DE1936666U - HEAT STOVE. - Google Patents

Description

Ρ.Α.0Μ7ΊΗ5.2.66

Dr.-Ing. Wilhelm Lepper
5M Bad Honnef / Rhine
Berghaus Heckenfels

Utility model registration

Heat storage stove

The invention relates to a heat storage furnace, the radiator, preferably made of ceramic, is heated to a high temperature (several 100 °) by cheap night electricity and to the outside by a insulating layer is insulated and its heat is brought directly or indirectly into the room to be heated.

Such heat storage stoves can be used by electricity companies cheap night electricity can be stored in order to release the heat to the environment during the day.

Such a heat storage heater should be as small as possible and give off its heat in a controllable manner during the day so that it can also be released in the evening there is enough heat free.

Heat storage stoves, also with ceramics, are known and are in today large numbers already applied. Since the specific heat of ceramics is only about 0.2 - compared to 1.0 for water - the volume or the weight of the ceramic body- be either 5 times as large as one appropriate water storage, or the temperature must be increased by about five times. With ceramics, that's no problem possible. However, heating water directly through such a hot body is inexpedient and dangerous because of the high temperature a very high vapor pressure is created, especially when no heat is drawn off. But also to bring the air through this body in normal room temperature is difficult because then the hot air can escape at around 400 ° - 500 ° and thus creates a fire hazard.

- 2nd

On the other hand, these ovens have the disadvantage that the thermal insulation is relatively difficult to the outside, because the high temperature of the storage body compared to room temperature of about 20 ° shield.

The task for the new facility is to be as small as possible To create radiators made of ceramic or the like, which is insulated from the outside so that there is practically complete thermal insulation, but on the other hand the air to be heated is sucked or blown through the radiator so that it is controllable for the prevailing in the room Temperature, so for example by a thermostat, is controllable, either directly, so that this air in the Room flows, or indirectly, by using this air to put normal hot water heating into operation.

This object is achieved according to the invention in that the heat-insulating Layer is a vacuum jacket, preferably made of steel, and a heat exchanger either in the storage body itself or Located in the space between the storage body and the vacuum jacket, or the air through the space or directly through the storage body is controllable.

An exemplary embodiment of the invention is shown in FIG. In this drawing, 1 is a vacuum Man & el-vessel made of steel or another heat-resistant, vacuum-tight material, expediently of cylindrical shape. Inside the inner jacket 2 of this vacuum vessel there is a heat storage core 5 with an inserted heating conductor 4 made of a heating conductor material for high temperatures, e.g. cantalum or the like a heat insulating closure 6 is carried out. In the pipeline there are one or two valves 7 and on one side a pump or a fan 8 _S through which air is blown through the exchanger line 5. By opening and closing the two valves 7 and by turning the fan 8 on or off, the heat exchange can be regulated within wide limits. At the outlet of the pipeline 5 there is a conical enlargement 9 »through which the blown hot air is relaxed and thereby cooled to a suitable and harmless temperature.

Another simple example is shown in Figure 2. ' f is the one again Ceramic body, which - as can be seen from the projection in Figure 3 - immediately contains some channels or longitudinal holes. Through the middle channel or the middle hole 10 is for example the air blown through a tube 12 located in the cover 6, is then diverted at the lower part of the ceramic body 15 and passes through the for example channels 11 located on the circumference. In the cover 6 channels 14 corresponding to the channels 11 are provided through which the warm air can then escape. Otherwise the mode of operation is the same as in figure 1.

With such a heat storage furnace compared to the previous a number of advantages can be achieved?

When you are awake, there is almost complete thermal insulation, so that the temperature inside can be several 100 °, while the outer wall remains cold just like a thermos flask. The power supply through the electrical heating wires or coils as well as the inlet and outlet of the heat exchanger coil can be connected to one Front wall of the example and expediently cylindrical The radiator is carried out in a similar way to the cork of a thermos flask v / earth. This enables excellent heating control, regardless of whether direct warm air heating is used or indirectly an already existing hot water or steam heating is operated with it, so that the air is ventilated by fans or pumps is carried out more or less quickly by this heating coil. So that it does not have too high a temperature on the outlet side this heating coil at the outlet experience such an expansion that by decreasing the pressure, the temperature is also reduced to a permissible Measure drops. This also avoids the risk of excessively hot gases or air escaping.

The regulation can be adjusted with the help of an in the room Thermometer by throttling the inlet and outlet valves and by switching the fan or the pump on and off within very further limits can be carried out. This is necessary because most of the heat storage stoves that exist today are after the end during the heating season, i.e. at the beginning of the day, usually too much heat and in the evening, when the heat is needed, not enough Temperature is present in the radiator.

Claims (3)

A. H 5.2.66 Protection claims: 1. Heat storage heater whose radiator, preferably made of ceramic, is heated to a high temperature (several 100 °) by cheap night electricity and is isolated from the outside by a heat insulating layer and its V / poor through an air or liquid exchanger line directly or indirectly into the is brought to be heated room, characterized in that the heat insulating layer is a vacuum jacket, preferably made of steel, and a heat exchanger is either in the storage body itself or in the space between the storage body and vacuum jacket, or the air through the space or is passed directly through the storage body. 2. Heat storage furnace according to claim 1, characterized in that an expansion of the diameter is made in the outlet line of the heat exchanger tube, through which a relaxation of the air and thus a cooling to an acceptable level can occur. 3. Heat storage furnace according to claim 1, characterized in that the exiting air is used to heat a normal »Varmwasser- or steam heating.