KR20210028813A - Adapter for metal sheathed cables - Google Patents

Abstract

Disclosed is an adapter for a metal-clad cable. The adapter for the metal-clad cable includes: a socket member having a core wire through hole parallel to a central axis in the center of the body; a first connector member including a first opening penetrating through the center of the body parallel to the central axis and open in one direction, and coupled to one side of the socket member so that the first opening communicates with one end of the core wire through hole; and a second connector member including a second opening penetrating through the center of the body parallel to the central axis and open in one direction. Any one of the first connector member and the second connector member is fixed to an end of the metal-clad cable, and the other one of the first connector member and the second connector member accommodates the core wire of the metal-clad cable extending through the core wire through hole inside.

Description

Adapter for metal sheathed cables{ADAPTER FOR METAL SHEATHED CABLES}

The present invention relates to an adapter for a metal-coated cable, and more particularly, to an adapter for a metal-coated cable that can be used in extreme environments such as high temperature and ultra-high vacuum.

In general, a cable is composed of a core wire that transmits a signal, an insulator that insulates the core wire, and an outer covering that surrounds the insulator. In the case of cables used under conditions such as high temperature and ultra-high vacuum, the cable must not be damaged by extreme environments such as high temperature and ultra-high vacuum, so it is an external metal material that can withstand extreme environments such as high temperature and ultra-high vacuum without damage. A sheathed cable is being used.

MI cable (Mineral Insulating Cable) is a metal sheathed cable that can withstand extreme environments such as high temperature and ultra-high vacuum.

For example, the MI cable is used as a sensor to measure magnetic fields and currents generated in various equipment or facilities installed in extreme environments such as high temperature and ultra-high vacuum such as a nuclear reactor.

In this case, one end of the MI cable connects the core wire to an output device that outputs measured values such as magnetic field and current. If the core wire is directly connected to the output device, it is easily disconnected during use due to extreme environments such as high temperature and ultra-high vacuum. There was a problem.

Alternatively, when an adapter made of a plastic material is provided at one end of the MI cable, and the adapter made of the plastic material is connected to the output device, there is a problem that the adapter is easily melted in a high temperature environment.

Therefore, there is a need to develop parts or equipment that can easily electrically connect metal-clad cables used in extreme environments such as high temperature and ultra-high vacuum such as nuclear reactors to external electronic devices and prevent damage to metal-clad cables. .

Therefore, the problem to be solved by the present invention is that it has durability to withstand extreme environments such as high temperature and ultra-high vacuum, so that the MI cable used in the extreme environment can be easily connected to external electronic devices, and the core wire of the MI cable is protected. It is to provide an adapter for a metal sheathed cable to prevent damage to the MI cable due to the extreme environment and to enable the safe use of the MI cable.

Another object is to provide an adapter that allows a solid connection with a metal sheathed cable.

The adapter for a metal sheathed cable according to an embodiment of the present invention includes a socket member having a core wire through hole parallel to a central axis provided at the center of the body; A first connector member that penetrates the center of the body parallel to the central axis and includes a first opening that is open in one direction, and is coupled to one side of the socket member so that the first opening communicates with one end of the core wire through hole. ; And a second opening which penetrates the center of the body parallel to the central axis and is open in one direction, and is coupled to the other side of the socket member so that the second opening communicates with the other end of the core wire through hole. A connector member, wherein one of the first connector member and the second connector member is fixed to an end of the metal-clad cable, and the other one of the first connector member and the second connector member has the core wire through hole. It characterized in that the core wire of the metal-clad cable extending therethrough is accommodated inside.

In one embodiment, the socket member is located on one side of the core wire through hole, a first socket portion having a first screw groove formed on the inner surface, and a second screw groove formed on the inner surface of the other side of the core wire through hole. Including 2 sockets, wherein the first connector member is screwed to any one of the first socket portion and the second socket portion by forming a first thread around one outer surface, and the second connector member is around one outer surface A second screw thread may be formed in and may be screwed to the other one of the first socket part and the second socket part.

