KR102198582B1 - Security testing system for using fense with tension sensing type - Google Patents

Abstract

A security test system using a tension-sensing fence according to an embodiment of the present invention includes a plurality of fixed columns installed at regular intervals on a fence of a specific facility; Detector posts installed between the fixed posts; A plurality of tension lines disposed to connect between the fixed column and the detector column; An assembly line positioned so as to correspond to the detector column, but fixed to be orthogonal to the plurality of tension lines; A sensor connected to the assembly line to detect a change in tension of the plurality of tension lines; And a test device disposed between the fixed column and the detector column and provided to pull at least one tension line in the extension direction of the tension line.

Description

Security test system using tension sensing fence {SECURITY TESTING SYSTEM FOR USING FENSE WITH TENSION SENSING TYPE}

The present invention relates to a security test system using a tension-sensing fence.

In general, security facilities installed on fences such as national security facilities such as airports are implemented in the form of simulation training or testing for intrusion situations.

Specifically, the security facility is configured to sound an alarm in the monitoring room and display the location of the intrusion on a screen when a tension wire mesh is installed on the upper part of the fence, and when an intruder applies a force to the fence and detects that a certain amount of tension is applied. .

However, in the conventional security facility, in order to test the dispatch of security personnel, some security personnel are dispatched to a location that some security personnel think, and when an intrusion signal occurs by pulling the tension line with a stick attached with a long hook, security personnel in the emergency group are dispatched Is being implemented.

In addition, even in the case of a security test for an intrusion situation, a security officer pulls a pre-designated tension line to generate an intrusion signal, and a security officer dispatches to the location where the intrusion occurs. there is a problem.

In this regard, the prior art Korean Patent Registration No. 10-0862623 (name of the invention: an outer fence security device using a tension sensor and an outer fence using the same) is the tension of the outer fence steel wire when intrusion occurs through the outer fence. ) Disclosed is an outer fence security device using a tension sensor that detects changes using an optical sensor, and an outer fence using the same.

In order to solve the above-described problem, some embodiments of the present invention use a tension-sensing fence that enables a simulated training or test that security personnel are not aware of by performing a security test for an arbitrary time and location. Its purpose is to provide a security test system.

As a technical means for achieving the above technical problem, a security test system using a tension-sensing fence according to an embodiment of the present invention comprises: a plurality of fixed pillars installed at regular intervals on a fence of a specific facility; Detector posts installed between the fixed posts; A plurality of tension lines disposed to connect between the fixed column and the detector column; An assembly line positioned so as to correspond to the detector column, but fixed to be orthogonal to the plurality of tension lines; A sensor connected to the assembly line to detect a change in tension of the plurality of tension lines; And a test device disposed between the fixed column and the detector column and provided to pull at least one tension line in an extension direction of the tension line.

A security test system using a tension-sensing fence according to another embodiment of the present invention comprises: a plurality of tension lines arranged to extend in a transverse direction on a fence of a specific facility; An assembly line fixed to be orthogonal to a plurality of tension lines; A sensor connected to the assembly line to detect a change in tension of the plurality of tension lines; A test device provided to pull at least one tension line in the extension direction of the tension line; And a management server transmitting an operation command signal of the test apparatus through the communication unit, receiving detection information sensed by the detector, and transmitting monitoring area information based on the detection information to the manager terminal.

According to the above-described problem solving means of the present invention, it is possible to perform a security test for an intrusion situation under the supervision of an administrator of the security system without the security personnel being aware of it.

In addition, it can be used as objective data by storing the execution time of the security test and the completion time of the security personnel dispatch in the database.

The operation status of the security system can be checked remotely through a portable manager terminal, improving the manager's working status.

In addition, the random test function that generates intrusion situations at irregular times and locations can be used as a substitute for regular inspection of security areas, and it can contribute to the improvement of security against actual intrusion as well as improving the working condition of security personnel.

