WO2011146024A1 - Self-supporting heat insulating panel for the systems with active regulation of heat transition - Google Patents
Self-supporting heat insulating panel for the systems with active regulation of heat transition Download PDFInfo
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- WO2011146024A1 WO2011146024A1 PCT/SK2011/000003 SK2011000003W WO2011146024A1 WO 2011146024 A1 WO2011146024 A1 WO 2011146024A1 SK 2011000003 W SK2011000003 W SK 2011000003W WO 2011146024 A1 WO2011146024 A1 WO 2011146024A1
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C1/00—Building elements of block or other shape for the construction of parts of buildings
- E04C1/39—Building elements of block or other shape for the construction of parts of buildings characterised by special adaptations, e.g. serving for locating conduits, for forming soffits, cornices, or shelves, for fixing wall-plates or door-frames, for claustra
- E04C1/392—Building elements of block or other shape for the construction of parts of buildings characterised by special adaptations, e.g. serving for locating conduits, for forming soffits, cornices, or shelves, for fixing wall-plates or door-frames, for claustra for ventilating, heating or cooling
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C2/00—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
- E04C2/44—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the purpose
- E04C2/52—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the purpose with special adaptations for auxiliary purposes, e.g. serving for locating conduits
- E04C2/521—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the purpose with special adaptations for auxiliary purposes, e.g. serving for locating conduits serving for locating conduits; for ventilating, heating or cooling
- E04C2/525—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the purpose with special adaptations for auxiliary purposes, e.g. serving for locating conduits serving for locating conduits; for ventilating, heating or cooling for heating or cooling
Definitions
- Technological handling is related to constructional handling of self-supporting heat insulating panel with active thermal protection for application with system of active regulation of heat transition used in panel building of new buildings and for the construction of prefabricated objects made of light external claddings and production of internal environment of the buildings in application of low-temperature heating and high-temperature cooling mostly with the use of renewable energy sources. Technological handling falls within the scope of building industry.
- Design of usual energy saving buildings consists of the design of building constructions with massive layers of thermal insulation, that have from the standpoint of structure required thermal resistance, i.e. coefficient of heat transition and energy systems used for heating, ventilation and cooling, that use mainly renewable energy sources that is mostly solar and geothermal energy.
- Active thermal protection brings so called internal energy source, considered as an energy system integrated into the zone between the static part and heat insulating part of the building construction in a form of low-temperature heat transitioning material obtained from captured and cumulated solar and geothermal energy to building constructions.
- Application of this active thermal protection is implemented e.g. to a building where for the purpose of the distribution of low-temperature heat transitioning liquid material obtained from solar and geothermal energy to the exterior wall of constructed b uilding, or to the interior part of the wall of e.g. listed buildings, tube system or hosepipe system is attached and overlaid with plaster, heat insulation and cover plaster.
- Low thermal losses i.e. thermal gains predetermine application of low-temperature heating systems e.g. large-area floor-, wall- and ceiling- heating or cooling for energy saving buildings. Recuperative ventilation of buildings with capacity of warm air heating system or cooling system is inevitable for reaching passive standard of energy.
- Self-supporting heat insulating panels can have multiple purposes or can have just one.
- the most important functions are e.g. function of heat barrier, wall heating, cooling, ventilation, solar absorbent and combinations of these functions.
- the basis of technological handling is that it is of sandwich at least three-layer construction and that in the basic realization it consists of two peripheral structures and of one central structure. At least one out of two peripheral structures is supporting. There exist even realizations, where both peripheral structures are supporting. In case that only the first peripheral part is supporting, usually interior, then exterior, the second peripheral structure is architectural.
- Supporting peripheral structures are in one case of realizations basically panel blocks and are made on the basis of concrete or reinforced concrete or other in building industry normally used concrete mixtures.
- supporting peripheral structures can be also metal or plastic or wood constructions or panels or even by shape reinforced metal plates, or eventually other suitable materials. It can also be monolithic block of organized mutually connected shaped bricks.
- the supporting peripheral structures can be provided with framed structure.
- Central structure consists of at least one layer of heat insulation of one or more kinds.
- Heat insulation for the purposes of this technological handling can be polystyrene, rock wool, stone wool, polyurethane mixtures, cellulose, organic materials such as straw, sheep wool, materials applied in contact or ventilated heat cladding systems and all other heat insulations and their combinations applied in building industry.
- In the inside or on the surface of at least one peripheral structure or central structure is at least one built-in tube or hosepipe and/or channel arrangement of the distribution of the heat transitioning liquid or gaseous medium.
- the second external peripheral structure is thin-walled with wood and/or plastic and/or plasterboard and/or metal base.
- channel arrangement of the distribution of gaseous heat transitioning medium can be situated on one or on both front planes of one peripheral structure which was already created for example on the base of ceram ist concrete.
- the base of invention is possible to create even such type of line of self-supporting heat insulating panel for the systems with active regulation of the heat transition consisting of two supporting peripheral structures where the central structure with the layer of heat insulation contains a cavity inside the heat insulation.
- at least one peripheral structure contains at least one channel arrangement of the distribution of the heat transitioning gaseous medium with the advantage of the air.
- inlet channel arrangement of the distribution of heat transitioning gaseous medium is contained for example in the first peripheral structure and channel outlet arrangement of the distribution of the heat transitioning medium is consisted for example in the second peripheral structure.
- At least one tube or hosepipe or channel arrangement of the distribution of the heat transitioning liquid or gaseous medium is the element of low-temperature heating or cooling or heat barrier in a system of active thermal protection.
- heat-conductive or reflecting layer can be on the basis of the plaster, heat-conductive cling film, heat-conductive paint coat, surface coating or eventually of any other combination. Even exterior side of the second peripheral structure can be provided with layer of external coating as reticulum, adhesive material and plaster.
- FIG. 1 shows cross- section through self-supporting heat insulating panel with sandwich construction with elements of active thermal protection- heat barrier, placed inside of the interior peripheral structure.
- Fig. 2 is illustrated cross-section through seff-supporting heat insulating panel of sandwich construction with elements of active thermal protection- heat barrier, placed inside exterior peripheral structure.
- Fig. 3 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat ba rrier placed near the surface of exterior peripheral structure.
- Fig. 1 shows cross- section through self-supporting heat insulating panel with sandwich construction with elements of active thermal protection- heat barrier, placed inside of the interior peripheral structure.
- Fig. 2 is illustrated cross-section through seff-supporting heat insulating panel of sandwich construction with elements of active thermal protection- heat barrier, placed inside exterior peripheral structure.
- Fig. 3 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat ba rrier placed near the surface of exterior peripheral structure
- FIG. 4 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the su rface of interior peripheral surface.
- FIG. 5 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the surface of exterior peripheral structure.
