KR102494053B1 - Apparatus for monitoring hacking of optical cables - Google Patents

Abstract

The present invention relates to a device for monitoring hacking of an optical cable which comprises: an enclosure having one open surface and accommodating an optical distributor; a cover unit opening or closing one surface of the enclosure; a counterfeit optical distributor board mounting a counterfeit optical distributor on an upper surface, and being mounted above the optical distributor so that the optical distributor and optical cables inserted into and withdrawn from the optical distributor are not exposed when the cover unit is opened; and first and second counterfeit optical cables in a form of a ring having one side of each counterfeit optical cable fixed to both sides of the enclosure and an other side inserted into the counterfeit optical distributor and then fixed with a predetermined tension to fix the counterfeit optical distributor board inside the enclosure. Accordingly, hacking caused by deformation or damage to an optical core wire can be prevented.

Description

Optical cable hacking monitoring device {APPARATUS FOR MONITORING HACKING OF OPTICAL CABLES}

The present invention relates to an optical cable hacking monitoring device, and more particularly, to an optical cable hacking monitoring device for monitoring whether or not an optical cable is hacked inside an optical fiber connection terminal box.

In general, all wired communication networks are built with optical cables, and all industrial infrastructure facilities are linked to optical communication networks to provide various services, so damage caused by failure of optical communication networks has a serious economic and social impact.

Recently, hacking has been performed to receive 100% of the data being transmitted by detecting only a part of the optical signal by bending the optical fiber without affecting the communication service in operating the optical line applied to the optical communication system. That is, it is possible to hack an optical cable with a tapping device capable of detecting an optical signal escaping to the outside by applying physical deformation (bending) to the optical cable in the optical path.

This uses the transmission characteristics of the optical signal that proceeds to the total internal reflection of the optical cable and leaks out to the clad when the total internal reflection of light condition is exceeded. There is a problem in that it is impossible to know who hacked when and where, and even whether or not it was hacked.

Meanwhile, an optical signal may be forcedly incident from the outside by using the transmission characteristics of the optical signal. In this case, there is a problem that the information communication network may be paralyzed due to communication disturbance.

Hacking of such an optical cable is performed by opening an optical fiber connection terminal box or removing an outer sheath in the middle of a cable to extract an optical fiber, and then going through a process of macro bending and fiber tapping.

Therefore, it is possible to monitor whether the optical cable is hacked by monitoring the opening and closing of the optical fiber connection terminal box in which the optical cable is accommodated or by monitoring the optical cable.

Korean Patent Publication No. 10-2019-0047278 discloses a hacking security method and device for an optical cable. The above patent relates to a hacking security method and apparatus for generating a secure optical signal using a predetermined data pattern and determining whether or not hacking has occurred by receiving the secure optical signal, which can confirm hacking of an optical cable in real time, It is configured to check the error coming from the external environment, so that the error caused by the external environment can be minimized.

However, these conventional hacking security methods and apparatuses have a problem in that it is difficult to fundamentally block hacking while only being able to confirm hacking of an optical cable in real time.

In addition, there is a problem in that hackers attempting hacking for impure purposes are not warned or administrators in remote locations cannot check location information of a point where hacking is attempted.

Republic of Korea Patent Publication No. 10-2019-0047278

Accordingly, the present invention includes a counterfeit optical splitter board for covering the optical splitter and an optical cable coming into or out of the optical splitter inside a housing housing the optical splitter, and only an authorized operator can separate the counterfeit optical splitter board. By enabling it, it is intended to provide an optical cable hacking monitoring device capable of preventing hacking from unauthorized workers.

In addition, the present invention uses a counterfeit optical cable having one side fixed inside the enclosure and the other side being led into the counterfeit optical splitter, fixing the counterfeit optical splitter board to the enclosure, but corroding the hacking device in the counterfeit optical cable. An object of the present invention is to provide an optical cable hacking monitoring device capable of incapacitating the hacking device by injecting a corrosive solution capable of corroding the hacking device penetrating the outer shell of the counterfeit optical cable by the corrosive solution.

