JPH0765615A - Security lamp device - Google Patents

Abstract

PURPOSE:To provide a security lamp device by which is lighted only when necessary to restrict consumption of a storage battery. CONSTITUTION:A heat ray radiated from a human body is detected by a heat ray sensor 13. An environmental illuminance is detected by an illuminance sensor 14. The output of the heat ray sensor 13 is made to be effective only when the environmental illuminance detected by the illuminance sensor 14 is no higher than a predetermined level and a control signal is output in the signal process part 91 of a control circuit 9. The thyristor SCR of a lighting circuit 8 is conducted by the control signal through an output circuit part 9b. When the thyristor SCR is conducted, a transistor Q1 is turned ON, and current is supplied thereto from a nickel cadmium battery 5, and a bulb 6 is lighted. The bulb 6 is lighted only when necessary while the bulb 6 is turned off when unnecessary and depletion of the nickel cadmium battery 5 charge can thus be restricted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a safety light device for lighting a light bulb using a storage battery as a power source.

[0002]

2. Description of the Related Art Conventionally, there is a safety light device in which a light bulb is lit by using a storage battery as a power source to illuminate the feet and the like. Such a safety light device is used, for example, by installing it at the foot of a bed in a bedroom.

[0003]

In the conventional safety light device as described above, the light bulb is turned on when the switch is turned on. However, if the switch is forgotten to be turned off, the storage battery will be consumed and eventually the storage battery will be charged. There is a problem that the interval becomes short. SUMMARY OF THE INVENTION The present invention is intended to solve the above-mentioned problems, and an object of the present invention is to provide a safety light device in which a light bulb is turned on only when necessary to suppress the consumption of the storage battery and the charging interval of the storage battery is lengthened.

[0004]

According to the invention of claim 1, a storage battery, a charging circuit for the storage battery, a light bulb powered by the storage battery, a lighting circuit for the light bulb, and a heat ray sensor for detecting heat rays radiated from a human body. And a control circuit that outputs a control signal when a heat ray is detected by the heat ray sensor, and the lighting circuit is controlled by the control signal to turn on / off the light bulb.

According to a second aspect of the present invention, a storage battery, a charging circuit for the storage battery, a light bulb using the storage battery as a power source, a lighting circuit for the light bulb, an illuminance sensor for detecting ambient illuminance, and an ambient illuminance detected by the illuminance sensor are A control circuit that outputs a control signal only when the illuminance is below a predetermined level is housed in the main body, and the lighting circuit is controlled by the control signal to turn on the light bulb.

According to a third aspect of the invention, in the first aspect of the invention, the illuminance sensor is housed in the main body, and the control circuit enables the output of the heat ray sensor only when the ambient illuminance detected by the illuminance sensor is equal to or lower than a predetermined illuminance. It is characterized by outputting a control signal. According to a fourth aspect of the invention, in the invention of the first to third aspects, a switch operating body is provided on an outer surface of the main body,
An off mode in which the light bulb is turned off regardless of the sensor output by operating the switch operation body, an on mode in which the light bulb is turned on regardless of the sensor output, and an automatic mode in which the light bulb is turned on / off according to the sensor output. The feature is that it is possible to switch between and.

[0007]

According to the invention of claim 1, a storage battery, a charging circuit for the storage battery, a light bulb using the storage battery as a power source, a lighting circuit for the light bulb, a heat ray sensor for detecting heat rays radiated from a human body, and a heat ray sensor. The control circuit that outputs a control signal when the heat ray is detected by is housed in the main body, and the lighting circuit is controlled by the control signal to turn on / off the light bulb.
By turning on the light bulb only when the human body is detected by the heat ray sensor, unnecessary lighting can be avoided and consumption of the storage battery can be suppressed.

According to the structure of the invention of claim 2, the storage battery, the charging circuit of the storage battery, the light bulb using the storage battery as a power source, the lighting circuit of the light bulb, the illuminance sensor for detecting the ambient illuminance, and the surroundings detected by the illuminance sensor. A control circuit that outputs a control signal only when the illuminance is less than or equal to a predetermined illuminance is housed in the main body,
Since the lighting circuit is controlled by the control signal to turn on the light bulb, by turning on the light bulb only when the ambient illuminance is less than or equal to the predetermined illuminance, it is possible to reliably turn on the light bulb when the surroundings become dark and unnecessary. It is possible to avoid unnecessary lighting and suppress the consumption of the storage battery.

