EP1179112B1 - Profile configuration for interrupting a heat conducting bridge between an inner side and an outer side - Google Patents

Abstract

In order to insulate, in particular, window profiles, façade panels, roofing panels, pipes, land vehicle bodies and aircraft bodies, and the like with regard to heat conduction, an interruption is provided from which air can be evacuated or is free of air when installed. To this end, plastic profiles (5, 14) are provided from which air can be evacuated or contain an insert (6, 6') from which air can be evacuated. The vacuum comprises a high heat insulating value, therefore, low heat transition coefficients, and different materials are not joined to one another in a permanent and non-detachable manner thus enabling both an environmentally friendly production and necessary disposal. This also makes a cost-efficient production possible. In principle, there are numerous applications for the inventive profile configuration.

Description

The invention relates to a profile arrangement for interrupting a W _ä rmeleitbrücke between an outer and an inner side, wherein the interruption is formed by a an insert exhibiting component, wherein the insert is an evacuated insert and out of the evacuated vacuum-sealed preformed or shapeable foil bags with a non- outgassing filling of parts that lie against each other and leave gaps exists.

In many applications in construction or buildings, it is necessary between the Outside of the building and the inside of the building, a thermal bridge or Avoid cold bridge. This is especially true when using metal parts become. Typical applications of metal parts include doors, gates and windows, but also facade arrangements with curtain facade in glass or other panel shape.

Other applications in particular, but not exclusively in the construction relate to Laying of pipes as well as rooms and containers in which the flowing in it or dormant medium is significantly warmer or significantly colder than the environment.

Conventionally, in such applications between the inside and the Outside the heat or cold bridge interrupted by a plastic profile, which is foamed by means of a foam. The foam reaches it also a suitable support. Another option is for example Frame and sash of a window or door entirely made of plastic material manufacture. Again, foaming is not uncommon. For cables and Containers it is customary to provide a foam insulation. at Facade arrangements it is known, internal and external Profile parts, wherein the inner profile parts with the housing wall or other supporting elements of the building are connected by fasteners in the course of which, usually through a Plastic element formed, interruption is provided. Finally it is too not uncommon to use wooden parts.

The conventional solutions to the interruption problem usually contain Materials that are polluting or produced in such a way have to. Upon disposal, significant expenses are required are expensive. Frequently, an environmentally harmful disposal is necessary. Especially with foamed plastic profiles is another problem in that the recyclability is no longer there because products different plastic type are used.

It is already known, instead of environmentally damaging products a hollow profile as a component To fill a heat transfer bridge with a gas to fill, the one relative to air has reduced thermal conductivity (DE-A-195 37 459) or to evacuate (EP-A-0 556 600). Furthermore, it is known to use the basic idea by evacuating the heat or cold bridge stop using a component that has an insert. According to DE-A-195 19 984 consists of such an insert made of a plastic shell, in the interior there are hollow spheres that are evacuated. From DE-A-A1-36 34 325 is a Such arrangement is known in which the insert of evacuated, vacuum-tight closed preformed or shapeable foil bags, which does not Has outgassing filling of parts that lie against each other and spaces leave. This filling may be powdered kieselguhr. From Such a profile arrangement is assumed in the preamble of claim 1. Similar inserts are also known from EP 0 619 452 A1, US 4,529,638, US 4,636,415, US 4,668,551, EP-A2-0 355 294, EP-A1-0 106 103. All of these Inserts are either bag or cuboid in their outer design educated.

Such deposits in components now have a temperature gradient between the inside and outside, resulting in moisture contained in atmospheric air can condense. This condensation remains on the deposits, causing the a corrosion problems occur and on the other hand the effectiveness of the Interruption of the heat or Kälteleitbrücke may be affected.

It is therefore an object of the invention to provide a profile arrangement of the generic type educate so that the associated with the occurrence of condensation Problems can be overcome.

The object is solved by the features of claim 1.

The invention is further developed by the features of the dependent claims.

