CN101615447A - Electromagnetic effect-increasing integral control cable network - Google Patents

Abstract

A kind of electromagnetic effect-increasing integral control cable network, the multiple conducting wires bundle that constitutes cable system is arranged, the concentrated part integral body of multiple conducting wires bundle is wrapped up by first integument, and the part that is used for being connected with other lead of stretching out the first integument two ends of multiple conducting wires bundle is enclosed with second integument separately respectively.The multiple conducting wires bundle is many bundle conductors according to the set different core numbers of transmission unlike signal, different cross section, different structure.First integument and second integument are the integuments of same structure and same material.First integument and second integument include from the inside to the outside and are made of metallized carbon fibrage, insulating medium layer, silver coating, copper plate, nickel coating and sheath successively.The metallized carbon fibrage adopts copper coating metallization carbon fiber or silver-plated copper metallized carbon fiber or nickel-clad copper metallized carbon fiber.The present invention has guaranteed that cable improves electromagnetic pulse-resisting and radiation hardness ability, realizes that volume is little, in light weight, fire-retardant, improve reliability of products, to satisfy the needs of space industry complex environment.

Description

Electromagnetic effect-increasing integral control cable network

Technical field

The present invention relates to a kind of cable system, particularly relate to a kind of electromagnetic effect-increasing integral control cable network of forming by total shielding of multiple composite monolithic metal-plated and the whole airtight sheath of flame-proof PVC etc.

Background technology

The cable system product of using in space industry at present adopts conventional manual bunched cable or cable system mostly.The application of this product can always shield scheme and whole airtight sheath by multiple composite monolithic metal-plated, improves the ability and the reliability of cable system electromagnetic pulse-resisting.

Usually, owing to adopt conventional manual bunched cable or cable system at present mostly, the performance of its electromagnetic pulse-resisting mainly realizes poor effect by the single shielding form of lead; Perhaps adopt the mode of the total shielding of wire netting, quality is increased, the burr difficult treatment of wire netting existence simultaneously easily causes hidden danger.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of and be made up of total shielding of multiple composite monolithic metal-plated and the whole airtight sheath of flame-proof PVC etc., and guaranteed that cable improves the electromagnetic effect-increasing integral control cable network of electromagnetic pulse-resisting and radiation hardness ability.

The technical solution adopted in the present invention is: a kind of electromagnetic effect-increasing integral control cable network, the concentrated part integral body that includes the described multiple conducting wires bundle of multiple conducting wires bundle that constitutes cable system is wrapped up by first integument, and the part that is used for being connected with other lead of stretching out the first integument two ends of described multiple conducting wires bundle is enclosed with second integument separately respectively.

Described multiple conducting wires bundle is many bundle conductors according to the set different core numbers of transmission unlike signal, different cross section, different structure.

Described first integument and second integument are the integuments of same structure and same material.

Described first integument and second integument include from the inside to the outside and are made of metallized carbon fibrage, insulating medium layer, silver coating, copper plate, nickel coating and sheath successively.

Described metallized carbon fibrage adopts copper coating metallization carbon fiber or silver-plated copper metallized carbon fiber or nickel-clad copper metallized carbon fiber.

Described dielectric adopts polyethylene or polyvinyl chloride or polyurethane elastomer insulating medium layer.

Described sheath is the whole sheath of flame-proof PVC.

Electromagnetic effect-increasing integral control cable network of the present invention has guaranteed that cable improves electromagnetic pulse-resisting and radiation hardness ability, realizes that volume is little, in light weight, fire-retardant, improve reliability of products, to satisfy the needs of space industry complex environment.

Description of drawings

Fig. 1 is an overall structure schematic diagram of the present invention;

Fig. 2 is the structural representation of first integument, second integument.

Wherein:

1: 2: the first integuments of bundle conductor

3: the second integument a: metallized carbon fibrage

B: insulating medium layer c: silver coating

D: copper plate e: nickel coating

F: sheath

Embodiment

Provide specific embodiment below in conjunction with accompanying drawing, further specify electromagnetic effect-increasing integral control cable network of the present invention and how to realize.

As shown in Figure 1, electromagnetic effect-increasing integral control cable network of the present invention, include the multiple conducting wires bundle 1 that constitutes cable system, the concentrated part integral body of described multiple conducting wires bundle 1 is by first integument, 2 parcels, and the part that is used for being connected with other lead of stretching out first integument, 2 two ends of described multiple conducting wires bundle 1 is enclosed with second integument 3 separately respectively.

Because the used bundle conductor of transmission information in the cable system is to transmit different information and the existing lead of selected different size according to different users, so described multiple conducting wires bundle 1 is meant many according to the bundle conductors that transmit the set different core numbers of unlike signal, different cross section, different structure.

Described first integument 2 and second integument 3 are integuments of same structure and same material.

Described first integument 2 and second integument 3 include from the inside to the outside and are made of metallized carbon fibrage a, insulating medium layer b, silver coating c, copper plate d, nickel coating e and sheath f successively.

Described metallized carbon fibrage a can adopt copper coating metallization carbon fiber or silver-plated copper metallized carbon fiber or nickel-clad copper metallized carbon fiber.

Described dielectric b can adopt polyethylene or polyvinyl chloride or polyurethane elastomer insulating medium layer.Described sheath f is the whole sheath of flame-proof PVC.

The present invention has guaranteed that cable improves electromagnetic pulse-resisting and radiation hardness ability, fire-retardant, to satisfy the needs of space industry complex environment by adopting total shielding of multiple composite monolithic metal-plated and the whole airtight sheath of flame-proof PVC.

Claims (7)

1. electromagnetic effect-increasing integral control cable network, include the multiple conducting wires bundle (1) that constitutes cable system, it is characterized in that, the concentrated part integral body of described multiple conducting wires bundle (1) is by first integument (2) parcel, and the part that is used for being connected with other lead of stretching out first integument (2) two ends of described multiple conducting wires bundle (1) is enclosed with second integument (3) separately respectively.

2. electromagnetic effect-increasing integral control cable network according to claim 1 is characterized in that, described multiple conducting wires bundle (1) is many bundle conductors according to the set different core numbers of transmission unlike signal, different cross section, different structure.

3. electromagnetic effect-increasing integral control cable network according to claim 1 is characterized in that, described first integument (2) is the integument of same structure and same material with second integument (3).

4. electromagnetic effect-increasing integral control cable network according to claim 1, it is characterized in that described first integument (2) includes from the inside to the outside with second integument (3) and is made of metallized carbon fibrage (a), insulating medium layer (b), silver coating (c), copper plate (d), nickel coating (e) and sheath (f) successively.

5. electromagnetic effect-increasing integral control cable network according to claim 4 is characterized in that, described metallized carbon fibrage (a) adopts copper coating metallization carbon fiber or silver-plated copper metallized carbon fiber or nickel-clad copper metallized carbon fiber.

6. electromagnetic effect-increasing integral control cable network according to claim 4 is characterized in that, described dielectric (b) adopts polyethylene or polyvinyl chloride or polyurethane elastomer insulating medium layer.

7. electromagnetic effect-increasing integral control cable network according to claim 4 is characterized in that, described sheath (f) is the whole sheath of flame-proof PVC.

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