DE533940C - Steam generation system from an unheated boiler and a heated heat storage block with an embedded pipe system - Google Patents

Description

Steam generating system from an unheated boiler and a heated one Heat storage block with embedded pipe system The invention relates to a Steam generation system, consisting of an unheated boiler and a heated one Heat storage block, in the mass of which the pipe system connected to the boiler for Evaporation of the water is embedded. She wants such facilities according to direction improve towards the fact that the operation of the systems is the steam consumption automatically adapts. This effect is achieved in that .the cross-section of the in turns The pipe system running through the heat accumulator at the point of exit from the Boiler is controlled depending on the steam pressure of the boiler, while the heat supply to the storage mass depending on the temperature of the storage mass by a Thermostat housed in the storage block is regulated.

By adapting the memory block to the particular purpose, achieve any desired independence of the steam consumption from the heating. In particular, the amount of heat required to generate steam can never be used during peak loads are covered by the memory, so that the efficiency of the heating system can remain independent of the peak load.

Such a boiler system makes even the smallest designs, z. B. for blocks of houses, a coupling of power and heating is possible. The system, operating and fuel costs are no greater than with Large power plants. The expensive long-distance lines for power and heat with their Laying and maintenance difficulties are omitted.

The boiler, heater and storage block are used to prevent cooling Well insulated from the outside.

In the case of coal dust and oil heating, the bunker or tank is above the Thermal insulation of the storage block arranged so that dry storage and preheating is achieved without additional heat input.

The memory block can be used in the usual way to accommodate several heating systems be set up simultaneously or independently of each other; for example can one, as has already been suggested, the one that cannot be used at certain times Use electricity from electrical power plants for heating.

The drawing shows an exemplary embodiment of a steam generating system represented symbolically according to the invention.

Fig. I is a front view. Fig. A a vertical section.

The circulation pipes z of the boiler i lead distributed through the storage block 3. The water circulation is through the valves 4 depending on the steam pressure of the Boiler i controlled. When the steam pressure drops, the valves 4 are opened by the am steam chamber of the boiler i lying valves 4a further open, with increasing Damping pressure still closed. As a result, the evaporation adapts itself in the storage block the respective steam consumption.

The storage block 3 is heated by the burner 5, which is designed, for example, as a pulverized coal burner. The burner 5 opens into the channel 6, this into the distribution pipe 7, to which further heat exchange pipes 8 are connected. The latter open into the collecting pipe g, which is connected to the chimney ii through the connecting pipe io. The fuel supply pipe 12 and the air supply pipe 13 open into the burner. The fuel is supplied by the conveyor 14 from the fuel tank 15 located above the storage block 3. The air is supplied via the fan 16 from the pipe 17, which goes around the storage block into the chimney leads and has 1 8 connection with the outside air in the hood. The fuel feeder i4 and the fan T6 are driven via the transmission ig by the motor 2o, which contains the steam for driving from the boiler i via the pipes 2i and the valve 22. The thermostat 23 is built into the memory 3, which controls the valve 2-9 in such a way that when the allowable memory temperature is exceeded, the valve 22 is closed via the angle lever 24 and rod 25 and opened again when the temperature falls below the final temperature. At the same time, the thermostat 23 closes the flaps 26 in the air supply pipe 17 and in the chimney ii via the rods 27 'and the angle lever 28, so that heat losses do not occur when the firing is interrupted. If steam, i.e. heat, is withdrawn during operation, the fuel and air supply automatically adjusts to the amount of heat withdrawn. The operation is completely automatic.

To avoid heat loss, the entire storage block has and the boiler adequate thermal protection, for example through the jacket 29. The arrangement can be used for fixed systems as well as for vehicles. In the case of stationary Systems can be used in a known manner by waste electrical energy by supplies the electricity to radiators, which are in special pipes 30: the memory.

Claims (4)

PATENT CLAIMS: i. Steam generating system, consisting of an unheated Boiler and a heated heat storage block, in the mass that with the boiler connected pipe system for evaporation of the water is embedded, characterized in that that to regulate the water circulation in the one with the water and steam room of the boiler (i) connected pipe system (a), namely in its connected to the water space End, a valve (4) controlled as a function of the boiler pressure is arranged and that to regulate the heat supply to the storage mass in the heat storage block a thermostat (2'3) is housed. 2. Heat storage and evaporation systems according to claim i, characterized in that when using a furnace as a thermal source the device for supplying the fuel -and, the combustion air through an auxiliary steam engine (2o) is driven, the steam valve (22) by a in the heat accumulator (3) lying thermostat (23) is controlled. 3. Heat storage and evaporation systems according to claim 2, characterized in that the steam valve (22) with an air throttle valve (a6) in the air supply line (i7) in the same direction Movement, is coupled. 4. Heat storage and evaporation systems according to claim i. to 3, characterized in that for recycling electrical waste energy in the storage mass additional electrical heating elements (30_) are installed.