EP1886068A1 - Structure d'une paroi de delimitation d'espace interne, et module de chauffage - Google Patents

Structure d'une paroi de delimitation d'espace interne, et module de chauffage

Info

Publication number
EP1886068A1
EP1886068A1 EP06724811A EP06724811A EP1886068A1 EP 1886068 A1 EP1886068 A1 EP 1886068A1 EP 06724811 A EP06724811 A EP 06724811A EP 06724811 A EP06724811 A EP 06724811A EP 1886068 A1 EP1886068 A1 EP 1886068A1
Authority
EP
European Patent Office
Prior art keywords
wall
heating element
pcm
heating
wall structure
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP06724811A
Other languages
German (de)
English (en)
Inventor
Manuel Collares Pereira
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Moletherm Holding AG
Original Assignee
Moletherm Holding AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Moletherm Holding AG filed Critical Moletherm Holding AG
Priority to EP06724811A priority Critical patent/EP1886068A1/fr
Publication of EP1886068A1 publication Critical patent/EP1886068A1/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24DDOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
    • F24D13/00Electric heating systems
    • F24D13/02Electric heating systems solely using resistance heating, e.g. underfloor heating
    • F24D13/022Electric heating systems solely using resistance heating, e.g. underfloor heating resistances incorporated in construction elements
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]

