SU58797A1 - Tubular Discharge - Google Patents

Description

The subject matter of the invention, but to this author's certificate, is a Torok tube type discharge, i.e., gas blast created by the decomposition of a fiber or the like 1 which forms in air (1 volt arc).

In known dischargers of this type, compressed gas, creating a blast, has a very high internal energy, since the heat, which reduces the gradients of extinguishing at the arc blowing with this hot gas, no matter how rationally this blast is used.

The only correct way to effectively leap in increasing arc quenching gradients in tubular dischargers is to cool the i-ase, producing the blast, or to cool the sphere where the arc is burning.

Thus, it is not accidental that 1; the tests are separate1) 1X researchers to cool the gas that they tried to achieve by cooling the device with special deionizers in a reserve) -are or on the rod electrode itself. These measures, however, are not yes. I.: They are results that couldn’t, and they couldn’t give any significant effect on gas cooling of the hot gas.

More efficient measures are needed for cooling.

Here, however, there is a contradiction between the high degree of pressure and considerable cooling. Trying to feel the cooling of the gas under other unchanged conditions leads to a decrease in pressure, a decrease in the intensity of blowing and other undesirable phenomena.

Consequently, the gas must be removed. Ox.ido so as not to cause damage to the intensity to blow. It is necessary to achieve local cooling directly in the area where the arc was burning, but this still will not resolve the issue.

It is necessary to cool the gas (by local cooling) so that the cooling starts to be carried out at the points in time immediately adjacent to the moment at the passage of the accompanying current through zero, t. when the energy release by the arc || is actually prekrankha, otherwise the measures would not have given them.

In the proposed resolution, the stated goal is achieved in a very simple way. Instead of the massive rod electrode used in the known gaps, the proposed gaps use a tubular electrode whose internal channel is connected to the atmosphere. Then, when the gas outflows, fresh cold air will be sucked in | (injected) from the atmosphere directly into the arc gap due to the injection effect of hot gases flowing around the end of the electrode.

Thus, the flow of cold air will give sensitive cooling, and this last takes place only in the sphere where the arc burned and manifests itself at times close to the passage of current through zero, because the blast that causes the injection starts at the same moments.

The invention is illustrated in the drawing; in FIG. 1, the keenly proposed pattern is shown in a partial longitudinal section; FIG. 2 is a variant of one of the parts.

The proposed arrester is a fibroquelite tube 1, 2, open on one side for exhaust gases through an exhaust hole in the iron electrode 7. On the other hand, an electrode 6 with an internal one is inserted through the tube. a channel 11 connecting through the bottom of the tank 3 to the atmosphere. The electrode 6 is mounted on the bottom of the tank 3, and the latter is mounted on the metal holder 4 mounted on the tube 1.

The Xu 2 fiber has a stepwise re-drilling, i.e. a narrowing at the exhaust end, and in this narrowed space there is a narrowed end 5 of electrode 6.

When a lightning strikes a protected object, an overvoltage wave overlaps the outer 12 and inner 13 gaps, formed by the first - wire 15 and electrode 14 attached to the yoke 4, and the second - by the end 5 of electrode 6 and electrode 7. fiber 2, as a result of which the pressure in the space of the gap 13 rises. Some of the gases exits through the exhaust hole in electrode 7, and

part goes to tank 3 and is compressed here — is accumulated until the current in the arc passes through zero. After that, there will be a powerful stream of gas from reservoir 3 through electrode 7; This gas flow, passing past the end of the electrode 6, will inject air through the internal channel 11 of the electrode 6 into the sphere of the gap 13. The supply of cold and electrically strong air to this gap will provide high quenching gradients.

Stepped drilling of the fiber 2 and expansion of the cavity of the electrode 6 is essential from the point of view of reducing the pressure loss in the channel of the electrode and approaching a sufficiently large volume of cold air to the end 5 of the electrode 6.

To protect the internal channel of the electrode 6 from ingress of moisture and moisture (precipitation), the tube is provided with a visor 9 or a cup 10 (in Fig. I, the position of the cup 10 is shown by a dotted line).

In order to reduce local resistances to the flow of gases into tank 3, it is possible to perform a transition between the tube 1, 2 and the sleeve 4 rings 16 made of aluminum (and not iron, as is usually done) so as to reduce the magnetic flux around electrode 6 (through which current flows). and the interaction of this flow with ionized moving gas particles, since, according to the inventor, this interaction creates the above local resistances.

The subject matter of the invention.

A tube type Torok tube, i.e., with a gas tube created by the decomposition of a fiber or similar gas-generating material when exposed to a volt arc material, characterized in that the rod electrode is made hollow and its internal cavity has a message with the atmosphere to creating a stream of fresh air through the electrode into the tube due to the injection effect of gases flowing around the end of the electrode.

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