The invention is based on the idea that the most expedient overcoming the problem is, for example, to deduce condensed water that has formed through the invention wedge-shaped training is effected.

Fig. 1

im Schnitt eine Anwendung auf einen Fensterrahmen und einen Fensterflügel einer Isolierverglasung,

Fig. 2

im Schnitt eine Anwendung auf einen Fensterrahmen und einen Fensterflügel, bei dem das Rahmenprofil des Fensterrahmens einteilig aus Kunststoff gefertigt ist,

Fig. 3

eine Anwendung bei einer Fassadenkonstruktion mit durch Isolierverglasungungen gebildeten Paneelen,

Fig. 4

eine andere Anwendung in Anlehnung an Fig. 1 und 2,

Fig. 5

eine andere Anwendung in Anlehnung an Fig. 3,

Fig. 6

im Schnitt und in Anlehnung an Fig. 1, 2 und 4 ein Ausführungsbeispiel gemäß der Erfindung,

Fig. 7

eine andere Ausführungsform des Ausführungsbeispiels nach Fig. 6,

Fig. 8

eine andere Ausführungsform des Ausführungsbeispiels bei einer Festverglasung,

Fig. 9

eine andere Ausführungsform des Ausführungsbeispiels nach Fig. 8,

Fig. 10

eine andere Ausführungsform des Ausführungsbeispiels bei einer Stulpflügelanordnung,

Fig. 11

eine andere Ausführungsform des Ausführungsbeispiels bei einer Mehrflügelanordnung,

Fig. 12

eine andere Ausführungsform des Ausführungsbeispiels auf eine Eingangstüre,

Fig. 13

eine andere Ausführungsform des Ausführungsbeispiels nach Fig. 12,

Fig. 14

eine Anwendung auf ein Garagentor,

Fig. 15

eine Anwendung auf einen Rollladenkasten,

Fig. 16

eine Anwendung auf eine Rollladenführung,

Fig. 17

eine Anwendung auf ein Rollladenelement eines Rollladenbehanges,

Fig. 18

eine weitere Anwendung auf ein Sandwichelement für Industriebau,

Fig. 19

eine Anwendung auf einen Mauerstein,

Fig. 20

eine andere Anwendung in Anlehnung an Fig. 19,

Fig. 21

eine Anwendung auf Dachziegel,

Fig. 22

eine andere Anwendung beim Dachausbau,

Fig. 23

eine allgemeine Anwendung der Erfindung.

The invention will be explained in more detail with reference to embodiments shown in the drawings and embodiments in which the inventive training is also feasible. Applications per se do not represent embodiments according to the invention

Fig. 1

on average, an application to a window frame and a window sash of insulating glazing,

Fig. 2

on average, an application to a window frame and a window sash, in which the frame profile of the window frame is made in one piece of plastic,

Fig. 3

an application in a facade construction with panels formed by insulating glazings,

Fig. 4

another application based on FIGS. 1 and 2,

Fig. 5

another application based on FIG. 3,

Fig. 6

in the section and based on Figures 1, 2 and 4, an embodiment according to the invention,

Fig. 7

another embodiment of the embodiment of FIG. 6,

Fig. 8

another embodiment of the embodiment in a fixed glazing,

Fig. 9

another embodiment of the embodiment of FIG. 8,

Fig. 10

another embodiment of the embodiment in a gullwing arrangement,

Fig. 11

another embodiment of the embodiment in a multi-wing arrangement,

Fig. 12

another embodiment of the embodiment of an entrance door,

Fig. 13

another embodiment of the embodiment of FIG. 12,

Fig. 14

an application to a garage door,

Fig. 15

an application to a roller shutter box,

Fig. 16

an application to a roller shutter guide,

Fig. 17

an application to a roller shutter element of a roller shutter curtain,

Fig. 18

another application to a sandwich element for industrial construction,

Fig. 19

an application to a brick,

Fig. 20

another application based on FIG. 19,

Fig. 21

an application to roof tiles,

Fig. 22

another application for loft conversion,

Fig. 23

a general application of the invention.