In addition, the present invention detects a hacking attempt when a hacking device enters the counterfeit optical cable or changes the pressure value in the counterfeit optical cable due to damage to the sheath of the counterfeit optical cable, and generates an alarm to inform of the hacking attempt. It is intended to provide an optical cable hacking monitoring device capable of warning the user.

In addition, the present invention is intended to provide an optical cable hacking monitoring device capable of warning a hacking attempter by detecting a change in tension due to movement of the counterfeit optical cable to detect a hacking attempt and generating an alarm to notify the hacking attempt.

In order to achieve the above object, an optical cable hacking monitoring device provided by the present invention includes: an enclosure having one surface open and accommodating an optical splitter; a cover for opening or closing one side of the enclosure; a counterfeit optical splitter board having a counterfeit optical splitter mounted on an upper surface and mounted above the optical splitter so that the optical splitter and the optical cables coming in/out of the optical splitter are not exposed when the lid is opened; and first and second rings having one side fixed to both sides of the enclosure and the other side being inserted into the counterfeit optical splitter and fixed with a predetermined tension to fix the counterfeit optical splitter board inside the enclosure. 2 characterized in that it includes a counterfeit optical cable.

Preferably, the counterfeit optical splitter includes first and second guide grooves for guiding the first counterfeit optical cable into the counterfeit optical splitter, and third and fourth guides for guiding the second counterfeit optical cable into the counterfeit optical splitter. a lower body with grooves formed on both sides thereof; a cable fixing member for fixing the first and second counterfeit optical cables introduced through the first to fourth guide grooves with a predetermined tension; And it may include an upper body for opening or closing the upper part of the lower body.

Preferably, each of the first and second counterfeit optical cables includes a tube having a predetermined length with a passage formed therein; An injection valve for injecting a caustic solution into the flow path including a jig part connecting both ends of the tube in engagement, wherein the jig part damages the outer skin of the tube and corrodes the penetrating device; a pressure sensor for sensing the pressure in the tube; and a first terminal for transmitting the result of sensing the pressure to the outside.

Preferably, the cable fixing member is attached to the inner side of the lower body and includes a seating member for seating the first and second counterfeit optical cables; an upper member coupled with the seating member to prevent separation of the first and second counterfeit optical cables; and a locking device for determining coupling or separation between the seating member and the upper member by an authorized operator, wherein the seating member includes first and second seating grooves formed at both ends to seat the jig part; a plurality of second terminals that contact the first terminal and receive corresponding pressure sensing results; Stores the reference pressure value of each of the first and second counterfeit optical cables and detects a change in pressure values in the first and second counterfeit optical cables from the plurality of second terminals, or the initial tension of the first and second counterfeit optical cables. and a control module that stores values, detects changes in tension of the first and second counterfeit optical cables, determines whether to attempt hacking, and generates an alarm when a hacking attempt is detected.

The optical cable hacking monitoring device of the present invention includes a counterfeit optical splitter board for covering the optical splitter and the optical cable drawn in or out of the optical splitter inside a housing housing the optical splitter, and only an authorized operator can By making the board detachable, there is an advantage in preventing hacking from unauthorized workers.

In addition, the present invention uses a counterfeit optical cable having one side fixed inside the enclosure and the other side being led into the counterfeit optical splitter, fixing the counterfeit optical splitter board to the enclosure, but corroding the hacking device in the counterfeit optical cable. There is an advantage in that the hacking device can be incapacitated by corroding the hacking device penetrating the outer skin of the counterfeit optical cable.

In addition, the present invention detects a hacking attempt when a hacking device enters the counterfeit optical cable or changes the pressure value in the counterfeit optical cable due to damage to the sheath of the counterfeit optical cable, and generates an alarm to inform of the hacking attempt. It has the advantage of warning the person that the hacking attempt has been discovered, and thereby reducing the hacking attempter's hacking motivation.