Definitions

  • the invention relates to a wall structure of an interior boundary wall as a side wall, ceiling wall or floor wall with a component of PCM material (phase change material) as latent heat storage.
  • PCM material phase change material
  • Latent heat storage with so-called PCM materials are generally also known in connection with wall structures of buildings. If heat is supplied to a solid PCM material, when it reaches its melting temperature, it changes its state of aggregation from solid to liquid and absorbs a certain amount of heat as so-called heat of fusion during this phase change. Despite heat supply, the temperature of the PCM material does not change, so that the heat is stored as latent (hidden) heat. In the case of heat extraction, a reverse phase change from liquid to solid occurs and the stored latent heat is released again at a constant temperature.
  • PCM materials Phase Change Materials
  • PCM storage materials are available in particular as latent heat paraffins and as salt hydrates with different melting points as granules or as flat elements, such as nonwovens, chipboards, textiles.
  • latent heat storage in little material high amounts of heat can be stored without associated increases in temperature.
  • PCM material in building structures for buffering temperature cycles and as heat storage for building heating is well known.
  • a PCM-containing gypsum plaster is known for wall construction.
  • a floor storage heater is well known in which a thermal insulation layer is on a bare floor on which a large number of pipe coils a hot water low-temperature heating coil is laid. Then a bed of PCM granules is applied, which is covered with a dry screed. This is compared to the usual thick cement screed in floor storage heaters, a reduction in screed thickness achieved in conjunction with a larger heat storage capacity.
  • the aim of this arrangement using the PCM granules is thus here a reduction of the screed layer thickness up to 50% compared to a pure cement screed variant.
  • the heat storage layer formed thereby is primarily heated here. Deferred heat is absorbed by the underlying heater during phase change according to the heat storage capacity and thermal conductivity of the PCM granules and only then released from the PCM granules to the building interior. An immediate heat dissipation of the heating register to the building interior does not take place.
  • a wallboard is generally known as a lightweight board. From the outside of the building to the inside of the building consists of a thermal insulation layer, a thermal barrier coating, an air gap, a PCM layer and a plasterboard cover plate. By using the PCM layer, the interior temperature is hereby compensated by buffering external temperature peaks. An integrated heater is not provided here.
  • surface heating elements are known as wall heating elements
  • the object of the invention is to develop a wall structure of a compartment boundary wall with a component of PCM material as latent heat storage so that a high efficiency of an integrated electric heating can be achieved.
  • Another object of the invention is to propose a heating module for the production of such a wall structure, which is easy, inexpensive and reliable to install.
  • the object is achieved in terms of the wall structure with the features of claim 1 and in terms of the heating module with the features of claim 12.
  • a PCM layer which contains PCM material as latent heat storage material and at least one electrically operable surface heating element lying toward the interior of the room are arranged on a wall support structure in the following order, at least in wall surface subregions in the following sequence.
  • Such electrically operable surface heating elements radiate heat radiation approximately at the same intensity on the surface lying on the building interior side as well as on the rear surface.
  • This radiation emitted to the rear has hitherto been usable in a rearwardly adjoining insulating layer and / or in the wall structure, for example a wall and thus only slightly for the heating of the building interior.
  • the advantage of heat radiation heating is known to be similar in function to the effect of solar radiation: The energy transfer to a body to be heated, for example, to a person by the electromagnetic infrared radiation, the heat development is essentially only when hitting the body. A person has a pleasant sensation of heat and the interior temperature can be kept relatively low with a total of low cost of electricity for such a heater.
  • the heating control reacts relatively quickly in the arrangement according to the invention, since the relatively slow heat output via the PCM layer of the fast effective heat radiation output from the front of the surface heating is superimposed.
  • the cost of the already very economical, with little electric power to be operated, heater according to the invention here by still the use of low-cost night tariffs reduced.
  • This can be operated with relatively low energy and simultaneous loading of the PCM latent heat storage with appropriate design of the scheme, the heating in the night tariff.
  • the surface heating elements are switched off and heat is released from the PCM latent heat storage device through the surface heating elements into the building interior.
  • a further functional improvement is achieved according to claim 2, characterized in that the wall support structure itself consists of heat-insulating material and / or an additional insulating layer is attached between the wall structure and the PCM layer. This avoids, in particular, that heat is transferred from the PCM layer to the rear in the wall structure, which would then no longer be available for discharge into the interior space.
  • known latent storage materials such as salt hydrates and / or paraffins are possible for the formation of the PCM layer.
  • known per se embodiments of PCM layers can be used, wherein preferably plate-like contiguous or encapsulated, in particular foil-encapsulated material composites are used.
  • the electromagnetic infrared radiation radiated backwards by the surface heating elements is to be captured and used in a latent heat storage layer, it is in principle necessary for the PCM layer to be attached with the same areal extent behind the surface heating elements.
  • a particularly advantageous structure results according to claim 5, when the PCM layer rests in a corresponding trough-shaped recess in an insulating layer or a building board under or under a surface of a plurality of surface heating elements.
  • the PCM layer is thus fixed in position and held and with the appropriate depth of the tubing, a total layer thickness of the insulating layer can be achieved overall.
