KR200385668Y1 - Duplex infrared sensor - Google Patents

Abstract

The present invention relates to a two-way infrared detector, in the anti-theft infrared detector for detecting the illegal intrusion of the outside through an infrared beam to perform an alarm operation, implements a separate infrared transmitter to the receiver for receiving the infrared beam, infrared Implement a separate infrared receiver for receiving the infrared beam of the infrared transmitter in the transmitter for transmitting the beam, respectively, by adjusting the projection angle of the light transmitting element according to the amount of light received by the infrared receiver in the transmitter between the transmitter and the receiver It is characterized in that to make it easier to accurately focus the optical axis.

Description

Bidirectional Infrared Detector {DUPLEX INFRARED SENSOR}

The present invention relates to a bi-directional infrared detector, in particular, in the anti-theft infrared detector to detect the illegal intrusion of the outside through an infrared beam to perform an alarm operation, implements a separate infrared transmitter to the receiver for receiving the infrared beam, Implement a separate infrared receiver for receiving the infrared beam of the infrared transmitter in the transmitter for transmitting the infrared beam, respectively, by adjusting the angle of projection of the light emitting element according to the amount of light received by the infrared beam received in the transmitter to receive the transmitter and the receiver The present invention relates to a bi-directional infrared detector having a transmission and reception function for accurately focusing an optical axis of a period.

In general, the infrared detector is installed in a corridor or indoors so as to function as a switch, and the infrared detector is installed in a place prone to human intrusion so that the infrared beam is blocked in case of illegal intrusion, so that an alarm for alarm prevention (alarm display, alarm sound) occurs. It is used variously according to a use, such as being used.

In the above-described anti-infrared detector, a conventional infrared detector is disposed at a position separated by a predetermined distance from the light transmitting unit for transmitting the infrared beam and the light receiving unit for receiving the infrared beam, and the infrared beam transmitted from the light transmitting unit to the light receiving unit is blocked by the intruder. When the level of the received light amount detected by the light receiving unit falls below the reference level, an alarm signal for notifying illegal intrusion of an outsider is generated.

On the other hand, in the installation or arrangement of the light transmitting portion and the light receiving portion of the conventional infrared detector operating as described above at a predetermined distance apart, the angle of the light emitting element in the light transmitting portion so that the focus of the infrared beam transmitted from the light transmitting portion reaches the light receiving portion accurately Will be adjusted.

In this case, the conventional infrared detector implements a function of detecting a light receiving amount and displaying the level of the light receiving unit, so that one worker adjusts the light emission angle at the light emitting unit side, and then one or another worker displays the level at the light receiving unit. The optical axis was focused between the transmitter and the receiver while checking or notifying.

However, as described above, it is very cumbersome and time consuming to focus on the optical axis between the light-receiving part and the light-receiving part by one worker alone or between two light-receiving parts. There was a flaw of inefficiency.

Accordingly, a method of converting the level of received light detected by the light receiver into a wireless RF signal and transmitting the received light to the light transmitting part to adjust the angle of light emission based on the RF signal has been proposed. The complexity of infrared detectors, such as the need for additional complex circuitry to convert and transmit signals, has led to a rise in manufacturing costs.

In addition, the conventional infrared detector has a predetermined amount of light emitting portion according to the distance between the light emitting portion and the light receiving portion for each product, if the infrared detector having a large amount of light in a short distance is used by the external intruder There were also drawbacks such as the use of only infrared detectors applied to the distance, such as the infrared beams not being completely blocked and the alarms fail to perform properly.

The present invention has been made to solve the above-mentioned shortcomings, and the object of the present invention is to provide a receiver for receiving an infrared beam in a crime-proof infrared detector that detects illegal intrusion of an outside through an infrared beam and performs an alarm operation. Implement a separate infrared transmitter, and implement a separate infrared receiver for receiving the infrared beam of the infrared transmitter in the transmitter for transmitting the infrared beam, respectively, according to the amount of light received by the infrared beam received in the infrared receiver of the transmitter It is to provide a bi-directional infrared detector having a transmission and reception function that makes it easier and more accurate to focus the optical axis between the transmitter and the receiver by adjusting the light emission angle.

In addition, according to the installation distance between the transmitter and the transmitter, the transmitter adjusts the amount of light emitted by the infrared beam, and the receiver implements a function of adjusting the reception sensitivity of the infrared beam, respectively, so that one infrared detector can be applied to various installation distances. To provide a detector.

