SU901664A1 - Hydraulic pressure intensifier - Google Patents

Description

one

The invention relates to process equipment used in the extraction of minerals in the mining industry, and in particular for the hydraulic block of coal on hydraulic mines.

Closest to the present invention is a hydraulic pressure booster containing a delivery hydrocyliidre and a low-pressure hydraulic cylinder communicated with the hydraulic supply line of the fluid through the two-way valve system, a nozzle installed in the low-pressure hydraulic cylinder and interacting with the concave surfaces of the receiving tray placed on the piston rod of the delivery hygrotherm and interacting with the concave surfaces of the receiving tray placed on the piston rod of the delivery cylinder. and tgu, rigidly connected to the plunger of the injection hydraulic cylinder, equipped with a stop, kinematically connected with one of the distributors C.

The known device is characterized by relatively low efficiency and lack of reliability.

The purpose of the invention is to increase efficiency and reliability.

The supply is achieved by the fact that it is equipped with an additional injection and low pressure hydraulic cylinders, the plungers of the injection hydraulic cylinders are installed adjacent and parallel to each other, and each of the plungers is provided with an additional receiving tray, while at one of the plungers the trays are installed at opposite ends of the rod with surfaces facing the convex surfaces of the trays, and on the other in the middle part of the rod with concave surfaces of the trays facing in opposite directions.

20

FIG. Figure 1 shows the hydraulic pressure booster, general view; in fig. 2 is a section A-A in FIG. one; in fig. 3, type B in FIG. 2. 39. The proposed device (Fig. 1) contains two injection cylinders 1 and 2 with suction 3 and pressure valves k and piston rods 5 plungerrocks (the latter are not indicated). The rods b are equipped with receiving trays 6 and 7. On one of the rods there is a set of ha 8, which with its stops (not marked) interacts with the distributor 9, which in turn provides control of the position of the distributor 10, the distributor 10 provides the fluid to the low pressure hydraulic cylinders 11 and 12. The latter are equipped with nozzles 13 and. The nozzle 13 interacts with the concave surface of one of the trays 6, and the nozzle of one of the trays 7. The synchronized movement of the rods 5 is provided by a chain 15. From the pressure source, fluid is supplied through line 16 with filter 17 in front of the distributors 9 and 10. Ti 18 (Fig. 2 and 3), in addition to transferring the force, keep the trays 6 and 7 in the desired position. The device works as follows. Through the suction valve 3, the liquid enters the injection cylinder 2. At the same time, the liquid flows to the nozzle 13 of the low-pressure hydro cylinder 11. The strut from the nozzle 13 flows onto the receiving tray 6 facing its nozzle 13 with its concave surface. By the tray 6, the rod 5 of the injection cylinder 1 moves along (according to the drawing). At the same time, from the injection hydraulic cylinder 1, the liquid with an elevated pressure is displaced through the injection valve into the pressure hydraulic line. After interacting with tray 6, the jet enters the tray 7 of the stem 5 of the pressure cylinder 2. Under the action of this jet, the lower stem 5 moves to the right (according to the drawing), due to the fact that both the stem 5 are connected by a chain drive. 15, the additional force from the jet, interacting with the tray 7} is transmitted to the upper rod 5, which allows increasing the injection pressure and efficiency. At the end of the working stroke of the upper piece 5 by means of the gig 8, the valves 9 and 10 are switched. The new position of the said distributors provides the fluid to the nozzle 1 and the nozzle 13 closes. The jet flowing out of the nozzle 13 interacts with the tray 7 facing its convex surface nozzle causes movement of the rod 5 of the injection cylinder 2 to the left. At the same time, the liquid from the injection cylinder 2 through the injection valve is displaced under increased pressure into the pressure line. Simultaneously with the displacement of the rod 5 of the injection hydraulic cylinder 2 to the left, the stem 5 of the injection hydraulic cylinder 1 moves to the right. This changeover occurs due to the interaction of the fluid and straightened tray 7 with the receiving tray 6 on the upper shaft 5, and its convex surface (echoeness towards the convex surface of the receiving tray 7 on the bottom rod 5. The movement of the rods 5 takes place until the moment when the stop rests on the 8 with the valve 9, which causes the valves 9 and 10 to return to their original position. its described cycle of operation of a hydraulic pressure booster is repeated. Use of the proposed hydraulic pressure booster as compared to the known can provide increased efficiency and reliability of the device. Formula of the invention Hydraulic pressure booster containing a pressure hydraulic cylinder and a low-pressure hydraulic cylinder communicated with the hydraulic main supply line through a two-way valve system a nozzle installed in a low-pressure hydraulic cylinder and interacting with concave surfaces the remaining receiving tray placed on the plunger stem of the injection hydraulic cylinder, and a rod rigidly connected to the plunger of the injection hydraulic cylinder, provided with an emphasis kinematically connected with one of the distributors, characterized in that, in order to increase efficiency and reliability, it is equipped with additional pressure and low-pressure hydraulic cylinders, plungers of injection hydraulic cylinders are installed adjacent and parallel to one another, each of the plungers is provided with an additional receiving tray, while on one of the plun Erov trays are mounted on opposite ends of the rod with a convex facing toward the surfaces of the trays, and on June 9 Druts gom - in the middle of the rod with concave surfaces of the trays napravleiv T1rotivopolozhnye side. Sources of information taken into account in the examination 1. USSR author's certificate V, cl. F 21 C 45/00, 1975.

Claims (1)

Claim A hydraulic pressure booster comprising a delivery hydraulic cylinder and a low pressure hydraulic cylinder,. communicated with the fluid supply line through a two-point distributor system, a nozzle installed in the low-pressure hydraulic cylinder and interacting with the concave surfaces of the receiving tray located on the piston rod of the pressure hydraulic cylinder, and a rod rigidly connected to the pressure piston plunger, equipped with one stop kinematically , characterized in that, in order to increase efficiency and reliability, it is equipped with additional injection and low-pressure hydrocycl Indrams, the plungers of the discharge hydro-hydraulic cylinders are mounted adjacent and parallel to one another, and each of the plungers is equipped. additional receiving tray, while on one of the plungers the trays are installed at opposite ends of the 5 rod with the convex surfaces of the trays facing towards ZZZZZZ 1. Copyright 543753, cl. F ESESSSSSSSSSSSSSS / "- I cz_ 901664 6 gom - in the middle part of the rod with concave surfaces of the trays directed in opposite directions.