RU169801U1 - Cable triboelectric vibration hardened modernized KTVU-M - Google Patents

Abstract

The utility model relates to the field of electrical engineering and is intended for use as a sensitive element in vibroseismic security equipment. Triboelectric cable, contains an inner conductor in the form of a spiral of metal wires, placed inside a hollow dielectric layer. The cable also contains a screen made of aluminum foil-coated polymer tape, external conductors located between the screen and the dielectric layer, and a protective sheath made of polymer material. At the same time, a PET-E polyethylene terephthalate film with positive overlap is longitudinally laid inside the hollow dielectric insulating layer, and the screen is made in the form of a braid or winding with a coating density of at least 85% of copper wires, in addition, a screen in the form of a braid or winding from steel wires is additionally contained on top of which is another outer shell of polymer materials. The technical result is to increase the sensitivity to mechanical stress, increase the working frequency range, as well as expand the scope of the cable due to the possibility of laying both outdoors and in the ground. 4 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of electrical engineering and is intended for use as a sensitive element in vibroseismic security equipment.

Known vibration-triboelectric converter (RF patent No. 104694, 01/14/2011, IPC G01B 7/00) containing an inner conductor located inside the dielectric insulating layer, a shield, an outer conductor and a protective sheath of a polymeric material, characterized in that the inner the conductor is made in the form of a spiral, consisting of one or more metal wires and placed inside a hollow dielectric insulating layer, the screen is made of aluminum foil-coated polymer tape, applied in a spiral or one or more external conductors are placed between the screen and the dielectric insulating layer, a protective sheath of polymer material is located on top of the screen, while the ratio of the maximum external diameter of the spiral and the minimum internal diameter of the dielectric insulating layer is in the range 0.92 ÷ 5.4, and the outer diameter of the containment is not more than 7.0 mm.

The triboelectric vibration transducer, characterized in that the dielectric insulating layer is made of fluoroplastic, and the protective sheath is made of a polymer non-combustible, halogen-free material with reduced gas and smoke emission.

A disadvantage of the known Converter are low sensitivity to mechanical stress, the limited use of the Converter.

In this technical solution, the screen is one, and is made of aluminum foil-coated polymer tape, applied in a spiral or longitudinal manner.

As is known, a foil screen has low mechanical strength. Consequently, the use of the converter is limited.

The technical result achieved by the proposed utility model is to increase the sensitivity to mechanical stresses, increase the working frequency range, and also expand the scope of the cable due to the possibility of laying both outdoors and in the ground.

The technical result is achieved by a triboelectric cable containing an internal conductor in the form of a spiral of metal wires placed inside a hollow dielectric layer, a screen made of aluminum foil-coated polymer tape, external conductors located between the screen and the dielectric layer, and a protective sheath made of a polymeric material, characterized in that inside the hollow dielectric insulating layer, a PET-E polyethylene terephthalate film with positive overlap is longitudinally laid, and the screen is designed as braiding or winding density of the coating is not less than 85% of copper wires furthermore additionally comprises a screen as a braid or coil of steel wires, which is superimposed on top of another outer shell made of polymeric materials.

In FIG. 1 shows a cable triboelectric vibration hardened modernized KTVU-M, where:

1 - inner conductor, made in the form of a spiral with a diameter of D1 = 2.0 ± 0.2 mm from metal wires, with a diameter of 0.26-0.30 mm,

2 - a hollow dielectric insulating layer with a diameter of D2 = 6.0 mm, insulation thickness 1.0 + 0.2 mm,

3 - PET-E polyethylene terephthalate film with a nominal thickness of not more than 50 μm with positive overlap,

4 - a screen in the form of a braid or winding of copper wires with a diameter of 0.15 mm, the coating density of at least 85%,

5 - a shell of polymeric materials, a nominal thickness of 0.8 mm,

6 - screen in the form of a braid or winding of steel wires with a diameter of 0.30 mm,

7 - the outer shell of polymeric materials, the nominal thickness of 1.0 mm

The inner conductor 1 is made in the form of a spiral, a twisted turn to a turn of two metal wires, and is located inside a hollow dielectric insulating layer 2, inside of which a PET-E polyethylene terephthalate film with positive overlap 3 is longitudinally laid, screen 4 made in the form of a braid or winding of copper wires with a coating density of at least 85%, a sheath of polymer material 5 is located on top of the screen 4, a screen 6 made in the form of a braid or winding of steel wires, the outer sheath is made of polymer material 7 .

The technical result of the use of the cable in the ground, and not just in the open air, is achieved by the fact that in the cable of the triboelectric vibration hardened modernized there are two screens in the form of a braid or winding of copper 4 and steel wires 6. As is known, the foil screen has low mechanical strength. Therefore, the use of the converter is limited (RF patent No. 104694, 01/14/2011, MPK G01B 7/00).

In addition to this, the cable has two sheaths 5 and 7.

The main technical result is an increase in cable sensitivity.

Cable sensitivity is enhanced by several factors.

1. As you know, in order to protect cable products (including converters) from the effects of external electromagnetic fields (the so-called "interference"), screens are used.

In the general case, the efficiency of the screen (i.e., the degree of attenuation of the electromagnetic field) is due to its two properties: energy absorption during the passage of the electromagnetic wave through the conducting medium and reflection of the wave at the interface between two media.

Both of these phenomena depend on the materials used as a screen. It is known that the best absorption of an electromagnetic wave is provided by ferromagnetic materials (steel), and the best reflection is diamagnetic materials (copper). Thus, the proposed cable shielding efficiency is achieved in two ways.

Since the penetration depth of an electromagnetic wave into a metal depends inversely on the frequency of this wave, it is obvious that the thicker the shielding metal layer, the greater the frequency range it will effectively weaken the electromagnetic field.

Thus, if we consider the operation of the converter (prototype) and the proposed cable under equal conditions, then the sensitivity of the proposed cable will be higher than the sensitivity of the prototype, since external electromagnetic fields will “drown out” the signal more strongly in the converter (prototype).

2. In addition, a polyethylene terephthalate PET-E film with positive overlap is additionally laid in the inventive cable of a triboelectric vibration hardened reinforced modernized under a hollow dielectric insulating layer.

In the proposed cable, the triboelectric effect occurs during friction of the inner conductor 1 and the PET-E 3 film, the PET-E 3 film and the insulating layer 2, the insulating layer 2 and the screen 4, which leads to the appearance of electric charges. There is triple friction. Thus, the number of contacts increases.

In the case of using a PET-E film, the likelihood of contact of the inner conductor with it increases due to surface irregularities in individual areas, against a perfectly even inner surface of the insulating layer.

Thus, the design solutions used in the cable distinguish it from known solutions. Moreover, the signal level is more than 6 times higher than the signal of the prototype.

The inventive cable has novelty, is industrially applicable, and has several advantages over well-known analogues.

Information sources:

1. RF patent No. 104694, 01/14/2011, IPC G01B 7/00.

Claims (1)

A triboelectric cable containing an internal conductor in the form of a spiral of metal wires placed inside a hollow dielectric layer, a screen made of aluminum foil-coated polymer tape, external conductors located between the screen and the dielectric layer, and a protective sheath made of a polymeric material, characterized in that it is inside the hollow dielectric PET-E polyethylene terephthalate film with positive overlap is longitudinally laid on the insulating layer, and the screen is made in the form of a braid or winding with a density of ytiya not less than 85% of copper wires furthermore additionally comprises a screen as a braid or coil of steel wires, which is superimposed on top of another outer shell made of polymeric materials.

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