Bidirectional infrared detector according to the present invention for achieving the above object, in the security infrared detector for detecting the illegal intrusion of the outside through an infrared beam alarm is made, the power supply for supplying power and the A driving unit for outputting a driving signal for a light emitting operation according to the power supplied from a power supply unit, a light emitting unit for transmitting an infrared beam by the light emitting element according to the driving signal of the driving unit, and adjusting a light emitting angle of the light emitting element in the light transmitting unit; A control unit for adjusting the light emission amount of the light emitting element according to the installation distance using a dip switch, a light receiving unit receiving an infrared beam output from a receiver to be described later, and a light receiving amount detecting unit detecting the light receiving amount of the infrared beam received from the light receiving unit And a light receiving amount level display section for level displaying the received light amount detected by the light receiving amount detecting section. A transmitter comprising an external receiver, a power supply for supplying power, a light receiver for receiving an infrared beam output from the transmitter, a reception sensitivity controller for adjusting a reception sensitivity of the light receiver according to an installation distance using a dip switch; And a light receiving amount detecting unit detecting a light receiving amount of the infrared beam received by the light receiving unit, an alarm signal generating unit generating an alarm signal when the light receiving amount detected by the light receiving amount detecting unit is equal to or lower than a reference level, and the light receiving amount. A light receiving amount level display unit displaying a light receiving amount level detected by the detection unit, a driving unit for outputting a driving signal for a light emitting operation according to the power supplied from the power supply unit, and a light transmitting element outputting an infrared beam according to the driving signal of the driving unit Mining part, adjustment for adjusting the projection angle of the projection element in the projection part It is configured as a receiver composed of infrared sending unit configured to be characterized.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the bidirectional infrared detector according to the present invention.

1 is a block diagram of a bidirectional infrared detector according to the present invention, which transmits an infrared beam (IR) largely, and has a transmitter (10) having a transmission / reception function for receiving an infrared beam (IR) transmitted from a receiver to be described later; And a receiver 20 having a transmission / reception function for receiving the infrared beam IR transmitted from the transmitter 10 and transmitting the infrared beam IR to the transmitter 10. The transmitter 10 and the receiver ( 20 may be installed or arranged so that the optical axis is focused at a position separated by a predetermined distance.

The transmitter 10 includes a power supply unit 11 for supplying power, a driving unit 12 for outputting a driving signal for a projection operation according to the power supplied from the power supply unit 11, and the driving unit 12 According to the driving signal, the light emitting element emits an infrared beam, and the light emitting angle of the light emitting element in the light emitting portion 13 is adjusted, and the light emitting element light emitting amount according to the installation distance is adjusted using a dip switch. Control unit 14 for adjusting, an infrared receiver 15 for receiving an infrared beam output from the receiver 20 to display the level of received light, and switching the power supply of the power supply 11 to control the infrared And a switch 19 for determining whether to operate the receiver 15, wherein the infrared receiver 15 includes a light receiver 16 for receiving an infrared beam output from the receiver 20, and the light receiver 16. Number to detect the received amount of received infrared beam It consists of the light quantity detection part 17 and the light reception amount level display part 18 which displays the light reception amount detected by this light reception amount detection part 17 as a level.

The receiver 20 includes a power supply unit 21 for supplying power, a light receiving unit 22 for receiving an infrared beam output from the transmitter 10, and the light receiving unit 22 according to an installation distance using a dip switch. A reception sensitivity adjusting unit 22 'for adjusting reception sensitivity of the light receiving unit; a light receiving amount detecting unit 23 detecting a light receiving amount of the infrared beam received by the light receiving unit 22; and a light receiving amount detected by the light receiving amount detecting unit 23 as a reference. An alarm signal generator 24 for generating an alarm signal when it is below a reference level by determining whether the level is below a level, a light receiving amount level display section 25 for level displaying the received light amount detected by the light receiving amount detector 23, and the transmitter ( 10) and an infrared transmitter 26 for transmitting an infrared beam to the switch, and a switch 30 for determining whether to operate the infrared transmitter 26 by switching the power supply of the power supply 21 to control. Infrared transmission The unit 26 is a driving unit 27 for outputting a driving signal for the light-transmitting operation in accordance with the power supplied from the power supply unit 21, and the light transmitting element outputs an infrared beam in accordance with the driving signal of the driving unit 27. The light projection part 28 and the control part 29 for adjusting the light transmission angle of the light transmission element in this light projection part 28 is comprised.

In this case, the adjusting unit 29 of the infrared transmitting unit 29 in the receiver 20 may also be implemented to adjust the light emitting amount of the light emitting element according to the installation distance by using a dip switch, and the infrared ray in the transmitter 10. It is possible to implement the receiver 16 to adjust the reception sensitivity of the light receiver 16.

Bi-directional infrared detector according to the present invention configured as described above, the transmitter 10 is provided with a separate infrared receiver 15 for receiving the infrared beam output from the receiver 20 to display the received light level, the receiver 20 Each having a separate infrared transmitter 26 for outputting an infrared beam to the transmitter 10 to implement a two-way infrared detector having a transmission and reception function.