In the figures of the drawings are in the various embodiments and applications where the same reference numerals are used, as each same Designates parts, or the same effect are achieved. These are only once explained in more detail. Embodiments of the invention are in FIGS. 6 to 13 shown. These are useful in applications according to the other figures, without this being shown in detail.

FIG. 1 shows the use of an evacuated insert in a window frame 1 and a sash 2. The frame profile of the sash 1 is in several parts trained and is provided as usual for attachment in the window reveal. The Frame profile consists of an inside metal in particular Aluminum profile 3, an outside metal, in particular aluminum profile 4, and a plastic profile connecting them and rolled into edge sections 5. The interior of the plastic profile contains an insert 6 consisting of a baggy film 7, which is vacuum-tight and a filling 8, made of non-degassing elements such as e.g. Silica parts that are together can abut and have significant gaps. The Gaps are evacuated, so that the film 7 conforms to the filling 8. The insert 6 is inserted as mentioned in the cavity of the plastic profile 5, for example, inserted from one end. This will be a significant Thermal bridge break achieved, with the adjacent elements - The filling 8 a stiffening of the quasi indirectly evacuated cavity such form that the walls of the cavity so the walls of the plastic profile 5 itself do not deform towards the evacuated interior. The sash 2 is in this respect very similar structure. Between an outside of metal, especially made of aluminum profile 9 and an inside also made of metal, preferably made of Aluminum existing profile 10, is on the one hand as insulating glazing 11 here a Three-pane double-glazing used, the edge by evacuated as above, with Silica-filled bags or foam pads 12 and 13 is supported. Further is between the two profiles 9 and 10 also a plastic profile 14 is provided in the same way as the window frame in its cavity an insert 6 ' comprising, consisting of a foil bag 7 'and a filling 8'.

The window thus formed does not have to be arranged vertically but can also be inclined or be arranged horizontally, like a skylight.

Figure 2 shows a modification of the application of Figure 1 in that the frame profile of the window frame 1 made in one piece from a plastic material is. Thus, it is clear that the invention also applies to pure plastic window frames apply ..

Figure 3 shows the basic application in a facade construction. This consists of a building side, for example, on a pillar or the like fastened inside profile 27, formed here by insulating glazing 28 Panels and an outside profile 29, the edge on the outside the insulating glazing 28 comes to rest and this against the inside profile 27th presses by means of a connecting element 30, which consists of an outside bolt 31, a columnar plastic element 32 and a screw 33, by means of the pillar element 32 is fixed on the inside profile 27. Here is the outside Bolt 31, the outer profile 29 by passing, screwed into the column 32 and thus allows the firm connection. The interruption of the thermal bridge takes place at least in addition by deposits 34 and 35, which are similar to the deposits 6 and 6 'formed are. The insert 35 may be in the plane of two or more parts be educated. The bag-like deposits can be from the top or from be aligned in a row in several parts adjacent to each other. The advantages have already been explained in detail.

FIG. 4 shows an application based on FIGS. 1 and 2, which substantially corresponds to that according to FIG. 3, wherein on the one hand evacuated deposits 23a and 23b are provided, and on the other hand evacuated sealed cavities in plastic profiles 15 and 16.

Figure 5 shows an application based on Figure 3. However, the Breaking the thermal bridge in the region of the attachment 30 'formed in another way. An outer plastic piece 36 and an inner plastic piece 37, which with the inner profile 27 connected (for example screwed into this) are about a metal compound connected, optionally also via a plastic compound 38 in the manner of a screw connection. The outer profile 29 is with the outer plastic piece 36 connected by a bolt 31 '. It should be noted that the inner plastic piece 37 may be screwed directly into the profile 27 or there by means of Compound 38 can be spread. The inside and outside inserts correspond the basic idea, but are only shaped differently and therefore with 34 'and 35', 35 "respectively.

