SU49289A1 - Device for determining the cross section of the piston hydraulically - Google Patents

Description

The hydraulic cargo press piston cannot be made ideally cylindrical in shape, due to which its cross-section, calculated by the outer diameter, is not the actual cross section of the piston that should be obtained by hydraulic testing, but because in this test, the pressure, the counterbalancing piston, must be created with the help of a liquid medium, then when determining the actual cross section of the piston hydraulically, it is still necessary to take into account the additional pressure (positive or negative Tel'nykh), which may arise due to possible different height positioning of the pressure source (hydraulic press) and the test piston.

In the proposed installation, a piston balanced by a mercury column perceives this pressure not directly, but through a liquid medium, and the pressure from the mercury manometer to the fluid supporting the piston is created between the first and second gaseous medium. At the moment of equilibrium, the liquid columns are set in such a position that their pressure is mutually balanced.

The proposed installation consists of a base 28 with a cylinder 27 fixed on it with a piston 18. The installation includes two more chambers — a large 4 and a small 5, located on a common base with the system distributed and consisting of a series of taps and pipelines, one of which serves for the supply of liquid, and the second 13 - for the supply of compressed air. A tube 14, which supplies air on the one hand, is connected to a cylinder with a pressure reducing valve, and on the other hand, to a spring (fitting 23) and mercury manometer (tube 24}.

The distribution system with existing cranes allows switching on and off of each of the gauges as well as of each of the chambers. In addition, there are one taps 2 and 7 in the lid of each chamber, which serve to communicate the chambers with the outside air. Using this distribution system, it is possible to fill the small chamber with oil up to the height at which the lower end of the piston is located.

If the piston in this position is balanced by air pressure, with a mercury column, then the actual cross section of the piston can be calculated from the resulting height of the mercury column.

Liquid columns in the specified position are mutually balanced and will not create additional pressure.

The small cylinder 3 is made of glass and has a graduation deposited on its side surface. The same graduation has a scale of 17, which indicates the position of the piston placed in the cylinder 27. Using the specified scale 77 and taking into account the length of the piston, the lower end of the latter can be set at such a height as the liquid level in the small cylinder 3.

The large cylinder 4 is intended to adjust the height of the liquid level in the small cylinder 3. If it is necessary to supply liquid from the large cylinder 4 to the small 3, in a large cylinder 4 above the oil, pressure is created when compressed air is supplied to this cylinder through pipe 14. To turn on the air line valve // serves, and to disconnect the cylinders from each other, valve 12.

The taps / and -2 on the cylinders are used to communicate the cylinders with the atmosphere. A manipulator with the indicated cranes can create the desired pressure in the cylinders above the liquid surface and force the liquid to move from the large cylinder to the small cylinder, as well as in the opposite direction.

A spring pressure gauge mounted on fitting 23 serves to control the pressure that is applied to the mercury pressure gauge.

The tubes 3 and 75 are connected to the tube 14, supplying compressed air to the upper part of the large 4 and small 3 cylinders. The tubes 16 VI 8 are connected to the pipeline 9, by means of which the liquid is fed under the piston into the cylinder 27 and into the small 3 and large 4 cylinders.

The subject matter of the invention.

Claims (2)

1. A device for determining the cross section of a press piston hydraulically using a mercury manometer, characterized in that, when using pressurized gas as a pressurizing medium, cylinder 3 is used, partially filled with liquid to a height equal to the height of the piston in the cylinder 27 and connected with its upper part compressed gas to create mutually balanced fluid columns between the gas medium and the piston. 2. In the device according to claim 1, use an additional cylinder 4, also partially filled with liquid, its upper part connected to compressed gas and used to adjust the height of the liquid in cylinder 5. 17 four /five -27 23 J8 /, 24