KR20130003461U - Connector for IHA cable assembly - Google Patents

Abstract

The present invention relates to a connector applied to an integrated reactor superstructure cable assembly used in a nuclear power plant, and more particularly to a connector that can be effectively sealed by adopting an improved structure.
The present invention includes a female connector consisting of a female connector outer shell of the rotating type and a female connector inner shell and a pinhole formed inside the female connector inner shell separated from the female connector outer shell; A male connector comprising a male connector shell including a pin therein, wherein the sealing protrusion receiving portion formed at the inlet of the pinhole of the female connector and the sealing protrusion formed at the root portion of the pin of the male connector are coupled; The sealing protrusion receiving portion and the sealing protrusion are related to the connector assembly for a cable assembly, characterized in that the middle portion bulging in the shape of the cross section in the longitudinal direction.
The conventional connector has a sealing structure that is waterproof only at atmospheric pressure conditions, but in the present invention, by adding a sealing protrusion to improve the sealing structure that is waterproof even at pressures above atmospheric pressure, there is an effect of improving the reliability of the product.

Description

Connector assembly for cable assembly {Connector for IHA cable assembly}

The present invention relates to a connector applied to an integrated head assembly (IHA) cable assembly used in a nuclear power plant. In particular, the present invention relates to a connector that can effectively seal by adopting an improved structure.

The "AN" type connector of MIL-C-5015G standard, which is applied to the reactor superstructure cable assembly, is used in various fields such as defense industry and nuclear power.

This connector is a connecting device that connects signal lines and signal lines, and the female and male connectors can be connected to each other to easily connect or connect signals. For smooth transmission of signal, electrical performance such as withstand voltage, insulation resistance and electromagnetic shielding should be excellent, and external environment should have high temperature, seismic resistance, waterproof, dustproof, water pressure, etc. according to the environmental requirements of the installation site.

Conventionally, in the following prior art documents, there have been techniques for preventing sealing or loosening when a female connector and a male connector are combined.

1 is a view of a conventional connector (a) is a partial cross-sectional view of the female connector, (b) is a partial cross-sectional view of the male connector, (c) is a state diagram in which the female connector and the male connector are coupled.

In Figure 1 (a) the female connector 10 has a female connector outer shell 100, which is configured to be separated from the female connector inner shell 102 in a rotatable form, the female connector inner shell 102 in the interior There is a pinhole 104, and around the pinhole 104 there is a female connector insulator 106 that maintains the insulation of the pinhole 104, between the female connector outer shell 100 and the female connector inner shell 102. The O-ring 108 is interposed, and a spring 109 is installed at the rear of the O-ring 108.

When the female connector 10 and the male connector 20 are connected, the O-ring 108 serves as a sealing, and the spring 109 is pushed from behind to maintain the sealing of the O-ring 108 more firmly.

In FIG. 1B, the male connector 20 has a male connector shell 202, a pin 204 therein, and a male connector insulator 206 that maintains the insulation of the pin 204.

In FIG. 1 (c), the coupling between the female connector 10 and the male connector 20 is performed by the fastening protrusion 110 inside the female connector outer shell 100 along the bionet 208 processed outside the shell of the male connector. It is a type that is coupled to the jaw, and maintains the sealing when connected by the spring 109 for pushing the O-ring 108.

Conventional female and male connector sealing can be maintained only by the O-ring. When a pressure exceeding atmospheric pressure is applied, the sealing is not maintained and leakage occurs, causing a problem in the insulation performance of the connector.

In addition, the conventional spring 109 is a coil spring is used, there is a problem that the restoring force is not very large.

In order to satisfy the waterproofing performance at pressures above atmospheric pressure, the strength of the spring was increased to increase the adhesion of the O-ring. However, the tightening force increased significantly, which made it difficult to fasten and detach, and did not satisfy the tightening force of less than 30 lb. It was.

In addition, in order to enhance the waterproof performance, the female connector and male connector were tried to be changed from the bionet fastening method to the screw fastening method, but the screw fastening method could not be changed due to the problems of wear due to repeated fastening and loss of thread due to thread contamination. There was a difficulty.

As described above, various methods have been attempted to realize sealing above atmospheric pressure, but have not been successful.

Utility Model Registration Document 1: Public Utility Model Registration Publication No. 10-2007-0037871

The present invention has been made to solve the above problems, and to solve the problem to implement a sealing structure that can maintain the waterproof even at a pressure higher than atmospheric pressure when the connector is fastened.

The present invention is a female connector consisting of a female connector outer shell and a female connector inner shell and a pinhole formed inside the female connector inner shell is formed separately from the female connector outer shell in order to solve the above problems; A male connector comprising a male connector shell including a pin therein, wherein the sealing protrusion receiving portion formed at the inlet of the pinhole of the female connector and the sealing protrusion formed at the root portion of the pin of the male connector are coupled; The sealing protrusion receiving portion and the sealing protrusion provide a connector assembly for a cable assembly, characterized in that the middle portion bulging in the shape of a cross section in the longitudinal direction.

In addition, the present invention provides a connector assembly for a cable assembly, characterized in that the length of the sealing projection is greater than the depth of the sealing projection receiving portion.

The present invention also provides a connector assembly for a cable assembly further comprising a compression ring assembly composed of a plurality of compression rings disposed on the side of the washer between the female connector outer shell and the female connector inner shell.

