KR20060021048A - The man hall management system in light cable handling facilities with light conduit lines - Google Patents

Abstract

The present invention relates to a manhole management system in an optical cable operation facility constructed with optical pipelines, and more particularly, to efficiently manage a manhole in which connection enclosures exist for each section of a road in which optical cables are embedded in an optical pipeline embedded underground. It is about a system.

The manhole management system in the optical cable operation facility constructed with the optical conduit of the present invention comprises: a manhole environment monitoring collector for controlling the manhole by a command of the central control system; An optical path including a monitoring and control cable for transmitting information received from the central control system to the manhole environment monitoring collector; A control cable interlocked with the central control system for monitoring and controlling the manhole; And a central control system for controlling the manhole environment monitoring box to measure a state of the manhole.

Therefore, the manhole management system in the optical cable operation facility constructed with the optical channel according to the present invention is a manhole access control and manhole in which connection enclosures exist for each section of the road where the optical cable is embedded in the optical channel embedded in the basement. It is possible to efficiently manage the flooding condition in the central control system.

Fiber Channel, Fiber Cable, Manhole, Central Control System

Description

The man hall management system in light cable handling facilities with light conduit lines             

1 is a longitudinal sectional view showing main parts of a first embodiment showing a conventional manhole cover.

Fig. 2 is a longitudinal sectional view showing main parts of a second embodiment showing a conventional manhole cover.

3 is a longitudinal sectional view showing main parts of a third embodiment showing a conventional manhole cover.

4 is a longitudinal sectional view showing main parts of a fourth embodiment showing a conventional manhole cover.

5 is a block diagram of a manhole management system according to the present invention.

Figure 6 is a block diagram showing the interior of the optical path of the manhole management system according to the present invention.

The present invention relates to a manhole management system in an optical cable operation facility constructed with optical pipelines. In particular, the present invention relates to a manhole in which connection enclosures exist for each section of a road where optical cables are embedded in an optical pipeline embedded underground. It relates to a system to manage.

Hereinafter, with reference to the accompanying drawings, the configuration and operation of the embodiment of the prior art will be described in detail.

1 is a longitudinal sectional view showing main parts of a first embodiment showing a conventional manhole cover. A manhole body 110 having a wit flange 112 formed on an inner side of the manhole so as to be buried at an entrance of a manhole as part of an access means so as to inspect a facility buried underground by a road or a ground surface; In the manhole cover 100 inserted into the

It is integrated so as to correspond to the upper edge of the manhole body on the rim surface of the manhole cover 100 so that the manhole cover is not embedded from the ground surface which is increased according to the road or sidewalk overhaul repair work. It is shown to have a height compensation portion 10 is formed with a mounting ring 12 extending to.

In the above, the height overlaid on the surface of the road or in India during renovation is overlaid within 5 cm by government regulations, so that the height overlaid on the edge of the manhole cover during the manufacture of the manhole cover can be compensated. By providing a mounting ring which is a height compensating part, the mounting ring part is covered with the upper end of the manhole body, thereby compensating for the overlapped height. This makes it possible to simply and conveniently compensate for the rising surface.

Therefore, without the cumbersome work process for compensating the height of the manhole cover through the conventional complicated process will have a condition that can easily compensate the height of the manhole cover only by mounting the manhole cover.

Fig. 2 is a longitudinal sectional view showing main parts of a second embodiment showing a conventional manhole cover. The height compensator 10 is inserted into the manhole body 110 so as to have a corresponding force with respect to the weight applied to the upper portion of the manhole cover 100. It is shown to include an extension support portion 20 is formed to extend downward in the rim surface insertion ring portion 102 of the manhole cover 100 to be supported by.

Accordingly, the lower end of the extended support is supported by a mounting rib formed into the manhole body to have a corresponding force with respect to the weight passing upward.

3 is a longitudinal sectional view showing main parts of a third embodiment showing a conventional manhole cover. The extended support portion 20 has an inner surface of the mounting hole 112 of the manhole body 110 so as to prevent the manhole cover from being moved or released by the pressure applied to the upper portion of the manhole cover 100. It is shown to have a flow preventing portion (20a) formed in one or more of a plurality of pieces or one ring form extending integrally to be supported by.

Accordingly, the manhole cover is also supported against the pressure exerted by the passage to the upper part of the manhole cover by allowing the flow preventing portion formed in the extended support portion to support the inner surface of the reposition live of the manhole body while the manhole cover is inserted and placed thereon. It can be inserted and placed without fluidity, and it can be prevented from coming off.

4 is a longitudinal sectional view showing main parts of a fourth embodiment showing a conventional manhole cover. The height compensator 10 divides the mounting ring part 12 formed to extend from the edge surface of the manhole cover 100, mounts it to the upper edge of the edge surface of the manhole body 110, and a plurality of fasteners on the outer surface thereof. It has shown that it has the fixing part 30 which fixes 32 between the outer surface of a manhole body, and the ground.

The fixing wedge 32 is composed of a fixed blade portion 32a which can be easily inserted into the outer surface and the ground of the manhole body 110 and a buried ring 32b which is supported so that there is no movement when buried to the middle outer surface. do.

