KR100914968B1 - Device for equipment position definite of sensing assembly using infrared rays - Google Patents

Abstract

The present invention further comprises a laser beam transmitting means in any one of the light transmitting device or the light receiving device, in the installation of the infrared detector in a specific monitoring area, the light emitting device or the light receiving device is installed with a corresponding device through the transmission of the laser beam Precise positioning provides stability and convenience in installing infrared sensors

The present invention relates to an infrared detector comprising a light transmitting device and a light receiving device, wherein a laser beam generator and a laser beam generator for irradiating a laser beam to a position where a corresponding device is installed in either a light emitting device or a light receiving device is installed. A confirmation switch which is provided in the device to be installed and requests the installation position confirmation of the corresponding device, and when the installation position confirmation of the corresponding device is requested in the confirmation switch, the laser beam generator is controlled to control the laser beam at the installation position of the corresponding device. Includes a microcomputer to investigate.

The confirmation switch is configured as a general switch or a switch that is turned on when the magnet is approaching the outside and turned off when the magnet is away.

Therefore, the effect of providing convenience and reliability in installing an infrared detector in a specific surveillance area can be expected.

Description

Device for equipment position definite of sensing assembly using infrared rays}

The present invention relates to an infrared detector, and more particularly, to an installation apparatus for confirming an installation position of an infrared detector for confirming an installation position of a light transmitting apparatus and a light receiving apparatus for optimally transmitting and receiving an infrared signal when installing an infrared detector in a specific surveillance region. will be.

Recently, homes and companies have installed and used unmanned security and access control systems provided by security companies in order to prevent the occurrence of various crimes and to protect lives and property.

The unmanned security guard and access control system is equipped with various sensors for detecting unauthorized intrusion by outsiders at a predetermined position in the surveillance area, and the signals of each sensor are collectively detected by the subscriber device or the sensing device installed in the surveillance area. Alternatively, the signal detected by the sensing device is transmitted to a central controller installed at a remote location through a dedicated line or an aerial line.

Therefore, the central control unit checks whether an unauthorized intruder has occurred in each surveillance zone, protects lives and property in the surveillance zone by responding promptly, and controls whether to start and release the security and allow access through the remote control.

In general, infrared sensors are widely used as sensors applied to such unmanned security and control systems.

As shown in FIG. 3, the infrared detector includes a light transmitting apparatus 100 and a light receiving apparatus 200 in one set, and is installed in the surveillance region so as to face each other optically.

The light transmitting device 100 generates an infrared signal having a predetermined frequency and emits the light to the light receiving device 200, and the light receiving device 200 receives the infrared light emitted from the light transmitting device 100.

In this case, the light receiving apparatus 200 analyzes the amount of light received by converting the frequency into a voltage, and compares the light with the external intruder or an arbitrary object between the light transmitting apparatus 100 and the light receiving apparatus 200 by comparing with the set reference voltage. If it is determined that the shading is determined to generate an alarm.

As described above, the setting of the angles facing the light emitting device 100 and the light receiving device 200 is very important when installing the infrared detector including the light emitting device 100 and the light receiving device 200 in the monitoring area.

That is, the light receiving device 200 should be installed at an angle capable of receiving the maximum amount of infrared rays from the light transmitting device 100 to ensure optimum sensitivity.

In general, in the process of installing the light emitting device 100 and the light receiving device 200 in a monitoring area such as the inside or the outside of a window frame or an exhibition space, the setting of the light emission angle and the light reception angle to determine the performance of the infrared detector is performed by the operator. Depends on the naked eye

For example, a method of installing and fixing a light emitting device on one side of a specific monitoring area and finding a mounting position of the light receiving device through a lens of the light emitting device is applied.

Therefore, it is very difficult and cumbersome to set the angle of light transmission and reception during the installation of the infrared detector, and the accuracy of transmission and reception of the infrared signal is remarkably degraded. There is a problem that there is a lack of reliability with respect to.

In addition, it takes a lot of time to adjust the transmission and reception angle of the infrared signal, there is a problem that causes an increase in manpower and expenses.

The present invention has been invented to solve the above problems, the object of which further comprises a laser beam transmitting means in any one of the light transmitting device or the light receiving device, in the installation of an infrared detector in a specific monitoring area, the light receiving device or light projection The device provides the stability and convenience to the installation of the infrared detector by accurately indicating the position where the corresponding device is installed by sending out the laser beam.

The present invention for realizing the above object is an infrared detector comprising a light transmitting device and a light receiving device in a set,

A laser beam generator installed on either the light transmitting device or the light receiving device and irradiating a laser beam to a position where a corresponding device is installed; A confirmation switch provided in the device in which the laser beam generator is installed and requesting confirmation of the installation position of the corresponding device; When the installation position confirmation of the corresponding device is requested from the confirmation switch, it provides an installation position identification device of the infrared detector including a microcomputer to control the laser beam generator to irradiate the laser beam to the installation position of the corresponding device.

According to the above-described configuration, the present invention can be expected to provide convenience and reliability in providing an infrared detector composed of a light transmitting device and a light receiving device in a specific monitoring area.

1 is a view showing the configuration of the installation position confirming device of the infrared detector according to an embodiment of the present invention.