Through the above configuration, in adjusting the light transmission angle of the light transmitting element in the light transmitting unit 13 in the transmitter 10, the light transmission angle while recognizing the light receiving amount level displayed on the light receiving amount level display unit 18 in the infrared receiver 15 To adjust the infrared beam of the transmitter 10 to reach the receiver 20 accurately.

That is, according to the present invention, the amount of received light of the infrared beam output from the transmitter 10 is detected by the receiver 20, and the detection result is sent back to the transmitter 10 to adjust the light emitting angle of the light emitting element based on the conventional technique. In addition, the infrared beam transmission function of the transmitter 10 is implemented in the receiver 20 in the same manner so that the transmitter 10 adjusts the projection angle of the light emitting element according to the amount of light received by the infrared beam transmitted from the receiver 20. The optical axis is focused between the receiver 10 and the receiver 2.

And, according to the installation distance between the transmitter 10 and the receiver 20, by adjusting the dip switch of the adjusting unit 14 in the transmitter 10 to properly adjust the amount of light emitted from the infrared beam transmitted from the light emitting unit 13 In addition, the receiver 20 also adjusts the reception sensitivity of the light receiving unit 22 through a dip switch in the reception sensitivity adjusting unit 22 ′ to set the amount of radiation and the reception sensitivity of the infrared beam corresponding to the corresponding distance. The bidirectional infrared detector of the present invention can be used to be applied to various installation distances without limitation.

Referring to the operation of the bidirectional infrared detector according to the present invention configured as described above are as follows.

First, the operator arranges or installs the transmitter 10 and the receiver 20 so as to substantially coincide with the optical axis focal points at positions away from each other in order to install an infrared detector for crime prevention.

Then, when the transmitter 10 and the receiver 20 are operated, the transceivers 10 and 20 transmit and receive infrared beams, respectively, and in this state, the transmitter to focus the optical axis of the transmitter 10 and the receiver 20. (10) Adjust the projection angle of the light emitting element in the same time, and at the same time to adjust the amount of light emitting element and the reception sensitivity of the infrared beam according to the installation distance to be set.

That is, in the case of the transmitter 10, when the driving unit 12 outputs a driving signal for the light emitting operation according to the power supplied from the power supply unit 11, the light transmitting unit 13 is connected to the driving signal of the driving unit 12. Accordingly, the light transmitting element outputs an infrared beam to the receiver 20.

The switch 19 is switched on to operate the infrared receiver 15 according to the power supplied from the power supply 11.

When the infrared receiver 15 is operated, the light receiver 16 receives the infrared beam output from the receiver 20, and detects the light received amount of the infrared beam received by the light receiver 16 through the light receiver 17. The light received amount detected by the light received amount detector 17 is displayed on the level through the light received amount level display unit 18.

Then, the operator adjusts the light projection angle of the light transmitting element in the light transmitting part 13 using the adjusting unit 14 while checking the light receiving amount level displayed on the light receiving amount level display unit 18.

That is, when the light emission angle is adjusted so that the light receiving amount level displayed on the light receiving amount level display unit 100 becomes 100%, the infrared beam transmitted from the transmitter 10 is regarded as reaching 100% of the receiver 20, so that the transmitter 10 ) And the optical axis focus accurately between the receiver 20.

Subsequently, when the angle adjustment of the light emitting element in the light transmitting unit 13 is completed as described above, the switch 19 is turned off to cut off the power supply of the infrared light receiving unit 15 to the infrared receiver 15. Turning off the operation also reduces unnecessary power consumption.

Meanwhile, in the receiver 20, the light receiving unit 22 receives the infrared beam output from the transmitter 10 by the reception sensitivity adjusted by the reception sensitivity adjusting unit 22 ′ and detects the light reception amount through the light reception amount detection unit 23. The received light amount level display section 25 displays the detected light received amount level.

If the operator wants to adjust the light emission angle at the receiver 20 side, the infrared light transmitting unit 26 operated according to the switching-on operation of the switching 30, the light receiving amount level displayed on the light receiving amount level display unit 25 While checking the control unit 29 of the infrared ray transmitting unit 26 to adjust the projection angle of the light transmitting element in the light transmitting unit 28.

In this case, as well as the adjustment in the transmitter 10, when the light emission angle is adjusted so that the light reception amount level displayed on the light reception amount level display unit 100 is 100%, the infrared beam transmitted from the receiver 20 is also transmitted to the transmitter 10. It is assumed that 100% is reached to precisely focus the optical axis between the transmitter 10 and the receiver 20.

In addition, the switch 30 is turned off when the projection angle adjustment is completed to cut off unnecessary power supply of the infrared transmitter 26 so that the power consumption of the infrared transmitter 26 may be turned off.