In one embodiment, a bonding layer may be provided between each of the screw grooves and each of the threads that are screwed to each other. For example, the bonding layer may be formed by applying a ceramic bond.

In one embodiment, the first opening includes a first hole communicating with the core wire through hole and a second hole extending to a diameter larger than the diameter of the first hole and extending from the first hole, and the second The opening includes a third hole communicating with the core wire through hole and a fourth hole extending to a diameter larger than the diameter of the third hole and extending from the third hole, and any one of the second hole and the fourth hole One is fixed to the end of the cable, and the other one of the second hole and the fourth hole may receive the core wire inside.

In one embodiment, any one of the second hole and the fourth hole is fixed by inserting an outer coat of the metal-clad cable, and the outer coat has an end when inserted into the second hole or the fourth hole. Insertion is restricted corresponding to the first stepped portion of the second hole perpendicular from the first hole or the second stepped portion of the fourth hole vertical from the third hole, and the core wire has the outer covering of the end When corresponding to the jaw portion, an end of the core wire may be positioned within the first hole or the third hole, or may have a length protruding outside the hole.

In one embodiment, the first connector member or the second connector member by forming a solder layer between the outer covering and any one of the second hole and the fourth hole to which the outer covering of the cable is fixed Can be fixed to the cable. For example, the solder layer may be made of silver lead.

In one embodiment, the socket member, the first connector member, and the second connector member may be made of a material capable of withstanding a high temperature of 1300°C or higher. For example, the socket member may be made of a titanium alloy made of alumina and titanium, and the first connector member and the second connector member may be made of SUS.

In one embodiment, the metal sheathed cable may be an MI cable coated with SUS material.

According to the adapter for a metal-clad cable according to the present invention, the end of the MI cable used as a sensor to measure magnetic fields and currents generated in various equipment or facilities installed in extreme environments such as high temperature and ultra-high vacuum such as a nuclear reactor. It can be used to easily connect the MI cable to the output device that is connected and fixed to receive measured values such as magnetic field and current measured through the MI cable, and protects the core wire of the MI cable from the outside. There is an advantage in that the MI cable can be safely used in extreme environments such as high temperature and ultra-high vacuum by preventing damage to the MI cable such as disconnection of the core wire of the MI cable due to extreme environments.

In addition, there is an advantage that a robust connection with the MI cable is possible.

1 is an exploded perspective view for explaining the configuration of an adapter for a metal sheathed cable according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view illustrating a state in which the adapter for a metal sheathed cable shown in FIG. 1 is connected and fixed to an MI cable.

Hereinafter, an adapter for a metal sheathed cable according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the present invention, various modifications may be made and various forms may be applied, and specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals have been used for similar elements. In the accompanying drawings, the dimensions of the structures are shown to be enlarged than the actual size for clarity of the present invention.

Terms such as first and second may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance the possibility of the presence or addition.

Unless otherwise defined, all terms including technical or scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in the present application. Does not.

The adapter for the MI cable of the present invention is used by being connected to a metal sheathed cable composed of a core wire, an insulator surrounding the core wire, and an outer covering made of a metal material surrounding the insulator. For example, it is used for MI cables (Mineral Insulating Cable). The MI cable 10 has a structure in which the core wire 11 may be copper, the insulator 12, which is an inorganic insulating material, surrounds the core wire 11, and an outer sheath 13 made of SUS material surrounds the insulator 12. . This MI cable is shown in FIG. 1. In the following description, an example applied to an MI cable will be described.

1 is an exploded perspective view illustrating the configuration of an adapter for a metal sheathed cable according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a state in which the adapter for a metal sheathed cable shown in FIG. 1 is connected and fixed to an MI cable. It is a cross-sectional view.

1 and 2, the adapter for a metal sheathed cable according to an embodiment of the present invention may include a socket member 110, a first connector member 120, and a second connector member 130.

The socket member 110 has a columnar body and may include a core wire through hole 111, a first socket part 112 and a second socket part 113. For example, the socket member 110 may have a cylindrical shape. The socket member 110 may be made of a titanium alloy (AT2) made of alumina and titanium.

