KR101240902B1 - Cable assembly with improved insulation - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cable assembly having improved insulation, comprising a plurality of strands of cable strands (21), wherein the cable strands (21) are arranged inside the cable jacket (9), and the cable jacket (9) The outer circumferential surface thereof is covered with a heat-resistant coating material 30, and an insulating disk 40 having a through hole 43 through which the cable strand 21 passes through is provided at the connection portion of the cable element 21 and the connector 10. It relates to a cable assembly which becomes.
Such cable assemblies have improved insulation and heat resistance compared to conventional cable assemblies by preventing damage to the cable jacket even under high temperature conditions and preventing short circuits of cable wires disposed inside the cable assemblies.

Description

Cable Assemblies with Improved Insulation {CABLE ASSEMBLY WITH IMPROVED INSULATION}

The present invention relates to a cable assembly having improved insulation, and more particularly, to a cable assembly connected to a thermocouple for monitoring reactor level, and more particularly, to a cable assembly capable of stably securing insulation even in an abnormal operating environment such as a nuclear reactor accident. will be,

In a device to which a cable assembly including a connector is connected, in general, the wires of the cable assembly are protected by the cable jacket to the external environment. However, in the conventional cable assembly, when such a cable jacket is exposed to the harsh environment of high temperature and high pressure, the cable jacket is damaged and the insulation between the cable wires occurs.

In addition, in the cable assembly, the connecting parts of the cable wires and the connector are structurally vulnerable to stimulation from the external environment. Therefore, in the related art, the connection part is hardened by filling with epoxy, so that even if a physical stimulus such as various vibrations, shocks or earthquakes occurs, insulation of the conductors arranged in the cable assembly can be secured. It was. However, in such a structure, when the thermal stimulus is applied, that is, when the temperature of the external environment rises and heat is transmitted to the connection part of the cable assembly, the epoxy filling the connection part melts and surrounds the cable element. Insulators are also damaged, and as a result, short circuits between the wires occur, and insulation between the wires is not secured, causing a product connected to the cable assembly to malfunction. This is especially a problem when the cable assembly is used as a measuring instrument for measuring the water level in the reactor vessel and used in a thermocouple for monitoring the reactor level located above the reactor, when a serious accident occurs during the operation of the reactor. . In particular, considering that a new nuclear power plant of 1400 MW is used in a recent nuclear power plant, it is required that the cable assembly used for the thermocouple for monitoring the nuclear reactor level should be insulated even in the event of a serious accident of the nuclear power plant, thereby allowing normal operation. .

An object of the present invention is to solve the above problems, specifically, to prevent damage to the cable jacket even under abnormal operating environment or high temperature conditions in the event of an accident, and to prevent short circuit between the cable wires in the cable assembly.

More specifically, an object of the present invention, in the cable assembly for signal transmission and power supply to the measuring instrument sensed by a measuring instrument, such as a thermocouple for monitoring the reactor level, vibration, earthquake environment in the structure in which the cable assembly is located And even if various accidents (coolant loss accident, main engine breakage accident) occur, use of heat-resistant covering prevents damage to the cable jacket, and use of insulating disk prevents short circuit between cable wires in the cable assembly.

In particular, an object of the present invention is to prevent damage to the cable jacket even under severe temperature (580 ° C or higher), pressure (105 psig), and radiation (2 × 10 ⁶ Gy) conditions due to an accident in the reactor. This is to prevent short circuit between element wires.

In order to solve the above problems, the present invention includes a cable strand of a plurality of strands, the cable strand is disposed inside the cable jacket, the outer peripheral surface of the cable jacket provides a cable assembly, characterized in that the coating with a heat-resistant coating material do.

In addition, the present invention provides a cable assembly, characterized in that the connecting portion of the cable element and the connector is provided with an insulating disk having a through hole through which the cable element can pass.

In addition, the present invention additionally provides a cable assembly characterized in that the radially inner side of the insulating disk is a ceramic material, the radially outer side of the insulating disk is stainless steel.

The present invention further provides a cable assembly wherein the axial end of the insulating disk on the connector side is welded with the end of the heat resistant cladding.

In addition, the present invention provides a cable assembly characterized in that a first ring adapter for fixing the heat-resistant coating material is formed on the surface of the heat-resistant coating material on the insulating disk.

In addition, the present invention additionally the connection part of the cable element and the connector is surrounded by a back shell, the inside of the back shell is filled with epoxy, the opposite end of the connector of the back shell is sealed by a bag nut, under the bag nut A second ring adapter is installed between the cable jacket and the heat resistant covering material disposed in the cable jacket, and a braid adapter is provided on the heat resistant covering material disposed under the back nut.

The present invention improves insulation and heat resistance in comparison with a conventional cable assembly by preventing damage to the cable jacket even under high temperature conditions and preventing short circuit of the cable element disposed inside the cable assembly.