Subsequently, when the optical axis focus is exactly matched between the transmitter 10 and the receiver 20 having a predetermined installation distance as described above, the optical beam is operated according to a security function. In this case, the infrared beam output from the transmitter 10 is illegally invaded by an outsider. In the case of blocking by the light source, the light receiving amount detected by the light receiving amount detecting unit 23 in the receiver 20 is determined to be lower than or equal to the reference level, and an alarm signal is generated by the alarm signal generating unit 24 to operate an external alarm device, thereby illegally invading an outsider. You will be informed.

As described above, the present invention, in the anti-theft infrared detector for detecting the illegal intrusion of the outside through the infrared beam to perform an alarm operation, implements a separate infrared transmitter to the receiver for receiving the infrared beam, Implement a separate infrared receiver for receiving the infrared beam of the infrared transmitter in the transmitter for transmitting the infrared beam, respectively, by adjusting the angle of projection of the light emitting element according to the amount of light received by the infrared beam received in the transmitter to receive the transmitter and the receiver There is an effect that makes it easier to accurately focus the optical axis of the period.

That is, instead of adjusting the transmission angle of the transmitter based on the light reception amount of the infrared beam detected and transmitted by the conventional receiver, the light transmission while inferring the light reception amount of the infrared beam output from the transmitter through the light reception amount of the separate infrared beam output from the receiver By adjusting the angle of light transmission of the device, the optical axis can be focused very simply and easily in the transmission / reception period. However, the structure is simpler than in the related art, and manufacturing cost is also reduced.

In particular, by implementing a function of supplying or cutting off power to the infrared receiver and the infrared transmitter, which are separate components for focusing the optical axis by providing a switch, the power supply can be cut off when the optical axis focus adjustment is completed to reduce the consumption of the entire power source. It also works.

In addition, the bi-directional infrared detector of the present invention implements a function of adjusting the radiation amount of the infrared beam in the transmitter and the reception sensitivity of the infrared beam in the receiver, thereby adjusting the emission amount and reception sensitivity of the infrared beam according to the installation distance between the transceivers. There is also an effect that can be set is not limited to one installation distance can be applied to various installation distances.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

1 is a block diagram of a bidirectional infrared detector according to the present invention.

<Description of the symbols for the main parts of the drawings>

10 transmitter 20 receiver

11, 21: power supply 26: infrared transmitter

12, 27: drive unit 13, 28: light transmitting unit

14, 29: control unit 15: infrared receiver

16, 22: light receiving unit 17, 23: light receiving amount detecting unit

18, 25: light reception level display unit 22`: reception sensitivity control unit

24: alarm signal generator 19, 30: switch

Claims (3)

In the crime prevention infrared detector for detecting the illegal intrusion of the outside through the infrared beam to perform the alarm operation, A power supply unit for supplying power, a driving unit for outputting a driving signal for a light emitting operation according to the power supplied from the power supply unit, a light transmitting unit for transmitting an infrared beam by the light emitting element according to the driving signal of the driving unit, and the light emitting unit Control unit for adjusting the projection angle of the light transmitting element in the unit, using the dip switch to adjust the amount of light emitting element according to the installation distance, and a light receiving unit for receiving the infrared beam output from the receiver to be described later, received by the light receiving unit A transmitter comprising a light receiving amount detecting unit for detecting a light receiving amount of the infrared beam, an infrared receiving unit comprising a light receiving amount level display unit for level displaying the light receiving amount detected by the light receiving amount detecting unit, A power supply unit for supplying power, a light receiving unit for receiving an infrared beam output from the transmitter, a reception sensitivity adjusting unit for adjusting a reception sensitivity of the light receiving unit according to an installation distance using a dip switch, and an infrared ray received from the light receiving unit A light receiving amount detecting unit for detecting a light receiving amount of the beam, an alarm signal generating unit generating an alarm signal when the light receiving amount detected by the light receiving amount detecting unit is equal to or lower than a reference level, and a light receiving amount detected by the light receiving amount detecting unit A light-receiving amount level display unit to display, a driving unit for outputting a driving signal for a light emitting operation according to the power supplied from the power supply unit, a light-emitting unit for outputting an infrared beam by the light-emitting element in accordance with the drive signal of the driving unit, and a light-transmitting element in the light-transmitting unit Infrared transmitter consisting of a control unit for adjusting the light emission angle of The bidirectional infrared detector, characterized in that configured as a receiver. The method of claim 1, And the transmitter further comprises a switch for switching the power supply of the power supply to determine whether to operate the infrared receiver. The method of claim 1, And the receiver further comprises a switch for switching the power supply of the power supply to determine whether to operate the infrared transmitter.