In addition, the present invention detects a change in tension due to the movement of the counterfeit optical cable to detect a hacking attempt and generates an alarm to notify the hacking attempt, thereby alerting the hacking attempter that the hacking attempt has been discovered, thereby increasing the hacking attempter's hacking motivation. has the advantage of lowering

1 is a perspective view of an optical cable hacking monitoring device according to an embodiment of the present invention.
2 is a perspective view illustrating a state in which a door of an optical cable hacking monitoring device according to an embodiment of the present invention is opened.
3 is a perspective view illustrating a state in which a counterfeit optical splitter board of an optical cable hacking monitoring device according to an embodiment of the present invention is separated.
4 is a cross-sectional view of a counterfeit optical cable according to an embodiment of the present invention.
5 is an exploded perspective view of a counterfeit optical splitter according to an embodiment of the present invention.
6 is a perspective view illustrating a state in which a counterfeit optical cable is seated and fixed inside a counterfeit optical splitter according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but will be described in detail so that those skilled in the art can easily practice the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. On the other hand, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification. In addition, even if detailed descriptions are omitted, descriptions of parts that can be easily understood by those skilled in the art are omitted.

Throughout the specification and claims, when a part includes a certain component, it means that it may further include other components, not excluding other components unless otherwise stated.

Figure 1 is a perspective view of an optical cable hacking monitoring device according to an embodiment of the present invention, Figure 2 is a perspective view for explaining a state in which the door of the optical cable hacking monitoring device according to an embodiment of the present invention is opened, Figure 3 is a perspective view for explaining a state in which a counterfeit optical splitter board of an optical cable hacking monitoring device according to an embodiment of the present invention is separated, and FIG. 4 is a cross-sectional view of a counterfeit optical cable according to an embodiment of the present invention, and FIG. An exploded perspective view of a counterfeit optical splitter according to an embodiment of the present invention, and FIG. 6 is a perspective view illustrating a state in which a counterfeit optical cable is seated and fixed inside the counterfeit optical splitter according to an embodiment of the present invention.

1 to 6, in the optical cable hacking monitoring device 100 according to an embodiment of the present invention, one side is open and the enclosure 110 accommodating the optical splitter 30, and one side of the enclosure 110 It includes a cover part 120 for opening or closing, a counterfeit optical distribution board 130, and first and second counterfeit optical cables 140 and 150.

The counterfeit optical splitter board 130 has the counterfeit optical splitter 200 mounted on the upper surface, and when the cover 120 is opened, the optical splitter 30 and the optical cables 10 drawn in/out from the optical splitter 30 , 20) is mounted above the optical splitter 30 so that it is not exposed. To this end, optical cable through-holes 111 through which the optical cables 10 and 20 pass are formed on both sides of the housing 110, and a board holder for mounting the counterfeit optical splitter board 130 at a predetermined height on the inner surface ( 113) can be formed.

The first and second counterfeit optical cables 140 and 150 are implemented in a ring shape, one end of which is fixed to both sides of the inside of the enclosure 110, and the other end of the counterfeit optical cable 140 and 150 is inserted into the counterfeit optical splitter 200 and then applied with a predetermined tension. By having and fixing, the counterfeit optical splitter board 130 is fixed inside the enclosure 110.

To this end, the first and second counterfeit optical cables 140 and 150 include a tube 141 having a predetermined length with a flow path formed therein, and a jig part 142 connecting both ends of the tube 141 by engagement, One side is fixed to both sides of the inside of the enclosure 110 by a fixing bracket 115, as illustrated in FIG. In addition, the other ends of the first and second counterfeit optical cables 140 and 150 are connected by the jig part 142 . In the example of FIG. 3 , for convenience of explanation, only the configuration example of the first counterfeit optical cable 140 is illustrated and described, but it is obvious that the second counterfeit optical cable 150 also has the same configuration.

For this reason, when the cover 120 of the enclosure 110 is opened, as illustrated in FIG. 2, the optical splitter 30 and the optical cables 10 and 20 drawn in/out of the optical splitter 30 this is not exposed In this way, the present invention exposes only the counterfeit optical splitter board 130 when the cover 120 of the enclosure 110 is opened, so that a hacking attempter can avoid the optical splitter 30 and the optical cables 10 and 20. , and thus, it is possible to fundamentally block optical cable hacking.

