UA13612U - Installation for generation of the pulse liquid jets of high pressure - Google Patents

Abstract

The installation for generation of the pulse liquid jets of high pressure contains a rotary bushing, a nozzle with openings, a cavity of compressed air, a receiver. The installation is additionally equipped with hydro-elastic drive in the form of cylinder-accumulator with the cavities of high pressure and control and with stepped plunger, which is connected with the opposite pneumatic cylinder, control system of the operation of cylinder-accumulator, comprising a tank, a pump, check and safety valves. Rotary bushing is mounted in the nozzle with the openings and is equipped with control handle, and overflow cavities and channels of change of the level of filling of rotary bushing with working fluid. In this case, these channels are connected with adjustable overflow valve. Furthermore, the device is equipped with a bolt mounted at outlet of the nozzle and spring-loaded from one side and connected with the cavity of control of the cylinder-accumulator through hydraulic cylinder, and the nozzle of device is equipped with exchangeable nozzles.

Description

Description of the invention

The utility model refers to the field of mechanical engineering, namely to hydraulic impulse machines for the impulse supply of 2 liquids of high energy and can be used for hydraulic mining of minerals, hydraulic cleaning of castings, cutting of rocks and other materials, etc.

The design of the device for pulsed supply of liquid or gas is known (AS 427204 of the USSR, IPC E16K21/12.

Device for pulsed supply of liquid or gas / L. L. Roganov. Application 02.01.73. Publ. 05.05.74. Bul.

Mo17)|), consisting of a locking device installed in the body, which is made in the form of a valve with a 70 shank, on which a plunger is located, spring-loaded relative to the body by a spring, and relative to the rod by an additional spring. Thanks to such a device, an increase in the energy of liquid or gas emission is achieved.

Also known is the design of the device for creating jet pressure pulsations (Patent 2138641 KO, IPC

E21C45/02. Device for creating jet pressure pulsations / S. B. Teodorovych, A. S. Teodorovych V. Ya.

Erofeev Application 07.07.98. Publ. 27.09.99), which is made in the form of a wheel with blades and a bracket for 72 fixing the axis of the wheel of the jet-forming device. At the same time, the blades have elastic connections with the wheel, and the wheel brake is installed on the bracket. The device makes it possible to increase the effectiveness of the dynamic impact of a pressure jet of liquid on rock and other materials in order to weaken, destroy, clean surfaces, etc., by providing the jet with a pulsating mode and controlling the frequency of pulsations in a wide range without significantly impairing the quality of the jet.

An analogue is a device for water jet processing of materials (Patent 2112609 КИ С1, IPK VO883/02, Z3/04.

Device for water jet processing of materials / V. A Baikalov. Application 02.12.93. Publ. 10.06.98), intended for water jet cleaning of paint coatings, various deposits and formations, for water jet cutting of various materials. The device contains a water jet tool, which is connected to the output of the pressure regulator, the input is connected to the water pressure source, and the second output is to the drain line. The device is supplied with a trigger mechanism with a trigger element and a control (-) pneumatic (hydro) distributor, which is connected to the trigger mechanism and is connected by the input to the source of control pressure introduced into the device, and the output to the control chamber of the three-line air distributor, which monitors, the back pressure chamber which is connected to its input and which is a pressure regulator that forms a trigger mechanism with a control pneumatic (hydraulic) distributor and a trigger element. high school

The closest analogue of the claimed device, chosen as a prototype, is a pulse water jet "--

IHydro-pulse installation for rock destruction / Atanov G.A.-K.: Vyshcha shkola, 1987. - p. 110 - 112, fig. 5.1a), which contains a piston, a rotary sleeve, a barrel with holes, a cavity of compressed air, valves , o valve, pneumatic receiver. Water is poured into the barrel, between the nozzle and the piston, through the hole. The water jet is driven by compressed air. General essential features of the known and claimed device are