- Fig. 6 is illustrated cross- section th rough self-supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the surface of interior peripheral structure and elements of active thermal protection- heat barrier, placed inside of exterior peripheral structu re.
- Fig. 7 is illustrated cross-section th rough self-supporting heat insulating panel of sandwich construction with doubled elements of active thermal protection- heat barrier, placed inside of interior as well as inside of exterior peripheral structure.
- FIG. 8 is illustrated cross- section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier, placed inside interior structure as well as near the su rface of exterior peripheral structu re.
- FIG. 9 is illustrated cross-section through self- supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the surface of interior peripheral structure and elements of doub le active thermal protection- heat barrier, placed near the surface and inside of exterior peripheral structure.
- Fig. 9 is illustrated cross-section through self- supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the surface of interior peripheral structure and elements of doub le active thermal protection- heat barrier, placed near the surface and inside of exterior peripheral structure.
- FIG. 1 0 is illustrated cross-section th rough self-supporting heat insulating panel of sandwich construction with elements of triple active thermal protection - heat barrier, where two systems of active thermal protection- heat barrier are placed near the surface and inside exterior peripheral structure and one system of active thermal protection- heat barrier is placed inside of the interior peripheral structure.
- FIG. 1 1 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of wall heating warm-air heating- cooling realized by air channels placed near the surface of interior peripheral structure and where the second peripheral structure is thin-walled architectural structure.
- Fig. 1 0 is illustrated cross-section th rough self-supporting heat insulating panel of sandwich construction with elements of triple active thermal protection - heat barrier, where two systems of active thermal protection- heat barrier are placed near the surface and inside exterior peripheral structure and one system of active thermal protection- heat barrier is placed inside of the interior peripheral structure.
- FIG. 1 1 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of wall heating warm-air heating- cooling realized by air
- FIG. 12 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier realized by air channels placed inside of interior peripheral structure and where the second peripheral structure is thin -walled architectural structure.
- Fig. 13 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier realized by air channels placed inside interior peripheral structure and elements of wall warm-air heating- cooling realized by air channels placed near the surface of interior peripheral structure where the second peripheral structure is thin-walled architectural structure.
- Fig. 13 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier realized by air channels placed inside interior peripheral structure and elements of wall warm-air heating- cooling realized by air channels placed near the surface of interior peripheral structure where the second peripheral structure is thin-walled architectural structure.
- FIG. 14 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier placed near the surface of heat insulation of central structure and elements of wall warm-air heating- cooling realized by air channels placed near the surface of interior peripheral structure where the second peripheral structure is thin-walled architectural structure.
- Fig. 15 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with first elements of active thermal protection - heat barrier placed near the surface of heat insulation of central structure and the second elements of active thermal protection- heat barrier realized by air channels placed near the surface of interior peripheral surface where the second peripheral structure is thin-walled architectural structure.
- Fig. 15 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with first elements of active thermal protection - heat barrier placed near the surface of heat insulation of central structure and the second elements of active thermal protection- heat barrier realized by air channels placed near the surface of interior peripheral surface where the second peripheral structure is thin-walled architectural structure.
- Fig. 15 is illustrated cross-section through self-supporting
- Fig. 16.1 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier placed in the cavity of heat insulation of central structure where the first and even the second peripheral structure can be supporting structure.
- Fig. 16.2 is illustrated cross-section through self- supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier placed in the cavity of heat insulation of central structure where the first and even the second peripheral structure can be supporting structure, while in the cavity is placed heat transition body.
- Fig. 1 7.1 is illustrated cross-section through framed structure of self-supporting heat insulating panel for application of prefabricated houses with elements of active thermal protection- heat barrier and wall heating- cooling.
- Fig. 17.2 is illustrated cross-section through construction of self-supporting heat insulating panel for application of prefabricated houses with elements of active thermal protection- heat barrier and wall heating- cooling without supporting frame in the second- exterior layer of heat insulation.
- Fig. 18.1 is illustrated cross-section through framed structure of self- supporting heat insulating panel for application of prefabricated houses with doubled elements of active thermal protection- heat barrier and wall heating- cooling.
- Fig. 18.2 is illustrated cross-section through construction of self-supporting heat insulating panel for application of prefabricated houses with doubled elements of active thermal protection- heat barrier and wall heating- cooling without supporting frame in the second- exterior layer of heat insulation.
- Fig.1 the first basic construction of self-supporting panel for the systems with active regulation of heat transition illustrated in Fig.1 .
- It consists of two peripheral structures A1 and A2. These are exterior structure A2 and interior structure A1 .
- Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete.
- Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry.
- central structure A3 which consists of one layer of heat insulation 1 in a form of solid board made of polystyrene.
- This basic arrangement makes m ulti- layered structure of self-supporting heat insulating panel.
- Tube arrangement 2 of the distribution of heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A1 from the interior side.
- heat insulation 1 For the production of this self-supporting heat insulating panel for the systems with active regulation of heat transition it is possible to use as heat insulation 1 separate or in whichever combination at least one element as polystyrene, rock wool, stone wool, polyurethane mixtures, cellulose, organic materials such as straw, sheep wool, materials applied in contact or ventilated heat cladding systems and all other heat insulations and their combinations applied in building industry in other variant realizations.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of low-temperature wall heating or high-temperature cooling is integrated in the outside part of concrete peripheral structure A1 from the interior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of active thermal protection- heat barrier, eventually solar collector is integrated in outside part of concrete peripheral structure A2 from the exterior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of low-temperature wall heating or high-temperature cooling is integrated in the outside part of concrete peripheral structure A1 from the interior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated in inside part of concrete peripheral structure A2 from the exterior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as the element of the first active thermal protection-heat barrier is integrated in the inside part of concrete peripheral structure A1 from the interior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the second active thermal protection- heat barrier is integrated in inside part of concrete peripheral structure A2 from the exterior s ide.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the first active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A1 from the interior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the second active thermal protection- heat barrier, eventually solar collector is integrated in the outside part of concrete peripheral structure A2 from the exterior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the low-temperature wall heating or high-temperature cooling is integrated in the outside part of concrete peripheral structure A1 from the interior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the first active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A2 from the exterior side.
- Even another tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the second active thermal protection- heat barrier is integrated in the outside part of concrete peripheral structure A2 from the exterior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the third active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A1 from the interior side.
- Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the first active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A2 from the exterior side.
- Even another tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of the second active thermal protection- heat barrier is integrated in the outside part of concrete peripheral structure A2 from the exterior side.
- FIG.1 1 the second basic construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig .1 1 .
- It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self-supporting because it is made of poured concrete. Exterior peripheral structure A2 is in the form of corrugated metal plate. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 a nd A2 is central structure A3 which consists of one layer of heat insulation 1 made of polyurethane mixture.
