SU666132A1 - Multi-stage hydraulic jack - Google Patents

Description

(54) MULTISTAGE HYDRO DOMESTIC.

The invention relates to mechanical engineering and can be used in all sectors of the national household as an actuator for various types of hydraulic conduits.

A multistage hydraulic jack is known, comprising a housing, coaxially placed outer and inner cylinders with direct pressure and counter pressure chambers, additional cylinders and a source of pressure Ti.

The working areas of the indirect pressure chambers increase when moving from the inner cylinder to the outer cylinder. As a result, the outer cylinder has the largest displacement and operates at the lowest pressure of all working cylinders ..

It. leads to the fact that the jack has a small efficiency, and in addition, a pumping station with high expenditure and weight characteristics is required.

The aim of the invention is to improve the efficiency of the jack.

This goal is ensured by the fact that the additional cylinder rods are rigidly connected to the outer cylinder, and the rod and piston cavities of the additional cylinders and the back pressure cavity of the inner cylinder are connected to a pressure source, the direct pressure chamber of the outer cylinder is connected to the atmosphere, and the back pressure chamber is connected to the atmosphere. pipeline connected to the source of water.

The drawing shows a General view of the master jack.

The hydraulic jack includes a housing I, an outer cylinder 2, inner cylinders 3 and 4. The outer cylinder 2 is rigidly connected to the rods 5 of the additional cylinders 6. The housing 1 forms with the outer cylinder 2 a chamber against backpressure 7 and a chamber 8, which is connected to the atmosphere. The outer cylinder 2 forms with the inner cylinder 3 a direct pressure chamber 9 a chamber against 366

pressure 10. The backpressure chamber 7 of the outer cylinder 2 is connected to the direct pressure chamber 9 of the inner cylinder 3 and c. a make-up system through a check valve 11.

The inner cylinder 3 forms with the inner cylinder 4 a direct pressure chamber 12 and a counterpressure chamber 13. A counterpressure chamber 10 is connected to the direct pressure chamber 12. A reverse make-up valve 14 is built into the inner cylinder 3. The piston cavities 15 of the additional cylinders 6 are connected to a pressure source.

The rod cavities 16 of the additional cylinders 6. are connected with the counterpressure chamber 13 of the inner sipindra ° 4 and with devices for supplying fluid.

 The work of the hydraulic junction is presented for cases of lifting and lowering the load. When the load is lifted, the working fluid is supplied from the dip source to the piston cavities 15 of the additional cylinders 6, which, by mixing, drive the outer cylinder 2, compressing the liquid in the backpressure chamber 7. The fluid from the backpressure chamber 7 is displaced into the forward pressure chamber 9 the inner cylinder 3, ensuring its movement. The liquid of the chamber tt Tii "of the inlet 1O of the inner cylinder 3 is displaced into the chamber of the right pressure 1 of the inner cylinder 4, causing it to not". remaking From the inlet 6 of the i3 of the inner cylinder 4 and from the rod of the cavities of the auxiliary cylinders 6, the liquid is discharged to the drain line. Thus, the extension of the inner tsilingf 3 and 4 and the outer cylinder 2 occurs simultaneously.

When lowering the load, the working fluid is supplied to the counter-pressure chamber 13 and to the rod cavities 16 of the additional cylinders 6. When moving internally

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The first cylinder 4 is forced out of the direct pressure chamber 12 into the chamber against the pressure of the inner cylinder 3, causing it to move. Simultaneously, the movement of the rods 5 of the working cylinders 6 occurs, causing the movement of the outer cylinder 2. The piston cavities 15 of the additional cylinders 6 are connected to the drain.

When using a hydraulic ram in a locking hydraulic circuit, it is necessary that the total area of the piston cavities 15 additional cylinders be equal to the total area of the backpressure chamber 13 of the internal cylinder 4 and the rod cavities 16 additional cylinders 6.

Claims (1)

1. USSR author's certificate No. 530847, cl. B 66 F 3/28, 24.03.-75. sixteen t1