KR100923873B1 - Structure of RSPT cable assembly for atomic power plant - Google Patents

Abstract

The present invention provides a MI (Mineral Insulated) cable assembly structure in which connectors are connected at both ends of the cable, and a back cell is formed at one end of the connector, and the cable is coated with ceramics and then coated with metal. .

The present invention also provides a cable assembly structure in which a plurality of cables are integrally covered with corrugated metal conduits, and a cable assembly structure in which the inside of the back cell is filled with a filler.

MI cable, assembly

Description

Structure of RSPT cable assembly for atomic power plant

1 is a perspective view of a cable assembly structure of a conventional nuclear power plant.

Figure 2 is a perspective view of the MI cable assembly structure according to the present invention.

3 is a perspective view of portion A of FIG. 1;

4 is a detailed cross-sectional view of an MI cable assembly structure according to the present invention.

5 is a cross-sectional view of a portion connecting the back shell and the metal conduit.

6 is an enlarged view of a metal conduit of an MI cable assembly structure according to the present invention;

Description of the main parts of the drawing

210 connector 220 backshells

230 Bagnut 240 Adapter

250 Metal Conduit 260 Inserts

270 contacts 280 cables

310 fixing groove 320 filling material

330 Cable 410 Weld

The present invention relates to a cable assembly structure for transmitting an electrical signal of a RSPT (Reed Switch Position Transmitter) for detecting a position signal of a control rod of a Korean standard nuclear power plant, in particular, excellent durability in the use environment of nuclear power plants, radiation, heat The present invention relates to a cable assembly structure that can withstand changes in external conditions such as earthquakes and earthquakes.

As shown in FIG. 1, in a conventional nuclear power plant, a conventional cable connection structure has been used to transmit an electrical signal of a device for detecting a position signal of a control rod (RSPT).

In the conventional cable connection structure, in the case of the cable connecting the connector, the insulation surrounding the signal transmission lead is an organic chemical, and the material surrounding the respective cable as a whole is also an organic chemical.

Typically, the environment in a nuclear power plant has a lot of radiation and heat leakage, so in such an environment, the cable connection structure had to have a thick thickness of the insulation and the thickness of the coating in order to withstand the harsh environment of the nuclear power plant. As the thickness increases, the thickness of the overall jacket for the overall protection of the cable bundles increases, which increases the outer diameter of the metal conduit that surrounds it, and the thickness increases so that it occupies a limited amount of space in the upper part of the reactor. It was not easy to handle and install.

In addition, in the conventional cable assembly structure, the connection between the connector and the cable cannot guarantee the connection due to external impact, etc., and it tends to bear a lot of cost and effort in the condition of a nuclear power plant that is not easy to repair and refurbish. There was this.

An object of the present invention is to solve the problems of the cable assembly structure of the conventional nuclear power plant as described above, and to provide an M.I cable assembly structure having excellent protection against radiation and heat in the nuclear power plant environment.

In addition, the present invention is able to protect the cables from the radiation and heat of the nuclear power plant environment by consolidating a large number of cables in a corrugated metal conduit, and save space on the reactor top.

In addition, the present invention is easy to handle and install with a structure in which a plurality of MI cable made of one metal sheath in one signal transmission conductor having a small outer diameter is wrapped in a flexible metal conduit.

In addition, an object of the present invention is to ensure the connection of the connector and the cable by filling the inside of the back cell formed in the connector with a filler.

In order to achieve the above object, the present invention provides a MI cable assembly structure in which a connector is connected to both ends of a cable, and a back cell is formed at one end of the connector, and the cable is coated with ceramics and again covered with metal. do.

The present invention also provides a MI cable assembly structure in which a plurality of cables are integrally covered with corrugated metal conduits.

In addition, the present invention provides a MI cable assembly structure in which the inside of the back cell is filled with a filler.

Hereinafter, preferred embodiments of the present invention will be described in detail by the accompanying drawings.

2 is a perspective view of a cable assembly structure according to the present invention, Figure 3 is an enlarged perspective view of a portion A of FIG. In addition, Figure 4 shows a detailed cross-sectional view of the cable assembly structure according to the invention, Figure 5 is a cross-sectional view of a portion connecting the back shell and the metal conduit, Figure 6 is an enlarged view of the metal conduit of the cable assembly structure according to the present invention. It is shown.

