JP3237863B2 - Hot wire automatic switch - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot wire automatic switch for detecting a heat ray radiated from a heat source such as a human body and turning on and off a load such as a lighting device.

[0002]

2. Description of the Related Art Conventionally, a hot wire type automatic switch has been provided in which a load such as an illumination load is turned on and off in accordance with the presence or absence of a heat source such as a human body. This type of hot-wire type automatic switch detects heat rays from a heat source such as the human body and suppresses unnecessary power consumption by turning off the light when nobody is present, or switching off a switch such as a wall when both hands are closed. It is used for the purpose of automatically turning on and off the light when operation is not possible, and for turning on the light only while a person is present at the entrance.

In general, the illumination is turned on when the ambient illuminance is low. Therefore, when the ambient illuminance is detected by a light receiving element and the ambient illuminance detected by the light receiving element is equal to or less than a set illuminance value. A hot wire automatic switch configured to operate only is provided. This hot wire
At present, the automatic switch of the type is provided with a variable resistor for adjusting the output of the light receiving element so that the illuminance value to be operated can be adjusted. That is, a signal processing circuit that opens and closes a switch element is provided based on an output of a heat ray detecting element such as a pyroelectric element that detects a heat ray radiated from a heat source, and a signal level input from the light receiving element to the signal processing circuit is a variable resistor. By adjusting the illuminance, the illuminance value at which the signal processing circuit becomes operable is adjusted. For example, when a photoconductive element such as CdS is used as the light receiving element, the light receiving element and the variable resistor are connected in series, and a signal corresponding to a voltage division ratio is input to the signal processing circuit from the connection point. Thus, the illuminance value at which the signal processing circuit becomes operable is adjusted.

[0004]

Now, it is assumed that CdS having a relationship between the ambient illuminance and the resistance value as shown in FIG. 9 (shown on a logarithmic scale) is used as a light receiving element.
As shown in FIG. 10, the light receiving element PS and the variable resistor VR ₀
Are connected in series, a constant voltage V is applied to this series circuit,
The signal processing circuit is assumed to the potential at the connection point between the light receiving element PS and a variable resistor VR ₀ is activated when the V / 2 or less. The ambient illuminance at which the signal processing circuit becomes operable is set to 1
It shall be adjusted between 0 and 120 lux. In this case, the relationship between the illuminance detected by the light receiving element PS, and the resistance value of the variable resistor VR ₀ is as follows.

[0005] Incidentally, the variable resistor VR ₀ generally has a large variation in the resistance value with respect to the set position.
Up to 30%. Therefore, in correspondence with the knob of the variable resistor VR _0, even given the scale which is a measure of the actuated illuminance, an error is large scale, there is a problem that not stand for most useful.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problem. The illuminance which can be operated by accurately setting a set value of an illuminance at which a signal processing circuit operates and a set position of an operation unit. It is an object of the present invention to provide a hot-wire automatic switch that can be set accurately.

[0007]

According to the present invention, in order to achieve the above object, a heat ray detecting element for detecting a heat ray radiated from a heat source such as a human body, a light receiving element for detecting ambient illuminance, and a light receiving element are provided. A signal processing circuit that operates when the detected ambient illuminance is equal to or less than a set illuminance value and opens and closes a switch element in accordance with the presence or absence of a heat source in the detection area of the heat ray detection element; An operation level adjuster having a rotary switch for setting an illuminance value at which a signal processing circuit can be operated by adjusting an input signal level, and a circuit board on which at least the signal processing circuit is mounted
Built-in body partly embedded in the mounting surface
Block and a sensor block containing a heat ray detecting element and a light receiving element, and having a mounting frame fixed to a mounting surface.
Place it on the mounting surface so as to cover the periphery of the front end of the deblock.
It includes a cover block, and a waterproof packing that is sandwiched between the cover block and the mounting surface, of the cover block
On the front, there is a protruding base that protrudes forward toward the bottom,
Inside the area where the lower edge of the
That is where the lock is located. Further, a fixed resistor connected to the light receiving element may be selected from a plurality of fixed resistors by the rotary switch.