  • the wall structure of a side wall and / or a ceiling wall and / or a floor wall of the building interior of a support structure as a side wall support structure, ceiling structure or floor structure on the least at least in a partial area least a manageable heating module attached as a cover and connected is.
  • the layer structures and arrangements described above can in principle be applied as individual layers in individual laying steps. However, it is particularly advantageous if at least a partial integration of these layers is already integrated from the outset into deployable heating modules.
  • such a heating module consists of at least one electrically operable proceedingsnheizelement and a Basis horrbauteil as Basisdämmplatte or base board on which or embedded in a trough-shaped recess the PCM layer and the at least one legislativenheizelement are attached.
  • the surface heating element is connected to electrical connection lines, which are also mounted as part of the heating module on the base surface component.
  • the base surface component as a carrier part, the latent heat storage as a PCM layer and the electric heater with the surface heating elements and their electrical connection are integrated from the outset even before laying. The laying of such heating modules is thus fast, easy and inexpensive possible and particularly suitable for do-it yourself installation.
  • the insulation plate integrated embodiment of the electric storage heater is particularly suitable for a floor structure with a cover by a floor covering.
  • the building board integrated embodiment of the electric storage heater is preferably designed for a side wall structure or ceiling wall structure.
  • the at least one surface heating element is connected to flat connecting lines, in particular to opposite copper conductor strips, which are mounted as part of the heating module on the base surface part and are guided there to a side edge region.
  • connecting cable for connection to a control unit for the power supply and control / regulation of at least be connected to a surface heating element This results in a simple, safe and functional electrical connection technology.
  • Claim 8 as part of a ceremoniesnheizelements a thin-walled coating is claimed as active infrared radiation radiant heater coating, which can be mounted directly above the PCM layer or depending on the nature and structure of the PCM layer also indirectly via a carrier film.
  • an operation of the surface heating elements is performed with a Nie- dervolttant below 50 volts to exclude personal critical higher voltages.
  • operation with higher voltages may be expedient.
  • a control unit is connected to a room air temperature sensor and / or with a wall temperature sensor contained in the wall structure for the heating control.
  • the heating control can be operated via a setpoint comparison of the room air temperature.
  • the wall-integrated temperature sensor can be used to control the heating at inadmissibly high temperatures in the wall area.
  • Such a control device can also be connected to a control device for the use of cheaper electricity tariffs, in particular of night tariffs.
  • Such controllers are available on the market and are well known.
  • Claim 11 claims a heating module for producing a wall structure, wherein the heating module is formed from a base surface component as Basisdämmplatte or base plate and at least one integrated over a PCM layer mounted in the laid state lying on the upper surface heating.
  • the applied surface heating element is thin compared to the layer thickness of the base surface component and the PCM layer.
  • the surface heating element has an infrared-radiating and preferably low-voltage voltage-operable radiation-heating coating.
  • FIG. 1 is a plan view of a floor structure in a building interior
  • FIG. 2 shows a section along the line A-A from FIG. 1 of a first embodiment of a floor heating module
  • FIG. 3 shows a section along the line A-A from FIG. 1 of a second embodiment of a floor heating module
  • FIG. 4 shows a view of a side wall structure of a building interior with partially installed plasterboard panels with and without heating elements and the guidance of the electrical lines
  • FIG. 5 shows a longitudinal section to illustrate the layer structure along the line B-B of Fig. 6, and
  • Fig. 6 is a plan view of a wall heating module in an exploded view.
  • a floor structure 1 is shown with an electric floor heating in a plan view, with an already completed laying of an insulating layer. 6
  • This insulating layer 6 consists of insulating panels 2a to 2h and floor heating modules 3a to 3d, which have in a plan view rectangular areas of the same width and adjacent, bottom surface laying in adjacent tracks 4a to 4f are laid.
  • the tracks 4a and 4d only insulation panels 2a and 2f (without surface heating elements) are used.
  • the tracks 4b and 4c the floor heating modules 3a and 3b are laid side by side, wherein the tracks 4b and 4c are cut through appropriately cut insulation board parts 2b, 2c and 2d, 2e are completed.
  • the tracks 4e and 4f lying differently long floor heating modules 3c and 3d with a broadside to a room edge with the rest of the tracks 4e and 4f are supplemented by Dämmstoffplattenmaschinenmaschine 2g and 2h.
  • an insulating layer 6 is laid out on an unfinished floor 5, for example on a concrete floor, which consists of the insulation panels 2a to 2h and of floor heating modules 3a to 3d with the same layer thickness, which adjoin each other at joints 7 , Between the unfinished soil 5 and the insulating layer 6, a release film 21 is further used as a moisture barrier.
  • the floor heating modules 3a to 3d each consist of a base insulating board 8a to 8d on the upper sides of which PCM layers 22 and above surface heating elements 9a to 9d are fixedly mounted.
  • the floor heating modules 3a and 3b each have three longitudinally spaced surface heating elements 9a, 9b.
  • heating module 3c when heating module 3c, however, two surface heating elements 9c are mounted with slightly greater longitudinal extent and a greater distance and the heating module 3d, only a surface heating element 9d is used.
  • the arrangement, size and position of the heating modules 3a to 3d and the surface heating elements 9a to 9d is determined according to the respectively required heating requirements and specified in a laying plan.
  • a surface heating element 9a to 9d each consists of a radiation heating coating 10 of an infrared-radiating coating material, preferably with molar proportions of graphite and insulating carbon black.
  • the radiation heating coating 10 is applied directly or indirectly via an intermediate film to the underlying PCM layer 22, which is accommodated in a flat, trough-shaped recess of the base insulating board 8a to 8d.
  • the recess is also lined with a reflector sheet 23, which is thus located on the back of the PCM layer 22.