Specifically, the present invention can exert the effect of minimizing damage to the cable insulator under harsh environment by covering the cable jacket with a heat resistant coating material. In addition, at the connecting portions of the cable wires and the connector of the cable assembly, the outer peripheral surface of the cable assembly is wrapped with a back shell, and inside each of the cable wires in the cable assembly by arranging an insulating disk made of a ceramic material which is a non-conductor. Even if the surrounding insulation is damaged, it is possible to prevent a short circuit between wires.

1 is a side view showing the outside and inside of a cable assembly of a first embodiment of the present invention.
2 is a cross-sectional view of the cable assembly of the present invention.
3 is a sectional view and a perspective view of an insulating disk of the cable assembly of the present invention.
Fig. 4 is a side view showing the outside and inside of the cable assembly of the second embodiment of the present invention.

Hereinafter, a first embodiment of the present invention will be described with reference to the accompanying drawings.

1 is an internal side view of a cable assembly 20 according to an embodiment of the present invention including a connector 10. As shown in FIG. 1, the cable wires 21 arranged in the cable assembly 20 are connected by a splicing adapter 22, and the splicing adapter 22 is connected to the connector pins of the connector 10. 11) is connected.

In this embodiment, a total of six strands of cable strands 21 are connected to the six connector pins 11 of the connector 10, respectively, via the splicing adapter 22. However, the number of strands of the cable element wire 21 and the number of pins of the connector pin 11 are not limited to six, but may be changed as necessary.

This cable element 21 is composed of two strands of chrommel wires 1 and 2 and one strand of alumel wires, each of which is formed of a single wire covered by an insulator 8, as shown in FIG. 3), consisting of two strands of copper (4, 5) and drain (6, 7) stranded strands, these cable strands (21) are arranged inside the cable jacket (9) This cable jacket 9 is covered with a heat resistant coating material 30 made of stainless steel. This heat-resistant cladding 30 has a braided network or a conduit organization. The heat resistant coating material 30 serves to reduce the damage of the cable jacket 9 in an environment of external shock and high temperature in the event of a serious accident.

Regarding the effect of the heat resistant coating material 30, when the material of the cable jacket is made of CSP (Chlord Sulfonated Polyethylene), the cable assembly coated with the heat resistant coating material 30 of the present invention on the surface of the cable jacket and as a control thereof. In the cable assembly not coated with the heat-resistant cladding material 30, the insulation was tested after heating the cable for 10 minutes while maintaining the temperature of the cable at 700 ° C. as follows.

1) the present invention

Heat is applied to the heat-resistant coating material using a gas torch, and the heat-resistant coating material heats up red, but there is no problem about insulation between the cable wires after heating.

2) control group

As the gas torch heats the heat-resistant cladding, the temperature rises, smoke is generated due to the combustion of the cable jacket at the beginning of heating, and after heating, the cable jacket is severely damaged and there is a problem in the insulation between the cable wires.

Therefore, it can be seen that the cable assembly of the present invention in which the heat-resistant coating material 30 is coated on the cable jacket 9 can stably maintain the insulation between the cable wires even in a high temperature environment.

On the other hand, in the connection part of the cable element wire 21 and the connector 10 of the cable assembly 20, the back cell 23 is provided in the outer side of the cable assembly 20, so that the cable element wire 21 and the connector 10 are connected. The site is protected and the internal space between the vessel 23 and the cable element 21 is filled with epoxy 24.

An insulating disk 40 is installed at the connecting portion of the cable element wire 21 and the connector 10. As shown in Figs. 1 and 3, the insulating disk 40 has a cylindrical shape, a through hole 43 is formed in the axial direction so that the strands of the cable element 21 can pass, and the cable assembly 20 ) Is disposed inside the heat-resistant coating material 30. Preferably, the number of the through holes 43 is six, but this can be changed as necessary. The material of the radially inner side 41 of the insulating disk 40 is preferably ceramic, and the material of the radially outer side 42 is preferably stainless steel. The insulating disk 40 serves to separate the respective cable wires 21 and at the same time welds with one end of the heat resistant coating material 30 to serve as a finishing end for fixing one end of the heat resistant coating material 30. In addition, since the material of the inner side 41 of the insulating disk 40 on which the through-hole 43 through which the cable wire 21 passes is made of ceramic is a ceramic material, each of them is used in an abnormal environment or in a high temperature environment in the event of a serious accident. The insulator 8 surrounding the metal wires 1, 2, 3, 4, 5, 6, 7 constituting the cable element 21 is damaged so that the metal wires 1, 2, 3, 4, 5, 6, 7) Even if this is exposed to the outside, since each metal wire 1, 2, 3, 4, 5, 6, 7 is insulated by the insulating disk 40, the short circuit accident between lines can be prevented. In addition, since the radially outer side 42 of the insulating disk 40 is made of stainless steel, welding with the heat resistant coating material 30 made of stainless steel is possible.