1 is a front view of a tension sensing type fence installed on a fence of a specific facility for explaining a security test system using a tension sensing type fence according to an embodiment of the present invention.
2A is a block diagram illustrating a security test system using a tension sensing fence according to an embodiment of the present invention.
FIG. 2B is an enlarged view of A in FIG. 1 and is an enlarged view for explaining the configuration of the detector column.
3 is a configuration diagram illustrating a test apparatus according to an embodiment of the present invention.
4 is a side view of a tension sensing type fence installed on a fence of a specific facility for explaining a fixed column according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and similar reference numerals are assigned to similar parts throughout the specification.

Throughout the present specification, when a certain part is said to be "connected" with another part, it is not only "directly connected", but also "electrically connected" with another element interposed therebetween. Include.

Throughout the present specification, when a member is positioned “on” another member, this includes not only a case where a member is in contact with another member, but also a case where another member exists between the two members.

Throughout the present specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless otherwise stated. The terms "about", "substantially", etc. of the degree used throughout the present specification are used at or close to the numerical value when manufacturing and material tolerances specific to the stated meaning are presented. For the sake of understanding, accurate or absolute figures are used to prevent unreasonable use of the stated disclosure by unscrupulous infringers. As used throughout the specification of the present invention, the term "step (to)" or "step of" does not mean "step for".

1 is a front view of a tension sensing fence installed on a fence of a specific facility for explaining a security test system using a tension sensing fence according to an embodiment of the present invention.

2A is a block diagram illustrating a security test system using a tension sensing fence according to an embodiment of the present invention.

1 and 2A, the security test system using the tension-sensing fence of the present invention includes a plurality of fixed pillars 10 and fixed pillars 10 installed at regular intervals on the fence 1 of a specific facility. It is positioned so as to correspond to the installed detector pole 30, a plurality of tension lines 20 and detector posts 30 arranged to connect between the fixing posts 10 and the detector posts 30, and a plurality of tension lines ( 20) the assembly line 210 fixed to be orthogonal to the assembly line 210, a sensor 310 connected to the assembly line 210 to detect a change in tension of the plurality of tension lines 20, and the fixed pillar 10 and the detector pillar 30 Doedoe disposed between one or more, and includes a test device 40 provided to pull at least one tension line 20 in the extension direction of the tension line (20).

That is, the security test system using the tension-sensing fence of the present invention enables simulated training or testing similar to the actual situation by generating an intrusion situation for an arbitrary time and location through the test device 40 installed for each detection area. do.

Specifically, the security test system using the tension-sensing fence of the present invention includes a fixed column 10, a tension line 20, a detector column 30, a test device 40, an auxiliary column 50, and an operation unit 60. , A dispatch completion input unit 70, a communication unit 80, a management server 90, and a manager terminal 100.

The fixed pillars 10 may be installed at regular intervals on the fence 1 of a specific facility. For example, a pair of supports bent at an acute angle may be positioned on both sides of the fixing column 10 so that the fixing column 10 is upright so that the fixing column 10 may be fixed to the fence 1. Here, the specific facility may be a national security facility such as an airport, but is not limited thereto. Illustratively, it is preferable that the plurality of fixed pillars 10 are set at an interval of 40m as one surveillance area.

In addition, as shown in Fig. 1, a pair of fixing pillars 10 are arranged at both ends of one monitoring area, and at least one detector pillar 30 may be arranged between the pair of fixing pillars 10. have.

At this time, a plurality of tension lines 20 may be disposed in the transverse direction to connect between the fixing column 10 and the detector column 30. For example, in the case of a flat fence (1), the tension line (20) is fixed to correspond to a parallel line, and in the case of an inclined fence (1), the tension line (20) is a constant distance from the upper surface of the fence (1) And can be fixed inclined.

Referring to FIG. 2A, the assembly line 210 is positioned to correspond to the detector column 30 and may be fixed to be orthogonal to the plurality of tension lines 20. The sensor 310 is connected to the assembly line 210 to detect a change in tension of the plurality of tension lines 20.