Meanwhile, the caustic liquid 147 is filled inside the tube 141 . At this time, the caustic solution 147 is for damaging the outer skin of the tube 141 and corroding a device (eg, a hacking device) that penetrates the optical cable. To this end, an injection valve 143 for injecting the caustic liquid 147 and an air discharge valve 146 for discharging air in the flow path for smooth injection of the caustic liquid 147 are installed on one side of the jig part 142. can include more.

In addition, the jig part 142 transmits the pressure sensor 145 for sensing the pressure in the tube 141 and the pressure sensing result of the pressure sensor 145 to the outside (ie, the cable fixing member 230 to be described later). It includes a first terminal 144 for.

This is because the outer shell of the tube 141 is damaged by a hacking attempter, and the internal caustic liquid 147 leaks or the tube 141 is bent. By detecting the pressure change inside the tube 141, This is to enable recognition of hacking attempts.

Meanwhile, the counterfeit optical splitter 200 includes a lower body 210, an upper body 220, and a cable fixing member 230.

The lower body 210 is installed on the upper surface of the counterfeit optical splitter board 130, and has a plurality of guide grooves on both sides for guiding the first and second counterfeit optical cables 140 and 150 into the counterfeit optical splitter 200. (211 to 214) are formed. That is, the first and second guide grooves 211 and 212 guide the first counterfeit optical cable 140 into the counterfeit optical splitter 200, and the third and fourth guide grooves 213 and 214 guide the second counterfeit optical cable 140 into the counterfeit optical splitter 200. The optical cable 150 is guided into the counterfeit optical splitter 200. Meanwhile, a plurality of cable grooves 131 positioned in a straight line with each of the guide grooves 211 to 214 may be formed in the counterfeit optical splitter board 130 .

The upper body 220 opens or closes the upper part of the lower body 210 . To this end, the upper body 220 may be coupled to the lower body 210 by a fastening method such as screw fastening. In addition, a plurality of guide grooves corresponding to each of the plurality of guide grooves 211 to 214 formed on the lower body 210 are further included on both sides of the upper body 220, and these are formed on the lower body 210. By combining with each of the guide grooves 211 to 214 of, it is possible to implement a normal communication terminal (ie, communication cable connector) shape. This is to counterfeit that the counterfeit optical splitter 200 is a normal optical splitter 30 in a state in which the upper main body 220 and the lower main body 210 are coupled.

The cable fixing member 230 fixes the first and second counterfeit optical cables 140 and 150 introduced through the plurality of guide grooves 211 to 214 with a predetermined tension. To this end, the cable fixing member 230 is attached to the inside of the lower body 210 and is combined with the seating member 231 and the seating member 231 for seating the first and second counterfeit optical cables 140 and 150. An upper member 232 for preventing the first and second counterfeit optical cables 140 and 150 from being separated, and a locking device 233 for determining coupling or separation between the mounting member and the upper member by an authorized operator. can

At this time, the seating member 231 contacts the first and second seating grooves 234 and 235 formed at both ends to seat the jig portion 142 and the first terminal 144 formed on the jig portion 142. The first and second counterfeit optical cables 140 and 150, respectively, a plurality of second terminals 236 receiving internal pressure detection results, changes in pressure values inside the first and second counterfeit optical cables 140 and 150, or It may include a control module 237 that detects a change in tension of the first and second counterfeit optical cables 140 and 150, determines whether a hacking attempt is made based on the result, and generates an alarm when a hacking attempt is detected.