According to the third aspect of the present invention, the illuminance sensor is housed in the main body, and the control circuit enables the output of the heat ray sensor and outputs the control signal only when the ambient illuminance detected by the illuminance sensor is equal to or less than the predetermined illuminance. Therefore, by turning on the light bulb only when the surroundings become dark and the human body is detected by the heat ray sensor, it is possible to further light the storage bulb by turning on the light bulb only when necessary.

According to the structure of the invention of claim 4, a switch operating body is provided on the outer surface of the main body, and an off mode in which the light bulb is turned off by the operation of the switch operating body regardless of the output of the sensor,
On mode that lights the light bulb without depending on the output of the sensor,
Since it is possible to switch between the automatic mode of turning on / off the light bulb according to the output of the sensor, it is possible to control the lighting / extinguishment of the light bulb by the switch operation body separately from the lighting / extinction control of the light bulb by the sensor. The degree of freedom in selecting the form of the extinguishing control is increased, which leads to the expansion of usage.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 2, the main body 1 of the safety light device of the present embodiment.
Is composed of a body 2 formed in a box shape with one side of a quadrangle substantially semicircular, and an upper cover 3 and a lower cover 4 attached to the surface of the body 2 from the opening side of the body 2. There is.

On both sides of the inside of the body 2, two nickel-cadmium batteries 5 and 5 are arranged as storage batteries at symmetrical positions, and the charging circuit 7 of the nickel-cadmium battery 5 and the nickel-cadmium batteries 5 and 5 are sandwiched between the nickel-cadmium batteries 5 and 5. A circuit board 10 on which a lighting circuit 8 and a control circuit 9 of the light bulb 6 are mounted is arranged. On the back side of the circuit board 10, a blade 1 for a power outlet
1 and 11 are provided so as to project from the back surface of the body 2 to the outside. Further, a reinforcing body 12 having four legs is erected on the surface side of the portion of the circuit board 10 where the blades 11, 11 are projected, and the pyroelectric heat ray sensor 13 is further provided on the reinforcing body 12. And a sensor mounting substrate 15 on which an illuminance sensor 14 such as a photoconductive element using CdS is mounted. Further, a contact terminal 16 to which the light bulb 6 is detachably mounted is attached to an end of the sensor mounting substrate 15.

On the other hand, a protective plate 17 is provided between the contact terminal 16 and the circuit board 10 for protecting the electronic components mounted on the circuit board 10 from the heat generated by the light bulb 6. The protection plate 17 is formed by bending both sides in conformity with the shape of the nickel-cadmium battery 5 and bending one end side of the flat central portion, and the reflecting plate 18 on the surface facing the light bulb 6 in the flat central portion. Is provided. The protective plate 17 is attached to the body 2 at the peripheral edge.

A sensor window 19 is attached to the surface of the body 2 and covers the heat ray sensor 13 and the illuminance sensor 14 mounted on the sensor mounting substrate 15 at a position facing the sensor portion of the heat ray sensor 13 of the upper cover 3. It is provided. A Fresnel lens 20 curved outward is attached to the sensor window 19. A lens may not be attached to this sensor window 19.

The lower cover 4 is attached to the lower side of the surface of the body 2, and the lower cover 4 is provided with a lens portion 4a for irradiating the light of the electric bulb 6 to the outside. Further, on the back surface of the body 2, a pair of screw insertion holes 2a, 2a
Are provided so as to face each other across the blades 11,
When the screw 21 is inserted into the screw insertion hole 2a, the screw 21
A screw receiving portion 3a is provided upright on the back surface of the upper cover 3 penetrating the circuit board 10 and the sensor mounting board 15, and the upper cover 3 is screwed to the body 2 with a screw 21.

