DE488155C - Method and device for preventing dust deposits on the insulators of electric gas cleaners - Google Patents

Description

Method and device for the prevention of dust deposits the insulators of electric gas purifiers when carrying out high voltage Divide through the walls of the precipitation chambers in electrical gas cleaning systems it is essential to prevent the build up of dust or condensate on it the surface of the insulators, the insulator supports and other within the To prevent high-voltage parts located in isolator chambers. Happens If this is not the case, a conductive layer is easily formed; and it can through this Flashovers occur, causing failure of the device due to the formation of a short circuit have as a consequence.

Various proposals have already been made for eliminating these deficiencies made, however, without having reached a satisfactory result.

In order to avoid that as a result of dust on the passage opening Set short circuit phenomena between the carrier and the opening edge has. size the openings large. This, however, prevents the gas flow from entering entrained dust particles to the isolators themselves still favored.

To protect the isolator chamber itself it has been proposed that To keep pressure inside this chamber higher than in the cleaning room. One has also tries to counteract dustiness by using pressed pure Gases (air) have been blown over the surface of the insulators. To carry out of these proposals where a gas stream is in direct contact with the insulators comes, but will be large quantities of gas and correspondingly extensive and costly Facilities needed if a safe effect is to be achieved.

Another suggestion that went there, in an insulating disk, which closes the passage opening to provide bores through which an air flow should be sucked, could not be satisfactory either, since those with this arrangement achieved effect is very unreliable. Even a small overpressure in the cleaning chamber, as it arises with a slight stagnation of the gases, would be with this arrangement allow the dusty gas to access the isolators.

The invention now relates to a method and a device which the deposition of dusty gas on both the surface of the insulator as prevented in the passage opening on the carrier and from the shortcomings of the older arrangements is free.

According to the invention, on the non-insulated feed-through opening for the high-voltage parts, a blower is arranged in such a way that the insulator even completely outside the range of the blow stream stands. The protective gas therefore does not need to be pure, and there will also be much smaller amounts of it used than in the older arrangements, in which a gas over the surface the isolators is conducted. The gas is expediently supplied with the aid a ring, which the supply line as tight as possible, as it is due to the flashover voltage is given, encloses. The ring carries a nozzle through which the pressed Gas is supplied, and is with an annular slot or with individual nozzle-shaped provided openings from which the gas flows out at high speed, whereupon it gradually expands and forms a veil, leaving the dust collecting chamber approaching dust particles are pushed back without causing harmful eddies develop. The space between the ring and that passed through the ring The high-voltage part is appropriately reduced in size as much as the consideration to avoid flashovers between this part and the ring.

The figures show an embodiment of the device. Fig. i shows a partially sectioned side view of the device. Fig 2 and Fig. 3 show the feed ring in cross-section and in plan view the cleaning chamber (dust chamber), b the isolator chamber, c the spray electrodes holding carrier, d the ring with nozzle e and ring slot g, f which is as small as possible distance to be kept between carrier and ring opening. The compressed gas passes through the nozzle e into the interior of the ring d and flows out of the openings at great speed. The outflow of the gas can either be in the direction as shown in the figure, or also parallel to the carrier or else done perpendicular to it. Likewise, the outflow can be directed in such a way that that the openings of the ring behind the passage opening, but with the direction after the precipitation chamber. Both metal can be used as the material for the ring as well as porcelain, steatite, quartz or the like can be used, d. H. depending on operational requirements the material of the ring can consist of solid conductors, semiconductors or non-conductors.

Claims (2)

PATENT CLAIMS: i. Method for preventing dust deposits on the insulators of electrical gas cleaners, characterized in that a gas flow is generated in the connection opening between the insulator and the dust chamber or in its vicinity, which has a direction facing away from the insulator chamber and does not come into contact with the insulator itself. 2. Device for implementation of the method according to claim i, characterized in that the smallest possible held inlet opening to the dust chamber an expediently ring-shaped trained blower is arranged, the one facing the dust chamber Side is provided with an annular gap (g) or with nozzle-shaped openings.