RU2060838C1 - Device for gas-liquid spraying - Google Patents

Abstract

FIELD: chemical engineering. SUBSTANCE: device is equipped with partition 7 mounted inside liquid chamber 5, with limiter 13 of displacement of membrane 3 set up inside liquid chamber 5 and made as bushing and with return valve 17 installed in channel for liquid feed to liquid chamber 5. Seat 8 of valve mounted in input to liquid nozzle is assembled on partition 7. Stiff center of membrane 3 represents glass 4 set up for movement into internal cavity of limiter for displacement of membrane 3. Liquid nozzle 10 is made in body of valve 9 installed in its input. Gas valve 21 is mounted in channel 19 for gas feed to gas chamber 6. Device is also equipped with shut-off-regulating arrangement consisting of thread nut 22 set up on gas nozzle 12 and interacting through rollers 23 and conical bushing 24 with body of valve 9 installed in input to liquid nozzle. EFFECT: enhanced quality of cleaning of outer glasses of vehicles with high-pressure jet consisting of mixture of definite portion of liquid with air. 3 cl, 1 dwg

Description

 The invention relates to devices for gas-liquid spraying, in particular for cleaning the outer windows of vehicles with a high-pressure jet from a mixture of a certain portion of a liquid with air.

Known volumetric metering pump for supplying a dosed volume of liquid, comprising a housing, inside of which a spring-loaded membrane with a rigid center is fixed, dividing the housing into a liquid and gas chambers, a working membrane, an intermediate fluid, channels for supplying these media to said chambers, valves installed in the channels at the inlet and outlet of the liquid chamber and at the entrance to the gas chamber, as well as the valve control unit [1]
This device is complex and low effective for cleaning glass, as it provides only a metered supply of liquid without mixing with air.

Known pneumatic nozzle for gas-liquid spraying, comprising a housing, inside of which a spring-loaded membrane with a rigid center is fixed, separating the housing into a liquid and gas chambers, a concentric liquid nozzle and a gas nozzle enveloping it, channels for supplying said media to said chambers and corresponding nozzles, and valve installed at the inlet to the liquid nozzle and gas valve [2]
This device does not provide pressure-free supply and the supply of certain portions of liquid to form a gas-liquid mixture.

 The technical result of the invention is to increase the efficiency of the device.

 The invention provides a non-pressurized supply (suction) of a certain portion of the liquid to form a gas-liquid mixture, as well as the supply of only air to the cleaning object before or after the portion of the liquid for mixing.

 Increases the reliability of the device and its performance during restart, as well as the economical use of fluid.

 To solve the problem, a device for gas-liquid spraying, comprising a housing, inside which a spring-loaded membrane with a rigid center is fixed, separating the housing into a liquid and gas chambers, a concentric liquid nozzle and a gas nozzle enveloping it, channels for supplying said media to said chambers and corresponding nozzles, as well as a valve installed at the inlet of the liquid nozzle, and a gas valve, according to the invention is equipped with a partition installed inside the liquid chamber, faceted a membrane moving reader mounted on a partition inside the liquid chamber and made in the form of a sleeve, and a check valve installed in the channel for supplying fluid to the liquid chamber, while the valve seat installed at the inlet of the liquid nozzle is mounted on the said partition, and the rigid center of the membrane represents a glass mounted with the ability to move into the inner cavity of the limiter movement of the membrane.

 The liquid nozzle is made in the body of the valve installed in the channel for supplying gas to the gas chamber.

 The device is equipped with a locking and regulating device consisting of a threaded nut mounted on the gas nozzle, interacting through the rollers and the conical sleeve with the valve body installed at the inlet to the liquid nozzle.

 The drawing shows a device for gas-liquid spraying.

