DE357100C

DE357100C - Device for measuring gas and heat quantities

Info

Publication number: DE357100C
Application number: DER47850D
Authority: DE
Original assignee: Individual
Current assignee: Individual
Priority date: 1919-06-25
Filing date: 1919-06-25
Publication date: 1922-08-19

Description

DEUTSCHES REICHGERMAN EMPIRE

AUSGEGEBEN
AM 19. AUGUST 1922ISSUED
ON AUGUST 19, 1922

REICHSPATENTAMTREICH PATENT OFFICE

PATENTSCHRIFTPATENT LETTERING

-JKi 357100-KLASSE 42 e GRUPPE -JKi 357 100- CLASS 42 e GROUP

(R 47850 IXl42 e)(R 47850 IXl42 e)

Josef Heinrich Reineke in Bochum.Josef Heinrich Reineke in Bochum.

Einrichtung zum Messen von Gas- und Wärmemengen.Device for measuring gas and heat quantities.

Patentiert im Deutschen Reiche vom 25. Juni 1919 ab.Patented in the German Empire on June 25, 1919.

Die Messung größerer Gasmengen verursacht einige Schwierigkeiten, da die Gasmesser große Abmessungen erreichen und infolge des Einflusses von Luftdruck und Temperatur ungenau sind.The measurement of larger amounts of gas causes some difficulties because the gas meter Reach large dimensions and as a result of the influence of air pressure and temperature are imprecise.

Es ist bereits versucht worden, die Messung größerer Gasmengen durch eine andere, Methode zu bewerkstelligen, so z. B. mittels des Thomasmessers. Bei diesem Messer wird das Gas durch ein Drahtgitter elektrisch ge-Attempts have already been made to measure larger amounts of gas using another, Method to accomplish, so z. B. by means of the Thomas knife. This knife will the gas is electrically powered through a wire

Claims

heats and the temperature increase of the gas J measured by two resistance thermometers, one of which is inserted in front of and the other behind the wire mesh in the gas pipe. A disadvantage of this knife 'is the complicated electrical contact and i switch arrangement that is easy to check ^{interferences:} let's.

The invention described below relates to a simple and operationally reliable device for measuring amounts of gas and amounts of heat. The invention also uses the cooling effect of the gas on an electrically heated wire mesh. The device works as follows: In the pipeline α , the two wire grids in the form of resistors b and V are arranged in such a way that the resistor b is exposed to the moving gas and the resistor b 'is in a, dead space, i.e. unaffected by the gas movement, is housed. The aim of this arrangement is to ensure that a change in the resistance of b and V always takes place uniformly due to fluctuations in the gas's own temperature. The resistors b and V are placed in the circuit of the electric motors c and c ' j, for example in the rotor line of; Three-phase motors. These two small j .30 electric motors drive a differential! drive d in such a way that the axis e stands still with the same number of revolutions of the motors. Tours are identical if the gas in the pipeline ο is not moving. If the gas moves, i.e. if gas is consumed, the resistance b is cooled down in accordance with the gas velocity, and the ohmic resistance is therefore reduced. As a result, the motor c receives an acceleration in its number of revolutions and the drive axis e makes a movement which is transmitted to a counter calibrated according to the pipe cross-section, whereby a registration of the gas flow rate is achieved.

Instead of motors with differential gears, an ohmmeter can be used, by switching the resistors into the measuring circuit in a known manner. That The measuring device then shows the current amount of gas passing through.

An Aron counter can be used as a counter in the simplest way by connecting the magnets, which influence the period of oscillation of the pendulum, in series with resistors b and b ' and a constant current source.

The above-described measuring principle can also be used to count the calorific value of certain amounts of gas. In this case, the two resistors b and V are introduced in a known manner into the incoming and outgoing water of a Junker calorimeter and the counter is calibrated accordingly. If one then knows the amount of gas which has passed through the calorimeter and the pipeline per unit of time, the total amount of heat supplied can easily be determined.

Godfather τ-An Proverbs:

i. Device for measuring and counting the amount of time passed through a pipeline flowing amount of gas by means of two electrical resistors exposed to the gas flow, characterized in that the resistors are switched on in the circuit of two electric motors and arranged in the gas line in such a way that the one resistance due to installation in the pipe according to the gas velocity is cooled and the other resistor for the purpose of canceling temperature influences is housed in a dead space of the pipeline. The two with a differential gear or something similar Element-coupled motors are dependent on the size of the resistors in their number of revolutions, and a counter connected to the gearbox indicates the speed difference of the engines and thus the amount of gas.

2. Device according to claim 1, characterized in that the resistors are connected in series with the two magnets influencing the pendulum of an Aron counter and a power source.

3. Device according to claim 1, characterized in that the cons would be built into the incoming and outgoing water of a Junker calorimeter are and that the counter is so caused by the temperature difference caused What is influenced is that, taking into account the amount of gas that has passed through, the amount of heat generated in the unit of time can be read.

1 sheet of drawings.