[0008]

According to the above arrangement, since the illuminance value is set discretely by the rotary switch, the reproducibility of the setting of the illuminance value is improved. Moreover, the cover block including the sensor block containing the heat ray detecting element and the light receiving element is disposed on the mounting surface using the mounting frame fixed to the mounting surface, and the waterproof packing is sandwiched between the cover block and the mounting surface. Since it is mounted, infiltration of rainwater can be prevented, and construction can be performed even when the mounting surface is outdoors. In addition, the circuit
The board is built in and arranged with a part embedded in the mounting surface
On the mounting surface so as to cover the periphery of the front end of the body block.
At the front of the cover block to be placed, project lower forward
A protruding pedestal is protruded, and the lower edge of the pedestal is extended downward.
A sensor containing a heat ray detection element and a light receiving element inside the range
Since the sublock is located, the platform is used as an eave to avoid rain
Function to reduce rain on the sensor block
Can be. Further, if a fixed resistor connected to the light receiving element is selected from a plurality of fixed resistors by a rotary switch, it is easy to reduce the setting error of the resistance value to 5% or less, and the illuminance value for activating the signal processing circuit is reduced. The settings can be made accurately.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in FIG. 1, a heat ray detecting element 6 such as a pyroelectric element for detecting a heat ray (far infrared ray) emitted from a heat source such as a human body is connected to a signal processing circuit 7. Signal processing circuit 7
Is supplied with a DC power supply obtained by rectifying and smoothing a commercial AC power supply AC by a power supply circuit 8 and then stabilizing the same by a constant voltage circuit 9. In operation, the signal processing circuit 7 is configured such that, when a heat ray radiated from a heat source is detected by the heat ray detection element 6, the output of the output terminal OUT becomes H level for a fixed time set by the variable resistor VR. Have been. When the output of the signal processing circuit 7 becomes H level, the transistor Q is turned on, and the relay coil Ry connected in series to the emitter / collector of the transistor Q is energized to turn on the relay contact r. The relay contacts r includes a power supply terminal T ₁ for connecting a commercial AC power source AC, from being inserted between the load terminal T ₂ for connecting the load L of the lighting, etc., if the relay contact r is turned on load Power is supplied to L. In short, when the heat source is detected by the heat ray detecting element 6, power is supplied to the load L for a certain time.

The signal processing circuit 7 has a connection point of a series circuit of a light receiving element PS composed of CdS for detecting ambient illuminance and an operation level adjuster LV capable of adjusting a resistance value. It is configured to operate when. That is, the constant voltage V, which is the output voltage of the constant voltage circuit 5, is applied to the series circuit of the light receiving element PS and the operation level adjuster LV, and when the potential at the connection point becomes V / 2 or less, the signal processing circuit 7 is activated. It is configured to operate. Therefore, when the ambient illuminance detected by the light receiving element PS becomes equal to or less than a predetermined illuminance, the resistance value of the light receiving element PS increases, the potential at the connection point between the light receiving element PS and the operation level setting device LV decreases, and signal processing is performed. The circuit 7 operates. Here, the illuminance value at which the signal processing circuit 7 becomes operable can be adjusted by changing the resistance value of the operation level adjuster LV.