To this end, the control module 237 stores the reference pressure value of each of the first and second counterfeit optical cables 140 and 150 and detects the first and second counterfeit optical cables 140 from the plurality of second terminals 236. , 150), it is detected that the pressure value change in the first and second counterfeit optical cables 140 and 150 is detected, and when the pressure value change exceeds a preset threshold value, it is determined that hacking is attempted. can

Alternatively, the control module 237 stores an initial tension value of each of the first and second counterfeit optical cables 140 and 150, and detects a change in tension of the first and second counterfeit optical cables 140 and 150 to change the tension. When the value exceeds a preset threshold value, it may be determined that hacking is attempted. At this time, in order to detect the tension of the first and second counterfeit optical cables 140 and 150, each of the first and second seating grooves 234 and 235 further includes a tension sensor (not shown), and a control module. 237 may use the tension value received from the tension sensor (not shown).

6 illustrates an example in which the cable fixing member 230 fixes the first and second counterfeit optical cables 140 and 150. Referring to FIG. 6 , when the pressure inside the first and second counterfeit optical cables 140 and 150 is changed by manipulation of the hacking attempter, or the tension applied to the first and second counterfeit optical cables 140 and 150 is When changed, the control module 237 may detect this and recognize a hacking attempt.

Meanwhile, the present invention further includes an alarm generator (not shown) such as a lamp and a buzzer, and the alarm generator (not shown) receives an alarm signal such as a warning light or a warning sound under the control of the control module 237 that detects a hacking attempt. can be output to warn hackers.

In addition, the present invention further includes a communication module (not shown) communicating with a remote manager server, and the communication module (not shown) is controlled by the control module 237 that detects the hacking attempt to notify the hacking attempt. A notification message may be transmitted to the manager server. At this time, the control module 237 stores the location information or management number that can identify the location of the device, generates a notification message including the location information or management number, and uses the communication module (not shown). transmission can be controlled.

On the upper surface of the upper member 232, a reset button 239 for resetting the reference pressure value or the initial tension value of each of the first and second counterfeit optical cables 140 and 150 stored in the control module 237, and the authentication A keyhole into which a key possessed by an operator is inserted may be provided. Meanwhile, the seating member 231 may further include an operation signal input unit 238 for transmitting a reset command to the control unit 237 in response to an operation of the reset button 239 .

The locking device 233 is a key possessed by the authenticated worker, a keyhole provided in the upper member 232, a locking hole formed in the seating member 231, and protruding from the lower portion of the upper member 232, It may include a key portion that is coupled or released.

Therefore, the certified operator can open the cable fixing member 230 using the locking device 233 and separate the first and second counterfeit optical cables 140 and 150 from the cable fixing member 230, Due to this, the counterfeit optical splitter board 130 can be separated from the inside of the enclosure 110 . In this way, when the counterfeit optical splitter board 130 is separated from the inside of the enclosure 110, the optical splitter 30 connecting the actual optical cables 10 and 20 is exposed, and an authenticated operator can 20) or work for maintenance of the optical splitter 30 can be performed.

In addition, when the cable fixing member 230 is opened by the locking device 233 while an alarm generator (not shown) such as a lamp or a buzzer is operating due to a hacking attempt, an alarm may be stopped. For example, when the alarm generator operates in a state in which the key protruding from the lower part of the upper member 232 is coupled with the locking hole formed in the mounting member 231, and the key unit is separated from the locking hole, the alarm generator operates. can be implemented to stop

In this way, the present invention, when the optical junction box accommodating the optical splitter is opened, by covering the internal optical distributor 30 and the optical cables 10 and 20 with the counterfeit optical distributor board 130, It has a feature that can prevent hacking of an optical cable by opening an optical junction box.

In addition, the present invention exposes the counterfeit optical cables 140 and 150 filled with a corrosive liquid on the counterfeit optical exhaust board 130, thereby damaging a hacking device that intends to hack the counterfeit optical cables 140 and 150, thereby causing a malicious attack. It has a feature that can reduce hacking attempts.

In addition, when the counterfeit optical cables 140 and 150 are damaged or bent, the pressure inside the counterfeit optical cables 140 and 150 or the tension caused by the counterfeit optical splitter 200 changes, this is detected to recognize hacking attempts and hacking attempts. It warns an attempter or generates a notification message including location information and transmits it to the system administrator, thereby reducing hacking attempts and allowing administrators to recognize the location of hacking attempts.