  • material forms available on the market such as PCM materials housed in disks, PCM materials encapsulated in films, poured PCM granules or PCM material composites using salt hydrates or paraffins can be used here.
  • the selection and optimization also with respect to the phase change temperature depending on the specific conditions of the Schumodulettivs and the heating conditions.
  • connection cables 13a, 13b are connected at connection points 12, preferably via plug-in connections and / or climp connections, left-side cable strips 11 being connected to connecting cable 13b and right-side cable strips 11 'being connected to connecting cable 13a.
  • connection cables 13a, 13b extend through the butt joints 7 in each case under the adjacent insulating panels 2a to 2h (dashed connection cables 13a, 13b) to the bottom edge edge 14, from where they are led upwards to a control unit 15.
  • the control unit 15 is connected to a room air temperature sensor 16 and also to a floor temperature sensor 17, which is mounted in the area of a surface heating element 9a.
  • a cover film 18 is applied as a mechanical protective film and electrical insulating film, which is shown for clarity only in connection with the heating module 3b partially.
  • a nationwide release film 19 is mounted on the insulating layer 6 (not yet laid in Fig. 1).
  • the alternative floor structure 1 'according to FIG. 3 largely corresponds to the floor construction 1 according to FIG. 2, so that the same structural components are provided with the same reference numerals.
  • the differences lie in the structure of the heating modules 3a-3d in such a way that in each case a PCM layer 22 'with interposed reflector film 23' is mounted on the entire surface of the base insulating panels 8a-8d.
  • the Total layer thickness including surface heating elements 9a-9d again corresponds to the layer thickness of the insulating panels 2a-2h.
  • the base insulation board 8a-8d, the PCM layer 22 ', the reflector film 23' and the surface heating elements 9a-9d are also connected to a complete floor heating module 3a-3d. In principle, all layers or a subassembly of these layers can also be laid one after the other one after the other.
  • building panels are used as wall heating modules 31a, 31b in the manner of plasterboard with a side wall 40 of a building interior, with a longitudinal extent of about two meters corresponding to about a handle height of a person.
  • two panels 32, 33 are arranged side by side, each with four planar surface heating elements 34, 35 arranged one above the other and spaced apart in the longitudinal direction.
  • these surface heating elements 34, 35 have a thin-walled coating as active radiation heating coating for emitting infrared radiation.
  • On both sides of each of the panels 32, 33 extend over the coating with electrical contact flat strip conductors as each associated copper strips 36a, 36b and 37a, 37b in the longitudinal direction over the entire plate length up to both narrow plate sides.
  • a transparent protective and insulating film is attached. It is a thin plate, wherein the line strips 6, 7 on the narrow plate sides 8a, 8b can survive for a further easy connection of cables.
  • the surface heating elements 34, 35 with their radiation heating coatings, the line strips 36a, 36b and 37a, 37b and the protective and insulating film are already connected by coating and gluing firmly to the plasterboard in the delivery state to a construction site, so that it is a prefabricated laying module ,
  • two wall heating modules 31a, 31b are used in combination with plasterboard panels 41a, 41b and 42a, 42b, 42c which do not support surface heating elements.
  • a wall support structure 43 On the left side of the side wall 40, the structure of a wall support structure 43 is shown with a framework of bottom rails 44 and Profilstehern 45 between which insulation blocks 46 are inserted and held from thermal insulation material.
  • the surface area is covered from the front with wall heating modules 31 and plasterboard 41, 42. These are preferably screwed to the Profilstehern 45.
  • the right area of the side wall 40 is already assembled and lined with plasterboard.
  • an upper, longer plasterboard 41 d is combined with a lower, shorter gypsum board 42 b.
  • a wall heating module 31b with surface heating elements 34 is laid in the lower area and an area lying above it is supplemented with a shorter plasterboard panel 42c.
  • a field with plasterboard 41a, 42a corresponding to the first field to the left.
  • another wall heating module 31a is already mounted, wherein the area lying above is again to be covered with a shorter plasterboard.
  • the line strips 36a, 36b, 37a, 37b; 36a ', 36b', 37a ', 37b' are guided to the lower narrow side of the wall heating modules 31a, 31b and are about something before.
  • connection points 47 the line strips 36a, 37a, 36a 'and 37a' as well as the line strips 36b, 37b and 36b ', 37b' are connected to each other in the space corner region 48 (transition from the side wall 40 to the bottom wall 49) via cables 53, 54 , wherein the cables 53, 54 are guided along the space corner region 48 to a junction box 20. From there runs (optionally under the plates) a cable line 51 to a control unit 52nd
  • connection points 47 and the cables 53, 54 together with the junction box 50 in the room corner area 48 and can be there easily, visually favorable and accessible again with a (shown dashed lines) Eckabdeckance 55 are covered.
  • FIG. 6 shows in an exploded view the layer structure of a wall heating module 31 d modified in geometry with respect to the wall heating modules 31 a, 31 b, but with the same layer structure as a plate module with a longitudinal section along the line BB in FIG. 5.
  • the base surface part is a plasterboard 41.
  • a planar recess is introduced, in which similarly as in the Basisdämmplatte 8c of FIG. 2 here also a PCM layer 56 rests on a reflector foil 57, as can be clearly seen from the enlargement in FIG 5 can be seen.
  • the heating system with here seven surface heating elements 34 and flat conductor strips 36 and 37 is mounted with a carrier film 58 on the plasterboard 41 and the PCM layer 56.
  • the area of the PCM layer 56 can be seen here below the area determined by the seven area heating elements 34.
  • the surface heating elements 34 and the line strips 36, 37 represent a ladder-shaped surface pattern.
  • a laminating film 59 is applied as a plastic film or paper web on which the underlying surface pattern of theinstitunfilter instituten 34 and the line strips 36, 37 is imitated identical imitated.
  • the print "Attention! "Do not screw / nail in this area” warned you to place nails or screws inside the displayed surface pattern during assembly.This print may also be made in other languages or in multiple languages.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Central Heating Systems (AREA)
  • Building Environments (AREA)

