SU202835A1 - PULSE WATER - Google Patents

Description

Pulsed water cannons, including the hydraulic cylinder, receiver, drive mechanism, are known.

A distinctive feature of the proposed jet engine is that the rod of the drive mechanism is equipped with a gripping device made in the form of a cylindrical cup and an annular spring-loaded valve closing the stem channel connecting the cavity of the cup to the hydraulic cylinder, and the piston of the receiver is placed on the rod in the axial direction, which improves operational reliability.

The drawing shows a schematic diagram of the proposed pulse jet.

In the barrel / there is a charge chamber 2 for water in which a high pressure is created, a tapered nozzle 3 through which fluid flows at high speed, a light piston 4 separating the charge chamber of the barrel from the hydraulic cylinder 5, at the end of the light piston there is a collet a coupling device used to grip a light piston when it is cocked by a heavy piston 6. The heavy piston moves in the hydraulic cylinder 5, it is divided into two cavities, one of the cavities is connected to the atmosphere, and the second is filled with oil.

The receiver 7 is separated from the hydraulic cylinder 5 by a partition 8 having openings for the passage of oil. In the receiver, which serves to charge a jet press with a compressed gas, there is a piston

9 through which the rod 10 of the drive mechanism passes. At the end of the rod, there is a gripping device for engaging and disengaging the heavy piston 6 with the stem of the drive mechanism.

The gripping device consists of a cup 1J, an annular valve 12, a closing spring 13 and a valve seat 14.

Before shooting, the water jet must be supplied with water, charged with gas and may-lom (or other liquid) to the required pressure.

Water is fed into the charging chamber 2 by pump 15 through a pneumatic accumulator tor. / B. The water in the pump comes from the reservoir / 7.

To protect the pump from possible hydraulic shocks when shooting a water cannon, a check valve 18 is installed in the water supply network.

The air chamber of the hydroaccumulator and the jet engine receiver are charged from a compressed gas cylinder 19 or a compressor. To measure the gas pressure in these cavities are gauges 20 and 21.

The overlapping of the gas supply. From the cylinder, when the pressure of a certain pressure in the nojjocTflx being filled is pressed, the valves m and 22 and 23 are applied.

The cylinder 5 is filled with oil up to a certain pressure (depending on the gas pressure in the receiver 7) by means of a hydraulic system consisting of the oil tank 24, the oil pump 25, the safety valve 26, the pressure gauge 27, the check valve 28 and the stop valve 29.

The reciprocating movement of the rod 10 is carried out by a drive mechanism. As the latter can be applied crank mechanism or hydraulic drive.

The principle of operation of the pulse water jet is as follows.

After the water jet is charged with compressed gas using the oil pump 25, the hydraulic cylinder 5 is filled with oil up to a certain pressure exceeding the gas pressure in the receiver 7 and ensuring that the piston 9 is moved away from the partition 8 by a certain amount. Upon reaching this pressure, the oil pump 25 is turned off, and the oil in the oil cylinder is locked by valve 29 and check valve 28, the heavy piston 6 thus occupies the front end position, and the stem 10 with the gripping device: the rear end position.

After being charged with compressed gas and oil, the water jet is prepared for automatic firing.

In order to start the water jet, it is necessary to turn on the water pump 15 and the drive mechanism, which tells the rod 10 to return the movement. The water supplied by the water pump enters only the hydraulic accumulator, since the channels connecting the charging chamber of the barrel to the pump 15 are blocked by a light piston 4 shifted by a heavy piston to the front end position.

Upon reaching a certain pressure in the water cavity of the hydroaccumulator, water begins to discharge through a safety valve installed on the pump 15.

At the same time, the rod 10 of the drive mechanism begins to move in the direction of the heavy piston 6, which is in the forward extreme position. Upon reaching the heavy piston, the cup // slides over it and closes the oil in cavity A (the inner surface of the glass and the corresponding outer surface of the heavy piston are sealed), squeezing it out of the further movement from cavity L to the oil cylinder through the hole in rod 10 and the valve 12 opened When the entire volume of oil is squeezed out of cavity A, the spring 13 expands and closes the valve, pressing it against the lapped surface of the saddle M, the access of oil to cavity A from the oil cylinder is closed.

the volume of cavity A, while the fluid pressure I | 1 in this cavity drops sharply and becomes significantly less than pressure P, at the same time the magnitude of the forces separating the heavy piston from the gripping device becomes less than the forces pushing the heavy piston after the catcher. The slide of the catcher stops and under the action of the difference of the forces the heavy piston begins to move after the rod of the drive mechanism.

Together with the heavy piston 6, the light piston 4 coupled with it moves as well. When the light piston comes to a stop, the light piston stops, opening water from the hydroaccumulator cavity to the charging chamber of the barrel - water is injected, and the heavy piston opens the collet, The light piston at the end of the piston continues to move after the drive mechanism, displacing the oil volume, which causes the piston 9 to move away, compressing the gas in the receiver.

When the actuator rod approaches the rearmost position, the valve 12 rests on the partition 8 and stops, and the stem continues to move; the closing spring 13 is then compressed, and a gap appears between the valve seat 14 and the valve 12, through which oil flows into the cavity A from the oil cylinder; R.'s pressure in CAVITY A becomes equal to the pressure of PZ oil in the oil cylinder.

Under the action of the energy stored in the compressed gas, the piston 9 accelerates and, moving the oil in the oil cylinder at high speed, causes the heavy piston 6 to move.

Acquiring kinetic energy during acceleration, a heavy piston, passing through the collet device of the light piston 4, strikes its striker at the end face of the latter. The light piston transfers energy to water, which in a conical nozzle is formed into a jet and flies out of it into the atmosphere at high speed,

After the shot is fired, the jet engine mechanisms return to their original positions, and the cycle repeats.

The operation of the water jet occurs automatically and stops when the drive mechanism is turned off.

The proposed water jet is capable of developing a firing rate of up to 120-150 rounds per minute, which ensures high performance and efficiency of its use for the destruction of coal and rock.

Subject invention

A pulsed water jet, including a hydraulic cylinder, a receiver drive mechanism, characterized in that, in order to increase operational reliability, the drive mechanism stem is provided with a gripping device,

made in the form of a cylindrical cup and an annular spring-loaded clack, which overlaps the stem channel connecting the cavity of the cup to the hydraulic cylinder, and the receiver's piston is placed on the rod with the possibility of movement in the axial direction.

П 13 12 /// 8 Ю 9 7 AA: