DE4032938C1 - Filling level measurer for gasometer - uses liq.-filled container attached to movable dome of gasometer and connected to pressure sensor via flexible line - Google Patents

Abstract

An arrangement for measuring the fill level of a gasometer contains a part of a height measurement arrangement permanently associated with the movable gasometer dome whose position is used to determine the contents. The part of a height measurement arrangement is a liquid-filled container (5) connected via an elastic line (5) with a fixed position pressure measurement device (7). The latter is a conventional pressure transmitter which generates an electrical or pneumatic signal (8) depending on the pressure. ADVANTAGE - Requires no mechanically moving parts.

Description

The invention relates to a device for measuring the filling efficiency of a gasometer with that of the mobile Gasometer bell part of a height measuring device firmly is ordered and based on the level of the gasometer bell Filling content is determined.

It is known the content of a gasometer on the stand measurement of the moving part of the gasometer. For this for example, it is known (JP-Abstr. 54-1 49 921) the gasometer bell the end of a Assign the cable firmly to the one on the fixed part of the Gaso meters attached pulley is guided, the revolutions in one direction or another as a measure of the altitude serve the gasometer bell. It is also known the order a type of tachometer or potentiometer via the electrical output signals for further processing tion can be removed. The mechanical guidance of the However, wire rope is relatively complex and maintenance-intensive, if the necessary measuring accuracy is maintained should.

The invention has for its object a device type mentioned so that on the arrangement mechanically moving parts can be dispensed with.  

To solve this problem, a gangs mentioned provided that as part of the Höhenmeßein direction a liquid-filled container is provided, the via an elastic line with a pressure gauge in connection manure that is stationary. Through this shape it becomes about measuring the hydraulic pressure in a lot easily possible the current level of the gasometer bell to indicate. All moving parts are eliminated. The new Setup is therefore largely independent of maintenance. Wear is also avoided and the measuring accuracy can be reduced not be affected.

It is useful according to subclaim 2, as a pressure measurement device to provide a commercially available pressure transmitter, which in Depending on the pressure an electrical or pneumatic Signal generated. This can be done by adjusting and Setting the content of the Gaso via a display device Specify meters. The electrical or pneumatic signal can also be given to a control device, which then the Supply or discharge of the gaseous medium in or from the Gasometer controls.

The invention is in the drawing based on an exemplary embodiment game is shown schematically and is explained below tert. The only drawing shows a schematic Representation of a gasometer with the new measuring device.

In the drawing, a movable gasometer part in the form of a gasometer bell ( 2 ) is guided so that it can move vertically in a stationary, fixed gasometer part ( 1 ), which can be cylindrical, for example. The walls of the fixed gasometer part and gasometer bell are sealed against each other, which can be achieved, for example, by a liquid, the mirror of which is above the lower edge of the gasometer bell in the fixed part. A gaseous medium can be brought into and removed from the inside of the gas meter bell ( 2 ) via supply and discharge devices ( 3 and 4 ). Depending on the amount of gas in it, the gasometer bell ( 2 ) therefore rises or falls within the fixed gasometer part ( 1 ).

A container ( 5 ) is firmly connected to the movable gasometer bell ( 2 ) and is filled with a liquid up to a certain height. The container ( 5 ) is connected via an elastic hose ( 6 ) to a pressure transmitter ( 7 ) of a commercially available type, which in turn is firmly connected to the fixed part ( 1 ) of the gasometer. Therefore, if the gasometer bell ( 2 ) lowers, the pressure determined by the pressure transmitter and dependent on the height (h _x ) is reduced; if the gasometer bell rises, the pressure detected on the pressure transmitter ( 7 ) is increased. This presupposes that the elastic hose ( 6 ) is long enough to be able to be led to the highest position of the gasometer bell ( 2 ). In the drawing, the position of the hose ( 6 ') is indicated by dashed lines, which it occupies when the gasometer bell ( 2 ) with the container ( 5 ) firmly attached to it has sunk.

The height difference (h _x ) between the pressure transmitter ( 7 ) and the container ( 5 ) can be detected by measuring the hydrostatic pressure (p). The following relationship applies:

p = ρ · g · h.

Since ρ (the density of the measuring liquid used) times (g) is a constant, the pressure is therefore only a function of (h). The changing pressure to be measured in the pressure transmitter ( 7 ) is therefore directly proportional to the height that the gasometer bell ( 2 ) assumes in relation to the position of the pressure transmitter. It is not a problem to use commercially available transmitters for this purpose and to use the electrical or pneumatic signal they generate on the basis of the measured pressure for remote display or for control purposes. The measuring range of commercially available pressure transmitters can be adapted to the maximum height (h _x ) to be recorded in the shortest possible time. Pressure transmitters have been introduced as standard devices in many areas of industry. The new facility therefore offers no difficulties for handling.

A liquid mixed with antifreeze that remains operational in winter can be used as the measuring liquid in the container ( 5 ) and in the hose ( 6 ). It is sufficient to replace this liquid at relatively long maintenance intervals. No further maintenance work is required. The drawing also indicates that the signal ( 8 ) generated by the pressure transmitter ( 7 ) can be continued for further processing, for example for control or display purposes. The type of attachment of the container ( 5 ) to the gasometer bell and the attachment of the pressure transmitter ( 7 ) to the fixed gas meter part ( 1 ) is only shown schematically in each case by a hinted connecting arm ( 9 or 10 ).

Claims (4)

1. A device for measuring the degree of filling of a gasometer, in which a part of a height measuring device is permanently assigned to the movable gasometer bell and the filling content is determined based on the state of the gasometer bell, characterized in that a liquid-filled container ( 5 ) is provided as part of the height measuring device , which is connected via an elastic line ( 6 ) to a pressure measuring device ( 7 ) in United, which is arranged in a stationary manner. 2. Device according to claim 1, characterized in that a commercially available pressure transmitter ( 7 ) is provided as a pressure measuring device, which generates an electrical or pneumatic signal ( 8 ) depending on the pressure. 3. Device according to claim 1 or 2, characterized in that the pressure transmitter ( 7 ) is connected downstream of a display device and / or a control device. 4. Device according to claim 1, characterized in that the container ( 5 ) and the line ( 6 ) are filled with a measuring liquid protected against frost.