- This basic arrangement makes multi-layered structure of self-supporting heat insulating panel.
- Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of the low-temperature wall heating or high-temperature wall cooling is created on the outside part of peripheral structure A1 from the interior side.
- FIG.12 Another derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.12. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self-supporting because it is made of poured reinforced concrete. Exterior peripheral structure A2 is in the form of plastic large-area plate. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre boards from polystyrene. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of the active thermal protection- heat barrier is created on the inside part of peripheral structure A1 from the interior side.
- FIG.13 Another derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.13. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self-supporting because it is made of poured reinforced concrete. Exterior peripheral structure A2 is architectural in the form of plaster. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre boards from polystyrene. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel.
- Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of the active thermal protection- heat barrier is created on the inside part of peripheral structure A1 from the interior side.
- Another channel arrangement 2 of the distribution of the heat transitioning gaseous medium - air as an element of the low-temperature wall heating or high-temperature wall cooling is created on the outside part of peripheral structure A1 from the interior side.
- FIG.14 Another combined derived construction of self- supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.14. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self- supporting because it is made of poured reinforced concrete. Exterior peripheral structure A2 is architectural in the form of plaster. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre board from polystyrene. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel.
- Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of low-temperature wall heating or high-temperature wall cooling is created on the outside part of concrete peripheral structure A1 from the interior side.
- Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of active thermal protection - heat barrier, eventually solar collector is created on the outside part of peripheral structure A1 from the exterior side.
- FIG.1 5 Another combined derived construction of self- supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.1 5. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self- supporting because it is made of poured concrete. Exterior peripheral structure A2 is architectural in the form of plaster. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre boards from polystyrene. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel.
- Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of active thermal protection- heat barrier is created on the inside part of concrete peripheral structure A1 from the interior side.
- Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of the second active thermal protection- heat barrier, eventually solar collector is created on the outside part of the peripheral structure A1 from the exterior side.
- FIG.16.1 Another derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.16.1 .
- It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry.
- central structure A3 Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre boards from polystyrene with created cavity 4.
- This basic arrangement makes multi-layered structure of self-supporting heat insulating panel.
- Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of the first active thermal protection- heat barrier is created through one peripheral structure of the concrete peripheral structure A1 .
- Fig. 16.2 can be self-supporting heat insulating panel for the systems with active regulation of heat transition complemented with at least one heat transition body 5 placed in the cavity 4 of the central structure A3 with the layer of insulation 1 .
- Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of active thermal protection- heat barrier for the input and output created in both peripheral structures A1 and A2 are alternative.
- Fig.17.1 the first derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.17.1 .
- It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self-supporting. Exterior peripheral structure A2 is made of wood large-area plate. Interior peripheral structure A1 is made of plasterboard large-area plate connected with wood or steel supporting frame. Between pe ripheral structures A1 and A2 is central structure A3 which consists of two layers of heat insulation 1 in a form of hard fibre boards from polystyrene. Between these two layers of heat insulation 1 there is placed reinforcing element 3 in a form of large-area wood plate.
- Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of low-temperature wall heating or high-temperature wall cooling is integrated on the outside surface of heat insulation 1 from interior side.
- Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated on the inside surface of heat insulation 1 from interior side.
- Abovementioned panel with the on ly difference in the fact that the second, exterior layer of heat insulation is made from polystyrene plate without supporting frame is illustrated in Fig. 17.2.
- peripheral structures A1 and A2 for the production of this self-supporting heat insulating panel for the systems with active regulation of heat transition in other variant realizations.
- heat insulation 1 for the production of this self-supporting heat insulating panel for the systems with active regulation of heat transition in other variant realizations.
- Arrangement 2 of the distribution of the heat transitioning or cooling medium can be used as tube arrangement in alternative realizations.
- FIG.1 8.1 the second derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.1 8.1 .
- It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 attached to wood or steel supporting frame is self-supporting. Exterior peripheral structure A2 is made of metal plate. Between peripheral structures A1 and A2 is central structure A3 which consists of two layers of heat insulation 1 in a form of hard fibre boards from polystyrene. Between these two layers of heat insulation 1 there is placed reinforcing element 3 in a form of large-area wood plate and wood or steel supporting frame.
- Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of low-temperature wall heating or high-temperature wall cooling is integrated on the outside surface of heat insulation 1 from interior side.
- Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated on the inside surface of heat insulation 1 from interior side.
- Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of the second active thermal protection- heat barrier, eventually solar absorber is integrated on the outside surface of heat insulation 1 from exterior side.
- Tube arrangement 2 of the distribution of the heat transitioning liquid medium can be arranged even on inside walls of peripheral structures A1 and A2 in alternative realizations.
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Abstract
Self-supporting heat insulating panel with active regulation of the heat transition consisting of two peripheral structures (A1, A2) and of a central structure (A3) which consists of at least one layer of the heat insulation (1). In/on at least one peripheral structure (A1, A2) is integrated at least one tube or hosepipe and/or channel arrangement (2) of the distribution of heat transitioning liquid or gaseous medium.
Description
SELF-SUPPORTING HEAT I NSULATI NG PANEL FOR THE SYSTEMS WITH ACTIVE REGULATION OF HEAT TRANSITION
Area of technology
Technological handling is related to constructional handling of self-supporting heat insulating panel with active thermal protection for application with system of active regulation of heat transition used in panel building of new buildings and for the construction of prefabricated objects made of light external claddings and production of internal environment of the buildings in application of low-temperature heating and high-temperature cooling mostly with the use of renewable energy sources. Technological handling falls within the scope of building industry.
Existing state of technology
Design of usual energy saving buildings consists of the design of building constructions with massive layers of thermal insulation, that have from the standpoint of structure required thermal resistance, i.e. coefficient of heat transition and energy systems used for heating, ventilation and cooling, that use mainly renewable energy sources that is mostly solar and geothermal energy.
In case of usual energy saving buildings, the system of building constructions with massive layer of thermal insulation are used, that have from the standpoint of the structure required thermal resistance, i.e. coefficient of heat transition. Even panels, so called sandwich wall panels, where space between peripheral parts, out of whose at least one is supporting part, is filled with thermal-insulating material, e.g. foam material as it is described in published Slovak application of utility model PUV 50090-2009 are known. The construction of multilayer panel with central insulation is described even in published German document DE 1 9849135, published Chinese document CN201 155161 , CN2844259 and CN2721 744 with lightened vertical cavities in concrete supporting panel. Even construction of prefabricated panels with heat insulation applied to concrete panel during his production as it is described in
documents FR-A-2584437 and FR-A-2 507647 is known, though its production is problematic.
The shortcoming of such construction of panels is that it is not possible to actively regulate heat transition depending on the exterior temperature.