The operation level adjuster LV has one end commonly connected.
Four fixed resistors R₁, R_Two, R_Three, R_FourAnd each
Constant resistance R₁, R_Two, R_Three, R_FourThe other end of each
Constant resistance R₁, R_Two, R_Three, R_FourChanging the connection relationship
Can change the resistance value as a combined resistance value.
And a rotary switch RS. This
Rotary switch RS is a so-called rotary dips
Switch, one common terminal and four bit terminals B
₁, B_Two, B_Three, B_FourAnd 1 from 0 to 9
0 position or 16 positions from 0 to F (hexadecimal)
It is rotatable, and a common end is
Child and bit terminal B₁, B_Two, B_Three, B_FourIs a 4-bit
It is configured to be connected. That is, each time
Each bit terminal B for the common terminal at the transposition position P₁,
B_Two, B_Three, B_FourThe connection relationship of (P: B₁, B_Two, B
_Three, B_Four) And bit terminal B₁, B_Two, B_Three, B_FourBut
1 is connected to the common terminal, not connected
If the state is represented by 0, (0: 0, 0, 0, 0),
(1: 1,0,0,0), (2: 0,1,0,0),
(3: 1, 1, 0, 0). Therefore, 1,
At positions 2, 4, and 8, each fixed resistor is connected to the light receiving element PS.
Anti-R₁, R_Two, R_Three, R_FourAre connected in series separately, and the other
In the position, two or more fixed resistors R₁, R_Two, R_Three, R_Four
Are connected in series to the light receiving element PS.
You. In the position of 0, the fixed resistance R₁, R _Two, R_Three,
R_FourAre not connected to the common terminal
Then, at this time, the resistance value of the operation level adjuster LV is infinite.
And the connection between the light receiving element PS and the operation level adjuster LV
The potential at the point is constant regardless of the amount of light received by the light receiving element PS
become. At this time, the signal processing circuit 7 cannot operate.
, Corresponds to the forced off state, and the load L is
Useful when you want to turn off the lamp for lamp replacement.
It can be used. Here, for example,
Terminal B₁, B_Two, B_Three, B_FourEach fixed resistor R connected to
₁, R_Two, R_Three, R_FourOf 62 kΩ and 36
If kΩ, 12kΩ, 7.5kΩ, rotary switch
The change in the combined resistance corresponding to each rotational position of RS is shown in FIG.
The rotation angle of the rotary switch RS
The change in the set illuminance can be made almost constant.
You. Also, the fixed resistance R₁, R_Two, R_Three, R_FourUsing
Therefore, the error in the resistance value is reduced, and the signal processing circuit 7
The operating illuminance can be set with high accuracy.
You. Moreover, since the change in the resistance value is discrete,
The set value is more reproducible compared to
You.

The above circuit is mounted on a circuit board 12 built in the body block 1, as shown in FIGS. The body block 1 is a body 1 having a front opening.
A plurality of terminals 11, a circuit board 12, and an insulating plate 13 that covers the front surface of the circuit board 12 are provided in the housing 0. Each terminal 11 is a so-called quick-connecting terminal. As shown in FIG. 8, the electric wire inserted through the electric wire insertion hole 16 formed in the rear surface of the body 10 is moved by a spring force of a locking spring (not shown). It is designed to hold. Further, a release button 17 is provided in the body 10 so as to release the holding of the electric wire by the locking spring, and a driver or the like is inserted through a driver insertion hole 18 pierced in the rear surface of the body 10 to release the release button. If the locking spring is flexed by operating 17,
The wires can be easily pulled out. Terminal 11 is soldered to the circuit board 12, constituting the power supply terminal T ₁ and the load terminal T _2.

A cover block 2 is connected to a front surface of the body block 1. The cover block 2 includes a cover 20.
And the sensor block 3 held by the cover 20. The sensor block 3 is connected to the sensor body 30 so as to cover a front surface of the sensor body 30 and a hemispherical sensor body 30 having an open front side.
0 and a hemispherical lens 31 forming a spherical sensor body. The sensor body 30 includes a circuit board 32
Are delivered in a fixed state. The heat ray detecting element 6, the light receiving element PS, and the like are mounted on the circuit board 32. The circuit board 32 is connected to the circuit board 1 via the lead wires 32b and 32c.
2, 26 (to be described later). Meanwhile, the lens 31
Is a Fresnel lens, and the center line of the lens 31 is arranged so as to substantially coincide with the center line of the detection surface of the heat ray detecting element 6 mounted on the circuit board 32. The lens 31 is divided into a plurality of regions each having a focus near the heat ray detecting element 6, and divides the detection range of the heat ray detecting element 6 into a plurality of areas. A recess 30 b having a circular opening is formed in the center of the rear surface of the sensor body 30.
As shown in FIG. 3, a plurality of positioning holes 34a are formed in the bottom surface of b.