According to the configuration as described above, by placing the mounting ring first to the upper end of the manhole body, and then by fixing a plurality of fixing chains to the outside, the mounting ring to be mounted to the upper end of the manhole body tightly fixed without fluidity .

Then, by inserting the manhole cover to the inside of the manhole body to be placed, it is possible to compensate for the height due to the overlay work according to the road or sidewalk renovation without hassle as a simple structure.

However, in the current manhole management method as described above, the maintenance team only checks from time to time to check whether there is a problem with the manhole and the optical line and the optical cable. In particular, the manhole must be opened to open the manhole to check the water inside the manhole, and a very primitive method of opening the test system after lifting the upper lid using a tool such as a pickaxe is used. This situation is also unmanaged.

Therefore, the present invention is to solve the above problems, the access control of the manhole in which there is a connection box for each section of the road in which the optical cable is embedded in the underground optical path buried underground and inundated state in the manhole in the central control system It is an object of the present invention to provide a manhole management system in an optical cable operation facility constructed with an optical channel that can be efficiently managed.

The present invention relates to a manhole management system in an optical cable operation facility constructed with optical pipelines, and more particularly, to efficiently manage a manhole in which connection enclosures exist for each section of a road in which optical cables are embedded in an optical pipeline embedded underground. It is about a system.

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

5 is a block diagram of a manhole management system according to the present invention.

The manhole environmental monitoring box is located at the top of the manhole and is provided with a submersible indicator rod 400a, a junction box 400b and a manhole cover switch 400c therein to control the manhole by the command of the central control system 700. The immersion indicator bar (400a) is inside the manhole environmental monitoring collection box, and measures the immersion height for the rain in the manhole. In addition, the junction box 400b is attached to a wall inside the manhole environment monitoring collection box and collects information regarding the submerged state of the junction box 400b or the opening / closing state of the manhole cover 300. In addition, the manhole cover switch 400c opens and closes the manhole cover 300 inside the manhole. Conventionally, the operator manually opened the manhole using a key, but in the present invention, the central control system 700 controls the manhole cover switch 400c to support the manhole cover 300 inside the manhole. 400c may move the manhole cover 300 up or down to open and close.

The optical pipe line 500 is connected between the optical fiber splitter 200 that receives power from the transmission device 100 and the manhole environmental monitoring collection box, and the optical cables 500a and 500b and the central control system that are previously installed therein. The monitoring and control cable 500c for transmitting the information received from the command 700 to the manhole environment monitoring collector is embedded. In FIG. 5, since the inside of the optical channel 500 is not visible from the outside, the external optical channel 500 is not visible, and the optical cables 500a and 500b and the monitoring and control cable 500c included in the optical channel 500 are not visible. ) Is shown directly. The structure inside the light pipe 500 will be described later in FIG. 6.

The control cable 600 is for interworking with the central control system 700 for the monitoring and control of the manhole, and is configured in the RS-232C method. The control cable 600 is connected to the optical fiber splitter 200 and the central control system 700 connected to the optical conduit 500.

The central control system 700 controls the manhole environment monitoring collection box to measure the state of the manhole, thereby measuring the inundation height occurring in the manhole, and the inundation state of the junction box 400b and the manhole cover ( Collecting information about the opening and closing of the 300, it may be to open and close the manhole cover 300.

6 is a block diagram showing the interior of the optical path 500 of the manhole management system according to the present invention. In the optical pipe line 500, a plurality of optical cables 500a and 500b and a monitoring and control cable 500c are embedded. It can be seen that a plurality of optical cables (500a, 500b) and the monitoring and control cable (500c) is embedded in the optical path 500, only when the optical path 500 is visible from the outside. In FIG. 5, the inside of the optical path 500 is directly visible for understanding the system of the present invention.

It will be appreciated by those skilled in the art that various changes and modifications can be made without departing from the technical spirit of the present invention through the above description. Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

As described above, the manhole management system in the optical cable operation facility constructed by the optical channel according to the present invention has access control of the manhole in which the connection box exists for each section of the road where the optical cable is embedded in the optical channel embedded in the basement. Inundation conditions in the and manholes can be managed efficiently by the central control system.

Claims (5)

Manhole environment monitoring and collecting manhole control by command of central control system; An optical path including a monitoring and control cable for transmitting information received from the central control system to the manhole environment monitoring collector; A control cable interlocked with the central control system for monitoring and controlling the manhole; And A central control system for controlling the manhole environment monitoring box to measure a state of the manhole; Manhole management system in an optical cable operating facility constructed with an optical channel comprising a. The method according to claim 1, The manhole environmental monitoring collection box is a manhole management system in the optical cable operating facility constructed with an optical channel, characterized in that it includes a submerged indicator rod for measuring the immersion height for rainwater in the manhole therein. The method according to claim 1, The manhole environmental monitoring collection box has a manhole management system in an optical cable operation facility constructed with an optical line, characterized in that it comprises a connection box for collecting information about the submerged state of the junction box or the opening and closing state of the manhole cover. . The method according to claim 1, The manhole environmental monitoring box is a manhole management system in an optical cable operating facility constructed with an optical line, characterized in that it comprises a manhole cover switch for opening and closing the lid of the manhole therein. The method according to claim 1, The control cable is a manhole management system in an optical cable operating facility constructed with an optical line, characterized in that configured in the RS-232C system.

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