Further, as shown in FIG. 3, a switch operating body 22 is vertically movably attached to the side surface of the main body 1.
That is, in the switch operating body 22, as shown in FIG. 3B, the knob portion is projected to the outside from an elongated hole-shaped groove 23 formed integrally with the body 2 and the upper cover 3, and further the groove is formed. The engaging portion 23a that engages with the peripheral edge portion of 23 (see FIG.
(See (b)) is provided and slidably attached to the body 2 and the upper cover 3.

Next, the operation of this embodiment will be described with reference to the schematic circuit diagram of FIG. As shown in FIG. 1, when the heat ray emitted from the human body is detected by the heat ray sensor 13, the output signal thereof is sent to the signal processing unit 9 a of the control circuit 9. The signal processing unit 9a performs amplification and waveform shaping of the output signal of the heat ray sensor 13, and also the illuminance sensor 14
The output of the heat ray sensor 13 is enabled and the control signal is output only when the ambient illuminance detected by
Similarly, the lighting circuit 8 is provided via the output circuit section 9b of the control circuit 9.
Conduct the thyristor SCR of. Then, when the thyristor SCR is turned on, the transistor Q ₁ is turned on, the current is supplied from the nickel-cadmium battery 5, and the light bulb 6 is turned on.
Further, the control circuit 9 is provided with a switch input section 9c, and by operating the above-mentioned switch operating body 22,
It is possible to short-circuit between the two terminals of the switch terminals T ₁ , T ₂ and T ₃ and switch between the off mode, the on mode and the automatic mode according to the short-circuited terminals.

The off mode is a mode in which the control signal is not always output from the signal processing unit 9a regardless of the outputs of the heat ray sensor 13 and the illuminance sensor 14, and the bulb 6 is not turned on. On the contrary, in the ON mode, the control signal is always output from the signal processing unit 9a regardless of the outputs of the heat ray sensor 13 and the illuminance sensor 14, so that the light bulb 6
Is a mode for turning on. Further, the automatic mode is a mode in which a control signal is output from the signal processing unit 9a according to the outputs of the heat ray sensor 13 and the illuminance sensor 14.

A charging circuit 7 is connected to the nickel cadmium battery 5. This charging circuit 7 is one in which the blades 11, 11 are inserted into a power outlet and a voltage of AC 100 V is supplied from the commercial power supply 25 to the primary side of the transformer T to charge the nicad battery 5. On the primary side of the transformer T, a surge absorbing element 26 that absorbs a surge voltage from a commercial power supply 25 to protect the circuit and a fuse 2 for overcurrent protection.
7 and 7 are inserted. Diodes D ₁ and D ₂ are connected to the secondary side of the transformer T, and the alternating current of the commercial power supply 25 is full-wave rectified by the secondary side of the transformer T having an intermediate tap and the diodes D ₁ and D _2. The nickel cadmium battery 5 is charged.

In the above configuration, when the switch operating body 22 is operated to be in the automatic mode, the ambient illuminance detected by the illuminance sensor 14 is below the predetermined illuminance, and the heat ray sensor 1 is also present.
The light bulb 6 is turned on only when the human body is detected by 3, and the light bulb 6 is turned off when unnecessary, so that the consumption of the nickel cadmium battery 5 can be prevented. In addition, the light bulb 6 can be constantly turned on by operating the switch operation body 22 to set it to the ON mode, and thus it can be used as a portable lighting device.

In this embodiment, the blades 11, 1 are
Although the fixed type 1 is used, it may be housed in the main body 1. The heat ray sensor 13 is not limited to the pyroelectric type, but may be a thermistor bolometer or the like.
Further, the illuminance sensor 14 may be an electronic EE switch.

[0022]

According to the invention of claim 1, a storage battery, a charging circuit for the storage battery, a light bulb using the storage battery as a power source, a lighting circuit for the light bulb, a heat ray sensor for detecting heat rays radiated from a human body, and a heat ray sensor. The control circuit that outputs a control signal when the heat ray is detected by is housed in the main body, and the lighting circuit is controlled by the control signal to turn on / off the light bulb.
By turning on the light bulb only when the human body is detected by the heat ray sensor, unnecessary lighting can be avoided, consumption of the storage battery can be suppressed, and the charging interval of the storage battery can be lengthened to improve usability. There is an effect.

