AT399034B - DOUBLE-WALLED HEATING SHAFT - Google Patents

Claims (2)

AT 399 034 B The invention relates to a double-walled heating shaft penetrated by fuel gases, the interior of which is delimited by the two walls and through which a medium to be heated can flow. Such known heating shafts usually have smooth inner walls, a heat exchanger usually being arranged in the heating shaft in the area of the heating shaft facing away from a burner 5, in particular when the burner starts operating after a long period of downtime during which the medium located between the walls of the heating shaft cools down condensation on the inside walls of the heating shaft. This leads to the formation of drops that flow down the inner walls and collect at certain points or drip onto the burner. 10 This results in a very pronounced local corrosion at the corresponding points, which leads to the heating shaft being destroyed relatively quickly. The aim of the invention is to avoid these disadvantages and to propose a heating shaft of the type according to the invention in which the accumulation of condensate at largely the same points is largely avoided. 15 According to the invention this is achieved in that grids are held on the inner walls of the heating shaft at a distance therefrom which is slightly smaller than the diameter of condensate drops. This ensures that condensate drops are prevented from draining off through the grids. The drops are held by their surface tension between the grid and 2o the inner wall of the heating shaft. Since the condensate forms practically evenly distributed over the entire surface of the inner walls of the heating shaft, the corrosion attack of the condensate is also evenly distributed, thereby avoiding an extreme corrosion attack at certain points, as occurs in conventional heating shafts. In addition, the individual droplets dry out much faster due to the hot fuel gases than larger condensate accumulations, such as those that form in conventional heating ducts. This helps to keep corrosion damage to a minimum. The proposed measures therefore also significantly extend the service life of the heating shaft. According to a further feature of the invention, it can be provided that the grids are connected point by point to the inner walls. 30 This measure ensures that the grid heats up quickly when the burner is started by the hot fuel gases and that heat dissipation via the holders of the grids is largely avoided. This also results in rapid heating of the condensate drops, so that they evaporate faster and the risk of corrosion is reduced accordingly. An embodiment of the invention will now be explained in more detail with reference to the drawing. 35. FIG. 1 schematically shows a cross section through a heating shaft according to the invention, and FIG. 2 schematically shows the arrangement of the grilles in the interior of the heating shaft. The heating shaft 1 has a double jacket 2, the inner and outer walls 3, 4 of which enclose a cavity through which a medium to be heated can flow. 40 A burner 5 is arranged in the lower region of the heating shaft 1 and a heat exchanger 6 is arranged in the upper region. Grids 7 are held on the inner walls 3 of the heating shaft 1. The grids 7 are connected to the inner wall 3 at a few points 9, for example by welding. The distance between the grids 7 from the inner walls 3 is such that it is smaller than the 45 diameter of the usual condensate drops 8. This prevents the resulting drops from draining away. These are held in connection with the inner walls 3 due to their surface tension by the grids 7. Claims 50 1. Double-walled heating shaft penetrated by fuel gases, the interior of which is delimited by the two walls and through which a medium to be heated can flow, characterized in that on the inner walls (3) of the heating shaft (1) grids (7) are held at a distance from them are, which is slightly smaller than the diameter of condensate drops (8). 55 2. Heater shaft according to claim 1, characterized in that the grids (7) are point-wise connected to the inner walls (3). 2 AT 399 034 B With 1 sheet of drawings 3