System of active thermal protection that is already applied in the construction of some buildings has brought qualitatively new dimension into the problem of building constructions for energy saving buildings. Active thermal protection brings so called internal energy source, considered as an energy system integrated into the zone between the static part and heat insulating part of the building construction in a form of low-temperature heat transitioning material obtained from captured and cumulated solar and geothermal energy to building constructions. Application of this active thermal protection is implemented e.g. to a building where for the purpose of the distribution of low-temperature heat transitioning liquid material obtained from solar and geothermal energy to the exterior wall of constructed b uilding, or to the interior part of the wall of e.g. listed buildings, tube system or hosepipe system is attached and overlaid with plaster, heat insulation and cover plaster. This is applied to new buildings as well as to existing buildings when providing heat cladding. They are also applied in construction of external walls when tubes or hosepipes of hydraulic system , which enable heating or cooling of the building as it is described in Slovak patent document No.284 751 , are overlaid with concrete. This is applied to new buildings as well as to existing buildings when providing heat cladding.
Moreover, a way of building by permanent shuttering, mostly polystyrene one, is known, where active thermal protection is placed and just after the action of placing on the building the inner space of permanent shuttering is filled with poured concrete mixture. In the next step, the concrete must become solid and reach required stability within 28 days. This technology is so called "wet process of building". This is applied only to new buildings.
The disadvantage of heat insulating panels without active thermal protection is that their thermal resistance is directly proportional to the thickness of heat insulation. Their function is to form the cover construction of building. They cannot actively react to sudden changes of exterior temperature. They do not have the capacity to provide heating, cooling and ventilation of the building.
Low thermal losses, i.e. thermal gains predetermine application of low-temperature heating systems e.g. large-area floor-, wall- and ceiling- heating or cooling for energy saving buildings. Recuperative ventilation of buildings with capacity of warm air heating system or cooling system is inevitable for reaching passive standard of energy.
Nowadays, we know numbers of variants combining in principle 3 types of energy, i.e. solar energy obtained from solar collectors and solar panel roofs, geothermal energy obtained from heat pumps, soil thermal reservoirs, soil collectors or energy from surrounding environment obtained by heat pump in a system water-to-water, air-to- air and ground-to-ground. In many cases, combinations of these sources of heat and energetic systems are unnecessarily over- dimensed and over-combined and therefore their investment costs are from the standpoint of overall economic return and energy saving unacceptable. The only way to achieve the design of optimal energy saving building from the point of view of energy demandingness, profits and environmental load is right application of heat sources and integration of energy systems in a building. Perfect harmony between building constructions and energy systems forming healthy, hygienically satisfying inner environment of buildings must be achieved.
Abovementioned shortcomings of existing systems of constructions of self-supporting heat insulating panels without active heat regulation with respect to limited function, higher operating costs of the building and saving of primary sources of energy led to the possibility to solve this problem by appropriate technological means.
The result of such effort is the construction of self-supporting heat insulating panel for the systems with active regulation of heat transition.
Basis of technological handling
Abovementioned shortcomings are removed by the construction of self-supporting heat insulating panel for the systems with active regulation of heat transition according to this technological handling. Self-supporting heat insulating panels can have multiple purposes or can have just one. The most important functions are e.g. function of heat barrier, wall heating, cooling, ventilation, solar absorbent and combinations of these functions. The basis of technological handling is that it is of sandwich at least three-layer construction and that in the basic realization it consists of two peripheral structures and of one central structure. At least one out of two peripheral structures is supporting. There exist even realizations, where both peripheral structures are supporting. In case that only the first peripheral part is supporting, usually interior, then exterior, the second peripheral structure is architectural. Supporting peripheral structures are in one case of realizations basically panel blocks and are made on the basis of concrete or reinforced concrete or other in building industry normally used concrete mixtures. In the second case of realizations, supporting peripheral structures can be also metal or plastic or wood constructions or panels or even by shape reinforced metal plates, or eventually other suitable materials. It can also be monolithic block of organized mutually connected shaped bricks. In the third case the supporting peripheral structures can be provided with framed structure. Central structure consists of at least one layer of heat insulation of one or more kinds. Heat insulation for the purposes of this technological handling can be polystyrene, rock wool, stone wool, polyurethane mixtures, cellulose, organic materials such as straw, sheep wool, materials applied in contact or ventilated heat cladding systems and all other heat insulations and their combinations applied in building industry. In the inside or on the surface of at least one peripheral structure or central structure is at least one built-in tube or hosepipe and/or channel arrangement of the distribution of the heat transitioning liquid or gaseous medium. For the purpose of improvement of the static and
dynamic characteristics of the self-supporting heat insulating panel for the systems with active regulation of heat transition the space delimited by peripheral structures with reinforcing, connecting and anchoring elements normally used in building industry is profitable.
For the type where the first peripheral structure, usually the interior one, is supporting and the external- the second peripheral structure is architectural, it is sufficient that the second external peripheral structure is thin-walled with wood and/or plastic and/or plasterboard and/or metal base. In such realizations it is possible to place at least one tube or hosepipe arrangement of the distribution of the heat transitioning medium within the content or on the surface of the layer of heat insulation of the central structure. Other alternative is to place one tube or hosepipe arrangement of the distribution of heat transitioning medium on the inner plane of the second peripheral structure.
For other type where the air is heat transitioning medium, channel arrangement of the distribution of gaseous heat transitioning medium can be situated on one or on both front planes of one peripheral structure which was already created for example on the base of ceram ist concrete.
On the basis of the base of invention is possible to create even such type of line of self-supporting heat insulating panel for the systems with active regulation of the heat transition consisting of two supporting peripheral structures where the central structure with the layer of heat insulation contains a cavity inside the heat insulation. Here at least one peripheral structure contains at least one channel arrangement of the distribution of the heat transitioning gaseous medium with the advantage of the air. There exists advanced variant of the handling, where in the cavity of the central structure with the layer of the heat insulation is placed at least one heat transition body. In this case inlet channel arrangement of the distribution of heat transitioning gaseous medium is contained for example in the first peripheral structure and channel outlet arrangement of the distribution of the heat
transitioning medium is consisted for example in the second peripheral structure.
Technological handling enables to construct even self-supporting heat insulating panels for the systems with active regulation of the heat transition consisting of two thin-walled peripheral structures produces mostly on the basis of metal plate or of wood. These thin -walled peripheral constructions can be even placed on the supporting framed structure, while central structure can contain reinforcing element in a form of large-area plate on the basis of wood or plastic or metal or plasterboard and heat insulating layers so, that at least one layer of the heat insulation of the central structure consists of at least one tube or hosepipe arrangement of the distribution of the liquid heat transitioning medium.
It is valid for all abovementioned handlings of construction of self- supporting panels for the systems with active regulation of heat transition that at least one tube or hosepipe or channel arrangement of the distribution of the heat transitioning liquid or gaseous medium is the element of low-temperature heating or cooling or heat barrier in a system of active thermal protection.