FIG. 6 shows an exemplary embodiment according to the invention based on the applications according to FIGS. 1, 2 and / or 3 On the one hand, the plastic profile 5 is formed so that several spaces formed sinc for receiving a respective insert 43 or 44. Furthermore, the facing each other Surfaces 45 and 46 of the plastic profiles 5 and 14 formed so that even at a pivoting movement of the sash 2 relative to the window frame 1 a smaller Distance can be achieved. This is done by one over the rest Surfaces of window sash 2 and window frame 1 reaches oblique course, wherein expedient still a step 46 is provided. Moreover, the embedding of the Insulating glazing 11 in this embodiment by three also according to the invention formed deposits 48, 49 and 50 are formed, in which case the insert 50 according to the invention wedge-shaped is formed so that any resulting condensation can run off.

The development according to FIG. 7 with respect to the exemplary embodiment according to FIG. 6 shows that the plastic profile 14 may be formed so that a plurality of spaces are provided for the respective inclusion of deposits 51 and 52, respectively. Otherwise it is the same the embodiment of FIG. 7, as far as the present invention is concerned, the embodiment of FIG. 6. In addition, in this embodiment nor fitting parts 53 indicated.

Fig. 8 shows an embodiment of the invention in a fixed glazing 54, wherein the Frame of fixed glazing from an inside profile 55 made of metal in particular Aluminum and an outside profile 56 made of metal, in particular aluminum as well as an inserted insulating glazing 11 shows. The two profiles 55 and 56 are connected by a plastic profile 14 with each other wherein the plastic profile a Has cavity in which, similar to Fig. 7, a liner 51 used is. The insulating glazing 11 is similar to Fig. 6 and Fig. 7 in deposits 48, 49 and 50 embedded. Again, the insert 50 is wedge-shaped, so that at the Sloping surface may possibly run off condensation.

Based on this, FIG. 9 shows a corresponding multi-leaf arrangement 57 of a Fixed glazing with a so-called T-rung 58, a generally vertical, if necessary also horizontally or obliquely extending rung, consisting of an internal Profile 59 made of metal, in particular aluminum, an external profile 60 Metal, in particular aluminum and a plastic profile 14 connecting these with an insert 51. Again, insulating glass 11 and 11 'embedded in corresponding inserts 48 to 50 and 48' to 50 '.

Fig. 10 shows the application of the embodiment of FIG. 9 in a so-called Gimbal arrangement with a first sash 2 and a second sash 2 'as well as a rung or web element 61, on one of the casements, here the window sash 2 ', namely its profile 10', by means of connecting elements 68, such as a set of screws, is firmly attached. As soon as the one window wing 2 opposite the other window sash 2 'is swung open with the web element 61 can the latter can also be opened. The web element 61 consists of an inner Profile 62 made of metal, in particular aluminum, an external profile 63 made of metal, in particular aluminum, and connecting these profiles 62 and 63 Plastic profile 64 with spaces for holding Inserts 65, 66 and 67 based on the embodiment of FIG. 7.

Fig. 11 shows, based on the embodiments of FIGS. 7 and 10 a mehrflügelige Arrangement in which a rung or web element 69 fixed vertically, possibly also horizontally, in a window frame (not shown) is arranged. The web element 69 consists of an inner profile 70 made of metal, in particular aluminum, an outer profile 71 made of metal, in particular aluminum and a this Profiles 70 and 71 connecting plastic profile 72, the cavities for receiving Inserts 73, 74, 75 has. One of the casements, here the Window sash 2 is pivotable via a hinge 76 relative to the web element 69 while the other wing 2 'with respect to another, not shown web element or the window frame, also not shown is pivotable.

The embodiments illustrated in FIGS. 10 and 11 can be suitable for passive houses be called because namely a. k-value. from below 0.8, reachable is what converted equivalent to a fuel oil consumption value of less than 1.5 l / m. This means, that such a house can be built without radiators.