As a result, the optical cable hacking monitoring device of the present invention has an effect of preventing hacking due to deformation or damage of the optical cable.

In the above, the embodiments of the present invention have been described, but the scope of the present invention is not limited thereto, and the present invention is easily changed from the embodiments by those skilled in the art to which the present invention belongs and recognized as equivalent. including all changes and modifications within the scope of

100: optical cable hacking monitoring device 110: enclosure
111: optical cable through-hole 113: board holder
115: fixing bracket 120: cover
130: counterfeit optical splitter board 140, 150: counterfeit optical cable
141: tube 142: jig part
143: injection valve 144: first terminal
145: pressure sensor 146: air discharge valve
147: etchant 200: counterfeit optical splitter
210: lower body 220: upper body
230: cable fixing member 231: seating member
232: upper member 233: locking device
234, 235: seating groove 236: second terminal
237: control module 238, 239: reset button

Claims (4)

In the optical cable hacking monitoring device 100,
An enclosure 110 having one surface open and accommodating the optical splitter 30;
a cover part 120 for opening or closing one side of the enclosure 100;
A counterfeit optical splitter 200 is mounted on the upper surface, and when the cover 120 is opened, the optical splitter 30 and the optical cables 10 and 20 coming in/out of the optical splitter 30 are exposed. a counterfeit optical splitter board 130 mounted above the optical splitter 30 so as not to be distorted; and
One side is fixed to both sides of the inside of the enclosure 110, and the other side is inserted into the counterfeit optical splitter 200 and fixed with a predetermined tension to move the counterfeit optical splitter board 130 into the enclosure 110. Including first and second counterfeit optical cables 140 and 150 in a ring shape fixed therein,
The counterfeit optical splitter 200
First and second guide grooves 211 and 212 for guiding the first counterfeit optical cable 140 into the counterfeit optical splitter 200, and the second counterfeit optical cable 150 into the counterfeit optical splitter 200 a lower body 210 having third and fourth guide grooves 213 and 214 formed on both side surfaces of the lower body 210;
a cable fixing member 230 for fixing the first and second counterfeit optical cables 140 and 150 introduced through the first to fourth guide grooves 211 to 214 with a predetermined tension; and
Includes an upper body 220 that opens or closes the upper portion of the lower body 210,
Each of the first and second counterfeit optical cables 140 and 150
A tube 141 having a predetermined length with a flow path formed therein;
Including a jig part 142 for engaging and connecting both ends of the tube,
The jig part 142 is
an injection valve 143 for injecting a corrosive solution into the passage to damage the outer skin of the tube 141 and corrode the penetrating device;
a pressure sensor 145 for sensing the pressure in the tube 141; and
The optical cable hacking monitoring device 100, characterized in that it comprises a first terminal 144 for transmitting the pressure sensing result to the outside. delete delete The method of claim 1, wherein the cable fixing member 230
a mounting member 231 attached to the inner side of the lower body 210 to seat the first and second counterfeit optical cables 140 and 150;
an upper member 232 combined with the mounting member 231 to prevent the first and second counterfeit optical cables 140 and 150 from being separated; and
Including a locking device 233 for determining the coupling or separation of the mounting member 231 and the upper member 232 by an authorized operator,
The seating member 231 is
first and second seating grooves 234 and 235 formed at both ends to seat the jig part 142;
a plurality of second terminals 236 that contact the first terminal 144 and receive corresponding pressure sensing results;
Stores the reference pressure value of each of the first and second counterfeit optical cables 140 and 150 and detects a change in the pressure value in the first and second counterfeit optical cables 140 and 150 from the plurality of second terminals 236 or storing the initial tension values of the first and second counterfeit optical cables 140 and 150 and detecting changes in the tension of the first and second counterfeit optical cables 140 and 150 to determine whether to attempt hacking and hacking An optical cable hacking monitoring device 100 comprising a control module 237 generating an alarm when an attempt is detected.

Images