From interior side of the panel it is possible to build heat- conductive or reflecting layer between peripheral structure and heat insulating layer of self-supporting heat insulating panel for the systems with active regulation of the heat transition . This heat-conductive or reflecting layer can be on the basis of the plaster, heat-conductive cling film, heat-conductive paint coat, surface coating or eventually of any other combination. Even exterior side of the second peripheral structure can be provided with layer of external coating as reticulum, adhesive material and plaster.
The advantages of the construction of the heat insulating panel for systems with active heat insulation for application with the system of active regulation of the heat transition according to established technological handling are apparent from the effects how it externally manifests itself. It is possible to point out, that building constructions for energy saving buildings are not dependent on the thickness of the
static part of the construction but on the heat insulating ability of external insulating layers. This means that static part can be of maximum admissible thickness. By application of the building constructions with inner energy source, so-called active thermal protection used in energy saving buildings, technical heat characteristics equal to usual building constructions used in energy saving buildings shall be achieved with few times thicker heat insulation. Building constructions with inner energy source of energy use at least 30% of long-term accumulated energy in a long-term heat reservoir with respect to the temperature of heat transitioning material supplied to the heat barrier- active thermal protection with the temperature from 12°C. Rest of the energy is supplied from the short- term accumulation containers charged by the solar heat collectors and heat pump using the collector of soil heat reservoir, eventually by the other source. These abovementioned advantages are derived from abovementioned suggested constructions of self-supporting heat insulating panels for systems with active regulating of the heat transition according to the technological handling, that allows to use abovementioned constructions of systems of energy saving buildings thanks to central production of such prefabricated panels according to the technological handling and by their carrying to the building site where they are immediately incorporated into the construction. Another advantage is the multi-functional character of these panels produced in a unified way, resulting from the utilization of the combination of building system and energy system, this means that during the construction of the building the heating, cooling or ventilation system are realized simultaneously what lowers the costs of the whole building.
Overview of the pictures from the drawings
Realizations of the heat insulating panels for the systems with active regulation of the heat transition according to the technological handling are illustrated in attached drawings. Fig. 1 shows cross- section through self-supporting heat insulating panel with sandwich construction with elements of active thermal protection- heat barrier,
placed inside of the interior peripheral structure. On Fig. 2 is illustrated cross-section through seff-supporting heat insulating panel of sandwich construction with elements of active thermal protection- heat barrier, placed inside exterior peripheral structure. On Fig. 3 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat ba rrier placed near the surface of exterior peripheral structure. On Fig. 4 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the su rface of interior peripheral surface. On Fig. 5 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the surface of exterior peripheral structure. On Fig. 6 is illustrated cross- section th rough self-supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the surface of interior peripheral structure and elements of active thermal protection- heat barrier, placed inside of exterior peripheral structu re. On Fig. 7 is illustrated cross-section th rough self-supporting heat insulating panel of sandwich construction with doubled elements of active thermal protection- heat barrier, placed inside of interior as well as inside of exterior peripheral structure. On Fig. 8 is illustrated cross- section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier, placed inside interior structure as well as near the su rface of exterior peripheral structu re. On Fig. 9 is illustrated cross-section through self- supporting heat insulating panel of sandwich construction with elements of wall heating - cooling placed near the surface of interior peripheral structure and elements of doub le active thermal protection- heat barrier, placed near the surface and inside of exterior peripheral structure. On Fig. 1 0 is illustrated cross-section th rough self-supporting heat insulating panel of sandwich construction with elements of triple active thermal protection - heat barrier, where two systems of active thermal protection- heat barrier are placed near the surface and inside exterior peripheral structure and one system of active thermal
protection- heat barrier is placed inside of the interior peripheral structure. On Fig. 1 1 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of wall heating warm-air heating- cooling realized by air channels placed near the surface of interior peripheral structure and where the second peripheral structure is thin-walled architectural structure. On Fig. 12 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier realized by air channels placed inside of interior peripheral structure and where the second peripheral structure is thin -walled architectural structure. On Fig. 13 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier realized by air channels placed inside interior peripheral structure and elements of wall warm-air heating- cooling realized by air channels placed near the surface of interior peripheral structure where the second peripheral structure is thin-walled architectural structure. On Fig. 14 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier placed near the surface of heat insulation of central structure and elements of wall warm-air heating- cooling realized by air channels placed near the surface of interior peripheral structure where the second peripheral structure is thin-walled architectural structure. On Fig. 15 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with first elements of active thermal protection - heat barrier placed near the surface of heat insulation of central structure and the second elements of active thermal protection- heat barrier realized by air channels placed near the surface of interior peripheral surface where the second peripheral structure is thin-walled architectural structure. On Fig. 16.1 is illustrated cross-section through self-supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier placed in the cavity of heat insulation of central structure where the first and even the second peripheral structure can be supporting
structure. On Fig. 16.2 is illustrated cross-section through self- supporting heat insulating panel of sandwich construction with elements of active thermal protection - heat barrier placed in the cavity of heat insulation of central structure where the first and even the second peripheral structure can be supporting structure, while in the cavity is placed heat transition body. On Fig. 1 7.1 is illustrated cross-section through framed structure of self-supporting heat insulating panel for application of prefabricated houses with elements of active thermal protection- heat barrier and wall heating- cooling. On Fig. 17.2 is illustrated cross-section through construction of self-supporting heat insulating panel for application of prefabricated houses with elements of active thermal protection- heat barrier and wall heating- cooling without supporting frame in the second- exterior layer of heat insulation. On Fig. 18.1 is illustrated cross-section through framed structure of self- supporting heat insulating panel for application of prefabricated houses with doubled elements of active thermal protection- heat barrier and wall heating- cooling. On Fig. 18.2 is illustrated cross-section through construction of self-supporting heat insulating panel for application of prefabricated houses with doubled elements of active thermal protection- heat barrier and wall heating- cooling without supporting frame in the second- exterior layer of heat insulation.
Examples of realizations of technical handling
It is taken into consideration that individual realizations of technological handling are presented for the illustration and not as restrictions of technological handlings. Experts acknowledged with the state of technology will find or will be able with the use no more than routine experiments to find a lot of equivalents to specific realizations of technological handling. Even such equivalents will fall within the scope of following requirements for protection. For the experts acknowledged with the state of technology it cannot be a problem to make optimal designs of construction, so these marks were not handled in detail.
Example 1
In this case of specific realization of the subject of technological handling is described the first basic construction of self-supporting panel for the systems with active regulation of heat transition illustrated in Fig.1 . It consists of two peripheral structures A1 and A2. These are exterior structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 in a form of solid board made of polystyrene. This basic arrangement makes m ulti- layered structure of self-supporting heat insulating panel. Tube arrangement 2 of the distribution of heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A1 from the interior side.