The core wire through hole 111 may be formed to extend in a predetermined length parallel to the central axis at the center of the cylindrical body of the socket member 110. The diameter of the core wire through hole 111 may be formed to have a size capable of accommodating the core wire 11 of the MI cable 10.

The first socket part 112 is located on one side of the core wire through hole 111, and a first screw groove 112a is formed on the inner surface thereof, and may communicate with the core wire through hole 111.

The second socket part 113 is located on the other side of the core wire through hole 111, that is, on the opposite side of the first socket part 112, and a second screw groove 113a is formed on the inner surface thereof, and the core wire through hole 111 Can be communicated with.

The first connector member 120 includes a column-shaped body, for example, a first opening 121 that passes through the center of the cylindrical shape and is open in one direction, and has a first thread 121a around one outer surface of the cylindrical shape. ) Can be formed. The first connector member 120 may be coupled to one side of the socket member 110. For example, in the first connector member 120, the first screw groove 112a and the first screw thread 121a of the first socket part 112 of the socket member 110 are screwed to each other, so that the first socket part 112 In this case, the first opening 121 may communicate with the core wire through hole 111. The first connector member 120 may be made of steel use stainless (SUS).

For example, the first opening 121 is expanded to a diameter larger than the diameter of the first hole 1211 and the first hole 1211 communicating with the core wire through hole 111 and extending from the first hole 1211 It may include two holes 1212. The second hole 1212 may include a first stepped portion 1212a perpendicular to the first hole 1211.

The second connector member 130 includes a column-shaped body, for example, a second opening 131 that passes through the center of the cylindrical shape and is open in one direction, and has a second thread 131a around one outer surface of the cylindrical shape. ) Can be formed. This second connector member 130 may be coupled to one side of the socket member 110. For example, in the second connector member 130, the second screw thread 131a is screwed into the second screw groove 113a of the second socket part 113 of the socket member 110 so that the second socket part 113 In this case, the first opening 121 may communicate with the core wire through hole 111. The second connector member 130 may be made of SUS.

For example, the second opening 131 is enlarged to a diameter larger than the diameter of the third hole 1311 and the third hole 1311 communicating with the core wire through hole 111 and extending from the third hole 1311 4 holes 1312 may be included. The fourth hole 1312 may include a second stepped portion 1312a perpendicular to the third hole 1311.

Meanwhile, when the first connector member 120 is screwed to the first socket part 112 and the second connector member 130 is screwed to the second socket part 113, each screw is screwed to each other. A bonding layer 140 may be formed between the groove and each thread. Bonding layer 140 is applied to the inner surface of the first screw groove (112a) and the second screw groove (113a) or the outer surface of the first thread (121a) and the second thread (131a), and then the first thread (121a). ) And the second screw thread (131a) are each screwed into the first screw groove (112a) and the second screw groove (113a), it is hardened after a certain period of time and formed between each screw groove and each screw thread that are screwed together Can be. For example, the bonding layer 140 may be formed by applying a ceramic bond.

In the adapter for a metal sheathed cable according to an embodiment of the present invention, one of the first connector member 120 and the second connector member 130 is fixed to the end of the MI cable 10, and the other is through a core wire. The core wire 11 of the MI cable 10 extending through the hole 111 can be accommodated inside.

For example, the first connector member 120 may be fixed to the end of the MI cable 10. In this case, the second hole 1212 of the first opening 121 of the first connector member 120 accommodates the outer sheath 13 of the MI cable 10, and the first hole 1211 is the MI cable ( The core wire 11 of 10) may penetrate. At this time, the end of the outer sheath 13 of the MI cable 10 inserted into the second hole 1212 corresponds to the first stepped portion 1212a of the second hole 1212, so that the insertion length of the outer sheath 13 May be limited.

