KR890005356B1 - Alarm system - Google Patents

Abstract

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Description

Fiber Optic Alarm System

1 is an example of installation of the optical fiber sensor cable of the present invention.

2 is a block diagram of a fiber optic alarm system of the present invention.

* Explanation of symbols for main parts of the drawings

1a-1n: photo detector (S / D stage) 2a-2n: detector

3a-3n: Terminal 4: Data Link

5: central control monitor 6: fiber optic line sensor

The present invention relates to a fiber-optic alarm system (System) that can accurately determine the intruder's boundary and the location of the external intruder using an optical fiber line sensor.

Specifically, the entire section of the area requiring security and boundary is divided into n unit boundary sections, and a light source detector is installed in each section, and the optical fiber line thin lines are installed in the form of a straight line or a mesh between the posts and the posts of each section. The unit boundary section is designated as the address number so that the intrusion location can be immediately identified by the designated address number when the fiber line sensor is cut by an external intruder.

Conventionally, the system has been established as various kinds of monitoring devices such as externally installed contactors or infrared rays monitoring by light sources.However, when using an alarm system by contactors, malfunctions may occur due to seasonal temperature changes and weather conditions. The rate is high, and when a wide area boundary is required, a large number of contacts are required. If the intruder enters an area where the intruder is alerted and the alarm is triggered by the contact person, only the intruder's intrusion is known and the location of the intruder is known. There is a difficulty that cannot be accurately understood, and in the case of infrared surveillance system by light source, installation conditions are not suitable for curved valleys or elliptical terrain due to the straightness of the light. In addition, there is a surveillance system using a video camera. High cost and easy maintenance This was implied.

In view of this problem, the present invention has devised the present invention to quickly and accurately grasp an alarm location of an area requiring a boundary.

An object of the present invention is to install a sensing unit made of a fiber optic sensor cable having an advantage in the area requiring a boundary, so that when the intruder cuts the sensing unit, the blocked signal appears in the central monitor to determine the boundary and intrusion position of the external intruder It's about fiber-optic alarm systems that can be quickly and accurately identified.

1 is described in detail with reference to the accompanying drawings as an embodiment in which the optical fiber sensor of the present invention is installed, the optical fiber line sensor cable 6 in a net form between the post 7a and the post 7b installed in each boundary region. ) Are connected to the light source detectors 1a-1n of FIG. 2, respectively.

In addition, a plurality of light source detectors 1a-1n are connected to terminals 3a-3n, respectively, and the terminals 3a-3n are connected to the central monitor 5 through a data link 4.

Referring to the operation and effect of the present invention configured as described above, the area requiring the boundary is divided into three unit sections, and each post is installed at regular intervals.

Only the posts 7a-7c are shown here. For example, the optical fiber line sensor cable 6, which is the sensing unit 2a, is installed between the posts 7a and 7b provided as described above in a net or straight shape. At this time, the portions of the posts 7a and 7b or the contact with the ground are firmly bonded to the inner side by the riveting or molding method.

In addition, the fiber-optic line sensor cable 6 applied to the present invention is applied to the company-applied "fiber-optic cable for outdoor installation of the alarm device of 86-9983". This is formed by coating a coating material for preventing external disturbance by blocking external light on the outer circumferential surface of the optical fiber transmitting the optical signal and a strength member made of Kevlar material to increase seasonal temperature change and mechanical strength.

The optical fiber line sensor cable 6 is installed between the posts 7a and 7b at regular intervals, and the end portion thereof generates a constant photoperiod signal, which is sent to the optical fiber and receives the transmitted optical signal again. It connects to the detection part 1a. In this case, the process of connecting the end portion of the optical fiber line sensor cable 6 and the light source detection unit 1a is omitted since it uses a general optical fiber connection connector.

In addition, when the optical fiber line sensor cable 6 is laid in the post 7a and the post 7b in a mesh shape, the intersection with the optical fiber line sensor cable 6 is connected to the mesh using the Kevler material creep. Means for molding (not shown) are applied.

In this way, the area requiring the boundary is divided into three unit sections to install the sensing units 2a-2n to which the optical fiber line sensor cable 6 is applied.

Each detector 2a-2n is connected to a light source detector 1a-1n, which is composed of a source unit for transmitting a photoperiod signal and a detector for detecting the received signal. The light source detectors 1a-1n detect the presence or absence of a signal from each of the detectors 2a-2n.

In the sensing unit 2a-2n thus installed, an intruder uses a means for cutting or stepping over the optical fiber line sensor cable 6 installed in the sensing unit 2a. Since the tensile force of the optical fiber line sensor cable 6 is weak, the result is that the internal optical fiber is cut.

Then, since the photoperiod signal transmitted to one end of the optical fiber line sensor cable 6 in the sensing unit 2a is cut off at the cut portion due to external invasion, the no signal is detected in the receiving unit of the sensing unit 2a.

That is, in the light source detecting unit 1a, when the light source is projected to one end of the optical fiber line sensor cable 6, the light source signal detected at the other end thereof is converted into a high level electrical signal and transmitted to the terminal 3a. When the cable 6 is cut, a low level signal is detected.

When a low-level electrical signal is input to the data link 4 through the terminal 3a, which is a sequential circuit, the data link 4 determines how many times the signal of the light source detector 2a is assigned to the address. The input to the monitor 5 causes the central monitor 5 to recognize that the optical fiber line sensor cable 6 of the sensing unit 2a has been cut.

The central monitor 5 then sends an alert and displays the area of the designated street address on its screen so that the location of the intruder can be accurately identified.

In addition, even when the detectors 2a-2n are cut at a plurality of points, the light source signals of the cut detectors 2a-2n are converted into low-level electrical signals in the respective light source detectors 1a-1n, and thus the fryer state ( When the data link 4 is input to the data link 4 through the terminals 3a-3n, which are composed of a priority circuit, the data link 4 sequentially informs the central control monitor 5 of the designated address of the cutting position. Detected signals at various points are displayed on the screen of the central control monitor 5 so that it is possible to know whether or not an invasion occurs.

Accordingly, the present invention sets the length of the optical fiber line sensor 6 provided between the post 7a and the post 7b of the present invention in an area requiring a boundary to about 10 m, and thus the optical fiber line sensor of the sensing unit 2a-2n. (6) can be repaired quickly at the time of cutting, and in case of outsider invasion, it is effective to grasp the intrusion position quickly and accurately.

Claims (1)

A terminal 3a-3n is provided via a light source detector 1a-1n via a light source detector 1a-1n with a detector 2a-2n formed of an optical fiber line sensor 6 between a post 7a and a post 7b known in the area requiring the boundary. Fiber optic alarm system configured to quickly and accurately locate an intruder by connecting multiple terminals (3a-3n) to a central control monitor (5) via a data link (4).

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