FIG. 2B is an enlarged view of A in FIG. 1 and is an enlarged view for explaining the configuration of the detector column.

Specifically, referring to FIG. 2B, the detector column 30 is a clamping disk 320 that fixes the tension line 20 and the assembly line 210 to cross each other, and the detector 310 is fixed to the detector column 30. It is configured to include a support plate 311b, a bracket 311a, and a bolt nut 313 for.

For example, a plurality of auxiliary pillars 50 arranged to be orthogonal to the plurality of tension lines 20 may be disposed between the pair of fixed pillars 10. For example, the auxiliary pillar 50 may be configured to include a spiral rod in the form of a spiral perpendicular to the plurality of tension lines 20 and a support ring for fixing the spiral rod to the support.

Referring back to Fig. 1, the test device 40 is disposed between the fixed column 10 and the detector column 30, but at least one tension line 20 is held in the extension direction of the tension line 20. It can be provided to pull.

3 is a configuration diagram illustrating a test apparatus according to an embodiment of the present invention.

3(a) is a plan view of the test device 40, and FIG. 3(b) is a front view of the test device 40 installed on the fence 1.

The test device 40 is fixed to the extension shaft of the motor 430 fixed on the fence 1, the speed reducer 420 and the speed reducer 420 connected to the motor 430, and the tension line 20 is a motor It may include a winding unit 410 connected to be pulled by the rotational force of 430. Illustratively, as shown in Figure 3, one side of the tension line 20 is fixed to the test device 40 in a form surrounding the outer rotating portion of the winding portion 410, the tension line extending to the other side by a predetermined length 20 may be connected to the spring 45. Here, the tension line 20 is maintained in a pulled state by the compression elasticity of the spring 45. In this case, a line made of a material flexible for bending may be disposed on the rotating part of the winding part 410, and may be connected to a tension line 20 disposed in a straight line. Specifically, the spring 45 includes a tension spring connected adjacent to the test device 40, an intermediate tensioner connected to the tension spring, and a wire provided under the tension spring, and each constituting the spring 45 is a connection ring It can be configured to be connected through.

For example, when the tension line 20 is pulled by an intruder, the spring 45 is stretched due to elasticity. Thereafter, when the spring 45 is further stretched, an intrusion load is applied as the wire stretched to the lower portion of the spring 45 is pulled, and an intrusion alarm may be generated at a preset limit strength. Preferably, the limiting strength may be 25 kg, but is not limited thereto and may be set differently for each location of use. For example, when the intrusion is not detected up to the point where the spring 45 is extended, and the intrusion load is exceeded by pulling the lower wire of the spring 45, an intrusion alarm may be generated.

However, not limited to the pulling function of the tension line 20 by the motor 430 and the winding unit 410 of the above embodiment, a structure of the tension line 20 pulling function of various physical methods such as a lever type may be implemented. .

Referring to FIG. 2A, the operation unit 60 is connected to the motor 430 by a power line, and may receive an operation command signal from the management server 90 through the communication unit 80. The operation unit 60 maintains the rotation angle of the winding unit 410 as long as the tension line 20 is pulled according to the operation command signal, and controls the test device 40 so that the rotation angle returns to its original state when a set time elapses. can do.

As an example, the test device 40 may be wired to the operation unit 60 by a power line, and the operation unit 60 transmits an operation command signal received by the manager terminal 100 to the management server through the communication unit 80. It can be received from (90). For example, a set time for maintaining the rotational state of the winding unit 410 according to the operation of the motor 430 of the test apparatus 40 may be controlled, and the set time may be set from 0 seconds to several seconds.

In addition, the management server 90 transmits an operation command signal of the test device 40 through the communication unit 80, receives the detection information sensed by the detector 310, and manages the monitoring area information based on the detection information. It can be transmitted to the terminal 100.

