DE2547387A1 - Heating and cooling method of dwelling rooms - using low potential heat from sunlight or atmospheric heat content - Google Patents

Abstract

Rooms are heated and cooled by conducting hot or cold air from the ambient atmosphere (1) or from solar cells(2), by a fan (8) or by natural draught means (9), through a storage heater (3) which has large surface areas adjacent to the rooms and which consists at least partially of surrounding soil (4). The storage heater also acts as a heat exchanger (5) with channels, may have insulating walls (6) adjacent to the rooms, and is provided externally with heat and moisture insulation (7). The air lifts and descends due to temp. of the storage material, and is conveyed to the rooms (10) by radiation over a long period.

Description

Process for heating and cooling tiaumen.

The present invention relates in particular to storage of low-potential heat (cold) from natural sources (heat content of the atmosphere and solar radiation), as well as their utilization for heating and cooling Clearing.

Low temperature wall, ceiling and floor heating in the various known designs are like all other heaters with electr. Electricity or Firing systems operated with high-temperature media. The concentrated warmth relaxes can only be found in the mass of the heating surfaces. The subsequently saved in the building mass The amount of heat is, however, small and is exhausted in a short time, so that these systems must be operated practically at the same time as the heating requirement.

There are also storage heaters that provide excess heat for you Preserve later heating requirements in an insulated heat storage tank. With the exception the solar heating, the heat is obtained with electricity or firing.

Solar heatings generally have the disadvantage that they use flat-plate collectors The amount of heat gained is sometimes very large, but in a temperature range that is too low enough to provide rooms with the previously known heating systems even on colder days to heat. In order to remedy this deficiency, heat pumps are usually used, which increase the temperature of the heating medium to a higher level. The installation However, a heat pump is associated with higher acquisition and operating costs.

The system in question enables both room heating and also a room cooling with temporarily available low-potential media and preprogrammed Storage without using a heat pump.

The invention is based on the idea that a building has such large storage masses be incorporated, which by their volume, the required amount of heat for are able to store a certain period of time in the moderate temperature range.

Appropriately, this is at least partially under each Building used any existing soil. Shafts are used in multi-storey buildings until all the upper rooms are pulled up, which with earth, rocks or any solid masses are to be noticed. The aboveground or underground storage mass can be kept dry or moist, but in both cases is appropriate Insulation to take care of heat losses / steam fusions or other heat dissipation to prevent from the building. To cause a quick warm-up or cool-down, the storage mass with continuous channels is used as a heat exchanger at the same time used. With the help of fans or natural buoyancy, a rapid one becomes Ventilation and thus heating respectively. Cooling of the storage mass achieved. The rooms stand with larger areas of their enclosure (floor, wall or ceiling) in direct contact with the store. The heat transfer between storage tank and room occurs through radiation.

The required increase or decrease in the storage tank temperature the room temperature depends on the respective heat demand (cooling load) for one certain period of time, the storage capacity, as well as the size of the contact areas between storage and space. With the given conditions, it can be up to about 5 oC. For living rooms, for example, the storage tank temperature is used over the course of the year fluctuate between about 10 - 40 oC. These temperature values can be productive in some cases Amounts taken from the free atmosphere respectively. with the help of simple solar heat absorbers (Collectors) are obtained.

Additional heating is only preferable for short-term peak demand.

To regulate the room temperature, turn to the storage tank Surfaces an adjustable (e.g. rollable, rotating, sliding or folding) insulating wall, -floor or ceiling pre-assembled, which can be opened or closed at will can to enable or prevent heat transfer between the storage tank and the room.

To improve the heat exchange between Ruft and the ground (Storage mass), grid channels are made of solid wire mesh or other stable material used, which are surrounded with stones, embedded in the ground, a larger one Forming a surface An underground storage tank in the open air or under a building is placed on the side and provided with heat and moisture insulation at the top. An isolation downwards is not necessary if the soil is kept dry.

The drawing is an example of a thermophore heater for a multi-story Residential building. However, it can be used for all buildings. The following mean: Fig.1 the vertical section, Fig. 2 the floor plan of the building.

1.) Outside air inlet 2.) Solar heat absorber 3.) Storage mass 4.) delimited soil 5.) lattice channels surrounded with stones 6.) adjustable Insulating walls 7.) Heat and moisture insulation 8.) Fan (reversible) 9.) Air outlet 10.) Rooms 11.) Additional heating / .. control flaps ---- air flow in summer operation (cooling) air flow in winter operation (heating)

Claims (4)

Patent claims 1 method for heating and cooling rooms, characterized in that, depending on requirements, there may be hot or cold air, in particular from the free atmosphere (1) respectively. of solar heat absorbers (2) a large area adjacent to all rooms to be heated or cooled (3), at least partially from the natural soil (4) existing, with continuous Channels at the same time designed as a heat exchanger (5), the rooms opposite with or without adjustable insulating walls (6), only to the outside with permanent warmth un moisture insulation (7) provided heat storage with the help of a fan (8) or natural buoyancy (9), which results in the temperature of the storage mass increased resp. lowered and over a longer period of time the adjacent rooms (10) is relayed by radiation. 2. Device for performing the method according to claim 1, characterized by one of the rooms to be heated or cooled over a large area adjacent, with continuous channels simultaneously designed as a heat exchanger, existing at least partially from the natural soil, only to the outside with permanent heat and moisture insulation provided heat storage essential Storage capacity, i.e. a storage capacity for heating or Cooling requirement at least someday. 3. Device according to claim 2, characterized in that the rooms facing storage walls are assigned adjustable insulating walls. 4. Device according to claim 2, characterized in that for feeding from Buft into the storage lattice channels with coarse and medium grain layers behind them are arranged. L e r s e i t e