SU1733719A1 - Hydraulic pressure converter - Google Patents

Abstract

The invention relates to machines and mechanisms operating on the basis of a volumetric hydraulic drive, and can be used as a pressure transducer. The purpose of the invention is to increase the reliability and efficiency of the device by increasing the stroke length and improving the quality of manufacturing the high pressure cavity. The hydraulic actuator consists of two bodies 1 s bored cylindrical bores in which pistons 2 are placed with rods 3 Pistons with rods are formed together with housings 1 and end caps 4 and 5 low pressure piston cavities 6 and high pressure rod 7 cavities For distributing the fluid flow a pump 8 is installed with a safety valve 9 For distributing the fluid flow a three-way reversing distributor 10 is installed with electrical control from limit switches 11 Reverse valves 12 and 13 at the outlet of

Description

The invention relates to volumetric drive machines and mechanisms and can be used as a drive converter.

The simplest and most reliable pressure transducers are hydraulic transducers composed of hydraulic cylinders with two pistons of different diameters, the rods of which are rigidly interconnected.

The converter consists of a housing with two openings of different diameters, which together with the piston and double-sided rods of the low and high pressure cavities placed in them.

The difficulty of achieving the desired quality of high pressure surfaces is the main limiting factor B to increase the stroke of the converter.

A hydraulic converter is known in which two parallel-mounted one-way hydraulic converters are used instead of a double-sided rod. This design eliminates the need to maintain the coaxiality of the manufacture and assembly of low-pressure, high-pressure cavities, which makes it possible to improve the manufacturing quality of the high-pressure cavity and, accordingly, to increase the parameters of the converter.

However, the task of precise machining of mating surfaces of small diameter still remains

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

The goal is achieved by those. The drive and working cavities in the device are formed by a piston and a hydraulic cylinder rod, each of the driving cavities is fitted with a check valve installed in parallel and a spring-loaded, hydraulically controlled normally closed pressure difference valve, the spring cavity of which is connected to the drive of the control cylinder of the hydraulic cylinder of the valve control line communicated with the drive cavity of another hydraulic cylinder

The drawing shows the principal structural diagram of the converter and the hydraulic scheme of its drive.

The hydraulic transducer consists of two

housing 1 with bored cylindrical bores, in which pistons 2 with rods 3 are placed. These pistons with rods form, together with bodies 1 and end caps 4 and 5, piston

low pressure drive cavities 6 and high pressure rod cavities 7 (a ring mer with space between piston 2 and rod 3).

A pump 8 with a safety valve 9 is installed to supply the working fluid to the drive cavity b. A three-code reversing valve 10 with electric control from

limit switches 11, built into the housing 1 and switched at the end of the strokes of one of the pistons 2.

At the entrance to each of the cavities - drive 6 and working 7 - installed, respectively, check valves 12 and 13. At the exit of the working cavities 7, check valves 14 are also installed, connected in series with check valves 13.

At the outlet of the drive cavities 6, parallel to the non-return valve, normally closed pressure difference valves 15 are installed. Line 16 controls the spring cavity of valve 15 communicates with the same

drive cavities 6, on which valves 15 are installed. Control lines 17 for opening the valves connect each of the valves to the opposite drive cavity 6. On the control lines 17, chokes 18 are installed.

Hydrolines 19 and 20 connect the distributor 10 to each of the hydraulic cylinders of the converter, respectively to the top and bottom (Fig. 1).

The device works as follows.

When the distributor 10 is turned on in the right (according to the scheme) working fluid is supplied by the pump 8 through the open

check valve 12 in the drive cavity 6

the lower cylinder and through the open check valve 13 into the working cavity 7 of the upper cylinder

Another pair of opposite cavities of the lower and upper cylinders are connected through the valve 10 with the drain through the open check valves 12 and 13

Under the pressure of the working fluid flowing through the hydroline 20 into the low pressure cavity of the lower hydraulic cylinder 1, it begins to move the rod 3, and the fluid from the working cavity 7 through the open check valve 14 is supplied to the consumer

The value of this pressure is monitored by a pressure gauge 21.

At the same time through the hydroline 19, the working fluid enters through the open check valve 13 into the working cavity 7 of the upper hydraulic cylinder returning its rod 3 to its original position. In this case, the displacement of the working fluid from the drive cavity 6 of the upper hydraulic cylinder 1 into the drain occurs through the differential pressure valve 15, since the free position of the fluid from this cavity prevents the closed position of the check valve 12.

The presence of valve 15 and overflow of working fluid through it allow the same pressure value to be maintained in lines 19 and 20 to ensure simultaneous cycle of the lower stroke and idling of the upper cylinder.

The valve 15 is controlled by pressure on one side — to close the valves with pressure supplied through line 16 .S3 of the cavity where the valve is installed, and on the other hand to open the valve with pressure along the line from the same cavity opposite the hydraulic cylinder that performs

working stroke (in the case described - lower hydraulic cylinder).

Such control provides automation of cycle control: valve 15 opens only when the pressure in the cavity where it is installed becomes equivalent (taking into account the difference in pressure of the valve) to the working pressure in the same cavity of the opposite hydraulic cylinder, simultaneously with the working stroke of the lower cylinder for charging with a portion of the fluid of the high pressure cavity of the upper hydraulic cylinder.

The throttle 18, installed along the control line of the opening of the valve 15. ensures its early closing in order to always ensure the formation of pressure in the cavity of the cylinder of the cylinder that makes working stroke.

Claims (1)

Claims of Invention A hydraulic pressure transducer comprising two single-sided piston hydraulic cylinders driven by the cavities of which are communicated through the distributor with the power source and the drain, and the working cavities through the suction and discharge valves - with the distributor and the consumer, characterized by that, in order to increase the efficiency and reliability of operation, the drive and working cavities are formed by a piston, and the hydraulic cylinder stem each of the drive cavities is provided with a check valve installed in parallel and spring-loaded hydraulically controlled normally closed differential pressure valve, the spring cavity of which is connected to the drive cavity of the hydraulic cylinder controlled by it, but the control line of the differential pressure valve is connected to the drive cavity of another hydraulic cylinder