At this time, the communication unit 80 may be set as one group according to the acceptable input/output communication amount of each monitoring area divided according to a predetermined distance, and one group may be configured to be serially connected by a communication line.

The management server 90 matches the location information of the test device 40 and each monitoring area and stores it as an area number, and when a plurality of area numbers are input through the manager terminal 100, the test device of the monitoring area 40 can be operated simultaneously or sequentially.

For example, in the case of performing a security test for a virtual intrusion situation, the administrator inputs an area number corresponding to one surveillance area through the manager terminal 100 or inputs an area number corresponding to a plurality of surveillance areas at the same time. Alternatively, the test device 40 may be set to operate sequentially.

Here, the manager terminal 100 may be a PC 100b disposed in a monitoring room or a portable terminal 100a possessed by an administrator in charge of security. In addition, when an intrusion situation is detected, the manager terminal 100 may display the location of the surveillance area and an alarm notification through a screen.

For example, the PC 100b may include a monitoring computer disposed in a monitoring room and a test computer installed in a separate security test room. For this reason, the administrator can remotely generate a virtual intrusion situation through the test computer or the portable terminal 100a, and perform the security test without being recognized by the security personnel working in the monitoring room. Accordingly, the security of the facility against external intrusion may be strengthened.

When the management server 90 receives a random security test from the manager terminal 100, it randomly selects the area number at a specified number of times within a preset period, and the test device 40 located in the monitoring area is at an arbitrary time interval. Can be operated with.

For example, the period and the number of times of the Ramdon security test may be inputted by the administrator terminal 100 by a security test period such as day, week, month, quarter, half year, and year, and the number of virtual intrusion situations. Subsequently, when the cycle and the number of times of the security test are set, the management server 90 arbitrarily sets the time, date and monitoring area for the security test to occur within a predetermined period and number of times, and the test device 40 in the monitoring area Can be operated.

That is, there is a problem of providing an intruder with a blank time of 1 hour and 50 minutes, as a certain time of patrol blank time occurs during the conventional regular patrol, for example, patrol every 2 hours. However, the patrol method based on the random security test is to patrol 12 times a day, which is the number of regular inspections that are inspected every 2 hours a day, in a random manner (12 times a day at intervals of 10 minutes to 180 minutes). It may be difficult to set the correct intrusion time in

The dispatch completion input unit 70 is disposed for each monitoring area, and may be connected to the communication unit 80. Further, the dispatch completion input unit 70 may be configured as a contact type or non-contact type input device. For example, the contact input device may be configured with a switch such as a push button, and the contactless input device may be configured with a short-range wireless communication technology such as NFC.

The management server 90 may match the input time information of the dispatch completion input unit 70 with the detection information and store it in the database.

For example, when an intrusion alarm occurs in the monitoring room, the security personnel are ordered to go to the field, and the security personnel are dispatched to the monitoring area. At this time, the security personnel dispatched to the site may record the arrival at the surveillance area through the dispatch completion input unit 70. In this case, the management server 90 may be stored and recorded in the database from the operation time of the test device 40 to the time of dispatch of the security personnel and the input time of the dispatch completion input unit 70. Accordingly, it is possible to provide a system capable of comprehensively managing the normal operation of the security system and the dispatch status of security personnel, and even testing and recording.

In addition, the management server 90 may include a security test control program that generates the same tension generation signal as the sensing information sensed by the detector 310 for the monitoring area.

For example, when performing a one-time security test or a periodic random security test, a method of directly operating the test device 40 as described above is used, or a tension generation signal is indirectly generated according to the security test control program. The security of each surveillance area can be tested by using the method of ordering.

4 is a side view of a tension sensing type fence installed on a fence of a specific facility for explaining a fixed column according to an embodiment of the present invention.

For example, referring to FIG. 4, the fixing pillar 10 may be installed inclined to correspond to one side of the Y-type shareholder installed on the upper surface of the fence 1. That is, as shown in FIG. 4, it may include a lower support member bent at 90 degrees so as to be fixed to one wall surface of the wall 1 to support the fixing pillar 10.

