KR20150019419A - Sensor lamp having sensitivity controling function - Google Patents

Abstract

The present invention relates to a sensor lamp with a sensitivity control function. According to the present invention, the sensor lamp includes a light source; a PIR sensor generating a human body sensing signal by sensing infrared rays generated from a human body; a temperature sensor generating a temperature sensing signal by sensing a surrounding temperature; an amplification control part calculating a temperature difference value between a sensing temperature sensed through the temperature sensing signal and a preset reference temperature and determining a signal amplification ratio in response to the temperature difference value; a variable amplifier providing a lighting signal by amplifying the human body sensing signal according to the a signal amplification ratio provided from the amplification control part; and a lighting control part lighting the light source for a first setting time in response to the lighting signal provided from the variable amplifier and turning off the source after the first setting time.

Description

A sensor having a sensitivity adjusting function,

The present invention relates to a sensor having a sensing sensitivity adjusting function, and more particularly, to a sensor capable of sensitive sensing when an ambient temperature is high and a general sensing when an ambient temperature is low, A sensor having a sensing sensitivity adjustment function capable of improving functions of a sensor or the like so as to be automatically adjusted.

Generally, the sensors are lit in order to eliminate inconveniences in an emergency or in a dark place, and they are installed separately on the entrance of a home or a corridor and a stairway of a large building.

Sensor and the like are provided with an optical sensor and an infrared sensor so that they are installed in an elevator and a stairway or an aisle of a house or an apartment to be lit for a predetermined time when the human body is detected by the infrared sensor in a dark place, It is a lamp that lightens the elevator and the stairs or the corridor of an apartment, and it is not inconvenient in the dark place.

1 is a block diagram of a conventional sensor or the like.

1, a conventional sensor 10 includes an infrared sensor 11, an amplifier 12, a control unit 13, and a light source 14.

The infrared sensor 11 senses a human body or an object and generates a sensing signal. The amplifier 12 amplifies the sensing signal to provide an effective signal to the controller 13 and the controller 13 controls the light source 14 in response to an effective signal provided from the amplifier 12. [ .

In particular, an infrared sensor (PIR Sensor) provided in such a sensor includes a PIR element. When a PIR element detects infrared rays having a wavelength longer than or shorter than the far infrared wavelength of the surrounding area, positive (+) and negative And a sensing signal is generated. That is, when a human body or an object having a temperature lower or higher than the ambient temperature is detected, positive and negative electrodes are formed on the PIR device to generate a sensing signal.

Such a sensing signal varies in size corresponding to the amount of infrared rays (temperature difference). That is, when a human body or an object having a large difference in temperature and temperature is approaching, the size of the detection signal is increased. When the temperature and the temperature difference are small, the size of the detection signal is decreased.

Accordingly, a conventional sensor or the like detects a human body by using a detection signal of an infrared sensor, which is generated when an object or a human body having a difference of about 5 ° C or more from the ambient temperature approaches, as a reference signal. That is, when the sensing signal generated when there is a temperature difference of about 5 ° C or more is amplified through the amplifier 12, an effective signal is generated to operate the sensor.

Since the body temperature of the human body is approximately 36.5 ° C, the ambient temperature of the sensor and the like should be about 31.5 ° C or less for normal sensors to operate normally.

Previously, since the ambient temperature of the sensor and the like was on average about 31 ° C or less, there was no problem in the operation of the sensor and the like. However, due to global warming, heat island phenomenon, and tropical weather, summer temperatures are rising to 30 ~ 40 ℃. In this case, as the temperature difference between the body temperature and the ambient temperature of the human body becomes less than about 5 DEG C, there arises a problem that the sensor does not operate at all even if the human body approaches the sensor or the like.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a sensor or the like having a sensing sensitivity adjustment function capable of overcoming the above-described conventional problems.

It is another object of the present invention to provide a sensor having a sensing sensitivity adjustment function capable of adjusting the sensitivity as the ambient temperature changes.

It is still another object of the present invention to provide a sensor having a function of adjusting a sensing sensitivity, which can perform an operation such as a sensor even when the ambient temperature is close to the body temperature of the human body.

According to an embodiment of the present invention, a sensor or the like according to the present invention includes a light source; An infrared sensor (PIR sensor) for detecting infrared rays generated from a human body and generating a human body detection signal; A temperature sensing sensor for sensing a surrounding temperature and generating a temperature sensing signal; An amplification control unit for determining a signal amplification ratio based on a temperature difference value between a sensed temperature sensed through the temperature sensing signal and a preset reference temperature; A variable amplifier for amplifying the human sensed signal according to a signal amplification ratio provided by the amplification control unit and providing the amplified human sensed signal as a light signal; And a lighting controller for controlling the light source to be turned on for a first set time in response to the turn-on signal provided through the variable amplifier, and to be turned off after the lapse of the first set time.

