CS259358B1 - Measuring chamber with rotating piston for volumetric gauges - Google Patents

Abstract

The solution concerns a measuring chamber with a rotating piston and solves the problem of arranging the chamber and reading the measured values with an inductive sensor. The essence of the solution is a chamber formed from a cup lid and a circular bottom with an eccentric piston placed in the recess of the cup lid. The circular bottom is provided with holes passing into the meter housing. Alternatively, it is possible to build an inductive sensor into the meter housing perpendicular to the circular bottom. The solution can be used in the production of water meters, but also for measuring liquid fuel consumption.

Description

The solution relates to a measuring chamber with a rotating piston and solves the problem of the arrangement of the chamber and the sensing of the measured values by an inductive sensor. The essence of the solution consists of a chamber made of a mug lid and a circular bottom with an eccentric piston mounted in a mug lid. The circular bottom is provided with openings extending into the meter housing. Alternatively, an inductive sensor can be installed perpendicular to the circular bottom of the meter housing. The solution can be used for the production of water meters, but also for the measurement of liquid fuel consumption.

Municipalities 259358 259358

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary piston measuring chamber for volumetric flow meters and fluid overflows and solves the design of the chamber and the sensor of measurement.

To date, known designs of flow meters and overflowing fluids with a rotating piston have a cup-shaped measuring chamber with a circular lid, wherein the inlet and outlet openings are located in the bottom and wall of the container. Other known solutions have an outlet opening formed in the chamber lid.

The complicated shape of the inlet and outlet openings of the measuring chamber necessitate the choice of highly demanding technologies. The effect of fluid pressure and the demands for accuracy and stability of dimensions do not allow the use of more cheap materials of lower precision, for example, combs. The material difficulty of the known solutions is also enhanced by the fact that the chamber must be enclosed in the entire circumference and its entire height in the housing to the sealing lid.

Disadvantages of the prior art measuring chamber are eliminated by a rotating piston measuring chamber consisting of a lid and a base according to the invention, the chamber being formed by a cup lid (1) and a circular bottom with an eccentric piston axially connected to a magnetic clutch drive disc located in the recess the cup lid, wherein the circular bottom is provided with openings extending into the meter housing.

Alternatively, an inductive sensor can be installed perpendicular to the circular base in the meter housing.

By placing the inlet and outlet openings in a circular day, the manufacture of complex housing shapes is simplified. The low pressure effects of the liquid on a separate circular bottom allow the use of a lower strength material, such as plastic, to produce this component, giving rise to more efficient manufacturing possibilities, for example by spraying from honeycombs with simple implementation of the inlet and outlet apertures and low friction losses of the rotating piston and also a prerequisite for sensing the piston movement with an inductive sensor is necessary. An example of a measuring chamber according to the invention is shown in the accompanying drawings.

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

FIG. 2 shows a measurement chamber with section A-A.

FIG. 3 is an axial sectional view of a rotary piston meter with magnetic piston speed transmission outside the chamber space and an electric piston position sensor.

The measuring chamber 11 is formed of 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 clutch drive disc 5. An eccentrically rotating piston 3 is accommodated in the measuring chamber 11. The cup lid 1 is sealed in the meter housing 4 by a flat seal 7 and a sealing ring 6. Alternatively, the cup lid 1 may protrude from the meter housing 4.

Movement derived from the flowing fluid is transmitted by the rotating piston 3 through the magnetic clutch drive disk 5, which is located in the recess 10 of the cup lid 1, or is electronically sensed by the inductive sensor 8 through the circular bottom 2.

The invention can be used with the advantages described in the construction of a modular concept of a whole series of flow meters and an overflow of liquids in the production of water meters, a liquid fuel 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