SU1366226A2 - Pneumatic injector - Google Patents

Abstract

The invention relates to pulsating nozzles with a nozzle surrounding the second nozzle in approximately one plane, and is additional to autor. K 611683. The purpose of the invention is to increase the efficiency of the nozzle. For this purpose, additional liquid and gas channels are made in the housing, with the additional gas channel communicating on the one hand with the main gas supply channel and on the other with the gas chamber, and an additional liquid channel communicating on the one hand with the liquid chamber, and on the other with the main channel of the liquid supply. The nozzle, in addition, is provided with control valves placed in additional gas and liquid channels in places of their communication with the respective chambers. 1 hp f-ly, 2 ill. from € (L

Description

The invention relates to pulsating nozzles with a nozzle surrounding the second nozzle approximately in the same plane, and is complementary to the auth. No. 611683.

The purpose of the invention is to increase the efficiency of the nozzle.

FIG. 1 shows the proposed pneumatic nozzle, a slitJ in FIG. 2 shows a section BB in FIG. one.

The pneumatic nozzle contains a composite case made of two parts - the upper 1 and lower 2, and a pulsator, made as a reinforced in the case between its upper 1 and lower 2 parts of the flexible membrane 3 with the axis 4 fixed in the center and the washer 5. On the upper The end of the axis 4 is fixed to the gas valve 6, and at the bottom - the liquid valve 7, the membrane divides the internal cavity of the nozzle into two chambers - a gas 8, located above the membrane, and a liquid 9, located below the membrane. The upper part of the body is made in the form of a glass, tilted upside down. Along the axis of this glass, in its end wall, there is a main channel 10 for supplying gas in the form of a recess on the inner side, and in the side wall there is an inlet gas channel 11 in the form of a through radial opening. Radial L-shaped gas channels 12 are made in the side and end walls of the upper part of the housing 1. In addition, an additional gas channel 13 is made in the end wall in the form of an L-shaped radial channel connecting the gas chamber 8 with the main channel 10 gas supply, and opposite the vertical section of the additional gas channel 13, a gas valve 14 is installed. In the gas chamber 8 between the end wall of the upper part of the housing 1 and the washer of the pulsator 5 a spring 15 is coaxial with the case. glass with a through central stepped hole in the end wall, and the lower part of the hole has a larger diameter than the upper. Inside the narrow part of this hole is installed internal nozzle 16 with the main channel 17 for supplying fluid. In the lower part of the main channel 17 for supplying a liquid, a liquid nozzle 18 is formed. Inside the liquid nozzle 18 there may be

an insert 19 is provided with screw channels for providing centrifugal outflow of fluid or with screw and central channels for providing centrifugal jet flow, i.e. filling the cone torch. An annular groove is formed on the outer surface of the inner nozzle 16; an annular liquid channel 20 is formed with the inner surface of the narrow part of the opening. To connect the main supply channel 17 - the liquid with the annular liquid channel 20, the connecting liquid channels 21 are made in the form of through holes in the cylindrical part of the inner nozzle 16 Inside the wide part of the hole in the end wall

In the lower part of the housing 2, an outer nozzle 22 is formed, forming with the inner nozzle 16 an annular gas channel 23, which passes into a gas nozzle 24 for a spraying gas,

In the annular gas channel 23 and (or the gas nozzle 24), an apparatus 25 may be installed to twist the flow of the atomizing gas. In the side and end walls of the lower part of the housing 2, radial L-shaped gas channels 26 are also made, connecting the gas L-shaped channels 12 of the upper part with the annular gas Channel 23. In addition, an additional liquid channel 27 is formed in the end wall A l-shaped radial channel connecting the liquid chamber 9 to the annular liquid channel 20. Opposite the vertical section of the additional liquid channel 27, a liquid valve 28 is installed. In the side wall of the lower part of the body 2 there is a supply liquid stny channel 29 as a through

radial hole. The seal in the joints of the L-shaped gas channels 12 of the upper part with the L-about different gas channels 26 of the lower part is made using gaskets 30,

The nozzle works as follows.

The sprayed liquid through the supply liquid channel 29 is fed into the liquid chamber 9, and the sowing gas through the supply gas channel 11 - into the gas chamber B. At the same time, the liquid valve 7 almost completely blocks the main channel 17

31

Yes, a small amount of liquid enters the liquid and into it through the gap, as well as through the additional liquid channel 27. Since the flow rate of the liquid is small, the pressure in the liquid chamber 9 increases and overcomes the gas pressure in the gas chamber 8 and the resistance of the spring 15 bends the membrane 3. The axis 4 moves upward, completely opening the main liquid supply channel 17 and completely blocking the main gas supply channel 10. The maximum amount of liquid entering through the main liquid supply channel 17 and the additional liquid channel 27 is sprayed with minimal co

through the additional gas channel 13, which leads to the formation of a narrow torch of large drops. The pressure in the liquid chamber 9 drops sharply and the membrane 3 under the action of pressure in the gas chamber 8 and the spring 15 is moved to the lower position, completely opening the main gas supply channel 10 and completely crossing the main liquid supply channel 17. In this case, the minimum amount of liquid entering only through the additional liquid channel 27 is sprayed with the maximum amount of gas flowing through the main cell. If the disintegrating gas pressure is the height of the pressure of the liquid to be dispensed, axis 4 is set so that in the middle position of the diaphragm 3 inlet into the main channel 10 gas supply is closed, and in the main channel 17 for supplying a liquid is open. The spring 15 when this moves from the gas chamber 8 to

0 liquid chamber 9. The rest of the nozzle works as described. The twisting of the liquid and gas flows (both counter and parallel) can be obtained and

5 without the use of an EIA 19 and device 25. This is possible with a tangential with respect to the annular gas channel 23 of the arrangement of horizontal sections of L-shaped gas

0 channels 26, as well as when tangential with respect to the main channel 17 for supplying liquid, the location of connecting liquid channels 21.

25

thirty

Claims (2)

Invention Formula 1, Pneumatic nozzle according to ed. No. 611683, characterized by the fact that, in order to increase the efficiency of the nozzle, additional channels, bone and gas channels are made in the housing, while the additional gas channel is communicated on one side with the main gas supply channel, and on the other side gas 10 gas supply and additional chamber, and an additional liquid -1 t; -jS gas channel 13, which leads to the formation of a wide torch of small droplets. The pressure in the fluid chamber 9 rises, in the gas chamber 8 falls, and the membrane 3 is transferred to the upper position, and a new cycle begins. The selection of the spring 15 with the appropriate rigidity, you can get the desired frequency of the pulsations. the channel is communicated on one side with the bone chamber, and on the other with the main supply channel. 2. The nozzle according to claim 1, of which it is provided with 4Q gaskets with the fact that it is provided with additional gas and liquid channels placed in places of their communication with the corresponding chambers and control valves. -jS the channel is communicated on one side with the bone chamber, and on the other with the main supply channel. 2. The nozzle according to claim 1, of which it is provided with 4Q gaskets with the fact that it is provided with additional gas and liquid channels placed in places of their communication with the corresponding chambers and control valves. 12 5 5 {JO 26 GD I d / n,, w; figl 26 sixteen rr 26 21 3 / Y l T7 Z4 29 / 7 gz W fie.2