Abstract

L'invention concerne une structure d'une paroi de délimitation d'espace interne, comprenant un composant constitué d'un matériau à changement de phase (PCM) utilisé en tant qu'accumulateur de chaleur latente. Selon l'invention, au moins certaines zones superficielles partielles de paroi comportent, successivement sur un élément de support de paroi, une couche PCM (22, 22' ; 56) contenant un matériau PCM utilisé en tant qu'accumulateur de chaleur latente, ainsi qu'au moins un élément de chauffage superficiel (9a-9d ; 34, 35) à commande électrique qui est dirigé vers l'intérieur de l'espace et qui est disposé sur ladite couche PCM. Ainsi, pour accroître le rendement, l'énergie thermique émise par l'élément de chauffage superficiel vers l'arrière est stockée.
EP06724811A 2005-05-31 2006-05-13 Structure d'une paroi de delimitation d'espace interne, et module de chauffage Withdrawn EP1886068A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP06724811A EP1886068A1 (fr) 2005-05-31 2006-05-13 Structure d'une paroi de delimitation d'espace interne, et module de chauffage

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
EP05011672A EP1729070A1 (fr) 2005-05-31 2005-05-31 Construction d'un mur intérieur et module de chauffage
PCT/EP2006/004508 WO2006128565A1 (fr) 2005-05-31 2006-05-13 Structure d'une paroi de delimitation d'espace interne, et module de chauffage
EP06724811A EP1886068A1 (fr) 2005-05-31 2006-05-13 Structure d'une paroi de delimitation d'espace interne, et module de chauffage

Publications (1)

Publication Number Publication Date
EP1886068A1 true EP1886068A1 (fr) 2008-02-13

Family

ID=36102652

Family Applications (2)

Application Number Title Priority Date Filing Date
EP05011672A Withdrawn EP1729070A1 (fr) 2005-05-31 2005-05-31 Construction d'un mur intérieur et module de chauffage
EP06724811A Withdrawn EP1886068A1 (fr) 2005-05-31 2006-05-13 Structure d'une paroi de delimitation d'espace interne, et module de chauffage

Family Applications Before (1)

Application Number Title Priority Date Filing Date
EP05011672A Withdrawn EP1729070A1 (fr) 2005-05-31 2005-05-31 Construction d'un mur intérieur et module de chauffage

Country Status (3)

Country Link
EP (2) EP1729070A1 (fr)
JP (1) JP2008542591A (fr)
WO (1) WO2006128565A1 (fr)

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2011007009A2 (fr) 2009-07-17 2011-01-20 Gmeiner Emma Système solaire, système de climatisation et plaque chauffante à accumulation
ES2421831B1 (es) * 2012-03-05 2014-09-10 Universidad De Valladolid Elemento constructivo con integración de sistemas activos calefacción-refrigeración, en placas de yeso/elementos de trasdosado con materiales de cambio de fase incorporados
FR3026471B1 (fr) * 2014-09-30 2019-07-26 Verelec Radiateur electrique a changement de phase
IT201700076910A1 (it) * 2017-07-07 2019-01-07 Carlo Alberto Zenobi Pannello riscaldante ad irraggiamento

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3060300A (en) * 1958-12-02 1962-10-23 Albert A Horner Radiant heating unit including a laminated radiant heating panel
AT322504B (de) * 1969-01-08 1975-05-26 Accessair Sa Wärmespeichermasse
DE1926349A1 (de) * 1969-05-23 1970-11-26 Gruenzweig & Hartmann Beheizbarer Fussboden
DE2747112A1 (de) * 1977-10-20 1979-04-26 Joachim Ruhnau Verfahren und anwendung zur herstellung von fussboden-speicherheizungen unter verwendung von latent-speichern
DE19849432A1 (de) * 1998-10-27 2000-06-15 Molekulare Energietechnik Ag V Heizungsanordnung

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO2006128565A1 *

Also Published As

Publication number Publication date
JP2008542591A (ja) 2008-11-27
WO2006128565A1 (fr) 2006-12-07
EP1729070A1 (fr) 2006-12-06

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