DE102006000553B3 - External structural element e.g. ceiling, for external cladding of e.g. buildings, has heat pipe whose lower end is arranged as lower heat transmission unit in water body present below building - Google Patents

Abstract

The structural element has upper heat transmission units (41) in a form of pipes or panels arranged at a surface of the structural element. The transmission unit is a component of a heat pipe (4). The surface is attached to a building, and a lower end of the heat pipe is arranged as a lower heat transmission unit (42) in a water body present below the building. An evaporator surface of the heat pipe is arranged in the water body and a condensation surface is arranged at the structural element.

Description

The The invention relates to an exterior structural part according to the preamble of the main claim and is particularly suitable for energy consumption for the Heating and cooling of buildings, the up or over waters or in the vicinity are built to reduce.

Structures are for various reasons up or over the surface of waters built.

Be it, like in the DE 202004008518 U1 or the DE 202006005595 U1 In order to be able to spend your leisure time near water or on the water, or to be able to use the environmental energy particularly effectively on the surface of the water, like the DE 202004004912 U1 describes.

The DE 8008436 U1 wants to offer a variety of holidaymakers a domicile on the water.

Also the lack of building land near by huge Can be located at sea or lakes cities therefor be a reason.

adversely in such buildings and buildings is that they are more exposed to environmental influences are, as such, in a settlement through trees shrubbery and surrounding Protection protected are. On a lake or the sea can be icy in cold weather Winds repaint the houses and this heat revoke. By the reflection of direct and diffuse radiation at the water surface on the other hand is increased by the Radiation a much stronger Warming of the building causes. Across from a similar house erected on the mainland therefore increases in size Effort for both cooling as well as for the heating of such buildings.

Although insists on the waters in the rule, such as in the DE 8032916 U1 described, the possibility of obtaining environmental energy for heating by means of heat pumps from the water, but also for their operation, further energy is needed, which must be supplied as electricity or fuel from the land.

Around the energy expenditure for the supply of heat for example, from the subsurface or from waters to minimize already solutions with so-called heat pipes proposed. This is due to phase transformation at the warmer end generates an energy-containing gas or vapor, which then passes through the pipe flows and at the other end by a reconversion the energy returns.

So, for example, suggests DE 80 32 916 U1 before, with the help of a heat pipe in which ammonia or a safety refrigerant in the groundwater or a body of water is evaporated, to absorb the existing heat there and to be recorded by a arranged in the building to be heated heat pump. A direct use of the brought up from the ground heat is usually not possible because temperatures that are above the desired room temperature, only at greater depths, so can be achieved with a higher drilling costs.

The same problem also applies to the solution used in the DD 160199 A is described. Here, instead of the phase transformation liquid / gaseous, the binding energy in the formation of metal hydride is to be used for heat storage.

Also in the in the DE10234568A1 described method for convective energy production and the devices specified for carrying out the method to be transported in a circulation pipe system, the heat transfer medium partially and by convention between the heat source and the heat sink, wherein the pressure differences of the lower heat source and the heat sink disposed above the used in the evaporation and condensation occurring energy transitions. However, even hereby, this problem can not be circumvented if it can not resort to heat sources having a sufficiently high temperature level. The document suggests the use of hot springs.

From the DE 196 25 116 A1 already an arrangement for the production of heat or cooling energy from a surface water is known. The invention has for its object to influence the groundwater flow.

This is achieved in that, according to the invention, a groundwater flow in relation to the Bank filtrate and / or the infiltration area and / or the well is distracted.

to Realization according to the invention is an infiltration area and / or provide the wells with a shield.

Furthermore, in the DE 196 25 116 A1 already proposed to guide surface water through a arranged in a closed groundwater infiltration area, whereby the heat or cold delayed arrives at the well, so that the heat of the surface water can be skimmed off in winter from the well and used.

The The object of the invention is to provide an exterior structural part for buildings, the on or over waters be proposed, with which the energy consumption for cooling and Heating of such buildings can be reduced.

These Task is solved in which the outer skin a building partially or completely off Exterior building parts according to the characteristics of Hauptanspruches is built. This will be through the customization the outside temperature of the exterior part of the structure to the temperature of the water body without the use of additional Auxiliary energy of the temperature gradient over the cross section of the outer structure part reduced.

In the dependent claims Further features are described that allow the mode of action such exterior building parts to improve or allow creative variations.

Basically in a multilayer according to the invention Construction element, both as outer wall or ceiling as well as a roof panel can be used at the the outside of the building or building surface facing a heat transfer element in shape of tubes or Plates arranged. These heat transfer elements should according to the invention either by the upper end formed by heat pipes be or connected to the upper ends of the heat pipes. Of Further will suggest the second end of the heat pipe or the heat pipes to be placed in the body of water under the structure.

The Heat transfer element can directly the surface form the exterior part of the structure or between an inner structure and the outer surface of the Exterior building parts arranged become.

A further improvement leaves according to the invention reach, though the outer surface of the Outer part of the structure designed as an insulating element.

If the evaporator surface of the heat pipe in the water body and the condensation surface in or on the exterior part of the structure is arranged, is at cold outside temperatures heat the body of water on the surface of the building so that it does not cool below freezing.

If the other way around the condensation surface of the heat pipe in the water body and the evaporator surface in the exterior part of the structure are arranged Be present devices that help the condensate of the condensation surface to the evaporator surface is transported. In this case, it can be prevented the surface of the building heated by sunlight so much that air conditioning the one in the building located rooms becomes necessary.

at relatively short heat pipes can the problem of transporting the fluid inside the heat pipe be solved by capillaries or capillary active substances arranged so are through which the condensate from the condensation surface to evaporator surface is transported.

