SU1656406A1 - Device for determining buoyancy of objects at varying hydrostatic pressure - Google Patents

Abstract

The invention relates to a measurement technique, in particular, devices for determining the buoyancy of bodies, for example, a cable, under varying hydrostatic pressure, and can be used in the cable and shipbuilding industry. The device contains a hydraulic chamber with a piston, lockable checks. A sealed container is attached to the piston of the hydraulic chamber, which is closed on one side by a removable lid, and on the other by a floating piston with a rod. The rod is passed through the piston hole of the hydraulic chamber and is connected to a regulating device. A cavity is formed between the pistons and the container, which is connected to the volume of the hydraulic chamber and the pipeline with a valve by the openings. The container serves to place the test body in it 1 Il. yo

Description

This invention relates to a measurement technique and can be used in the cable and shipbuilding industry.

The purpose of the invention is to improve the determination accuracy, expand the scope and extend the range of pressure variations in the hydroenvironment.

The drawing shows the proposed device.

The device contains a hydrochamber 1, in which a hydrostatic pressure is created. The hydraulic chamber 1 is hermetically closed by a piston 2, which is locked with two checks 3. Inside the hydraulic chamber 1 there is a sealed container, 4, in which the test body 5 is placed. Container 4 with one

side is closed with a removable cover 6, and on the other hand with a floating piston 7, which can freely move along the cylindrical surface 8 of the container 4. A piston 7 is rigidly connected to the rod 9, which is led out through the seal 10 of the piston 2. The rod 9 can freely move relative to the seal 10 when the piston 7 is moved. The container 4 is rigidly connected to the piston 2 by bolts 11. In the container 4 there are a number of openings 12 for connecting the volume of the hydraulic chamber 1 with the cavity between the piston 2 and the floating piston 7.

To fill the container 4 in the lid 6 there is a valve 13, and to fill the hydraulic chamber 1, the piston 2 is connected by pipeline to the valve 14.

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The hydro chamber 1 has a pressure gauge 15 and a pipe 16 for connecting a high pressure pump.

To measure the movement of the rod 9, the device is equipped with a movement indicator 17. In order to obtain a diagram of the change in the buoyancy of the body at different hydrostatic pressure, the displacement indicator 17 can be additionally equipped with a recorder.

The device works as follows.

The test body 5 is placed in the container 4, after which the container 4 is closed with a lid 6 and filled with water through the valve 13 until the container 4 is completely filled. valve 14 and through pipe 16, hydrochamber 1 is filled with water, which further through holes 12 fills the cavity between piston 2 and floating piston 7 until it appears in valve 14, after which valve 14 is closed.

On the scale of the displacement indicator 17, the readings are recorded under normal conditions, i.e. The buoyancy of the body 5 is measured at atmospheric pressure.

Then the required hydrostatic pressure is created in the hydrochamber 1, which is transferred to the container 4 through the piston 7, which freely moves along the cylindrical surface 8 of the container 4.

When a hydrostatic pressure is applied, the test body 5 is compressed and its volume and, consequently, the internal volume of the container 4 is reduced, which causes the piston 7 to move with the rod

9. By registering with indicator 17. The movement of the rod 9 and knowing the area of the floating piston 7, the change in volume of the test body 5 under the action of hydrostatic pressure is determined.

The proposed device (unlike the known ones) with a variable hydrostatic pressure can significantly improve the accuracy of buoyancy measurements, such as

as a slight change in the buoyancy of the body causes large forces that cause the floating piston to move with the rod, which is recorded by the indicator.

The rigid connection of the container with the hydrocamera allows to significantly expand the range of measured buoyancy, which allows to expand the field of application of the device.

The range of change of hydrostatic pressure in the measurement process can be extended to 1000 kgf / cm2 or more.

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Claims (1)

Invention Formula A device for determining the buoyancy of bodies at a variable hydrostatic pressure, containing a hydrochamber, a container for the test body, closed with one side removable lid and connected with a rod to a recording device, characterized in that, in order to increase the accuracy of determination, expand the scope and expand the range of pressure variations in the hydro environment, the container is rigidly connected to the hydro chamber, made sealed and provided with a floating piston connected to the rod . Gz