SU1031525A1 - Unit for sprinkling liquid - Google Patents

Abstract

INSTALLATION FOR RA SPRAYS; WANIA LIQUID, containing a container for liquid, connected by means of a regulator to a balloon for air compression, and by means of a check valve with nozzles, so that, in order to increase the speed of switching on the installation, the check valve is made with two working cavities, one of which communicates with the liquid container, and is equipped with an electro-hydraulic valve for communicating the other cavity of the shut-off valve in the inactive position with the liquid container, and in the working atmosphere with the atmosphere.

Description

CO O1

Yu

Ate 1 The invention relates to equipment for spraying a liquid and can be used, for example, in testing aircraft and their elements moving at high speed in a high-intensity layer. A known installation for obtaining high-intensity rain, comprising a water tank, a pump, supply and distribution pipes and sections with nozzles. To create a working zone, the rain sections consist of two parallel pipelines, one of which has high drainage pads, and the second - low flow. Each section has a pair of solenoid valves connected to the control panel, a pressure regulator made in the form of motorized valves and flow meter. The inlet pipe is connected to the sections through the TI3 manual valves. A disadvantage of the known installation is that it has a complicated distribution pipe system for supplying water from the pump to the nozzles. Practically, four pipes of different diameters, including controls, run parallel to the test bench. The presence of a complex lengthy distribution piping system powered by a single pump located in the middle of the system, when nozzles are triggered, increases the time needed for the test bench to operate, which leads to an increase in the length of the test bench necessary to disperse the object under study. The closest to the proposed technical essence and the achieved effect is the installation for spraying liquid containing a container for a liquid, connected by means of a regulator to a balloon for sweeping air, and by means of a shut-off valve - with nozzles L J. However, the known installation differs in insufficient speed inclusion in work. The purpose of the invention is to increase the speed of switching on the installation. This goal is achieved by the fact that in a spraying installation a liquid containing a container for liquid, connected by means of a regulator to a balloon for compressed air, and through a check valve 52 with nozzles, the check valve is made with two working cavities, one of which communicates with the container for a fluid, and provided with an electro-hydraulic spool for communicating the other cavity of the check valve to the non-working compartment with the liquid container, and c. working - with the atmosphere. In the drawings (e is a schematic representation of the proposed installation, general view. The installation includes a cylinder 1 with compressed air, a hydroaccumulator 2, a hydraulically controlled shut-off valve 3, made with an electrohydraulic slide valve 4, a main 5 and a distribution 6 pipelines. 7. A compressed air cylinder 1 is connected via a pipeline 9 to a pressure accumulator 8 by means of a pressure regulator 8, at the entrance to which a valve 10 is installed. To fill the water with a hydro-battery 2 Install a valve 11 with a funnel 12 in it. The hydroaccumulator 2 is connected to the distribution pipe 6 by means of a shut-off valve 3 which has a piston 13 with the cuff It installed in the sleeve 15. The piston 13 is under}; (from the seat 16 to the spring 17. The sleeve 15 has a working The cavity L. The electrohydraulic spool k is mounted on the shut-off valve 3 and has a rod 18 with sealing projections 19 and 20. The rod 1c is preloaded by a spring 21 to the pushing electromagnet 22 having electric terminals 23, which are connected to a central control panel (not shown), Int sealing protrusions 19 and 20 enclose cavity B, which communicates via pipeline 2 with hydraulic accumulator 2, and through pipe 25 with cavity A of valve 3. Spool k through pipe 2b is connected with atmosphere The sprinkler nozzle 7 has flexible inserts 27, the angular fixation of which This is carried out in steps 28. During installation, the installation is located at a certain distance from the test bench 29. The installation works as follows. The hydroaccumulator 2 through the outlet 12 and the open valve 11 are filled with water up to a certain level. At this time, the valve 10 and valve 3 are closed.

The piston 13 is fitted to the saddle 16 by a spring 17. After filling the hydroaccumulator 2 with water, the valve 11 is closed and the valve 10 is opened. Air under pressure from the cylinder 1 through the pressure regulator 8 through the pipeline 9 enters the hydroaccumulator 2. The air pressure is transferred to the water enclosed in the hydroaccumulator 2. Next. the pressure of water from the hydroaccumulator 2 through the pipeline, through cavity B of electro-hydraulic magnet k, through tube 25 enters cavity A of valve 3 and, acting on the piston 13 from the inside, increases the force pressing it to the saddle 16. The unit is ready for operation.

When the object under test is started from the central control panel, terminals 23 give an electrical signal to turn on the pushing electromagnet 22. The moment of starting the installation is shifted in time after the launch of the stand to accelerate the object under study. When the electromagnet 22 is triggered, the rod 1 moves to the right, compressing the spring 21, and thereby communicates the cavity A of the valve 3 through the tube 25 through the spool k and the tube 26 with the atmosphere. At this time, the pressurized water flows from the hydroaccumulator 2 to the valve 3 and, acting on the piston 13, moves it to the right, the spring 1 is revitalized. The valve 3 opens and the water enters the distribution pipe 5 and then through the flexible inserts 27, the nozzle 7 in the form of rain is supplied to the working area of the test bench 29.

After passing the object on the test bench 29 on the signal, with

The central control unit of the terminal 23 of the electromagnet 22 C1 is de-energized and the rod 18 is moved to the left by the action of the spring 21. The hydraulic box Multor 2 at this time is through a pipe 2 to 2k, through the cavity B of the spool and the pipe 25 communicates with the cavity A of the valve 3, the piston 13 of which moves to the seat 16 under the action of the spring 17. The valve 3 is closed. The rain supply to test stand 29 is stopped. The installation cycle is complete. When an electrical signal is applied to the terminals 23, the cycle is repeated.

The volume of hydroaccumulator 2 is chosen in such a way that, once filled with water, it is necessary to perform several experiments, or more precisely, from U to 6.

A change in the angle of inclination of the nozzles to the horizon allows the working zone to be shifted within specified limits.

The installation with a pressurized unit containing a compressed air cylinder and a hydraulic accumulator connected to the distributor pipeline by means of a hydraulically controlled valve made with an electrohydraulic slide valve ensures the response time of the wet nozzles, simplifies the design and reduces the metal intensity of the installation by a factor of. Installation does not require large operating costs.

5 In addition, the location of the nozzles on the distribution pipeline in one row and at an angle to the horizon allows for testing

0 objects of various sizes.

Claims (1)

A LIQUID SPRAYING PLANT containing a fluid container connected by means of a regulator to a cylinder for compressing air, and by means of a shut-off valve with nozzles, which is ensured by the fact that, in order to increase the turn-on speed of the installation, the shut-off valve is made with two working cavities , one of which is in communication with a fluid container, and is equipped with an electro-hydraulic spool for communicating the other cavity of the shut-off valve in the inoperative position with the fluid container, and in the working atmosphere. SP y SL 1 1031525