SU1756618A1 - Reversive electrostatic blower - Google Patents

Description

seals the load and deformation of the membrane and increases the resource.

The connection of the cavities between them in parallel allows reducing the space between the membranes, and, consequently, their displacement, internal stresses and deformations in them, which entails an increase in durability.

FIG. 1 shows the reversible electrostatic supercharger in FIG. 2a b. in - the phases of his work.

A reversible electrostatic supercharger comprises a housing 1, elastic membranes 2-11 with an electrically conductive coating 12-21, cavities 22-31, nozzles 32 and 33, channels 34-43, a source 44 of a constant voltage, and a source 45 of an alternating voltage.

Reversible electrostatic supercharger works as follows.

A constant voltage from a source 44, for example, a positive voltage is applied to the conductive coatings 12, 16, and 20 of the elastic membranes 2, 6, and 10, an opposite voltage is applied to the electrically conductive coatings 14 and 18 of the elastic membrane 4 and 8, for example, negative An alternating voltage from the source 45 is applied to the electrically conductive coatings 13, 17, 21, 15 and 19 of the elastic membranes 3, 7, 11, 5 and 9, and the phase of the voltage to the electrically conductive coating 13, 17 and 21 is opposite to the phase of the voltage on electrically conductive coatings 15 and 19.

At the initial moment of time, a positive voltage (+ U) is applied to the electrically conductive coatings 13, 17, and 21, and a negative voltage (-U) is applied to the electrically conductive coatings 15 and 19. As a result of electrostatic forces (like charges repel each other, opposite ones are attracted) elastic membranes 2-11 will bend and assume the position shown in fig. 2a This will result in an increase in the volume of the cavities 22, 24, 26, 28 and 30 and a decrease in the volume of the cavities 23, 25, 27, 29 and 31. A fluid, such as gas, is pushed out of the cavities 23, 25, 27, 29 and 31 through

the channels 34 i8 and the pipe 32 and are sucked in through the pipe 33 and the channels 39-43 in the cavity 22,24,26 8 and ZO.

At the next point in time, a negative voltage (-U) is applied to the electron-conducting coatings 13, 17, and 21, and a positive voltage (+ U) is applied to the electrically conductive coatings 15 and 19. As a result of the electrostatic forces, the elastic membranes 2-11 will bend and assume the position shown in FIG. 26. This will result in an increase in the volume of the cavities 23, 25, 27, 29 and 31 and a decrease in the volume of the cavities 22, 24, 26, 28 and 30. A fluid, such as gas, is pushed out of the cavities 22,24,26, 28 and 30 through channels 39-43 and pipe 33 and sucked through pipe 32 and channels 34-38 in cavity 23, 25, 27, 29 and 31.

At subsequent times (FIG.

2c) on the electrically conductive coatings 13,15, 17, 19 and 21 there is a sequential change in voltage (an alternating electric field is created), as a result of which the cavities 22-31 periodically change

its volume and fluid are pumped in reverse through the nozzles 32 and 33.

In the proposed reversible electrostatic supercharger there are no rotor and an electric motor in comparison with a pump, i.e. all mechanically moving parts, which allows for an increase in the service life of the supercharger.

Claims (1)

Claims of the invention A reversible electrostatic blower, comprising a housing mounted therein to form working chambers, a package of parallel flexible conductive membranes connected at least one to an AC source, and two nozzles, characterized in that, in order to increase durability, the blower is provided with a source direct current, to which the membranes are connected, which are located between the membranes, connected to the source of alternating current, and the working chambers between the membranes are hydraulically connected dinene through one with one of the two pipes.  } (I M GTGHD1, (, y Tj, Ј / .(/ -and | / tf ftf I -U -U I + C C  Ij eight TT | TTTTT |) 7.) T (  -and I-a (/ | w TP / I th - " ( w w (-Y -i (and u f h / -w f u i / ft / 8.2 Compiled by I. Kisner Redector A. Kozoriz Tehred M. Morgen Correlator M. Petrova