In addition, the core wire 11 penetrating through the first hole 1211 passes through the core wire through hole 111 of the socket member 110 so that the second connector member 130 is located on the opposite side of the first connector member 120. It may extend into the second opening 131. At this time, the core wire 11 may pass through the third hole 1311 of the second opening 131 and extend to the inside of the fourth hole 1312, and the end of the core wire 11 is the fourth hole 1312 Can be accommodated on the inside of. At this time, the end of the core wire 11 may have a length that is accommodated inside the fourth hole 1312 as shown in FIG. 2, and although not shown, the end of the core wire 11 is It may have a length protruding outward. The position of the end of the core wire 11 is set in consideration of the restriction of the insertion length of the outer sheath 13 when the outer sheath 13 of the MI cable 10 is inserted into the second hole 1212. It can be determined according to the length of (11). The second connector member 130 accommodating the end of the core wire 11 may be connected to an external electronic device.

In this way, when the adapter for a metal sheathed cable according to an embodiment of the present invention is fixed to the MI cable 10, the second hole 1212 of the first connector member 120 and the second connector member 130 A solder layer 150 is formed between any one of the fourth holes 1312, for example, between the inner surface of the second hole 1212 and the outer sheath 13 of the MI cable 10 to form a first connector member ( 120) can be fixed to the MI cable 10.

The adapter for a metal-clad cable according to an embodiment of the present invention is a material capable of withstanding a high temperature of 1300°C or higher, that is, the socket member 110 is made of a titanium alloy material, and the first connector member 120 and the second connector member ( 130) is made of SUS material and has durability to withstand extreme environments such as high temperature and ultra-high vacuum, so it can be used in nuclear fusion facilities.

Therefore, it is connected and fixed to the end of the MI cable used as a sensor to measure the magnetic field and current generated in various equipment or facilities installed in extreme environments such as high temperature and ultra-high vacuum such as a nuclear reactor, and measured through the MI cable. It can be used to easily connect the MI cable to an output device that receives measured values such as magnetic field and current, and protects the core wire of the MI cable from the outside to break the core wire of the MI cable due to extreme environments such as high temperature and ultra-high vacuum. There is an advantage in that the MI cable can be safely used in extreme environments such as high temperature and ultra-high vacuum by preventing damage to the MI cable such as.

In addition, when fixed to the MI cable, a solder layer 150 between the outer covering 13 of the MI cable and the inner surface of the first connector member 120 or the second connector member 130 accommodating the outer covering 13 It has the advantage of enabling a solid connection with the MI cable because it is fixed to the MI cable by forming a.

In addition, when the first connector member 120 and the second connector member 130 are screwed to each of the first socket portion 112 and the second socket portion 113 of the socket member 110, the screwing and bonding layer Since the first connector member 120 and the second connector member 130 are coupled to the socket member 110 through the bonding by 140, there is an advantage that the first connector member 120 and the second connector member 130 are not easily released from the socket member 110 and can maintain a solid coupling. have.

The description of the presented embodiments is provided to enable any person skilled in the art to use or practice the present invention. Various modifications to these embodiments will be apparent to those of ordinary skill in the art, and general principles defined herein can be applied to other embodiments without departing from the scope of the present invention. Thus, the present invention is not to be limited to the embodiments presented herein, but is to be construed in the widest scope consistent with the principles and novel features presented herein.

Claims (13)