There in the thermal ears due to the heat transfer by using the phase change energy relatively little liquid can be moved, it can also be very useful if on or in the heat pipe a pump and piping are arranged so that through this transported the condensate from the condensation surface to the evaporator surface becomes.

By doing this pump is only turned on when the temperature of the water body is lower than the temperature of the surface of the exterior part of the structure, it will possible, the heat transfer elements both for cooling as well as for heat stabilization to use.

For the realization of the invention, the outer surface of the Outer part of the structure also by heat-conducting Plates are formed with the ends of the heat pipe are connected.

More effective However, the effect of the arrangement is when the end of the heat pipe between an outer cladding layer and the building is arranged.

The Invention assumes that the temperature in a body of water, such as For example, a lake or river fluctuates much less than the temperature of it above lying airspace. With the help of on the surface of the building or arranged close below heat transfer elements to be achieved be that the outer skin of the building adapted to the water temperature of the underlying body of water becomes. As you know the temperature at the bottom of lakes does not usually fall below 4 ° C, reaches the outer skin of the building in this way hardly the freezing point. The heat transfer falls much lower due to a lower temperature gradient off, as if the surface temperature of the building with the air temperature could drop to -25 ° C, for example. This is in the cold Seasons to achieve a significant heating cost savings.

Even at high summer temperatures, in which a partial heating of the solar radiation exposed walls occurs due to strong sunlight, can be significantly reduced by the fact that the outer wall temperature is adjusted to the temperature of deeper water layers, the cost of cooling the rooms significantly.

The Application of external construction parts according to the invention is self-evident not just on the serving of houses limited. It is also conceivable that hereby with appropriate dimensioning Supply and disposal lines against frost or overheating protected can be.

embodiment

In the following, the invention with reference to the drawing 1 be explained in the form of an embodiment. It shows

1 one on a pontoon 1 built house, in which the left wall by an inventive outer building part 3 is formed.

to Clarification are the exterior parts of the building not shown to scale.

At one on a pontoon 1 built house 2 is the outer side facing the weather side of an outer construction part according to the invention 3 educated.

This consists of a building 5 and a previously ventilated ventilated facade panel 6 ,

Between the building 5 and the facade panel 6 is a plate-shaped heat transfer element 41 that with the upper ends of a heat pipe 4 is thermally conductively connected.

The lower end of the heat pipe 4 forms the lower heat transfer element 42 and reaches 2 m deep into the water body below the building.

At the lowest point of the heat pipe 4 is over a pipeline 8th a pump 7 connected, through which the condensate is transported from the condensation surface to the evaporator surface, when passing through the upper heat transfer element 41 the building wall should be cooled.

At outdoor temperatures below the water temperature, the lower heat transfer element acts 42 as the evaporator surface of the heat pipe and the upper heat transfer element 41 as a condensation surface. This increases in the heat transfer element 42 Due to the convection effect upwards, resulting steam is returned to the evaporator by gravity. Thus, the heat from the body of water is directed to the surface of the building so that it does not cool below freezing.

1

pontoon

2

House

3

Exterior building component

4

heat pipe

41

upper Heat transfer element

42

lower Heat transfer element

5

structure

6

facade panel

7

pump

8th

piping

Claims (10)

Exterior building part in the form of wall, ceiling or roof panels for the exterior cladding of structures and structures constructed on or above water bodies, in particular houses floating on floating surfaces such as pontoons anchored in rivers or lakes ( 1 ) or on structures fixed on piles, characterized in that on the outside of the building or structure ( 2 ) facing surface or between an inner structure ( 5 ) and the outer surface ( 6 ) of the external structure part ( 3 ) upper heat transfer elements ( 41 ) are arranged in the form of tubes or plates forming part of heat pipes ( 4 ) or with heat pipes ( 4 ), that the second, lower end of the heat pipe ( 4 ) or the heat pipes ( 4 ) as a lower heat transfer element ( 42 ) is arranged in the water body located under the structure. Exterior building component according to claim 1, characterized in that the evaporator surface of the heat pipe in the water body and the condensation surface in or on the exterior part of the structure is arranged. Exterior building component according to claim 1, characterized in that the condensation surface of the heat pipe in the water body and the evaporator surface in the exterior part of the structure are arranged, and that devices are provided with their Help the condensate transported from the condensation surface to the evaporator surface becomes. Exterior building component according to claim 3, characterized in that within the heat pipe capillaries or capillary active substances are arranged, through which the condensate from the condensation surface to the evaporator surface is transported. Exterior building component according to claim 3, characterized in that on or in the heat pipe a pump and piping are arranged so that through this transported the condensate from the condensation surface to the evaporator surface becomes. Exterior building component according to claim 5, characterized in that facilities are present are, by the pump as needed according to specifiable criteria is controlled. Exterior building component according to one of the preceding claims, characterized that the outer surface of the Exterior building parts through thermally conductive Plates is formed, with which the or the ends of the heat pipe are connected. External structural part according to one of the preceding claims 1 to 6, characterized in that the upper end of the heat pipe ( 4 ) as the upper heat transfer element ( 41 ) between an outer facade panel ( 6 ) and the insulating body is arranged. External structural part according to one of the preceding claims 1 to 8, characterized in that the outer facade panel ( 6 ) of the external structure part is designed as an insulating element. Exterior building component according to one of the preceding claims, characterized that the exterior part of the structure Part of a panel of temperature-sensitive supply lines is.