According to a second aspect of the present invention, a storage battery, a charging circuit for the storage battery, a light bulb using the storage battery as a power source, a lighting circuit for the light bulb, an illuminance sensor for detecting ambient illuminance, and an ambient illuminance detected by the illuminance sensor are It consists of a control circuit that outputs a control signal only when the illuminance is below a predetermined level, and the lighting circuit is controlled by the control signal to turn on the light bulb. Therefore, the light bulb is turned on only when the ambient illuminance is below the predetermined illuminance. This makes it possible to reliably turn on the light bulb when the lighting reaches the required darkness, avoid unnecessary lighting and reduce the consumption of the storage battery, and extend the charging interval of the storage battery to use. There is an effect that the ease can be improved.

According to the invention of claim 3, the illuminance sensor is housed in the main body, and the control circuit enables the output of the heat ray sensor and outputs the control signal only when the ambient illuminance detected by the illuminance sensor is equal to or less than the predetermined illuminance. By turning on the light bulb only when the lighting becomes the required darkness and the human body is detected by the heat ray sensor, it is possible to turn on the light bulb only when necessary to suppress the exhaustion of the storage battery, and to reduce the charging interval of the storage battery. There is an effect that it can be further lengthened to improve usability.

According to a fourth aspect of the present invention, the switch operating body is provided on the outer surface of the main body, and the operation mode of the switch operating body turns off the light bulb regardless of the output of the sensor, and the light bulb does not depend on the output of the sensor. Since it is possible to switch between the ON mode for turning on and off, and the automatic mode for turning on / off the light bulb according to the output of the sensor, it is possible to control lighting / extinguishing by the switch operation body separately from the light bulb on / off control by the sensor. Therefore, there is an effect that the degree of freedom in selecting the lighting / light-off control mode of the light bulb is increased, which leads to the expansion of usage.

[Brief description of drawings]

FIG. 1 is a schematic circuit configuration diagram showing an embodiment.

FIG. 2 shows the same as above, (a) is a front plan view,
(B) is a top sectional view, (c) is a side sectional view, and (d) is a bottom sectional view.

FIG. 3 shows the same as above, (a) is a rear plan view,
(B) is a side plan view and (c) is a bottom plan view.

[Explanation of symbols]

5 NiCd battery 6 Light bulb 7 Charging circuit 8 Lighting circuit 9 Control circuit 9a Signal processing unit 9b Output circuit unit 13 Heat ray sensor 14 Illuminance sensor SCR thyristor Q ₁ transistor

Claims (4)

[Claims] 1. A storage battery, a charging circuit for the storage battery, an electric bulb using the storage battery as a power source, a lighting circuit for the electric bulb, a heat ray sensor for detecting heat rays emitted from a human body, and a heat ray detected by the heat ray sensor. A safety light device comprising a control circuit for outputting a control signal and a main body, the lighting circuit being controlled by the control signal to turn on / off a light bulb. 2. A storage battery, a charging circuit for the storage battery, a light bulb using the storage battery as a power source, a lighting circuit for the light bulb, an illuminance sensor for detecting the ambient illuminance, and an ambient illuminance detected by the illuminance sensor is below a predetermined illuminance. A safety light device comprising a control circuit for outputting a control signal only, which is housed in a main body, and which controls a lighting circuit by the control signal to turn on a light bulb. 3. The illuminance sensor is housed in the main body, and the control circuit enables the output of the heat ray sensor and outputs the control signal only when the ambient illuminance detected by the illuminance sensor is equal to or lower than a predetermined illuminance. 1. The safety light device according to 1. 4. A switch operating body is provided on the outer surface of the main body,
An off mode in which the light bulb is turned off regardless of the sensor output by operating the switch operation body, an on mode in which the light bulb is turned on regardless of the sensor output, and an automatic mode in which the light bulb is turned on / off according to the sensor output. 4. The safety light device according to claim 1, wherein the safety light device can be switched between.