The sensor body formed by the sensor body 30 and the lens 31 has a hemispherical sensor holder 35,
It is held by a holder consisting of a holder ring 36 coupled to the sensor holder 35. Holder ring 36
The lens 31 is brought into contact with the periphery of the lens 31 to prevent the lens 31 from coming off. A pair of guide projections 30 is provided on the outer peripheral surface of the sensor body 30.
c is projected, and the guide projection 30 c is
5 is inserted into a guide groove 35a formed on the inner peripheral surface of the base 5 so as to be rotatable within the range of the guide groove 35a. Since the guide groove 35a is formed on both the upper and lower surfaces of the sensor holder 35 in FIG. 3, the lens 31 is regulated so as to swing in the vertical direction. In addition, a holding cylinder 35b is protruded from the bottom of the sensor holder 35, and inside the holding cylinder 35b,
The pressing element 34c urged toward the sensor body 30 by the return spring 34b made of a coil spring is installed. Therefore, when the sensor body 30 rotates,
The engagement of the distal end portion of the pressing element 34c with the positioning hole 34a imparts articulation.

As described above, the sensor block 3 constituted by the sensor body 30, the lens 31, the sensor holder 35, the holder ring 36 and the like is attached to the cover 20 in a form sandwiched between the cover 20 and the holding member 21. Be attached. The cover 20 is formed by an inner cover 22 and an outer cover 23 that covers the front surface of the inner cover 22.
Is formed on the front surface of. The protruding base 24 has an opening having an opening surface inclined upward and forward, and the lower end of the opening substantially matches the front surface of the inner cover 22. The lens 31 of the sensor block 3 is exposed to the outside through this opening. The holding metal fitting 21 has four tapping screws 25 on the rear surface of the inner cover 22.
The sensor holder 35 is fixed through the opening 21 a formed in the center of the holding member 21.
Are projected to the rear of the presser fitting 21. On the rear surface of the inner cover 22, a circuit board 26 on which a variable resistor VR and an operation level setting device LV are mounted is mounted. The knobs 26a and 26b of the rotary switch RS and the variable resistor VR provided on the operation level setting device LV are
As shown in FIG. 6, it is exposed on the front surface of the inner cover 22. As shown in FIG. 5, the circuit board 26 is held between a pair of hooks 28 protruding from the rear surface of the inner cover 22. Further, by pressing the hook 28 from the outside by the pair of holding protrusions 21 b provided on the holding metal 21, the distance between the hooks 28 is prevented from being widened, and the circuit board 26 is firmly attached to the inner cover 22. It is fixed to. At the upper and lower ends of the inner cover 22, mounting holes 22a are formed.

The outer cover 23 has a protrusion 24 on the inner cover 22.
A projecting base 27 is provided so as to cover the projecting part 24, and an opening window 27a substantially corresponding to the opening of the projecting base 24 is formed. Table 2
7, the upper part is inclined so that the lower part protrudes forward of the outer cover 23, and the sensor block 3 is located inside the range in which the peripheral edge of the opening window 27a extends downward. 27 functions as an eaves for avoiding rain.

The cover 20 formed by the inner cover 22 and the outer cover 23 is connected to the body 10 by engaging a hook 22e projecting from the inner cover 22 with an engaging hole 10a formed in the body 10. (See FIG. 7). This device comprises a body block 1 and a cover block 2
Mounting frame 4 made of synthetic resin or the like and fixed to the mounting surface with a part embedded in the mounting surface such as a wall surface in a state where
It is arranged using. A waterproof packing 5 having a substantially H-shaped cross section is mounted on the peripheral wall of the inner cover 22, and the waterproof packing 5 is sandwiched between the inner cover 22 and a mounting surface such as a wall surface. When attached to the mounting surface, the protrusion 27 of the outer cover 23 functions as an eaves for avoiding rain, and the waterproof packing 5 prevents rainwater from entering the inside. Also, since the cover 20 has a double structure of the outer cover 23 and the inner cover 22, it is possible to prevent rainwater from entering. If it is necessary to adjust the operating time or the operating illuminance, the outer cover 23 is removed to expose the inner cover 22.
a, 26b can be operated.

