Device for generating a gas-droplet stream and valve

Details Device for generating a gas-droplet stream and valve Device for generating a gas-droplet stream and valve

2000-10-13

2002-11-12

Douglas, Lisa A. (Department: 3752)

Fluid sprinkling, spraying, and diffusing

Combining of separately supplied fluids

Fluid streams have angular junction

C239S526000, C239S600000

Reexamination Certificate

active

06478240

ABSTRACT:

FIELD OF ART
The present inventions relate to engineering devices designed for generating gas-droplet streams, which can be essentially used in fire fighting facilities to produce fog-type screens and directed fire extinguishing two-phase flows. Thereto, the inventions can be employed in farming—for field sprinkle and different substance dispersion, as well as at home, e.g., for disinfecting substance dispersion in the rooms.
PRIOR STATE OF THE ART
Known in the art are different types of devices for gas-droplet stream generation. Thus, e.g., the prior art device for liquid dispersion is known described in Application RU 94003528 A1, which includes a gas-dynamic nozzle connected with a toroidal vortex chamber, a water supply system connected with the chamber via injection channels, and an air supply system connected with the nozzle inlet.
During the operation of the said device the liquid is supplied through the injection channels into a toroidal vortex chamber in the form of thin streams. While outflowing through the nozzle, on account of pressure difference occurred in the vortex chamber, the liquid streams are caught by a gas flow and begin to crush into fine drops. With gas flow and liquid drop acceleration the further drop crushing takes place in the divergent part of the nozzle and an accelerated gas-droplet stream is produced at the nozzle exit. The number of injection orifices and their diameter allow to change the number and diameter of liquid streams in the vortex chamber, which finally effects the droplet diameter in a gas-droplet stream.
However, the said device does not allow independently to control liquid and gas supply to the mixing chamber during the operation. Besides, in the said device a gas-and-liquid flow acceleration is possible only in the divergent part of the nozzle, which excludes a possibility of using a nozzle in the form of a converging tube.
The mostly closely analogous device of the one claimed is the prior art device for generating a gas-droplet stream described in Application WO 98/01231 A1, which contains a gas-dynamic nozzle connected with a liquid and gas mixing chamber, a means of liquid flow dispersion supplied to a mixing chamber with injection orifices, and a liquid and gas supply system.
The mixing chamber location in front of the nozzle inlet allows to use changeable gas-dynamic nozzles of different configuration and size. To produce an accelerated air flow supplied to the mixing chamber the said device employs a turbocompressor unit as a part of a gas supply system. The structural embodiment, though allowing to control a gas flow and pressure, does not provide individual control of gas and liquid supply to the mixing chamber, which is necessary for the device operation with minimum working fluid losses and required fast operation in an impulse mode.
Known in the art are also the valves for two-phase working fluid supply, with the help of which one can control different component supply sequence forming a two-phase flow of a working fluid in the mixing chamber (see description of Patents RU 2067712).
The prior art valves include the supply chamber of different components divided by a movable partition sealed along the valve body by a sealing ring or a membrane, a closure member, a seat, and a control valve. The dividing partition has a ring band between a seat and a closure member. With a control signal entering the drive a control valve opens one channel and closes the other channel. As a result of this there occur a connection of a closure member control chamber with the mixing chamber and a closure member displacement on account of pressure drop in the chamber. Following the closure member opening there takes place a dividing partition displacement opening an annular channel, through which the second component enters the mixing chamber. With a control valve closure there, first of all, takes place a shut-down of the first component passage channel by the closure member and then comes a shut-down of the second component passage channel by a diving partition.
Therefore, in the said valve-mixer only a certain sequence of supply and supply cutoff of different components to the mixing chamber may be carried out, which does not meet a gas and liquid mixing chamber supply sequence required for generating a gas-droplet stream. Besides, a particular arrangement of valve units and its size do not allow to use any other means for liquid flow dispersion supplied to the mixing chamber.
The most closest analogous device of the valve claimed is the prior art three-way valve for a two-phase working fluid known from the Author's Certificate SU 327355 A, which has two closure members located on the rod and interacting with the seats, a rod displacement limiter, and a rod displacement control system. The valve seats are on the walls of the sealed chambers connected, accordingly, with liquid and gas supply pipes.
When the pressure drops in the gas chamber of the said valve there occurs a displacement up to a stop of a spring-controlled seat together with a closure member mounted on the rod. The second closure member also mounted on the rod, while displacing together with it, opens a liquid supply channel to the subvalve space. When the pressure rises, the displacement opposite to what has been described above and the gas supply channel opening to the subvalve space tale place.
This technical solution is aimed at excluding the working fluid mixing at the valve exit. On account of this the selection of liquid or gaseous phase from the vessel is carried out depending on its pressure.
Regardless of structural similarity a technical problem solved by the said valve is opposite to that one, at the solution of which the present invention is aimed, namely, control of gas and liquid flow mixing supplied to the mixing chamber in the form of a specific size droplet.
SUMMARY OF THE INVENTION
A group of present inventions patented are based on the problem of increasing the speed of attaining a required gas-droplet stream generation mode under continuous and impulse starts, as well as reducing the working fluid nonproductive losses under the device multistarts. The solution of this problem, in its turn, is based on ensuring a possibility to control a liquid and gas supply to generate a two-phase flow in the mixing chamber, which is then accelerated in the nozzle with a gas-droplet stream formed.
The solution of these problems is aimed, on the whole, at increasing gas-droplet stream generation efficiency and its performance stability.
This technical result is achieved by the fact that in the device for generating a gas-droplet stream comprising a gas-dynamic nozzle connected with a liquid and gas mixing chamber, a means of liquid flow dispersion supplied to the mixing chamber with injection orifices, and a liquid and gas supply system, according to this invention the mixing chamber is connected with a liquid and gas supply system via a two-phase working fluid supply control valve made with a possibility of a preliminary gas flow supply to the mixing chamber, prior to liquid supply into it, when the device starts, and with a possibility of a preliminary cutoff of the liquid flow supplied to the mixing chamber prior to a cutoff of the gas flow fed into it, when the device is turned off.
In the preferred embodiment the nozzle is mounted on the mixing chamber body by a detachable connection. This allows to use changeable nozzles for different operating modes of the device.
It is preferred from the arrangement conditions that a controlled valve be fixed in a common body together with a mixing chamber.
For a comfortable position of the nozzle unit in one's hand the body is provided with at least one handle. In this case the handle must comprise a trigger mechanism for valve control.
The preferable embodiment of a controlled valve in the form of two closure members on the rod and interacting with the seats located on the sealed chamber walls connected, accordingly, with liquid and gas supply pipes. The valve also includes a rod displacement limiter, a stop rigidl

Affiliated with

Also associated with

Rating

Device for generating a gas-droplet stream and valve does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Device for generating a gas-droplet stream and valve, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Device for generating a gas-droplet stream and valve will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-2979495