 The device for gas-liquid spraying comprises a housing 1, inside of which, by means of a flange 2, a rubber membrane 3 is fixed with a rigid center made in the form of a cup 4. The housing is divided by a membrane 3 into a liquid 5 and gas 6 chamber. Inside the liquid chamber 5, a partition 7 is mounted on which a seat 8 of the direct-acting valve 9 is mounted. The valve 9 is installed at the entrance to the liquid nozzle 10, which is made in the body of the valve itself. The valve 9 is pressed against the seat 8 by the spring 11. A gas nozzle 12 is located concentrically to the liquid nozzle 10. On the other side of the partition there is a membrane movement limiter 13 made in the form of a sleeve, and a spring 14 acting on the cup 4 of the rigid center, which is installed with the possibility movement into the internal cavity of the limiter 13. The internal cavity of the limiter 13 is in communication with the channel 15 for supplying liquid to the chamber 5, in which is mounted a fluid fitting 16 attached to the housing 1 with a check valve 17.

 A gas fitting 18 is attached to the housing 1, which is communicated by a gas supply channel 19 with a gas chamber 6 and a gas supply channel 20 with a gas nozzle 12. A gas valve 21 is installed in the channel 19 and is mounted in the flange 2. The device may be equipped with a shut-off and control device consisting of from a threaded nut 22 mounted on the gas nozzle 12, which interacts through the rollers 23 and the conical sleeve 24 with the valve body 9. The nut 22 and the rollers 23 are mounted on the flange 25 mounted on the housing 1.

 A device for gas-liquid spraying works as follows.

 The liquid through the open check valve 17 and channel 15 initially flows by gravity into the liquid chamber 5. Gas is supplied into the nozzle 18, which enters the gas chamber 6 through the channel 19 and through the open gas valve 21, and creates a vacuum through the channel 20 in the liquid nozzle 10. Under the action of gas pressure in the chamber 6, the membrane 3 with the cup 4 moves, compressing the spring 14. Under the action of the arisen liquid pressure in the chamber 5, the check valve 17 closes and the valve 9 opens, compressing the spring 11.

 The liquid from the chamber 5 enters the liquid nozzle 10, mixing with the gas in the nozzle 12. At the same time, the nozzle 12 ejects the liquid, working as a jet pump. The sprayed liquid in the form of a gas-liquid jet is fed to the cleaning object. After the entire portion of the liquid has been displaced from the chamber 5, the cup 4 enters the internal cavity of the limiter 13, and only gas is supplied to the cleaning object, for example, for drying, and the valve 9 closes under the action of the spring 11. Gas supply is stopped. Under the action of the spring 14, the membrane 3 moves in the opposite direction, while sucking into the chamber 5 another portion of the liquid. When applying gas to the nozzle 18, the gas-liquid spraying process is repeated.

 When the gas valve 21 is completely closed, no liquid is displaced from the chamber 5, i.e., only gas is supplied to the treatment object. In the case of installing a shut-off and regulating device, the bore of the open valve 9 is regulated by the position of the threaded nut 22, which interacts through the rollers 23 and the conical sleeve 24 with the valve body 9. When the nut 22 is fully screwed in, only gas is supplied to the cleaning object.

Claims (4)

 1. Device for gas-liquid spraying, comprising a housing in which a spring-loaded membrane with a rigid center is fixed, separating the housing into a liquid and gas chambers, a concentric liquid nozzle and a gas nozzle enveloping it, channels for supplying said media to said chambers and corresponding nozzles, and a valve installed at the inlet to the liquid nozzle, and a gas valve, characterized in that it is equipped with a baffle installed in the liquid chamber, a membrane movement limiter, mounted on the partition in the liquid chamber and made in the form of a sleeve, and a check valve installed in the channel for supplying liquid to the liquid chamber, the valve seat installed at the inlet of the liquid nozzle mounted on the said partition, and the rigid center of the membrane is a glass, mounted with the ability to move into the inner cavity of the limiter of movement of the membrane.  2. The device according to claim 1, characterized in that the liquid nozzle is made in the body of the valve installed at its inlet.  3. The device according to claim 1, characterized in that the gas valve is installed in the channel for supplying gas to the gas chamber.  4. The device according to claim 1, characterized in that it is equipped with a locking and regulating device consisting of a threaded nut mounted on the gas nozzle, interacting through the rollers and the conical sleeve with the valve body installed at the inlet of the liquid nozzle.