In addition, in the first embodiment of the present invention, preferably, a ring-shaped first ring adapter 50 is disposed at the ends of the heat resistant covering material 30 and the insulating disk 40 to weld one end of the heat resistant covering material. This can be facilitated.

Further, in the second embodiment of the present invention, as shown in Fig. 4, in the vicinity of the end opposite to the connector 10 of the backshell 23, a second ring adapter (between the heat-resistant cladding 30 and the cable jacket 9) 60 is installed, and this second ring adapter 60 and the heat resistant coating material 30 are welded together with the braid adapter 61 disposed on the heat resistant coating material 30 near the end opposite the connector of the backshell 23. This braid adapter 61 facilitates the welding of the heat resistant coating material 30 and the second ring adapter 60. In addition, the back nut 62 is attached to the end opposite to the connector of the back shell 23 so that the epoxy 24 is not exposed to the outside. The outer diameter of the back nut 62 is set equal to or larger than the inner diameter of the end portion opposite the connector of the vessel 23, thereby protecting the epoxy 24 from the outside. The back nut 70 and the back shell 23 are preferably screwed together. In addition, in the second embodiment of the present invention, the insulating disk 40 is preferably not combined with the heat-resistant coating material 30, the insulating disk 40 may be made of only a ceramic material.

With the above configuration, in the second embodiment of the present invention, the effect of reducing the impact on the epoxy 24 can be additionally exhibited when the cable assembly 20 is bent. Specifically, when the cable assembly 20 is bent, the second ring adapter 60 prevents the portion of the cable assembly 20 in the vicinity of the bag nut 62 from bending, so that the epoxy 24 in the vicinity of the bag nut 62 is prevented. ) Can be prevented from being broken by impact. On the other hand, if there is no second ring adapter 60 as described above, when the cable assembly 20 is bent, bending occurs in the vicinity of the back nut 62, and the epoxy 24 near the back nut 62 is impacted. It becomes easy to receive.

The cable assembly of the present invention may preferably be used in a thermocouple for monitoring the reactor level, and if a serious accident occurs in such a use environment, the cable assembly 20 used for the reactor level audit thermocouple is primarily heat-resistant if exposed to high temperatures. The cladding 30 and the cable jacket 9 will be affected, and the secondary epoxy 24 filled to protect the connections of the cable element 21 and the connector 10 will be affected. However, in the cable assembly of the present invention, since the cable jacket 9 is surrounded by the heat resistant covering material 30, damage can be drastically reduced as compared with the cable jacket 9 being directly exposed to heat. In addition, the epoxy 24 is melted at the connecting portion of the cable element 21 and the connector 10, and the insulator of the metal lines 1, 2, 3, 4, 5, 6, 7 of each cable element 21 is formed. Even if 8) is damaged, since the metal wires 1, 2, 3, 4, 5, 6, 7 are separated by the insulating disk 40, a short circuit between the metal wires is prevented. Therefore, even if there is a slight structural deformation of the cable assembly 20, the electrical performance can be maintained.

In addition, in the cable assembly of the present invention, when the cable assembly 20 is bent, the back nut 62 is prevented by the second ring adapter 60 from preventing the part of the cable assembly 20 near the back nut 62 from being bent. It is possible to prevent the nearby epoxy 24 from being broken under impact.

The foregoing descriptions of the preferred embodiments of the present invention are for the purpose of explanation and illustration. It is not intended to be exhaustive or to limit the invention to the precise form disclosed. Modifications or variations are possible in light of the above teaching.

Claims (6)

In the cable assembly 20,
The cable assembly 20 includes a plurality of cable strands 21,
The cable element 21 is disposed inside the cable jacket 9,
The outer circumferential surface of the cable jacket 9 is covered with a heat resistant coating material 30,
The connecting portion between the cable element wire 21 and the connector 10 is provided with an insulating disk 40 having a through hole 43 through which the cable element wire 21 can pass.
The radially inner side (41) of the insulating disc (40) is a ceramic material, and the radially outer side (42) of the insulating disc (40) is stainless steel. delete delete The method of claim 1,
The axial end of the insulating disk (40) on the connector (10) side is welded with the end of the heat resistant cladding (30). The method of claim 1,
And a first ring adapter (50) for fixing the heat-resistant coating material (30) on the surface of the heat-resistant coating material (30) on the insulating disk (40). The method of claim 1,
The connection part of the cable wire 21 and the connector 10 is surrounded by the back shell 23,
The interior of the backshell 23 is filled with epoxy 24,
An end opposite the connector 10 of the backshell 23 is sealed by a back nut 62,
A second ring adapter 60 is installed between the cable jacket 9 and the heat resistant covering material 30 disposed below the back nut 62,
Cable assembly, characterized in that the braid adapter (61) is installed on the heat-resistant coating material (30) disposed below the back nut (62).

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