Z rotary sleeve, barrel with holes, compressed air cavity, receiver. --

During the operation of the well-known pulsed water jet, there are difficulties in creating a powerful directed jet, the effect of which is effective at a fairly long distance, the need to supply a large amount of energy from the hydraulic system, and with a low level of supplied energy, the overall efficiency decreases. its installation, as a result - its productivity and economy. In addition, there are difficulties in dosing the energy of the C 50 pulse jet, changing its parameters, and controlling its action. c The basis of the useful model is the task of improving the unit for the generation of pulsed liquid jets

From" of high pressure, in which by creating a pulse jet of dosed energy with clearly defined parameters, the efficiency of the installation increases. Due to this, the aforementioned shortcomings are eliminated.

The task is solved by the fact that the installation of the generation of pulsed jets of high-pressure liquid is supplied with a hydro-elastic drive in the form of an accumulator cylinder with high-pressure and control cavities and a stepped plunger, which is connected to a return pneumatic cylinder, a system for controlling the action of the accumulator cylinder, to which consists of a tank, a pump, non-return and safety valves, the rotary bushing is installed in a barrel with holes and supplied with a control handle, as well as overflow cavities - 20 and channels for changing the level of filling the rotary bushing with working fluid, while these channels are connected with an adjustable overflow valve, together with the device is supplied with a latch, which is installed at the outlet of the barrel and is spring-loaded on one side and connected to the control cavity of the accumulator cylinder Through the hydraulic cylinder, and the barrel of the device is supplied with replaceable nozzles.

The proposed design provides an increase in the effectiveness of the high-pressure water jet over a fairly long distance due to the creation of a directed pulsed jet of metered energy. c The use of a hydroelastic drive allows to increase the productivity, economy, efficiency and versatility of the installation of the generation of pulse jets of high pressure liquid. Installation of a rotary bushing in a barrel with holes and supplying it with a control handle makes the device compact and convenient to operate. The execution of overflow channels and cavities and their connection with the adjustable overflow valve 60 allows changing the level of filling of the rotary sleeve with the working fluid, which leads to a change in the pulse jet parameters. The dependence of the valve operation on the pressure in the control cavity of the cylinder-accumulator allows to synchronize the operation of the entire device, and the implementation of the valve spring-loaded ensures the independent return of the valve to the original position when the channel is blocked, when the pressure is released from the control cavity.

The use of variable nozzles allows you to obtain different parameters of the jet at the exit from the barrel. because the essence of the proposed useful model is explained by the drawings, which show the scheme of the installation of the generation of pulsed jets of high pressure liquid. Fig. 1 shows a general view of the installation of the generation of pulsed jets of high pressure liquid, Fig. 2 shows a barrel with a rotary bushing, Fig. 3, Fig. 4, Fig. 5 show sections of a barrel with a rotary bushing from Fig. 2.

The installation of the generation of pulse jets of high-pressure liquid Fig. 1 contains a cylinder-accumulator 1, which is connected to a barrel 2 with holes. A stepped plunger 4 is installed in the high-pressure cavity of the accumulator cylinder 1, the reverse stroke of which is provided by the pneumatic cylinder 5. The plunger 4 enters the cavity of the barrel 2.

The accumulator cylinder has a control cavity 6. Jet pulsation is created using a latch 7 with a 7/0 cylinder 8 and a spring 9. Cylinder 8 is connected to the control cavity 6 of the accumulator cylinder 1.

The control system of the accumulator cylinder 1 includes an oil tank 10, a pump 11, a check valve 12 and a safety valve 13.

The installation is controlled using the control spool 14.

The barrel filling system 2 includes a tank 15 with working fluid, a pump 16 and a receiver 17.

In the barrel with holes 2 in Fig. 2, a rotary bushing 18 is installed, which is controlled by the control handle 19. In the rotary bushing 18 and the barrel 2, overflow cavities and channels are made, the cross sections of which are presented in Fig. 3,

Fig. 4, Fig. 5. The overflow channel 20 of the rotary sleeve 18 is connected to the channel 21 of the barrel 2 through the overflow cavity 22.

