DE1300210B - Method and device for generating and maintaining a uniform temperature of the glass melt in a glass tank, in particular in the working tank and the like. like - Google Patents

Description

In glass technology it is advantageous that the melt above all has as uniform a temperature as possible on the bath surface. Fluctuations in the temperature lead to fluctuations in the quality of the products made from this bath Products.

So far, attempts have been made to heat the bath surface evenly planar or linearly distributed heat transport members, z. B. gas burner to achieve. Each of these heat transfer members is dependent on the target temperature and the measured temperature set for itself until the desired state in the sphere of influence this link is reached. There is a total of its own for each individual link So a large number of control systems are required, which are continuously monitored and must be set.

The object of the invention is to ensure a uniform temperature of the bath surface to achieve without a multitude of independent, for each other to be adjusted Controlled systems is required.

This object is essentially achieved in that the temperature the bath surface measured consecutively at all points by a measuring mechanism which is coupled to a parallel running heat transport member that depending on the target temperature and the measured temperature, one above the bath arranged heat storage of low transverse conductivity at the respective point a supplies controlled amount of heat, which is released from the memory to the material to be measured.

In this process, the heat storage device is used with the measuring device tightly coupled heat transfer member through the same grid process in which the Measurements are carried out, a heat profile opposite to the heat profile of the bath impressed, which counteracts the measured fluctuations and compensates them. In addition, the heat accumulator reduces the noise of the measurement and control process decreased.

The heat accumulator must be made of a material which is only a small one Transverse conductivity, sufficient heat capacity and thermal conductivity and a has sufficient temperature resistance. Such a material is e.g. B. ceramic or stainless steel, with a low transverse conductivity due accordingly Attached slots is reached parallel to the heat flow.

The heat transport members can be of any type. Of simplicity For this reason, a gas burner is expediently used, because glass furnaces are consistently heated with gas will.

The method according to the invention can be used for all control tasks where the time constants of the material to be measured are very large compared to the measurement time and for which there is memory for the parameter to be controlled.

The figure shows the implementation of the method and one for this serving device shown for example.

In the figure, 1 is the weld pool, the surface temperature of which is to be measured and controlled. 4 is the measuring device, which is moved across and lengthways on the arm 3 over the bath surface and measures the temperature in the grid method. The measured temperature is passed on to a controller 7 which, according to the difference between the setpoint and measurement temperature, allows a more or less large amount of heat to flow to the heat transport element 6 or to flow away from it. The heat transport element 6 is guided over the heat accumulator 2 in parallel with the measuring device 4 on the arm 5 in the same grid method as the measuring device 4. The heat profile opposite to the bath surface is impressed on the memory 2. The interaction between the bath surface and the storage tank compensates for temperature fluctuations and achieves the setpoint.

Claims (2)

Claims: 1. Method for generating and maintaining a uniform Temperature of the glass melt in a glass tank, especially in the working tank and the like., characterized in that the temperature of the bath surface at all points is continuously measured by a measuring mechanism, which with a heat transfer member is coupled, which depends on the target temperature and the measured temperature a heat accumulator with low transverse conductivity arranged above the bath, at the respective point a regulated amount of heat is supplied, which is then taken from the storage tank is slowly released to the material to be measured. 2. Device for carrying out the method according to claim 1, characterized by one arranged above the bath (1) Heat storage (2) with lower transverse conductivity, one between the storage (2) and the bath surface arranged above the bath (1), e.g. B. on an arm (3), longitudinally and transversely movable Measuring device (4), a device coupled to the measuring device and arranged above the memory (2), z. B. on an arm (5), transversely and longitudinally parallel to the measuring device (4) movable Heat transport member (6) and a controller (7) for regulating the or to be fed amount of heat to be dissipated.