DE576721C - Temperature regulator for firing systems for gaseous or liquid fuels - Google Patents

Description

In known temperature regulators for gas firing systems, a valve body when the desired temperature of an operating variable is reached, the gas supply is shut off or throttled. The gas supply remains almost or completely unchanged until shortly before the desired temperature is reached the same. Then, as a result of the throttling, there is again a reduction in the If the temperature increases, the gas supply is immediately more or less full again Scope released. In the case of electrical regulators, the full range is often always available unthrottled gas volume available immediately. However, there are cases where heating with continuous in the same sense of changing the temperature of the medium to be heated that of the system Fuel amount must be changed according to a certain curve. For example, when heating a First a large amount of heat must be supplied to the boiler in addition to the Boiler contents also to heat boiler bottom, furnace walls, which then with advancing Heating of the boiler contents due to the decreasing heat absorption capacity the furnace walls, etc. can be reduced. The supply of heat must then increase with progressive warming reduce the boiler content. In certain cases, e.g. B. lead melting boilers, It is important that, to prevent tension in the boiler, a very slow heating up takes place until a The boiler has warmed through. Such boilers are therefore initially heated a certain time with small gestures Flame and only then with full flame.

In order to meet these requirements, is according to the invention in a Temperature regulators for firing systems for gaseous or liquid fuels for automatic control of the fuel passage through a valve housing for the purpose of changing the fuel flow according to a certain curve during a control process except for the shutoff valve body for the passage opening of the valve housing an additional one from the temperature measuring device together with the shut-off valve body provided valve body moved in the same direction, during a control process leaving a passage opening for the fuel through the passage opening to be controlled of the valve housing is moved through.

The drawing shows a temperature controller designed in this way for gas firing systems for example shown. FIG. 1 shows the entire controller, and FIG. 2 3 and 3 show two different embodiments of the two valve bodies.

The temperature sensor of the controller consists in a known manner of a tube / z and a rod δ, the tube consisting of a metal with a greater coefficient of expansion than the metal from which the rod b is made.

In its rest position, the rod δ loves the valve disk d in the valve housing /, so that the gas has unimpeded access to the burner or burners. The valve disk <i sits on the spindle, which is supported against the rod & under the action of a spring. Upon heating of the probe is due to the greater expansion of the tube the rod α & downwardly moved and ίο by the spring, the valve plate tn d pressed down until it is seated on the valve seat. The valve disk d can be adjusted as required from the outside at any time with the help of the spindles using the rotary handle C. The longitudinal channel / with the transverse channel h within the spindles allows a small amount of gas to pass after the valve has been closed, thus preventing the flame from going out. With regard to the different levels of flashback resistance of burners, the size of this small control flame can be regulated by means of the adjusting screw β in a manner known from temperature regulators. The valve disk d now carries a further adjustable valve body o, which can be passed through the valve opening g while leaving a gas passage opening and therefore controls the gas passage through the valve housing before the valve opening g is closed by the valve disk d. This additional valve body ο is shaped according to the desired course of the curve according to which the fuel quantity is to be changed during a control process. The controller shown in Fig. 1 releases the full gas supply in its starting position, that is to say at the start of heating. After a certain heating-up time, which can be regulated by setting the lower valve body ο , the valve is moved downwards. Valve body ο the gas supply throttled. The amount of gas that passes through then remains uniformly reduced in accordance with the reduced heat requirement after the first heating up until the valve disk d is placed on its valve seat.

Fig. 2 shows the two valve bodies in such a position to each other that the gas supply is throttled in the starting position of the regulator. It is thus ensures a slow initial heating, and only after reaching a certain ο by adjustment of the valve body controllable preheating of the agent to be heated, the full supply of gas is ο through the valve body released.

In the position of the valve body according to FIG. 3, the gas supply is initially as in FIG. 2: throttled. When the agent influencing the temperature measuring device reaches a certain temperature, owing to the drawn shape of the edge of the valve body ο the gas supply is released, but is then throttled again before the end temperature is reached. Such a scheme is z. B. in the paint and chemical industry in certain 'cooking processes important. In order to get a larger valve travel with the same temperature change, a mist transmission can be provided between the valve and the rod of the heat sensor.

The same control principle can be applied in reverse to cooling furnaces such as those used in the glass industry Find use, in which case the heat sensor for the manufacture of the pipe a metal with a smaller expansion tooth must be used than for production of the staff.

Claims (2)

Patent claims: 1. Temperature controller for firing systems for gaseous or liquid fuels for automatic control of the fuel passage through a valve housing, characterized in that for the purpose of changing the fuel passage according to a certain curve during a control process except for the final valve body (d) for the fuel passage opening (g) of the valve housing (j) In addition, a valve body (o) which is moved in the same direction by the temperature measuring device (a, b) together with the shut-off valve body (d) is provided which, during a control process, leaves a passage opening for the fuel through the passage opening (g) to be controlled of the valve housing {/) · is moved through. 2. Temperature regulator according to claim 1, characterized in that the two valve bodies (d and 0) are adjustable. For this purpose ι sheet of drawings printed ik the