DE458173C - Control procedure for gas and similar furnaces - Google Patents

Description

GERMAN EMPIRE

ISSUED ON APRIL 2, 1928

REICH PATENT OFFICE

PATENT LETTERING

CLASS 24c GROUP

Josef Heinz Reineke in Bochum. Control procedure for gas and similar furnaces. Patented in German 'Reiche from September 12, 1924.

To solve the problem of a burn point Consuming a constant number of calories per unit of time has become widespread in recent years "made use of gas pressure regulators, which were connected upstream of the combustion points and fed the gas to them under constant pressure, in order to to achieve constant heating. But since the gas pressure regulator only provides the absolute Controlled the pressure of the gas, he naturally let the composition of the gas and the with it associated side effects are not taken into account. With increasing calorific value z. B.

an increased number of calories was added to the furnace despite the constant gas pressure, which only increase because of the associated increase in the calorific value is with a decrease in the specific gravity, with each other being equal The amount of gas flowing through is increased; because this is inversely proportional the root of the specific gravity.

In order to achieve uniform heating, the one supplied to the combustion point must Gas quantity reduced with increasing calorific value and increased with decreasing calorific value will. The invention therefore proposes the amount of heating gas as a function of the calorific value and to change the specific gravity of the gases by increasing the pressure of the gas, the latter being expedient by a corresponding adjustment of the pressure level of one dominating the heating gas line Pressure regulator happens. If the calorific value falls, it is sufficient to increase the amount of gas not or if this is not recommended for other reasons, then the whole Control arrangement can also be built into an additional gas line, in order to improve by adding Gas to get the required number of calories.

The solution to this problem is illustrated in the drawing, the device was connected to an electrical regulator, as this has the sensitivity, with which the system must work appears to be the most favorable. Applicable is of course any regulator which is provided with a device for adjusting the pressure level. The transfer of temperature fluctuations then depends on the type of controller on the control device and happens accordingly on electrical, dynamic or hydraulic way.

In the drawing, 1 denotes the gas line, 2, 3 and 4 branches to the Combustion points, 5 the throttle valve controlled by the pressure regulator 6, 7 the contactor, which controls the regulator depending on the absolute pressure in the pipe 1. The level of pressure can be adjusted in a known manner by the spindle 8 by hand or by machine.

The device described so far represents the normal pressure regulator. It is is now a matter of the pressure level depending on

to influence the calorific value of the gas. For this purpose / is "to the main gas line a connected calorimeter-like device 11, in which a Teüstrom of the gas with the Flame io burns. The calorimeter will through lines 12 and 13 cooling water supplied and discharged. The resulting temperature difference is measured by the galvanometer 14. Canoeing without interference, of course of the inventive concept also any other temperature-sensitive Facility to be used. The galvanometer 14 is designed as a contact instrument and switches the relays 15 and 16. These Both relays turn on the motor 17 in one or the other direction of rotation., whereby the spindle 8 is adjusted by means of gears 18. Instead of a contact galvaniometer with thermocouple is of course the

ao installation of resistors to influence the two-motor controller described as an exemplary embodiment is possible. In this case the resistance of one motor is placed in the cold, the other in the heated water. At a certain temperature difference, the number of revolutions of both motors is the same, i.e. the control value is reached.
The process is "as follows:
It is assumed that the pressure regulator is set to a level at which the flame 10 has a certain size. This setting should correspond to the desired number of calories that are fed to burn points 2, 3 and 4. The minimum and maximum contacts attached to the Kontaktgalvanorneter 14 are also set to this value, so that the entire device is in the rest position in this state. If the quality of the gas now deteriorates, the flame 10, since the pressure is constant, will add less heat to the water, the contact galvanometer switches on the relay 15, after which the motor 17 adjusts the spindle 8 in such a way that the gas with it larger pre-pressure flows out of the line. The result is that despite the reduced quality of the gas, the same number of calories is supplied to the combustion points. A device 19 for changing the outlet cross-section is expediently attached to the burner 10, whereby the partial flow rate can be changed.

Claims (1)

Claim: Control procedure for gas and similar furnaces with regulation of the fuel supply corresponding to the pressure and valence of the burned gas or gas mixture, characterized in that from the throttle valve (5) controlled by a pressure regulator (7) 'dominated gas line (1) a partial flow continuously fed to a calorimeter-like rub-in (11) and the measured Temperature fluctuations on electric, dynamic or hydraulic Adjust the pressure head of the gas pressure regulator (7). For this purpose ι sheet of drawings.