RU167772U1 - CABLE TRIBOELECTRIC VIBRATION KTV-Mf - Google Patents

Abstract

The utility model relates to the field of electrical engineering and is intended to be used as a sensitive element of security equipment, devices for monitoring and recording mechanical influences, and for laying outdoors, in the ground and in water. The triboelectric vibration cable KTV-Mf solves the problem of increasing sensitivity by increasing the effect of contact electrification, increasing cable service life, improving cable installation conditions. The problem is solved by triboelectric cable containing a directional conductor placed inside a hollow dielectric insulating layer, a shield, an outer conductor and a protective sheath made of a polymeric material, characterized in that the inner conductor is made in the form of a spiral, a twisted turn to a turn of metal, bimetallic or three-layer metal wires, and is located inside the hollow dielectric an insulating layer inside which a PET-E polyethylene terephthalate film with positive overlap is longitudinally laid. In addition, the outer conductor is made of metal rods (copper or steel), from bimetallic wires (copper, tin coated or copper coated with nickel), three-layer are made of steel-copper wire coated with tin. In addition, a PET-E film is additionally laid under the hollow dielectric layer, which allows increasing the triboelectric effect for due to "triple friction" and an imperfectly flat surface, which leads to an increase in random contacts. The vibration triboelectric cable KTV-Mf is industrially applicable and can be used in areas such as security technology and among

Description

The utility model relates to the field of electrical engineering and is intended for use as a sensitive element of technical security equipment, devices for monitoring and recording mechanical influences, and for laying outdoors, in the ground and in water.

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.

2. The vibratory triboelectric converter according to claim 1, characterized in that the dielectric insulating layer is made of fluoroplastic.

3. The vibratory triboelectric converter according to claim 1, characterized in that the protective shell is made of a polymer non-combustible, halogen-free material with reduced gas and smoke emission.

The disadvantages of the known Converter are low sensitivity to mechanical stress, low resistance to corrosion.

The technical result achieved by the proposed utility model is to increase the sensitivity by increasing the effect of contact electrification, increasing the life of the cable.

The technical result is achieved by a triboelectric cable containing an internal conductor, 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 longitudinally with a positive overlap with a metal layer to the dielectric the insulating layer, between the screen and the dielectric insulating layer there is one or more external conductors, A protective shell made of a polymeric material is located on the screen side, characterized in that the inner conductor is made in the form of a spiral, a twisted turn to a turn of two metal, bimetallic or three-layer metal wires, and is located inside a hollow dielectric insulating layer, inside which a PET- E with a positive overlap.

The technical result is also achieved by a triboelectric vibration cable, in which the inner conductor is made of metal, bimetallic or three-layer metal wires.

Some options. Metal wires - copper or steel. Bimetal - tin coated copper; nickel plated copper. Three-layer - tin coated steel-copper wire, etc. An additional coating (for example, tin) allows you to protect the metal from oxidation and corrosion as much as possible, which extends the life of the cable. Also, tinning makes it easier to install the cable (when soldering the internal conductors).

In FIG. 1 shows a cable triboelectric vibration KTV-Mf, where:

1 - inner conductor, made in the form of a spiral with a diameter of D1 = 2.0 ± 0.2 mm from metal, bimetallic or three-layer 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 made of aluminum foil or aluminum foil-coated polymer tape imposed in a spiral or longitudinally with a positive overlap of at least 12%,

5 - external conductor of two contact tinned copper wires with a diameter of 0.26-0.3 mm,

6 - a protective shell made of polyethylene with a thickness of 2.2 mm - 0.2, the diameter of the EZ shell min. 9.5 mm max. 11.6 mm. Local increases in outside diameter are allowed.

Construction length is equal to or a multiple of 128 + 2 m, small sections - not less than 45 m and not more than 15% of the lot.

The inner conductor 1 is made in the form of a spiral, a twisted turn to a turn of metal, bimetallic or three-layer metal wires, and is located inside a hollow dielectric insulating layer 2, inside of which PET-E polyethylene terephthalate film with positive overlap 3 is longitudinally laid, screen 4 made of aluminum foil or aluminum foil-coated polymer tape helically or longitudinally positively overlapped by a metal layer to a dielectric insulating layer 2 between the screen 4 and a series of external conductors 5 are longitudinally stacked with a dielectric insulating layer 2, and a protective sheath of polymer material 6 is located on top of the screen 4.

The main technical result is an increase in cable sensitivity.

Cable sensitivity is enhanced by several factors:

1. Cable operation is based on triboelectric effect. To evaluate how the materials will be charged when they are rubbed against each other, they are placed in a triboelectric series (experimental data). Using this series, you can get an idea of how different materials will interact with each other. The closer the materials in the indicated row are to each other, the smaller charges will be formed as a result of the contact of these materials. So, in the case of the manufacture of an inner conductor of steel wire, the triboelectric effect will be better than with copper wires.

Triboelectric series: glass, nylon, wool, aluminum, paper, steel, rubber, copper, silver, polyester synthetic plastic; celluloid, polyurethane, polypropylene, PVC, silicon, teflon.

The cable is usually attached along the fence (perimeter security) and connected through the amplifier unit to the recorder. Cable operation is based on triboelectric effect. When external mechanical interference (vibration, deformation, etc.) occurs, friction of the inner conductor 1 and PET-E 3 film, PET-E 3 film and insulating layer 2, insulating layer 2 and screen 4, which causes the appearance of electric charges on inner and outer conductor 1 and 5. Protection from external electromagnetic fields is performed by screen 4. The sheath 6 is responsible for the integrity of the cable structure.

When connecting the cable to the recorder through the amplifier unit, the resulting triboelectric charges (output electrical signal) will be displayed on the recorder screen. The signal level is directly proportional to the strength of the mechanical impact. Based on the obtained graphs, one can judge the nature of external mechanical influences.

2. The technical result is achieved in that a PET-E polyethylene terephthalate film with positive overlap is additionally laid in the triboelectric vibration cable under the 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 a "triple friction." Thus, the number of contacts increases, which provides increased sensitivity by increasing the effect of contact electrification, increasing the cable service life.

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 4 times higher than the signal of the prototype.

The inventive cable is novel, industrially applicable and can find application in areas such as security equipment among perimeter means of detecting violations.

Information sources:

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

Claims (3)

1. Triboelectric cable containing an inner conductor placed inside a hollow dielectric insulating layer, a shield, an outer conductor and a protective sheath of a polymeric material, characterized in that the inner conductor is made in the form of a spiral, a twisted coil to a coil of metal, bimetallic or three-layer metal wires , and is located inside a hollow dielectric insulating layer, inside of which a PET-E polyethylene terephthalate film with positive overlap is longitudinally laid. 2. Triboelectric cable according to claim 1, characterized in that the outer conductor is made of metal wires (copper or steel), of bimetallic wires (copper, tin coated or copper coated with nickel), three-layer made of steel-copper wire coated with tin.  3. The triboelectric cable according to claim 1, characterized in that a PET-E film is additionally laid under the hollow dielectric layer.

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