Fig. 12 shows the application of the invention in an entrance door consisting of a Door leaf 77, a door frame 78 and these hinges connecting 79th The entrance door 12 is based on the window arrangement of FIG. 7 and Fig. 1 is formed so that as far as possible repeats the reference numerals used there are, at least as far as the same effect is achieved. Deviating is in the deposits 48 to 50 not the insulating glazing 11 embedded, but a frame-like Filling 18, as a panel, consisting of two plates 81 and 82 and in between Insert 83 is formed. The plates 81, 82 can made of metal, such as aluminum, or made of plastic or wood. In the Opening of the frame-like filling 80 is the insulating glazing in a conventional manner 11 used. For example, and as shown on both sides in each case one circumferential cover 84 and 85 provided, which is attached to the filling 80, For example, and as shown are clipped, wherein the cover frame 84, 85 the Insulating glazing 11 surrounded and hold over sealant 86, as known per se is. As shown, the covers 84 and 85 also with inserts 87 and 88 filled.

Fig. 13 shows a comparison with FIG. 12 modified embodiment in which the filling 80 is not embedded in deposits but abuts the plastic profile 14. This is sufficient if the thermal insulation due to the filling 80 sufficient is. Furthermore, the insulating glazing 11 is not surrounded on both sides by covers but only on one side by a cover 84 with insert 88 and seal 86. On the other hand, the plate 82 is the filling 80 with a projection 87 formed such that this supernatant covers the insulating glazing 11. Here, another sealing means 88 is also provided, the insulating glazing 11 can also be adhered to the supernatant 87. Although not shown, so can thus formed entrance doors according to FIG. 12 and FIG. 13 all the usual measures, be provided in particular security measures. Here is the education such that it is suitable for a passive house.

The invention is applicable to numerous other applications of which in the following some more, but only schematically explained.

Fig. 14 shows the application to a garage door 89. Its door leaf 90 is as a panel formed with two plates 91 and 92, between which deposits 93 are provided. On the edge side, a reinforcing profile 94 is provided. The Plates 91, 92 and the profile 94 are preferably made of metal, such as aluminum, however, they can be made of other materials. A door frame 95, made of a Profile 96 with insert 97 is anchored in masonry 98. The profile 96 can carry fitting elements 99. On the door panel 90 is a Fixed frame member 100 which is formed as a profile and an insert 101st may include, which surrounds the door frame 95 and the also fitting elements 102 carries. The fitting elements 99 and 102 are prior art and For example, conventional garage door operators, garage door fittings and the like. be grown.

The profile 103 of the frame member 100 and the profile 96 of the door frame 95 can as shown schematically have thermal separations 104 to thermal bridges between inside and outside to avoid.

Fig. 15 shows the application to a shutter box 105. During conventional roller shutter boxes to avoid thermal bridges foamed or be covered with plastic foam, thereby manufacturing and Disposal problems arise, the shutter box 105 at least on the masonry facing pages covered with panels 106, the a profile 107 with an insert 108 respectively and consist differ only by their dimensions. This can be the extreme Heat loss in the region of the roller shutter boxes 105 are largely avoided without the dimensions of the occupied with the panels 106 shutter box 105 essential to increase. Window frame 1 and sash 2 are indicated only schematically and expediently also according to the invention, formed approximately in accordance with FIG. 7.

Fig. 16 shows the application to a shutter guide 109. This consists of a Plastic profile 110 with inserts 111 and 112. The profile 110 also has a guide 113 for the shutter or its elements and a Arrangement 114, by means of the profile 110 and thus the shutter guide 109 on Window frame 1 can be attached. The window frame 1 and the window sash 2 are also shown only schematically. Of course, such is one Roller shutter guidance also possible with doors and gates:

17 shows the application with roller shutter elements 115 of a roller shutter curtain. Each. Although roller shutter element 115 has essentially the external appearance a conventional roller shutter element, namely it consists of a profile 116. However, this is filled with deposits 117. The profile 116 has hook elements 118 and receptacles 119, in the hook elements 118 of a adjacent profile 115 can intervene. The profile 116 can inside a web 120 or the like. Have connecting posts. With lowered shutter hanging an additional heat insulation of the window or the door is achieved. This is especially for passive houses an advantage.