The above description of the present invention is for illustrative purposes only, and those of ordinary skill in the art to which the present invention pertains will be able to understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative and non-limiting in all respects. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as being distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

10: fixed column
20: tension line
30: detector column
40: test device
45: spring
50: auxiliary pillar
60: control panel
70: dispatch completion input unit
80: communication department
90: management server
100: manager terminal

Claims (11)

In the security test system using a tension sensing fence,
A plurality of fixed columns installed at regular intervals on the fence of a specific facility;
A detector pillar installed between the fixed pillars;
A plurality of tension lines disposed to connect between the fixed pillar and the detector pillar;
An assembly line positioned so as to correspond to the detector column, and fixed to be perpendicular to the plurality of tension lines;
A sensor connected to the assembly line to detect a change in tension of the plurality of tension lines; At least one test device disposed between the fixing column and the detector column, and provided to pull at least one of the tension lines in the extension direction of the tension line; including,
The test device
A motor fixed on the fence;
A reducer connected to the motor and disposed; And
Doedoe fixed to the extension shaft of the reducer, comprising a winding portion connected so that the tension line is pulled by the rotational force of the motor,
Security test system using a tension-sensing fence.
The method of claim 1,
It further comprises a management server for transmitting the operation command signal of the test device through the communication unit, receiving the detection information sensed by the detector, and transmitting the monitoring area information based on the detection information to the manager terminal,
Security test system using a tension-sensing fence.
The method of claim 2,
The management server
The location information of the test device and each monitoring area are matched and stored as an area number,
When a plurality of zone numbers are input through the manager terminal, the test devices in the monitoring zone are operated simultaneously or sequentially,
Security test system using a tension-sensing fence.
The method of claim 2,
The manager terminal is a PC placed in the monitoring room or a portable terminal possessed by an administrator in charge of security,
Security test system using a tension-sensing fence.
delete The method of claim 3,
Doedoe connected to the motor and the power line, further comprising a manipulation unit receiving an operation command signal from the management server through the communication unit,
The operation part
To maintain the rotation angle of the winding portion as long as the length of the tension line is pulled according to the operation command signal, and control the test device so that the rotation angle is restored to its original state when a set time elapses,
Security test system using a tension-sensing fence.
The method of claim 3,
Doedoe arranged for each of the monitoring area, further comprising a dispatch completion input unit connected to the communication unit,
The dispatch completion input unit is a contact type or non-contact type input device,
Security test system using a tension-sensing fence.
The method of claim 7,
The management server
Matching input time information of the dispatch completion input unit with the detection information and storing it in a database,
Security test system using a tension-sensing fence.
The method of claim 3,
The management server
When receiving a random security test input from the manager terminal,
To randomly select the area number at a specified number of times within a preset period, and operate the test device located in the monitoring area of the area number at a random time interval,
Security test system using a tension-sensing fence.
The method according to claim 7 or 9,
The management server
Including a security test control program for generating the same tension generation signal as the detection information sensed by the detector for the monitoring area,
Security test system using a tension-sensing fence.
In the security test system using a tension sensing fence,
A plurality of tension lines arranged to extend transversely on the fence of a specific facility;
An assembly line fixed to be orthogonal to the plurality of tension lines;
A sensor connected to the assembly line to detect a change in tension of the plurality of tension lines;
A test device provided to pull at least one of the tension lines in an extension direction of the tension lines; And
Including; a management server that transmits the operation command signal of the test device through the communication unit, receives the detection information sensed by the detector, and transmits the monitoring area information based on the detection information to the manager terminal;
The test device
A motor fixed on the fence;
A reducer connected to the motor and disposed; And
Doedoe fixed to the extension shaft of the reducer, comprising a winding portion connected so that the tension line is pulled by the rotational force of the motor,
Security test system using a tension-sensing fence.

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