DE394148C - Device for monitoring the thermal economy of combustion systems - Google Patents

Description

Device for monitoring the heat economy of combustion systems. When monitoring combustion systems, e.g. B. boiler houses, one uses a number of display devices, mostly on an electrophysical basis are based in order to get an idea of the processes that take place inside Create context. An economical firing requires z. B. pausing a certain draft so that as much coal as possible is burned into carbon dioxide or a Excess air is avoided. The temperature of the feed water is also important, of steam and flue gases.

The tracking of these processes by reading instruments with Close and distant display is too cumbersome, and it is also desirable to keep a log of these processes to run flawlessly. For this reason, several such attempts have been made Record processes by means of an electrical measuring instrument on a common writing strip allow. The so-called bridge circuit has been used, in connection with a sensitive Galvanomefer.

To record two; The current ratios can be divided into three or more sizes in the individual branches of the bridge can still be seen to some extent, but at least it will a rather cumbersome voltage regulation is necessary, which is done by hand must, so that the protocol loses value. According to the invention all physical quantities in question are related to resistances brought in such a way that the resistances change lawfully with the sizes and these changes in resistance are all by a single ohmmeter according to the cross-coil system to be recorded. The particular advantage of this facility is that In this way, the displays are independent of the voltage of the operating current for the instrument and that the resistance changes, which of the added correspond to the physical size, have no effect on the other resistances.

Another advantage is that the cross-coil ohmmeter for each Kind of order of magnitude of a resistor is equally sensitive to being the various resistances used for comparison measurements can be in entirely different orders of magnitude, from Fig. i is a Embodiment can be seen. It concerns the transfer of 6 processes, which with the help of the multiple writer known in its execution after Principle of the cross-coil ohmmeter are recorded point-like, which means: Measuring point i a draft knife (smoke exhaust in the fox).

Measuring point - a resistance thermometer for measuring the flue gas temperature.

Measuring point 3 has a CO 2 -Iesser for measuring the CO, content in the Exhaust.

Measuring point 4. a pressure gauge to measure the steam pressure in the boiler or in the manifold.

Measuring point 5 is a resistance thermometer for measuring the temperature of the feed water. Measuring point 6 a resistance thermometer for measuring the temperature of superheated steam.

The principle of the sender exists for the CO2 meter, for example in that a swinging wing by the pressure of a rotating wing accordingly the density (C02 @ content) of the gas is entrained. This rash will help with converted into resistance values using a resistance drum.

Fig. 2 shows the circuit diagram of the system shown in Fig. I. i to 6 are the corresponding encoders from Fig. i. In the tensile, CO2 and pressure gauges, which are indicated by a pointer moving over a dial, either the pointer is brought into contact with a small grinding brush that grinds over a fixed resistor, or a Resistance drum is put on, and the brush is made stationary. The ends of the resistor are connected to the two coils of the cross-coil ohmmeter as shown in the diagram (measuring point i is switched on) while the grinding brush is connected to the battery. From the diagram it can be readily seen that with a displacement of the brush on the resistor, the current ratio in the two branches of the cross-coil ohmmeter changes and this causes a change in the pointer position of the cross-coil ohmmeter. For the temperature measurements at the measuring points 2, 5 and 6 resistance thermometers are used, which are connected in a known manner with the cross-coil ohmmeter. The switching of the writing instrument to the different measuring points takes place after registration by switching the two brushes bi and b2 to the lamellae h and 1, or 1, and 1i and so on belonging to each measuring point

The movement of the brushes is done by clockwork. Between the slats of the switch h to 1,2 and the terminals klbisk "are the control resistors alunda2, b1 and b2, cl and c2, dl and d =, e1 and e "f1 and f2 switched. It is it is immediately apparent that with the switchover to another measuring point at the same time other adjustment resistors in the two branches of the cross-coil ohmmeter be switched on: This makes it possible to use the cross-coil ohmmeter for each measuring point to be set, even if the ohmic values for the measuring ranges of the individual measuring points are different.

It is practically possible to have up to about 12 different tasks for example, are distributed over two firing systems, on a common strip to record.

Claims (1)

PATRNT-ANspRUcFi: Device for monitoring the heat economy of combustion systems, characterized in that the individual to be observed physical quantities are inevitably related to changes in resistance and in an automatically running sequence with the help of one of the operating voltage independent measuring instrument built according to the cross-coil system on a common Writing strips are recorded.