RU82375U1 - COAXIAL IGNITION CABLE - Google Patents

Abstract

1. Coaxial cable containing a Central conductor, an insulator, an external conductor made in the form of a spiral from a wire located along the axis of the cable, and a sheath, characterized in that the turns of the spiral are isolated from each other. ! 2. Coaxial cable according to claim 1, characterized in that the spiral is made of a flat bundle of wires. ! 3. Coaxial cable according to claim 1, characterized in that the spiral is made of a flat "braid" of wires. ! 4. Coaxial cable according to claim 1, characterized in that the Central conductor is made in the form of a round bundle of wires.

Description

The proposed utility model relates to the field of electrical engineering, in particular to the ignition systems of internal combustion engines.

Known ignition cable in the form of an insulated stranded copper conductor, which can be used in engines.

The resistance of the known conductor was almost zero (R = 0). This avoided the loss of electrical energy.

However, the level of radio interference was high, as the cable worked as a radio transmitter antenna.

In modern engines and cars, many electronic devices are used, so the problem of electromagnetic compatibility has arisen. It is solved using distributed resistance in the ignition cables.

Cables are known in which the resistance is R = 12-17 nOhm / m. In them, the conductive material is made in the form of an insulator impregnated with coal dust. The level of radio interference has fallen, but the loss of spark electric energy has increased.

Known ignition cable, in which the conductive element is made of wire with high resistance, wound on a magnetic core. The resistance decreased to R = 1.5-5 kOhm / m, and the level of radio noise fell due to the distributed inductance. However, the price of cable has risen.

A coaxial ignition cable is known in which the resistance is zero, and the distributed capacitance C increases the power of the spark (see PCT / US 98/05360.)

However, such a cable emits powerful decaying radio pulses, since the discharge current moves linearly along the axis of the cable.

The closest in technical essence to the proposed device is a coaxial cable containing a Central conductor, an insulator, an external conductor and a sheath (see patent SU No. 1602250).

In a known construction, the outer conductor is made in the form of a spiral located along the axis of the cable from a flat wire coated with solder, and the edges of the coils of the spiral are also filled with solder. Disadvantages:

In terms of technical nature, this solution is no different from the classic coaxial cable, i.e. the spiral coils of the outer conductor are soldered and form a monolithic structure, and therefore has the same disadvantages.

However, the discharge current moves linearly along the axis of the cable, which leads to large radio interference.

The problem solved by the proposed utility model is the creation of a coaxial cable that allows to increase the power of the spark without loss of electricity and radio interference.

The technical result in the proposed utility model is achieved by creating a coaxial cable containing the central conductor of the insulator, an external conductor made in the form of a spiral of flat wire located along the axis of the cable and a sheath in which, according to the utility model, the turns of the spiral are isolated from each other.

The implementation of the spiral from a flat bundle of wires allows you to increase the capacity of the cable and reduce its diameter.

The implementation of the spiral of a flat "braid" of wires will further reduce the stiffness of the cable and increase its mechanical strength.

The execution of the Central conductor in the form of a round bundle of wires reduces the mechanical strength of the cable.

The essence of the proposed utility model is illustrated by the following description of the design and the drawing, which shows the design of the coaxial cable.

The coaxial cable contains a central conductor 1, an insulator 2, an external conductor made in the form of a spiral from a wire, for example, flat, located along the axis of the cable, and the coils 3 of the spiral are isolated from each other, and the sheath 4. The insulator 2 provides electrical strength of the cable. The sheath 4 fixes the position of the turns 3 of the outer conductor and provides mechanical strength of the cable.

The proposed coaxial cable works as follows:

The central conductor 1 is connected on one side to a source of high voltage voltage pulses (not shown in FIG.), And on the other hand to a spark plug.

An external conductor is connected to the “mass” of the internal combustion engine (not shown in FIG.).

When applied to the central conductor 1, a high voltage cable distributed capacitance C (between the center and outer conductors) accumulates electrical energy E = CU ^2/2 where U-breakdown voltage of the spark plug.

At the time of breakdown, a discharge of the distributed capacitance C occurs. In this case, the discharge current flows in a spiral, which leads to the concentration of the electromagnetic field in the central conductor 1, i.e. to a significant reduction in radio emission.

A prototype of the proposed coaxial cable was manufactured and tested.

The results obtained in comparison with the prototype showed:

as well as in the prototype there is no loss of electricity and the maximum power of the spark is achieved;

At the same time, there is practically no radio interference.

It should also be added that the proposed cable is quite simple and cheap to manufacture, and also increases operational safety (you can take the cable by hand).

Claims (4)

1. Coaxial cable containing a Central conductor, an insulator, an external conductor made in the form of a spiral from a wire located along the axis of the cable, and a sheath, characterized in that the turns of the spiral are isolated from each other. 2. Coaxial cable according to claim 1, characterized in that the spiral is made of a flat bundle of wires. 3. Coaxial cable according to claim 1, characterized in that the spiral is made of a flat "braid" of wires. 4. Coaxial cable according to claim 1, characterized in that the Central conductor is made in the form of a round bundle of wires.