2 is a cable assembly structure according to the present invention,

The connector 210 is connected to both ends of the cable 280. The connector 210 is formed with a back cell 220.

In addition, after the cable 280 and the connector 210 are electrically connected, the inside of the cable 280 may be charged with the filler 320 to disconnect the connector 210 and the cable 280 from vibration or external impact. Will be prevented.

The connection between the cable 280 and the connector 210 first inserts the contact 270 into the insert 260 inside the connector 210. Thereafter, the lead portion of the cable 280 is crimped and connected to the contact 270. In addition, the connector 210 may be connected with a plurality of cables 280.

Typically, the filler may be a polymer or the like, and a preferred material is epoxy. As a filler, epoxy is used to prevent the short circuit of the connector 210 and the cable 280 from external shock during operation in a nuclear power plant, and also to protect the cable against heat in the nuclear power plant environment. Have.

In addition, in the case of nuclear power plant facilities, there is a problem of radioactive coating and leakage, so it is often difficult to replace or repair the facility during use. However, by assuring the coupling of the connector 210 and the cable 280 as a filler as in the present invention, it is possible to prevent the trouble of replacing or repairing the equipment, and have the same design life as that of the nuclear power plant. .

The cable 280 is first covered with ceramic and then covered with metal. The reason is that, as described above, the conventional cable structure used in the nuclear power plant has both the first coating layer and the second coating layer of the cable made of organic chemicals, so that the thickness of the coating layer is maximized to withstand the harsh environment of the nuclear power plant. Needed to thicken. The space was inefficient in utilizing the space. However, in the present invention, this problem can be solved by covering the cable 280 with ceramic first and with metal. Preferably, the metal cladding material exhibits a sufficient effect to withstand the environment of a poor nuclear power plant when using a metal material having excellent heat resistance and radiation resistance.

The double-covered cable 280 as described above is covered with a metal conduit 250 again, and has the effect of once again protecting the cable from external heat and radiation. It is preferable to use the metal of the said metal conduit 250 which is excellent in heat resistance and radiation resistance like the metal which coat | covers the cable 280 mentioned above.

In addition, the cable assembly structure according to the present invention has a great effect in saving space.

First of all, the use of thin ceramics and metals, without the use of thick organic chemical materials, is effective in blocking heat and radiation, which reduces the outer diameter of the cable, making it suitable for the structure of an integrated reactor.

In addition, when the plurality of cables 280 are covered and integrated as one metal conduit 250, the volume of the entire cable is reduced, and the upper part of the Korean standard reactor is integrated to form an existing complex reactor head upper structure. Formed into one single structure, the outer diameter and weight of the circular conduit can be reduced to facilitate installation and handling of the cable assembly structure.

In general, when the inside of the back cell is filled with a filler and hardened, the filler and the metal may have different properties from each other, such that slippage may occur after a specific impact. In the present invention, the fixing groove 310 is formed in the inner wall of the back cell, the filler is inserted into the groove to hold the role, to prevent the slip between the filler and the metal.

Two types of cable assembly structures of the present invention are used. The first type delivers a reference voltage of approximately 15 VDC to the control rod position signal detection device in the Core Protection Calculator System at the top of the nuclear power plant, and then 5 to 10 V analogue from the control rod position signal detection device. It transmits the position signal to the core protection system.

In addition, the second type serves to transmit a signal of the control rod position signal sensing device.

According to the present invention, it is possible to provide a cable assembly structure having excellent protection against radiation and heat in a nuclear power plant environment.

In addition, multiple cables are integrally enclosed with corrugated metal conduits to protect them from radiation and heat in a nuclear power plant environment, save space on top of the reactor, and facilitate installation and handling of cable assembly structures.

In addition, by filling the inside of the back cell formed in the connector with a filler, it is possible to further ensure the connection of the connector and the cable.

Claims (3)

In the structure of the RSPT cable assembly of a nuclear power plant, each connector is connected to both ends of the cable, One end of the connector is formed with a back cell, Fixing grooves are formed in the inner wall of the back cell, The cable is covered with ceramic, and again with metal, Many of the cables are integrally surrounded by corrugated metal conduits, RSPT cable assembly structure of the nuclear power plant, characterized in that the inside of the back cell is filled with a filler. delete delete

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