. That is, in this embodiment, the operation switch piece 3
When 5 is set to the “dark” position, it becomes the first threshold,
The threshold value of the operating illuminance adjusting circuit 36 is set to the second threshold value when the "light" position is set, and to the third threshold value when the "check" position is set. ing.

In the configuration of this embodiment, the operation switch piece 35
Only when the threshold value of the operation illuminance adjusting circuit 36 is set to the third threshold value for the operation check by the operation indicator lamp lighting circuit 38 in response to the human body detection by the heat ray sensor 1 Since it is made to blink, even if a light emitting element having high emission brightness is used as the operation indicator lamp 37, the operation indicator lamp 37 does not stand out too much at night, and moreover,
Since the emission brightness can be increased, the visibility of the operation indicator lamp 37 can be improved in the daytime operation inspection, and the operation inspection can be reliably and easily performed.

[0041]

According to the invention of claim 1, a heat ray sensor for detecting a heat ray emitted from a human body, a control means for outputting a control signal according to the presence or absence of a person when the heat ray sensor detects the heat ray, In a heat-sensitive automatic switch that is housed in a case fixed to the ceiling and a switch element that is inserted into a power supply path to a control device and is turned on / off by the control signal, A heat-sensitive type with a waterproofing unit that closes the gap between them and blocks the entry of water droplets.
In the automatic switch, the above-mentioned cable is installed in the mounting hole on the ceiling.
Flange on the bottom of the case.
Fixing means for fixing the case to the ceiling by abutting against
With waterproof packing between the flange and the bottom of the ceiling
Is attached to and detached from the lower surface of the flange.
With a makeup plate that can be freely attached, this makeup play
To drain the water droplets dripping from the flange side to the outside
The drain hole of the
From the peripheral edge of the decorative plate to the drainage hole
Since the guide ribs that project are provided, it is possible to prevent rainwater from entering through the gap between the case and the ceiling, even when the thermal automatic switch is installed outdoors. In addition, when the thermal type automatic switch is embedded in the ceiling,
The case, the waterproof packing between the case flange and the ceiling surface.
You can prevent rainwater from entering by installing the
Built-in heat-sensitive automatic switch installed in the rainwater
It is possible to prevent breakdowns and malfunctions due to
Furthermore, even if rainwater enters the case,
The water droplets can be drained to the outside through the drain hole,
It is possible to more reliably prevent failures and malfunctions.
At the same time, water drops that have entered the case are guided by the guide ribs.
To guide water to the drainage hole and drain water drops quickly and reliably.
There is an effect that is Ru can.

[0042]

[0043]

According to a second aspect of the present invention, an illuminance sensor for detecting the illuminance of the surroundings is housed in the case, and a control signal is output only when the ambient illuminance detected by the illuminance sensor is below a predetermined threshold value. Since the control means and the switching means for switching the threshold value for the illuminance sensor are provided, the controlled device can be controlled according to the ambient brightness, and the applicable range of the thermal automatic switch can be expanded. The effect is that you can do it.

[0045] The invention according to claim 3, the operation display means for displaying the operating state by blinking in response to the heat ray detection in hot wire sensor only when the threshold by the switching means is switched to a predetermined value Since it is provided, the operation display means can be made to blink only during the operation check by the switching means, and as a result, the operation confirmation can be surely performed even in the daytime by increasing the brightness of the operation display means. effective. Moreover, by preventing the operation indicator lamp from blinking by the switching means, there is an effect that the operation indicator lamp does not stand out at night and the appearance can be improved.

[Brief description of drawings]

FIG. 1 shows a basic example of the present invention , (a) is a front view,
(B) is a bottom view, (c) is a side view, and (d) is a top view.

FIG. 2 is a view showing the waterproof packing of the above, (a)
Is a front view, (b) is a side sectional view, and (c) is a back view.

FIG. 3 is a partially cutaway front view of the above movable body.

FIG. 4 is a plan view of the same mounting bracket.

FIG. 5 is a partially cutaway plan view of a pressing tool used in the above.

6A to 6C are operation explanatory views of the movable body of the above.

FIG. 7 is a plan view showing a state where a body and a cover of the same are expanded.

FIG. 8 is a plan view of a terminal cover used in the above.

FIG. 9 is a circuit block diagram of the above.

FIG. 10 is a plan view of a decorative plate used for the same.

FIG. 11 shows Example 1 of the present invention , (a) is a top view,
(B) is a bottom view.

FIG. 12 shows the same decorative plate, (a) is a front view, (b) is a partially broken side view, and (c) is a rear view.

FIG. 13 is a circuit block diagram of a second embodiment .

[Explanation of symbols]

3 cases 4 body 5 cover 6 flange 40 waterproof packing

Continuation of the front page (56) Reference JP-A-6-109864 (JP, A) JP-A-4-24453 (JP, A) Actual flat 4-26389 (JP, U) Actual flat 4-26388 (JP , U) Actual Kaihei 3-78394 (JP, U) Actual Kohei 2-33053 (JP, Y2) (58) Fields investigated (Int.Cl. ⁷ , DB name) H01H 35/00 G01V 8/10- 8/26 G08B 13/191

Claims (3)

(57) [Claims] 1. A heat ray sensor for detecting a heat ray emitted from a human body, a control means for outputting a control signal according to the presence or absence of a person when the heat ray is detected by the heat ray sensor, and a power supply path to a controlled device. In a heat-sensitive automatic switch that is inserted and housed in a case that is fixed to the ceiling with a switch element that is turned on / off by the control signal, by closing the gap between the case and the ceiling. A heat-sensitive automatic switch equipped with waterproof means to prevent the entry of water droplets.
Insert the above case into the mounting hole provided on the ceiling.
The flange provided at the lower end is brought into contact with the lower surface of the ceiling
Is equipped with a fixing means for fixing the
Waterproof means consisting of waterproof packing is inserted between the ceiling and the bottom surface.
To be detachably attached to the lower surface of the above flange.
A decorative plate is provided, and this decorative plate is attached from the flange side.
A drain hole is provided for draining water drops to the outside.
At the same time, apply makeup to the surface of the makeup plate facing the flange.
Guide ribs protruding from the peripheral edge of the plate to the drainage hole
Thermal automatic switch characterized in that the. 2. An illuminance sensor for detecting ambient illuminance
Stored in a case and detected by this illuminance sensor
Control signal only when the illuminance is below a certain threshold
The above control means for outputting and the threshold value for the illuminance sensor
2. The heat-sensitive automatic switch according to claim 1 , further comprising a switching means for switching between . 3. The threshold value is set to a predetermined value by the switching means.
In the heat ray sensor only when switched to the value
The operation status is displayed by flashing in response to heat ray detection.
The heat-sensitive automatic switch according to claim 2, further comprising a work display means .