A socket member having a core wire through hole parallel to the central axis provided at the center of the body;
A first connector member that penetrates the center of the body parallel to the central axis and includes a first opening that is open in one direction, and is coupled to one side of the socket member so that the first opening communicates with one end of the core wire through hole. ; And
A second connector that penetrates the center of the body parallel to the central axis and includes a second opening that is open in one direction, and is coupled to the other side of the socket member so that the second opening communicates with the other end of the core wire through hole. Including absence,
Any one of the first connector member and the second connector member is fixed to the end of the metal sheathed cable,
The remaining one of the first connector member and the second connector member is characterized in that to accommodate the core wire of the metal-clad cable extending through the core wire through hole inside,
Adapter for metal sheathed cables. The method of claim 1,
The socket member includes a first socket part located on one side of the core wire through hole and having a first screw groove formed on an inner surface thereof, and a second socket part located on the other side of the core wire through hole and having a second screw groove formed on an inner surface thereof, ,
The first connector member is screwed to any one of the first socket portion and the second socket portion by forming a first thread around an outer surface of one side,
The second connector member is characterized in that a second screw thread is formed around an outer surface of one side to be screwed to the other one of the first socket part and the second socket part,
Adapter for metal sheathed cables. The method of claim 2,
It characterized in that a bonding layer is provided between each of the screw grooves screwed to each other and the respective threads,
Adapter for metal sheathed cables. The method of claim 3,
The bonding layer is characterized in that formed by applying a ceramic bond,
Adapter for metal sheathed cables. The method of claim 2,
The first opening includes a first hole communicating with the core wire through hole and a second hole extending to a diameter larger than the diameter of the first hole and extending from the first hole,
The second opening includes a third hole communicating with the core wire through hole and a fourth hole expanding to a diameter larger than the diameter of the third hole and extending from the third hole,
Any one of the second hole and the fourth hole is fixed to the end of the cable,
The other one of the second hole and the fourth hole is characterized in that accommodating the core wire inside,
Adapter for metal sheathed cables. The method of claim 5,
Any one of the second hole and the fourth hole is fixed by inserting the outer covering of the metal-clad cable,
When the outer covering is inserted into the second hole or the fourth hole, the end of the first stepped portion of the second hole perpendicular to the first hole or the second of the fourth hole perpendicular to the third hole It corresponds to the stepped portion, so insertion is restricted
The core wire is characterized in that when the outer covering corresponds to the stepped portion, the end of the core wire is positioned within the first hole or the third hole, or has a length protruding outside the hole,
Adapter for metal sheathed cables. The method of claim 5,
The first connector member or the second connector member is fixed to the cable by forming a solder layer between the outer covering and any one of the second hole and the fourth hole to which the outer covering of the cable is fixed Characterized in that,
Adapter for metal sheathed cables. The method of claim 7,
The soldering layer is characterized in that made of silver lead,
Adapter for metal sheathed cables. The method of claim 1,
The socket member, the first connector member, and the second connector member are made of a material capable of withstanding a high temperature of 1300°C or higher,
Adapter for metal sheathed cables. The method of claim 1,
The socket member is characterized in that the titanium alloy material made of alumina and titanium,
Adapter for metal sheathed cables. The method of claim 1 or 10,
The first connector member and the second connector member, characterized in that the SUS material,
Adapter for metal sheathed cables. The method of claim 1,
The metal sheathed cable is characterized in that the MI cable coated with SUS material,
Adapter for metal sheathed cables. A core wire through hole formed along a central axis in the center of the body, a first socket part located on one side of the core wire through hole and having a first screw groove formed on the inner surface, and a second screw located on the other side of the core wire through hole and on the inner surface A socket member made of a titanium alloy material including a second socket portion having a groove formed therein, and made of alumina and titanium;
It includes a first opening that penetrates the center of the body parallel to the central axis and is open in one direction, a first thread is formed around an outer surface of one side, and the first opening communicates with one end of the core wire through hole. A first connector member screwed to the first socket part or the second socket part and made of SUS material; And
It includes a second opening that penetrates the center of the body parallel to the central axis and opens in one direction, a second thread is formed around an outer surface of one side, and the second opening communicates with the other end of the core wire through hole. It is screwed to the first socket portion or the second socket portion, and includes a second connector member made of SUS,
Any one of the first connector member and the second connector member is fixed around the outer covering of one end of the metal-clad cable, and a solder layer is formed between the inner surface of the first opening or the inner surface of the second opening and the outer covering. Fixed by
The remaining one of the first connector member and the second connector member accommodates a core wire of the metal-clad cable extending through the core wire through hole, and
Wherein the first connector member and the second connector member are screwed to the socket member by forming a bonding layer between the respective screw grooves and the respective threads to be screwed to each other,
Adapter for metal sheathed cables.

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