For the production of this self-supporting heat insulating panel for the systems with active regulation of heat transition it is possible to use as heat insulation 1 separate or in whichever combination at least one element as polystyrene, rock wool, stone wool, polyurethane mixtures, cellulose, organic materials such as straw, sheep wool, materials applied in contact or ventilated heat cladding systems and all other heat insulations and their combinations applied in building industry in other variant realizations.
For the production of this self-supporting heat insulating panel for the systems with active regulation of heat transition is possible to use as peripheral structures A1 and A2 concrete, reinforced concrete or reinforced blocks of building shaped bricks of whatever type in other variant realizations.
In alternative realizations arrangement 2 of the distribution for heat transitioning of cooling medium can be solved as tube arrangement.
Example 2
In this case of specific realization of the subject of technological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.2. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured reinforced concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 in a form of solid board made of polystyrene. This basic arrangement makes multi- layered structure of self-supporting heat insulating panel. Tube arrangement 2 of the distribution of heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A2 from the exterior side.
Example 3
In this case of specific realization of the subject of technological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.3. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured reinforced concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 in a form of foam insulation. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Tube arrangement 2 of the distribution of heat transitioning liquid medium as an element of active
thermal protection- heat barrier is integrated on the outside part of concrete peripheral structure A2 from the exterior side.
Example 4
In this case of specific realization of the subject of technological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.4. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 in a form of rock wool. This basic arrangement makes multi-layered structure of self- supporting heat insulating panel. Tube arrangement 2 of the distribution of heat transitioning liquid medium as an element of low-temperature wall heating or high-temperature cooling is integrated in the outside part of concrete peripheral structure A1 from the interior side.
Example 5
In this case of specific realization of the subject of technological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.5. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 in a form of rock wool. This basic arrangement makes m ulti-layered structure of self- supporting heat insulating panel. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of low-temperature wall
heating or high-temperature cooling is integrated in the outside part of concrete peripheral structure A1 from the interior side. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of active thermal protection- heat barrier, eventually solar collector is integrated in outside part of concrete peripheral structure A2 from the exterior side.
Example 6
In this case of specific realization of the subject of technological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.6. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of cellulose. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of low-temperature wall heating or high-temperature cooling is integrated in the outside part of concrete peripheral structure A1 from the interior side. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated in inside part of concrete peripheral structure A2 from the exterior side.
Example 7
In this case of specific realization of the subject of technological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.7. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are
mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of sheep wool. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Tube arrangement 2 of the distribution heat transitioning liquid medium as the element of the first active thermal protection-heat barrier is integrated in the inside part of concrete peripheral structure A1 from the interior side. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the second active thermal protection- heat barrier is integrated in inside part of concrete peripheral structure A2 from the exterior s ide.
Example 8
In this case of specific realization of the subject of technological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.8. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of pressed straw. This basic arrangement makes multi-layered structure of self- supporting heat insulating panel. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the first active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A1 from the interior side. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the second active thermal protection- heat barrier, eventually solar collector is integrated in the outside part of concrete peripheral structure A2 from the exterior side.
Example 9
In this case of specific realization of the subject of technological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.9. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of polyurethane mixture. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the low-temperature wall heating or high-temperature cooling is integrated in the outside part of concrete peripheral structure A1 from the interior side. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the first active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A2 from the exterior side. Even another tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the second active thermal protection- heat barrier is integrated in the outside part of concrete peripheral structure A2 from the exterior side.
Example 10
In this case of specific realization of the subject of techn ological handling is described derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.1 0. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures A1 and A2 are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building
industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of polyurethane mixture. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the third active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A1 from the interior side. Tube arrangement 2 of the distribution heat transitioning liquid medium as an element of the first active thermal protection- heat barrier is integrated in the inside part of concrete peripheral structure A2 from the exterior side. Even another tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of the second active thermal protection- heat barrier is integrated in the outside part of concrete peripheral structure A2 from the exterior side.
Example 1 1
In this case of specific realization of the subject of technological handling is described the second basic construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig .1 1 . It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self-supporting because it is made of poured concrete. Exterior peripheral structure A2 is in the form of corrugated metal plate. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 a nd A2 is central structure A3 which consists of one layer of heat insulation 1 made of polyurethane mixture. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of the low-temperature wall heating or high-temperature wall cooling is created on the outside part of peripheral structure A1 from the interior side.
Example 12
In this case of specific realization of the subject of technological handling is described another derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.12. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self-supporting because it is made of poured reinforced concrete. Exterior peripheral structure A2 is in the form of plastic large-area plate. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre boards from polystyrene. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of the active thermal protection- heat barrier is created on the inside part of peripheral structure A1 from the interior side.
Example 13
In this case of specific realization of the subject of technological handling is described another derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.13. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self-supporting because it is made of poured reinforced concrete. Exterior peripheral structure A2 is architectural in the form of plaster. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre boards from polystyrene. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of the active thermal protection- heat barrier is created on the inside part of peripheral
structure A1 from the interior side. Another channel arrangement 2 of the distribution of the heat transitioning gaseous medium - air as an element of the low-temperature wall heating or high-temperature wall cooling is created on the outside part of peripheral structure A1 from the interior side.
Example 14
In this case of specific realization of the subject of technological handling is described another combined derived construction of self- supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.14. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self- supporting because it is made of poured reinforced concrete. Exterior peripheral structure A2 is architectural in the form of plaster. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre board from polystyrene. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of low-temperature wall heating or high-temperature wall cooling is created on the outside part of concrete peripheral structure A1 from the interior side. Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of active thermal protection - heat barrier, eventually solar collector is created on the outside part of peripheral structure A1 from the exterior side.
Example 15
In this case of specific realization of the subject of technological handling is described another combined derived construction of self- supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.1 5. It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self- supporting because it is made of poured concrete. Exterior peripheral structure A2 is architectural in the form of plaster. Between peripheral
structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre boards from polystyrene. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of active thermal protection- heat barrier is created on the inside part of concrete peripheral structure A1 from the interior side. Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of the second active thermal protection- heat barrier, eventually solar collector is created on the outside part of the peripheral structure A1 from the exterior side.
Example 16
In this case of specific realization of the subject of technological handling is described another derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.16.1 . It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Both peripheral structures are self-supporting because they are made of poured concrete. Both peripheral structures A1 and A2 are mutually connected by connective elements for sandwich structures of constructions of self-supporting panels normally used in building industry. Between peripheral structures A1 and A2 is central structure A3 which consists of one layer of heat insulation 1 made of hard fibre boards from polystyrene with created cavity 4. This basic arrangement makes multi-layered structure of self-supporting heat insulating panel. Channel arrangement 2 of the distribution of the heat transitioning gaseous medium- air as an element of the first active thermal protection- heat barrier is created through one peripheral structure of the concrete peripheral structure A1 .