The opening 21 is connected to the adjustable overflow valve 23, which in turn is connected to the tank 15.

The receiver 17 is connected to the inner cavity of the rotary sleeve 18 through the non-return valve 24 and the channel 25

Fig. 4.

The installation for the generation of pulsed jets of high pressure liquid works as follows.

In the initial position, all the cavities of the cylinder 1 are filled with liquid (mineral oil, water, emulsion, etc.), the inner cavity of the rotary sleeve 18 can be filled with liquid (or liquid with abrasives) partially or completely, depending on the position of the hole 20 (Fig. 3) of the rotary sleeve 18, which is controlled using the control handle 19. When the handle 19 is turned to a certain angle, the liquid begins to overflow through the hole 20 and the cavity 22 into the hole 21, and then through the adjustable overflow valve 23 it enters the tank 15 with the working fluid.

Distributor 14 is in neutral position. The control cavity 6 is connected to the tank 10.

Pumps 11 and 16 are turned on. Through safety and overflow valve 13, liquid enters tank 10. Pump 11 - works to drain into tank 10. To implement the working stroke, the electromagnet of the control spool E1, Ge, moves the hydraulic distributor 14 to the position when through the non-return valve 12, liquid under pressure from pump 11 enters the cavity of the cylinder-accumulator 1. In this cavity, the liquid is compressed, the shell of the cylinder 1 me)

Zv stretches along its length and increases in diameter. At this moment, the energy of elastic deformation "of the liquid and the shell accumulates. Accumulator cylinder 1 is charged in this way.

The electromagnet of the control spool E2 is triggered, the hydraulic distributor 14 switches to the position when the control cavity b is disconnected from the drain and connected to the pressure. Plunger 4, under the action of the liquid squeezed out in the liquid cylinder 1, moves into the rotary sleeve 18, compressing the high-pressure liquid at the end of the stroke. At the same time as the pressure is applied to the cavity b, the liquid pressure acts with a certain delay on the cylinder 8 of the shutter /--- s 7, pushing it to the side of the spring 9. The liquid from the rotary sleeve 18 pulses out through the hole (nozzle) in its end and does the necessary work . Plunger of pneumatic cylinder 5, which is under constant pressure from ;" pneumatic system no more than 0.5 MPa, moves together with plunger 4 and then returns it to its initial position.

At the same time, electromagnet E2 is turned off, transferring the hydraulic distributor 14 to the neutral position. IN

Cylinder 2 is supplied with water (or a mixture of liquid and abrasive) from receiver 17 (or pump 16). Shutter 7 is returned to its original position by spring 9. The device is ready for the next cycle of operation. Dosing of the energy of the pulsed jet is carried out by adjusting the pressure level of the liquid from the pump 11. The volume of liquid coming out of the nozzle is regulated by turning the rotary sleeve 18 using the control handle 19 (or mechanized).

Due to this, the overall efficiency of the unit for the generation of pulsed jets of high-pressure liquid increases, the pulsation of the jet is created, and at the same time, its power and efficiency increase.

Co.)

Claims (1)

The formula of the invention An installation for the generation of pulsed jets of high-pressure liquid, containing a rotating sleeve, a barrel with holes, a cavity of compressed air, a receiver, which is distinguished by the fact that it is equipped with a hydro-elastic actuator in the form of a cylinder-accumulator with high-pressure and control cavities and a stepped plunger, which connected with a return air cylinder, a control system for the action of the accumulator cylinder, which includes a tank, a pump, non-return and safety valves, a rotary bushing is installed in a barrel with holes and is equipped with a control handle, as well as overflow cavities and channels for changing the filling level of the rotary bushing working fluid, while these channels are connected to an adjustable overflow valve, in addition, the device is equipped with a valve, which is installed at the outlet of the barrel and is spring-loaded on one side and is connected to the control cavity of the accumulator cylinder through a hydraulic cylinder, and the barrel of the device 65 is equipped with interchangeable nozzles.