The reference temperature may be 36.5 DEG C, which is the body temperature of the human body.

The amplification control unit controls the signal amplification ratio to be larger when the temperature difference value becomes smaller and controls the signal amplification ratio to be smaller when the temperature difference value becomes larger.

Wherein the amplification control unit keeps the signal amplification ratio constant at a specific amplification ratio when the temperature difference value is equal to or greater than a predetermined reference difference value and when the temperature difference value is equal to or smaller than the reference difference value, The signal amplification ratio can be controlled to be larger.

The sensor or the like may further include an optical sensor for sensing the brightness of the surroundings, and the lighting controller may control the lighting of the light source in response to the sensing signal of the optical sensor and the lighting signal.

According to the present invention, the sensitivity can be adjusted as the ambient temperature is changed, and the sensor can be operated even when the ambient temperature is close to the body temperature of the human body.

1 is a block diagram of a conventional sensor or the like,
2 is a block diagram of a sensor or the like according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings without intending to intend to provide a thorough understanding of the present invention to a person having ordinary skill in the art to which the present invention belongs.

2 is a block diagram of a sensor or the like according to an embodiment of the present invention.

2, the sensor 100 according to an exemplary embodiment of the present invention includes an infrared sensor 110, a variable amplifier 120, a lighting controller 130, a temperature sensor 140, A light source 150, and a light source 160. And may further include an optical sensor 170 as required.

The infrared sensor (PIR sensor) 110 includes a PIR element. When a PIR element detects infrared rays having a wavelength longer than or shorter than the far infrared wavelength of the surroundings, positive and negative (+) electrodes are formed on the PIR element A sensing signal is generated. That is, when a human body or an object having a temperature lower or higher than the ambient temperature is detected, positive and negative electrodes are formed on the PIR device to generate a sensing signal.

Such a sensing signal varies in size corresponding to the amount of infrared rays (temperature difference). That is, when a human body or an object having a large difference in temperature and temperature is approaching, the size of the detection signal is increased. When the temperature and the temperature difference are small, the size of the detection signal is decreased. That is, the temperature of the infrared sensor 110 is proportional to the ambient temperature and the temperature difference between the object or the body temperature of the human body and the size of the sensing signal.

The infrared sensor 110 described above may be an infrared sensor generally known to those of ordinary skill in the art.

The infrared sensor 110 senses an object in addition to the human body but the object of the sensor or the like is for a human being so that the sensing signal of the infrared sensor 110 can be determined as a human body sensing signal P1 .

As the light source 160, various light sources such as an LED lamp and an incandescent lamp may be used.

The temperature sensor 140 senses the temperature around the sensor 100 or the infrared sensor 110. That is, the temperature sensor 140 senses the temperature around the sensor 100 or the temperature in the space where the sensor 100 is installed.

The temperature sensing sensor 140 provides a temperature sensing signal T1 generated by sensing a temperature around the sensor 100 or the infrared sensor 110 to the amplification controller 150. [ The temperature sensing sensor 140 may be a temperature sensing sensor well known to those skilled in the art.

The amplification controller 150 determines a signal amplification ratio of the variable amplifier 120 on the basis of a temperature difference value between a sensed temperature sensed through the temperature sensing signal T1 and a predetermined reference temperature. Here, the reference temperature may be 36.5 ° C., which is the body temperature of the human body, but may be otherwise determined as necessary.

The amplification control unit 150 may control the variable amplifier 120 to amplify the human detection signal P1 according to the signal amplification ratio.

The amplification control unit 150 controls the signal amplification ratio to be increased if the temperature difference value is smaller than a predetermined reference difference value (for example, about 5 ° C), and when the temperature difference value is larger than the reference difference value The signal amplification ratio can be controlled to be small.

Alternatively, when the temperature difference value is equal to or greater than a predetermined reference difference value (for example, about 5 ° C), the amplification control unit 150 may increase the signal amplification ratio to a specific amplification ratio (for example, 1,000 times) And when the temperature difference value is equal to or smaller than the reference difference value, the signal amplification ratio can be controlled to be increased corresponding to a decrease in the temperature difference value.

For example, assuming that the signal amplification ratio is 1,000 times when the ambient temperature is 31 ° C or less, the signal amplification ratio is controlled to be 1,000 to 1,500 times when the ambient temperature is 32 ° C, The signal amplification ratio is controlled to be 1,500 to 2,000 times. When the ambient temperature is 34 ° C, the signal amplification ratio is controlled to be 2,000 to 2,500 times. When the ambient temperature is 35 ° C, the signal amplification ratio is 2,500 To 3,000 times, and when the ambient temperature is 36 ° C, the signal amplification ratio may be controlled to be 5,000 times or more.