In variant realization illustrated in Fig. 16.2 can be self-supporting heat insulating panel for the systems with active regulation of heat transition complemented with at least one heat transition body 5 placed in the cavity 4 of the central structure A3 with the layer of insulation 1 . Channel arrangement 2 of the distribution of the heat transitioning
gaseous medium- air as an element of active thermal protection- heat barrier for the input and output created in both peripheral structures A1 and A2 are alternative.
Example 1 7
In this case of specific realization of the subject of technological handling is described the first derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.17.1 . It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 is self-supporting. Exterior peripheral structure A2 is made of wood large-area plate. Interior peripheral structure A1 is made of plasterboard large-area plate connected with wood or steel supporting frame. Between pe ripheral structures A1 and A2 is central structure A3 which consists of two layers of heat insulation 1 in a form of hard fibre boards from polystyrene. Between these two layers of heat insulation 1 there is placed reinforcing element 3 in a form of large-area wood plate. Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of low-temperature wall heating or high-temperature wall cooling is integrated on the outside surface of heat insulation 1 from interior side. There is also tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated on the inside surface of heat insulation 1 from interior side. Abovementioned panel with the on ly difference in the fact that the second, exterior layer of heat insulation is made from polystyrene plate without supporting frame is illustrated in Fig. 17.2.
It is possible to use metal or plastic or wood constructions or plates or by shape reinforced metal plate, eventually other suitable materials as peripheral structures A1 and A2 for the production of this self-supporting heat insulating panel for the systems with active regulation of heat transition in other variant realizations.
It is possible to use separately or in combination of any kind at least one element such as rock wool, stone wool, polyurethane
mixtures, cellulose, organic materials as straw, sheep wool, materials applied in contact or ventilated heat cladding systems and all other heat insulations and their combinations applied in building industry as heat insulation 1 for the production of this self-supporting heat insulating panel for the systems with active regulation of heat transition in other variant realizations.
Arrangement 2 of the distribution of the heat transitioning or cooling medium can be used as tube arrangement in alternative realizations.
Example 18
In this case of specific realization of the subject of technological handling is described the second derived construction of self-supporting heat insulating panel for the systems with active regulation of heat transition illustrated in Fig.1 8.1 . It consists of two peripheral structures A1 and A2. These are exterior peripheral structure A2 and interior structure A1 . Only interior peripheral structure A1 attached to wood or steel supporting frame is self-supporting. Exterior peripheral structure A2 is made of metal plate. Between peripheral structures A1 and A2 is central structure A3 which consists of two layers of heat insulation 1 in a form of hard fibre boards from polystyrene. Between these two layers of heat insulation 1 there is placed reinforcing element 3 in a form of large-area wood plate and wood or steel supporting frame. Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of low-temperature wall heating or high-temperature wall cooling is integrated on the outside surface of heat insulation 1 from interior side. There is also tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of active thermal protection- heat barrier is integrated on the inside surface of heat insulation 1 from interior side. Tube arrangement 2 of the distribution of the heat transitioning liquid medium as an element of the second active thermal protection- heat barrier, eventually solar absorber is integrated on the outside surface of heat insulation 1 from exterior side. Abovementioned handling of the self-supporting panel with the only difference in the fact that the second, exterior layer of heat insulation 1
is made from polystyrene plate without supporting frame with m illed or during the process of production of heat insulation sealed- concealed tube arrangement 2 of the distribution of heat transitioning medium is illustrated in Fig. 18.2.
Tube arrangement 2 of the distribution of the heat transitioning liquid medium can be arranged even on inside walls of peripheral structures A1 and A2 in alternative realizations.
Utilization in the industry
The construction of self-supporting heat insulating panel for the systems with active regulation of heat transition according to technological handling finds its utility in building industry.
Claims
1 . Self-supporting heat insulating panel for the systems with active regulation of transition of the heat characterized by the fact, that it consists of two peripheral structures (A1 , A2) where at least one of them is supporting on the basis of the concrete or reinforced concrete or metal or plastic or wood constructions or plates or reinforced block of building shaped bricks, and it consists of central structure (A3) that consists of at least one layer of heat insulation (1 ); while at least one tube or hosepipe and/or channel arrangement (2) of the distribution of heat liquid or gaseous medium is integrated in/on at least one peripheral structure (A1 , A2) or in/on central structure (A3).
2. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to claim 1 , marked out by the fact, that the second peripheral structure (A2) is architectural.
3. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to claim 1 and 2, marked out by the fact, that the second peripheral structure (A2) is thin-walled on the basis of wood and/or plastic and/or plasterboard and/or metal.
4. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to claim 1 and 3, marked out by the fact, that the first peripheral structure (A1 ) is on the basis of ceramist concrete with integrated at least one channel arrangement (2) of the distribution of heat transitioning gaseous medium .
5. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to claim 1 and 3, marked out by the fact that the interior side of the peripheral structure (A1 ) consists of heat-conductive or reflecting layer or layer of interior surface modification.
6. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to claim 1 and 3, marked out by the fact, that the exterior side of the second peripheral structure (A2) has exterior surface modification.
7. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to at least one claim from 1 to 6, marked out by the fact, that at least one layer of the heat insulation (1 ) of the central structure (A3) consists of at least one tube or hosepipe or channel arrangement (2) of the distribution of the heat transitioning medium.
8. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to at least one claim from 1 to 7, marked out by the fact, that the central structure (A3) consists of reinforced element (3) in a form of large-area plate on the basis of wood or plastic or metal or plasterboard and at least one of the supporting peripheral structures (A1 , A2) is of frame construction.
9. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to at least one claim from 1 to 6, marked out by the fact, that the central structure (A3) with the layer of heat insulation (1 ) consists of cavity (4) and at least one of the supporting peripheral structures (A1 , A2) consists of at least one channel arrangement (2) of the distribution of heat transitioning gaseous medium.
1 0. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to claim 9, marked out by the fact, that in the cavity (4) of the central structure (A3) with the layer of heat insulation (1 ) is placed at least one heat transitioning body (5).
1 1 . Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to at least one claim from 1 to 10, marked out by the fact, that at least one tube or hosepipe or channel arrangement (2) distributing the heat transitioning medium is the element of low-temperature heating or cooling or heat barrier.
