CS240918B1 - Gas density measuring and signaling equipment, in particular for gas pressure electric equipment as insulating and quenching medium - Google Patents

Abstract

The device is designed to provide continuous information about the gas density in the connected space. It uses continuous measurement of the gas pressure and temperature of the sensors, their signal corresponds to these quantities. In the electrical part of the device, a signal proportional to the gas density is generated by processing the sensor data. The signaling device informs about exceeding the set gas density values.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for measuring and signaling gas density, in particular for electrical equipment with pressurized gas as an insulating and quenching medium. The device comprises a two-pin absdwt gas pressure sensor, a metal resistance temperature sensor, an amplifier with non-inverting and inverting input and voltage output, and two coupling resistors.

Until now, temperature-composite, needle-type manometers with a contact system have been used to measure gas density. The contact system switched the signal circuits after reaching certain gas densities.

A disadvantage of this method of measuring gas density is that accurate temperature compensation of the mechanical manometer system is only possible in the immediate vicinity of one particular gas density value. It is therefore not possible to measure the gas density over a large range. The transmission of information on the measured gas density over a long distance can only be accomplished by complicated electromechanical equipment.

These disadvantages are avoided by the device for measuring and signaling the density of the gas, in particular for electrical apparatus with pressurized gas as the insulating and quenching medium according to the invention, characterized in that while the first outlet of the absolute gas pressure sensor is connected to the

240 818 the second terminal is connected through a series combination of a metal resistance temperature sensor and a first coupling resistor to both the inverting input of the amplifier and the second coupling resistor to the voltage output of the amplifier.

The voltage output of the amplifier may be connected to the input of the voltage-current converter, the output of which is the output for remote transmission of the measured / gas density value.

At least one level circuit input, the output of which is an output for connecting a signaling device, may be connected to the amplifier voltage output.

The advantage of the device according to the invention is the wide range of gas density values in which the temperature dependence, the gas pressure is compensated. The range is limited only by the range of the pressure and temperature sensors. The connection according to the invention using a voltage-current converter allows the transmission of the measured gas density information over a long distance, avoiding the effect of line resistance.

An example of a practical embodiment of the invention is shown in the attached drawing, in which there is a block diagram of the device.

The first terminal 8 of the absolute gas pressure sensor 8 is connected to the non-inverting input 10 of the amplifier 8. The second outlet 2 of the absolute gas pressure sensor 2 already wishes a series combination of a metal resistance temperature sensor 6 and a first coupling resistor 6 to the inverting input 11 of the amplifier 6 and to the voltage output 12 of the amplifier 6 via a second coupling resistor. with an input 33 of a voltage / current converter jehož whose output 14 is an output for remote transmission of the gas density measurement and on one level circuit input 15 whose output 16 is an output for connecting a signaling device.

The electrical signal from the absolute gas pressure sensor X is processed by an amplifier whose gain varies with temperature by means of a metal resistance temperature sensor, which is a platinum resistance element, whose coefficient of resistance to temperature makes it easy to change the gain gain3

240 918 χ depending on the temperature and thus compensate the temperature dependence of the gas pressure. This processing produces a proportional signal. gas density. Logic signals are generated in the downstream level circuit 5 to indicate that the selected gas density levels have been reached.

A signal for remote transmission of the measured gas density is taken from the output 14 of the voltage-current converter. A signal for the signaling device is removed from the level circuit output 16.

Claims (3)

SUBJECT OF THE INVENTION 1. Equipment for measuring and signaling gas density, in particular for electrical equipment with pressurized gas as an insulating and quenching medium, comprising a two-pin absolute gas pressure sensor, a metal resistance temperature sensor, a non-inverting and inverting input and voltage output amplifier and two coupling resistors characterized in that, while the first outlet (8) of the absolute gas pressure sensor (1) is connected to the non-inverting input (10) of the amplifier (2), its second outlet (9) is connected via a series of metallic resistance sensor (5) the first coupling resistor (6) to the inverting input (11) of the amplifier (2) and the second coupling resistor (7) to the voltage output (12) of the amplifier (2) 2. Gas density measuring and signaling device according to claim 3, characterized in that the voltage output (12) of the amplifier (2) is connected to an input (13) of the voltage / current converter (3) whose output (14) is a remote transmission output. gas density measurements. 3. Gas density measuring and signaling device according to claim 1, characterized in that at least one input (15) of the level circuit (4) is connected to the voltage output (12) of the amplifier (2), the output of which (16) is the output. to connect a signaling device. -