SU402744A1 - PISTON FLUID FLUID OR GAS - Google Patents

Description

one

FIELD OF THE INVENTION The invention relates to the field of construction engineering, namely to volumetric flow meters, which can be used both in industry and in laboratory installations.

A piston flow meter for a liquid or a gas is known, comprising a cylindrical body, a piston and a distribution device.

However, when using a known flow meter, the direction of movement of the liquid or gas changes as the piston moves. In addition, the pedal of the device is the discontinuity of the flow of liquid or gas.

To ensure continuity of flow and expansion of the measuring range, the distribution device of the proposed flow meter is located on a spring-loaded piston and is designed as a valve formed by a hole in the bottom of the piston with a tapered collar and a locking disk, to the rod of which are spring-loaded levers and fitted with rollers at the ends resting on the inclined surface of the collar.

FIG. Figure 1 shows the flow meter described (the piston is in the extreme right position with the valve closed); in fig.

2 - the same (the piston is in the extreme left position with the valve open).

The flow meter is a cylindrical case I, inside of which there is a movable partition in the form of a piston 2 with an automatic valve consisting of a locking disk 3, a bushing 4, a rod 5, an emphasis 6, levers 7, rollers rS and springs 9. Supply and discharge of liquid or gas is carried out through connecting flanges 10, on which perforated caps 11 are attached, with right 12 and left 13 stops. A return spring 14 is located between the left cover 11 and the piston 2, consisting of two seconds, fixed by tube 15 with external and internal flanging along the edges. The piston 2 is made in the form of a glass, which has an axial bore in the bottom part, where the sleeve is inserted 4, the stroke of which limit the stop m. 6. The piston 2 has a tide in the form of a conical collar 16, to which the levers 7 of the valve with the rollers 8 are pressed with a spring of 9 levers. In the non-working state, the piston 2 is pressed against the right stop 12 under the action of a preliminary valve and the locking disc 3 of the valve blocks the bottom hole of the piston 2. When fluid flow starts, the movement of the piston 2 also starts at the same time disc 3 is an impenetrable septum. The movement of the piston leads to compression of the spring 14. The area of the bottom part of the piston 2 and the elasticity of the spring .14 are selected so that the full stroke of the spring is provided with a pressure drop in the body of not more than 0.05 atm. The piston 2 moves until the valve stem 5 contacts the left spring stop 13. After the stop 13 stops, the valve stops moving, the piston continues to move, and the piston moves relative to the stationary parts of the valve. At the same time, the levers 7 of the clan with the rollers 8 cross over the top of the conical collar 16 Norse 2 n, moving along the inclined flange faces under the action of the spring 9, push the rod 5 together with the locking disc 3, opening the through hole in the bottom of the piston 2. The locking disc output From the piston bore, the left spring stop 13 contributes, exerting pressure on the clan stem 5. The open bore provides uninterrupted flow of liquid or gas, relieving the pressure inside the casing. In this case, the piston under the action of the return spring 14 together with the open valve moves to the right spring stop 12. As soon as the valve stem contacts the right spring stop, the movement gradually stops, but as the stop 14 compresses, the piston continues to move. As a result, the levers of the valve open, moving the top of the collar and node with the action of a spring 9 and spring unor 6 pull the valve into the piston, closing the piston through hole with a locking disc. The piston moves with the valve again as the flow progresses. When changing the motion of the piston, the continuity of the flow is ensured first by the presence of a free stroke on the locking disk after the opening of the through hole in the piston, and then by changing the motion control of the piston itself. To determine the flow rate, the time of movement of the hopper is measured, when its bore hole is blocked by a locking disc between two fixed points of the Cornus corresponding to the measured volume of the liquid or gas consumed. Subject of the Invention A piston flowmeter for liquids or gases containing a cylindrical cornus within which a piston and a distribution device are numbered, characterized in that, in order to ensure continuity of flow and to expand the measuring range, the distributor device is arranged on a spring-loaded piston and made in the form of a valve formed by a bore the bottom of the piston with a tapered collar and a locking disc, to the stem of which are pivotally connected levers, which are pulled by a spring and fitted at the ends of p faces, onirayuschimis on the inclined surface of the bead.

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