The conventional connector has a sealing structure that is waterproof only at atmospheric pressure conditions, but in the present invention, by adding a sealing protrusion to improve the sealing structure that is waterproof even at pressures above atmospheric pressure, there is an effect of improving the reliability of the product.

1 is a conventional connector structure diagram.
Figure 2 is a connector structure diagram of the present invention.
3 is a cross-sectional view of the connector assembly of the present invention.
Figure 4 is a view showing the sealing projection value of the present invention.
5 is an exploded view of the compression ring assembly of the present invention.

Hereinafter, the present invention will be described with reference to the drawings.

Figure 2 is a partial cross-sectional view of the (a) female connector (b) male connector according to the present invention.

The overall structure of the female connector 30 of FIG. 2 (a) is the same as that of the female connector 10 of FIG. 1 (a), and the same parts have the same reference numerals.

That is, the female connector 30 of the present invention in Figure 2 (a) has a female connector outer shell 100, which is configured to be separated from the female connector inner shell 102 in a rotating form, the female connector inner shell 102 ) Has a pinhole 104 therein and a female connector insulator 106 that maintains insulation of the pinhole 104, and an O-ring 108 between the female connector outer shell 100 and the female connector inner shell 102. It is interposed and the compression ring assembly 309 is disposed on the back of the O-ring 108.

5 shows the compression ring assembly 309 of the present invention.

As shown in Figure 5, but installed by assembling two compression rings 310 on the side of the washer 311, it can be assembled into a plurality of compression rings according to the coupling force.

Compression ring 310 uses a beryllium copper material to make the force smaller when combined, it is also possible to adjust the force by adjusting the number of compression rings.

The female connector 30 of the present invention has a cylindrical shape in which the middle portion of the sealing protrusion receiving portion 302 is inflated in the longitudinal direction when viewed from the inlet of the pinhole 104.

The male connector 40 of the present invention of FIG. 2 (b) is generally the same as the male connector 20 of FIG. 1 (b) and uses the same reference numerals.

That is, the male connector 40 has a male connector shell 202, a pin 204 therein, and a male connector insulator 206 that maintains the insulation of the pin 204.

However, the sealing protrusion 402 is provided at the root portion of the pin 204, and the shape of the sealing protrusion 402 is preferably a cylindrical shape in which the middle portion is inflated when viewed in the longitudinal cross-sectional shape.

3 is a coupling diagram of the female connector 30 and the male connector 40 of the present invention, the coupling of the female connector 30 and the male connector 40 is the fastening protrusion 110 inside the female connector outer shell 100 Along the bionet 208 processed outside the shell of the male connector is coupled to the jaw, and the coupling is maintained by the spring 109 for pushing the O-ring 108, and the female connector 30 The sealing protrusion 402 of the male connector 40 is inserted into the sealing protrusion accommodating portion 302 of the c) to further double the sealing.

4 is a conceptual diagram illustrating the sizes of the sealing protrusion 402 and the sealing protrusion receiving portion 302 of the present invention.

The sealing protrusion 402 of the male connector 40 is preferably the same shape as the sealing protrusion receiving portion 302 of the female connector 30, the depth of the sealing protrusion receiving portion 302 and the length of the sealing protrusion 402. Configure the difference, h, to exist.

Due to the difference in length, the sealing protrusion 402 is tightly inserted into the sealing protrusion accommodating part 302 of a silicon material, thereby filling the space tightly to maintain the sealing.

If the value for this length difference is too large, it is difficult to fasten the connector. If it is too small, the sealing effect cannot be obtained.

Table 1 shows the experimental results for the difference in the length h shown in FIG.

When tightening the connector, the sealing is secured with the O-ring primarily by the pushing force of the spring.Secondly, the sealing protrusion is combined with the sealing protrusion receiving part of the female connector and compressed, so that the sealing protrusion spreads and adheres to both sides. Because of the elliptical shape, it maintains the existing shape even after repeated tightening, so that the waterproof performance can be maintained even at a pressure higher than atmospheric pressure.

Persons skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features.

Therefore, the examples described above are exemplary in all respects, and are not intended to limit the present invention, and the scope of the present invention is defined by the utility model claims described below rather than the detailed description. In addition, all changes or modifications derived from the meaning and scope of utility model claims and equivalent concepts should be construed as being included in the scope of the present invention.

30: female connector
40: male connector
302: sealing protrusion receiving portion
402: sealing protrusion

Claims (3)

The female connector outer shell 100 and the female connector inner shell 102 configured to be separated from the female connector outer shell 100 and the female connector inner shell 102 are formed of a pinhole 104 formed therein. A female connector 30;
A male connector 40 composed of a male connector shell 202 including a pin 204 therein;
As a combination of
The sealing protrusion receiving portion 302 formed at the inlet of the pinhole 104 of the female connector 30 and the sealing protrusion 402 formed at the root portion of the pin 204 of the male connector 40 are coupled,
The sealing protrusion receiving portion (302) and the sealing protrusion (402) is a connector assembly for a cable assembly, characterized in that the middle portion bulging in the shape of the cross section in the longitudinal direction. The method of claim 1,
The length of the sealing projection (402) connector assembly for a cable assembly, characterized in that greater than the depth of the sealing projection receiving portion (302). 3. The method according to claim 1 or 2,
Between the female connector outer shell 100 and the female connector inner shell 102, it further comprises a compression ring assembly 309 consisting of a plurality of compression rings 310 disposed on the side of the washer 311. Connector assembly for cable assembly.

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