[0018]

According to the present invention, as described above, since the illuminance value is set discretely by the rotary switch, there is an advantage that the reproducibility of the setting of the illuminance value is improved. Moreover, the cover block including the sensor block containing the heat ray detecting element and the light receiving element is disposed on the mounting surface using the mounting frame fixed to the mounting surface, and the waterproof packing is sandwiched between the cover block and the mounting surface. Since it is mounted, it is possible to prevent infiltration of rainwater, and there is an advantage that construction can be performed even when the mounting surface is outdoors. In addition, the circuit board
Body that is built-in and is arranged with a part embedded in the mounting surface
On the mounting surface so as to cover the periphery of the front end of the
On the front of the cover block
The base is protruded, and the lower edge of the base is extended downward.
Sensor block with heat ray detecting element and light receiving element inside
The rack is located, so the pond functions as an eaves to keep out the rain
Rain on the sensor block.
The advantage is that In addition, when a fixed resistor connected to the light receiving element is selected from a plurality of fixed resistors by a rotary switch instead of the conventional variable resistor, it is easy to reduce the setting error of the resistance value to 5% or less. This has the advantage that the setting of the illuminance value for operating the signal processing circuit can be performed accurately.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of an embodiment.

FIG. 2 is an operation explanatory diagram of the embodiment.

FIG. 3 is a longitudinal sectional view of the embodiment.

FIG. 4 is a cross-sectional view of the embodiment.

FIG. 5 is a front view of the embodiment with a body block and a cover block removed.

FIG. 6 is a partially cutaway front view of the embodiment.

FIG. 7 is a partially cutaway side view of the embodiment.

FIG. 8 is a rear view of the embodiment.

FIG. 9 is an explanatory diagram illustrating an example of operation characteristics of a photoelectric element used in an example.

FIG. 10 is a circuit diagram of a main part of a conventional example.

[Explanation of symbols]

6 Heat ray detecting element 7 Signal processing circuit LV Operation level adjuster PS Light receiving element R ₁ Fixed resistor R ₂ Fixed resistor R ₃ Fixed resistor R ₄ Fixed resistor RS Rotary switch

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-1-189586 (JP, A) JP-A-57-203504 (JP, U) JP-A-57-170505 (JP, U)

Claims (2)

(57) [Claims] A heat ray detecting element for detecting a heat ray radiated from a heat source such as a human body, a light receiving element for detecting ambient illuminance,
A signal processing circuit that operates when the ambient illuminance detected by the light receiving element is equal to or less than a set illuminance value and opens and closes a switch element according to the presence or absence of a heat source in the detection area of the heat ray detecting element; An operation level adjuster having a rotary switch for setting an illuminance value at which the signal processing circuit can operate by adjusting a signal level input to the processing circuit, and a circuit board on which at least the signal processing circuit is mounted
Body blow that is arranged with a part embedded in the mounting surface
And a sensor block containing a heat ray detecting element and a light receiving element. The sensor block covers the front end of the body block.
A cover block disposed on the mounting surface using a mounting frame fixed to the mounting surface; and a cover block interposed between the cover block and the mounting surface.
With waterproof packing mounted on the front of the cover block
Has a protruding base protruding forward toward the lower part.
The sensor block is placed inside the area where the surface periphery extends downward.
A hot wire automatic switch characterized by the position of 2. The hot-wire automatic switch according to claim 1, wherein said rotary switch selects a fixed resistor connected to a light receiving element from a plurality of fixed resistors.