12. Self-supporting heat insulating panel for the systems with active regulation of the heat transition is according to at least one claim from 1 to 10, marked out by the fact, that in modification of ceiling panel at least one tube or hosepipe or channel arrangement (2) of the distribution of the heat transitioning medium are the element of floor heating and/or ceiling heating or cooling.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP11716445A EP2574197A1 (en) | 2010-05-20 | 2011-02-25 | Self-supporting heat insulating panel for the systems with active regulation of heat transition |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
SKPUV5030-2010 | 2010-05-20 | ||
SK5030-2010U SK5729Y1 (en) | 2010-05-20 | 2010-05-20 | Self-supporting heat insulating panel for active control systems with passage of heat |
SK5018-2010A SK50182010A3 (en) | 2010-05-20 | 2010-05-20 | Separate panel for thermal insulation systems with active control passage of heat |
SKPP5018-2010 | 2010-05-20 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2011146024A1 true WO2011146024A1 (en) | 2011-11-24 |
Family
ID=44168947
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/SK2011/000003 WO2011146024A1 (en) | 2010-05-20 | 2011-02-25 | Self-supporting heat insulating panel for the systems with active regulation of heat transition |
Country Status (2)
Country | Link |
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EP (1) | EP2574197A1 (en) |
WO (1) | WO2011146024A1 (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2706164A1 (en) * | 2012-09-10 | 2014-03-12 | Mir Arastirma ve Gelistirme A.S. | Modular hybrid wall assembly |
GB2544492A (en) * | 2015-11-17 | 2017-05-24 | Mccrea Brendan | Structural panel heating system |
FR3045685A1 (en) * | 2015-12-16 | 2017-06-23 | Terreal | ALVEOLAR BUILDING ELEMENT FOR THERMALLY CONTROLLED WALL |
Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2507647A1 (en) | 1981-06-10 | 1982-12-17 | Borghese Louis | Composite prefabricated construction panel - has grooved insulation to concrete interface to aid connection between them |
FR2584437A1 (en) | 1985-07-05 | 1987-01-09 | Robert Jean | Prefabrication of elements of walls or panels intended for forming the external walls of a building |
DE19849135A1 (en) | 1998-10-23 | 2000-04-27 | D.D.C. Planungs-, Entwicklungs- Und Management Ag | Polyurethane foam-based building material contains foliated glass as mineral filler added during the preparation but prior to foaming |
EP1528171A2 (en) * | 2003-10-23 | 2005-05-04 | Bathon, Leander | Wood-Concrete composite system comprising wooden construction elements, intermediate layers and concrete construction elements |
CN2721744Y (en) | 2004-08-05 | 2005-08-31 | 山东华明建设科技有限公司 | Composite external wallboard |
SK284751B6 (en) | 1995-09-12 | 2005-11-03 | Edmond D. Kreck� | Energy system for buildings |
CN2844259Y (en) | 2005-11-17 | 2006-12-06 | 李英达 | The complete light haydite concrete heat-insulation wall plate of a kind of assembling |
CN201155161Y (en) | 2007-09-20 | 2008-11-26 | 陈泽川 | Light weight haydite concrete sandwiched building blocks |
US20080295450A1 (en) * | 2007-05-29 | 2008-12-04 | Yitzhak Yogev | Prefabricated wall panels and a method for manufacturing the same |
WO2009071958A1 (en) * | 2007-12-04 | 2009-06-11 | Nagylucskay Laszlo | Building structure with active heat insulation |
DE102008033398A1 (en) * | 2008-07-16 | 2010-02-11 | Kerapid Krüger und Schütte KG | Facade component for lining of buildings, has plate shaped element formed in self-supporting manner, where plate shaped element is equipped with devices for utilization of solar energy and for thermal insulation |
DE202010000519U1 (en) * | 2010-03-31 | 2010-07-22 | Technische Universität Darmstadt | Component for a building |
-
2011
- 2011-02-25 WO PCT/SK2011/000003 patent/WO2011146024A1/en active Application Filing
- 2011-02-25 EP EP11716445A patent/EP2574197A1/en not_active Withdrawn
Patent Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2507647A1 (en) | 1981-06-10 | 1982-12-17 | Borghese Louis | Composite prefabricated construction panel - has grooved insulation to concrete interface to aid connection between them |
FR2584437A1 (en) | 1985-07-05 | 1987-01-09 | Robert Jean | Prefabrication of elements of walls or panels intended for forming the external walls of a building |
SK284751B6 (en) | 1995-09-12 | 2005-11-03 | Edmond D. Kreck� | Energy system for buildings |
DE19849135A1 (en) | 1998-10-23 | 2000-04-27 | D.D.C. Planungs-, Entwicklungs- Und Management Ag | Polyurethane foam-based building material contains foliated glass as mineral filler added during the preparation but prior to foaming |
EP1528171A2 (en) * | 2003-10-23 | 2005-05-04 | Bathon, Leander | Wood-Concrete composite system comprising wooden construction elements, intermediate layers and concrete construction elements |
CN2721744Y (en) | 2004-08-05 | 2005-08-31 | 山东华明建设科技有限公司 | Composite external wallboard |
CN2844259Y (en) | 2005-11-17 | 2006-12-06 | 李英达 | The complete light haydite concrete heat-insulation wall plate of a kind of assembling |
US20080295450A1 (en) * | 2007-05-29 | 2008-12-04 | Yitzhak Yogev | Prefabricated wall panels and a method for manufacturing the same |
CN201155161Y (en) | 2007-09-20 | 2008-11-26 | 陈泽川 | Light weight haydite concrete sandwiched building blocks |
WO2009071958A1 (en) * | 2007-12-04 | 2009-06-11 | Nagylucskay Laszlo | Building structure with active heat insulation |
DE102008033398A1 (en) * | 2008-07-16 | 2010-02-11 | Kerapid Krüger und Schütte KG | Facade component for lining of buildings, has plate shaped element formed in self-supporting manner, where plate shaped element is equipped with devices for utilization of solar energy and for thermal insulation |
DE202010000519U1 (en) * | 2010-03-31 | 2010-07-22 | Technische Universität Darmstadt | Component for a building |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2706164A1 (en) * | 2012-09-10 | 2014-03-12 | Mir Arastirma ve Gelistirme A.S. | Modular hybrid wall assembly |
WO2014037556A1 (en) * | 2012-09-10 | 2014-03-13 | Mir Arastirma Ve Gelistirme A.S. | Modular hybrid wall assembly |
JP2015532955A (en) * | 2012-09-10 | 2015-11-16 | エムアイアール アラスティルマ ヴェ ゲリスティルメ エー.エス.Mir Arastirma Ve Gelistirme A.S. | Modular hybrid wall assembly |
GB2544492A (en) * | 2015-11-17 | 2017-05-24 | Mccrea Brendan | Structural panel heating system |
EP3170948A1 (en) * | 2015-11-17 | 2017-05-24 | McCrea, Brendan | Structural panel heating system |
FR3045685A1 (en) * | 2015-12-16 | 2017-06-23 | Terreal | ALVEOLAR BUILDING ELEMENT FOR THERMALLY CONTROLLED WALL |
Also Published As
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