CS259358B1 - Measuring chamber with rotating piston for volume measuring instruments - Google Patents

Abstract

The solution relates to a rotating measuring chamber piston and solves the problem of alignment chambers and sensing inductive readings sensor. The essence of the solution is chamber made of mug lid and a circular bottom with an eccentric piston mounted in a selected mug lid. Round the bottom is provided with holes passing through into the meter housing. Alternatively, it is possible to the gauge case perpendicular to circular an inductive sensor is installed in the bottom. solution can be used in the production of water meters, but also to measure liquid consumption fuel.

Description

The invention relates to a measuring chamber with a rotating piston for volumetric flowmeters and an overflow of liquids, and to a structural arrangement of the chamber and the measured value sensor.

Hitherto known design solutions of volumetric flow meters and overflow of liquids with a rotating piston have a measuring chamber in the shape of a round-pot pot, the inlet and outlet openings being located in the bottom and wall of the vessel. Other known solutions have an outlet opening formed in the chamber lid.

The complex shape of the inlet and outlet openings of the measuring chamber necessitates the choice of highly demanding technologies. The effect of the liquid pressure and the demands on the accuracy and stability of the dimensions do not allow the use of lower-grade materials of lower accuracy, for example plastics. The material complexity of the known solutions is increased by the fact that the chamber must be enclosed in the casing up to the sealing lid by its entire circumference and its entire height.

Disadvantages of the prior art measuring chamber solutions are eliminated by a rotating piston measuring chamber consisting of a lid and a bottom according to the invention, characterized in that the chamber is formed by a cup lid (1) and a circular bottom with eccentric piston in axial relation to the magnetic clutch drive disc. a cup lid, wherein the circular bottom is provided with openings extending into the meter housing.

Alternatively, an inductive sensor can be built into the meter housing perpendicular to the circular bottom.

By placing the inlet and outlet openings in the circular bottom, the production of complex housing shapes is simplified. The low pressure effects of the liquid on a separate annular base allow the use of a lower strength material, such as plastic, for the manufacture of this component, which provides for more efficient technological manufacturing possibilities, such as plastic spraying with simple inlet and outlet shape and low friction losses of the rotating piston; also a prerequisite for sensing the movement of the piston by an inductive sensor.

An exemplary embodiment of a measuring chamber according to the invention is shown in the accompanying drawings.

Fig. 1 shows the measuring chamber of FIG. 2 in section A-A.

Fig. 2 shows a measuring chamber with a section along the line A-A.

Fig. 3 is an axial section of a rotating piston meter with magnetic transmission of the piston speed outside the chamber and with an electric position sensor - piston speed.

The measuring chamber 11 is formed from a cup lid 1 and a circular bottom 2 provided with openings 9 extending into the meter housing 4. A recess 10 is provided in the cup lid 1 for mounting the magnetic disc drive disk 5. An eccentrically rotating braid 3 is disposed in the measuring chamber 11. The cup lid 1 is sealed in the meter housing 4 by a gasket 7 and a sealing ring 6. Alternatively, the cup lid 1 may protrude from the meter housing 4.

The movement derived from the flowing liquid is transmitted by the rotating piston 3 through the magnetic clutch drive disc 5, which is located in the recess 10 of the cup lid 1, or is sensed electronically by an inductive sensor 8 through a circular bottom 2.

The invention can be used with the described advantages in the construction of the modular concept of a whole series of flow meters and overflows in the production of water meters, liquid fuel consumption meter and the like.

Claims (3)

Rotary piston measuring chamber for volumetric meters consisting of a pot and a circular closure, characterized in that the circular bottom (2) of the measuring chamber (11) is housed in the meter housing (4) and has openings (9) through it the meter housing (4), the measuring chamber (11) being closed by a cup INVENTION with a lid (1) without holes and with a recess (10) for a magnetic clutch drive disc (5) connected to the piston (3). 2. A rotary piston measuring chamber according to claim 1, characterized in that an inductive sensor (8) is built into the meter housing (4) perpendicular to the circular base (2). 2 sheets of drawings