2 is a view showing an installation state of the infrared detector according to an embodiment of the present invention.

3 is a view showing an installation state of a general infrared detector.

<Explanation of symbols for main parts of the drawings>

11: power supply part 12: microcomputer

13: frequency oscillator 14: floodlight

15: positioning switch 16: laser beam generator

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

1 is a view showing the configuration of the installation position confirming device of the infrared sensor according to an embodiment of the present invention, it is a configuration diagram applied to the light emitting device.

As shown, the present invention includes a power supply 11 and a microcomputer 12, a frequency generator 13, a light emitter 14, a confirmation switch 15 and a laser beam generator 16.

The power supply unit 11 is composed of a rectifying circuit for rectifying the commercial power supply, and rectifies and voltage drops the commercial power supply to supply each of the electrical load elements constituting the floodlight device 10 as an operating power source.

The power supply unit 11 further includes an emergency battery provided with a charge / discharge function to supply emergency power to the load element in a state where supply of commercial power is cut off so that a normal sensing function can be provided.

The microcomputer 12 controls the overall operation of the transmission of the infrared signal having the frequency band set in the light emitting device 10.

In addition, when the input of a signal requesting confirmation of the installation position is detected from the confirmation switch 15, the microcomputer 12 controls the laser beam generator 16 to control the delivery of the laser beam having very good straightness.

The frequency oscillator 13 oscillates an infrared signal of a frequency band set according to a control signal applied from the microcomputer 12 and applies it to the light projector 14.

The light projector 14 diffuses the infrared signal applied from the frequency oscillator 13 at a predetermined directivity angle through a lens provided therein, and transmits the infrared signal to the corresponding light receiver.

The confirmation switch 15 is a switch that triggers a signal for requesting confirmation of the installation position of the light receiving device corresponding to the light emitting device 10, and operates on / off by a magnetic force of a permanent magnet applied outside the case.

That is, the confirmation switch 15 is mounted on the printed circuit board on which the light emitting device 10 is configured, and when the permanent magnet is placed outside the case at the position where the confirmation switch 15 is mounted, the contact is turned on by the magnetic force. When the permanent magnet is away from the case, the confirmation switch 15 is turned off in its own restoring force.

The laser beam generator 16 confirms the correct installation position of the light receiving device by irradiating the laser beam having the linearity to the position where the light receiving device is installed according to the control signal applied from the microcomputer 12.

One or more laser beam generators 16 are installed on the upper side and the lower side of the light transmitting device 10, respectively, so that the reception angle of the infrared signal can be accurately set when the light receiving device is installed and fixed.

Referring to the operation of confirming the installation position of the light receiving device in the present invention comprising the function as described above are as follows.

For example, as shown in FIG. 2, when the light emitting device 10 is installed and fixed on one side of the window 30, which is a monitoring area, the permanent magnet is placed outside the case at the position where the confirmation switch 15 is installed. The contact point of the confirmation switch 15 is turned on by the magnetic force of the magnet, and information about it is applied to the microcomputer 12.

The microcomputer 12 determines the installation position confirmation request of the light receiving device 20 according to the on of the confirmation switch 15 and controls the laser beam generator 16.

Accordingly, at least one laser beam generator 16 installed at each of the upper side and the lower side of the light transmitting device 10 irradiates a laser beam 19 having straightness to the light receiving device 20 corresponding to the light transmitting device 10. The installation position of the upper and lower sides is irradiated to indicate the installation position of the angle that optimally receives the infrared signal.

Therefore, the operator installing the infrared detector installs and fixes the light receiving device 20 at the position where the laser beam is irradiated, so that the setting of the infrared signal receiving angle between the light transmitting device 10 and the light receiving device 20 is performed separately. It is stable without entailment.

When the light emitting device 10 and the light receiving device 20 are installed in the monitoring area as described above, the permanent magnet is separated from the outside of the case, the power is supplied, and then the ON switch (not shown) is selected to turn on the microcomputer 12. ) Controls the frequency generator 13 to generate an infrared signal having a frequency of a set band and apply it to the light projector 14.

Therefore, the light emitter 14 emits an infrared signal applied through the lens provided therein to the light receiving device 20 at a set directing angle, thereby monitoring whether or not an intruder is generated in the monitoring area.

In the above description, the laser beam generator is provided in the light transmitting device 10 to confirm the installation position of the light receiving device. However, the present invention is not limited thereto. If it can be easily carried out, the invention is also included in the scope of the present invention.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (4)

In the infrared detector which consists of a light projector and a light receiver, A laser beam generator installed on either the light transmitting device or the light receiving device and irradiating a laser beam to a position where a corresponding device is installed; A confirmation switch provided in a device in which the laser beam generator is installed and requesting confirmation of an installation position of a corresponding device; And a microcomputer for controlling the laser beam generator to irradiate a laser beam to the installation position of the corresponding device when the installation position of the corresponding device is requested by the confirmation switch. delete The method of claim 1, The confirmation switch is installed on the printed circuit board, the installation position confirmation device of the infrared sensor which is operated on / off by the magnetic force of the permanent magnet in proximity to the outside of the case. The method of claim 1, And at least one laser beam generator is installed at each of the upper side and the lower side of the light emitting device to indicate an installation position of the light receiving device.