Here, the signal amplification ratio may be set such that the human body detection signal P1 detected through the infrared sensor 110 is amplified by the variable amplifier 120 according to the signal amplification ratio, Means an amplification ratio of a signal to be recognized as an effective signal for lighting the light source 160, and the signal amplification ratio can be variously changed.

For example, if the ambient temperature is 32 ° C, the effective signal can be obtained even if the signal amplification ratio is 1,000 to 1,200 times. If the ambient temperature is 35 ° C, the signal amplification rate is controlled to be 1,500 to 1,800 times, The signal amplification ratio can be variously determined according to the structure and performance of the variable amplifier 120. [

Here, the effective signal may mean a signal having a size such that the signal amplified by the variable amplifier 120 can be recognized as a lighting signal for lighting in the lighting controller 130.

In another embodiment, the amplification control unit 150 controls the amplification control unit 150 to increase the signal amplification ratio when the ambient temperature rises corresponding to the sensed temperature sensed through the temperature sensing signal, It is also possible to control the signal amplification ratio to be small when the temperature is low. This is because the global warming is not so severe until now and the temperature around the body is not higher than the body temperature.

The variable amplifier 120 amplifies the human body detection signal P1 according to the signal amplification ratio provided by the amplification control unit 150 and provides the amplified human body detection signal P1 to the lighting control unit 130 as a lighting signal P2.

The variable amplifier 120 must have a structure capable of being amplified with various amplification ratios, and a variable amplifier 120 well known to those skilled in the art may be used. It is also possible to use a single variable amplifier having various amplification ratios or to connect a plurality of amplifiers having different amplification ratios to each other and to control their operation through the amplification control unit 150. [

The lighting controller 130 turns on the light source 160 for a first set time period (for example, 60 seconds) in response to the lighting signal P2 provided through the variable amplifier 120, And is turned off after the set time has elapsed. The lighting control unit 130 may be implemented in the same manner as a control unit included in a well-known sensor or the like.

The light sensor 170 is for sensing the brightness of the surroundings, and is designed to operate only when the sensor 100 is dark, and not to operate when the sensor 100 is bright. In this case, the lighting controller 130 may control the lighting of the light source 160 in response to the sensing signal L1 and the lighting signal P2 of the optical sensor 170. [

The sensor having the above-described configuration can adjust the sensing sensitivity by applying the amplification ratio of the infrared sensor 110 to the human body detection signal differently according to the ambient temperature, so that the ambient temperature is different from the body temperature of the human body. Even when the temperature difference value is small, the sensor and the like can be operated.

The foregoing description of the embodiments is merely illustrative of the present invention with reference to the drawings for a more thorough understanding of the present invention, and thus should not be construed as limiting the present invention. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the basic principles of the present invention.

110: Infrared sensor 120: Variable amplifier
130: a lighting controller 140: a temperature sensor
150: amplification control unit 160: light source
170: Light sensor

Claims (5)

A light source;
An infrared sensor (PIR) for detecting infrared rays generated from a human body and generating a human body detection signal;
A temperature sensing sensor for sensing a surrounding temperature and generating a temperature sensing signal;
An amplification control unit for calculating a temperature difference value between a sensed temperature sensed through the temperature sensing signal and a predetermined reference temperature and determining a signal amplification ratio corresponding to the temperature difference value;
A variable amplifier for amplifying the human sensed signal according to a signal amplification ratio provided by the amplification control unit and providing the amplified human sensed signal as a light signal;
And a lighting controller for controlling the light source to be turned on for a first set time in response to the lighting signal provided through the variable amplifier and to be turned off after the first set time elapses. The method according to claim 1,
And the reference temperature is a body temperature of the human body. The method according to claim 1,
Wherein the amplification control unit controls the signal amplification ratio to be larger when the temperature difference value becomes smaller than a predetermined reference difference value and controls the signal amplification ratio to be smaller when the temperature difference value is larger than the reference difference value Such as sensors. The method according to claim 1,
Wherein the amplification control unit keeps the signal amplification ratio constant at a specific amplification ratio when the temperature difference value is equal to or greater than a predetermined reference difference value and when the temperature difference value is equal to or smaller than the reference difference value, So that the signal amplification ratio is increased. The method according to claim 1,
The sensor or the like further includes an optical sensor for sensing the brightness of the surroundings,
Wherein the lighting control unit controls the lighting of the light source in response to the sensing signal of the optical sensor and the lighting signal.

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