Roller shutter elements 115 designed according to the invention can also be used in so-called roll-up doors, which are constructed of such elements, and the like can be used.

Fig. 18 shows the application to a sandwich element 121 as it is in particular used in industrial construction. The sandwich element 121 consists of a lower substantially flat shell 122 made of aluminum or steel sheet and a profiled upper shell 123, also made of aluminum or steel sheet. Between a foaming 124 of polyurethane or the like. Provided. In the foaming 124 panels 125 are embedded, which consist of a profile 126 with insert 127 is. For this purpose, the foaming 124 are already provided with cavities in the production, in these then the panels 125 are used. On the other hand, an arrangement may consist of the shells 122, 123 and the panels 125 to form the foaming 124 in one Foamed tool. As a result, the thermal conductivity is greatly reduced. Moreover, the amount of polluting polyurethane foam can be substantial be reduced.

Figs. 19 and 20 show the application to bricks and out Masons made masonry.

The brick 128 of FIG. 19 is formed in a conventional manner with longitudinal webs 129, 130 crossbars and perforations 131. This brick 128 can be out of all conventional materials such as clay, foam concrete, aerated concrete or the like. Made be. At least certain holes are with Panels 132 provided from a profile 133 with an insert 134th consist.

The brick 135 of FIG. 20 differs from the brick 128 according to 19 essentially only by the position and design of the cavity or the perforation in which the panel 132 is received.

The one or more panels 132 can in the corresponding holes 131 already in the. Manufacture of the brick 128 and 129 are used, they can also on site be used in the manufacture of masonry. Since the panels 132 the Effectively affect heat insulation, the webs 129, 130 and the perforations 131 are determined essentially on the basis of statistical considerations. It can also be used in addition metal or Kunststoffarmierungen to the Reinforcing brick in the thinnest area (not shown). This will be the subsequent application of Styrofoam, especially in cellar areas, superfluous or at least. greatly reduced.

Fig. 21 shows the application to roof tiles 136. While conventional Roof tiles made of solid material is the roof tile 136 bivalves shaped like a profile and contains in its interior Panel 137 with an insert 138. As with the bricks can be used during the production of the panel 137, but also only be introduced on-site.

Fis. Fig. 22 shows the application in a loft conversion in which a drying plate 139 like a plasterboard, a wood or a spahnplatte on rafters 140 is fixed and the area between the dry plate 139, the rafters 140 and the outer roof, not shown here, provided with a thermal insulation becomes. The thermal insulation consists of a panel 141 consisting of a profile 142 and an insert 143. The roof skin side is a trough-shaped trained cover 144 is provided, which consists for example of Styrofoam and essentially serves to unintentional damage of the panel 141 starting to avoid openings in the roof skin. Appropriately, the trough 144 is at the Drying plate 139 is attached and the panel 141 in the between trough 144 and Drying plate 139 formed cavity inserted. This will be a very high Thermal insulation of the roof truss area achieved without an elaborate thickness Isolation is required. This is particularly advantageous for passive houses.

Fig. 23 shows the general applicability wherever between two flat, in particular plate or shell-shaped construction elements 142nd and 143 of metal or other material good thermal insulation can be achieved should. Between these two construction elements 142, 143 At least one panel 144 is inserted, which consists of a profile 145 with an insert 146 consists.

If the profile 145 has sufficient inherent rigidity, then it can also be used as a covering of a structural element 142 or 143, it is then attach only to this construction element 142 or 143 as stick.

Typical application examples for this are hot water tanks for passive or zero energy houses, where the previously usual up to 1 to 2m thick Styrofoam coating can be avoided. Other applications include earth and aircraft. Especially in the latter case, the weight between the outer skin and inner skin of essential importance. For motor vehicles, the entire passenger compartment is particular in the roof area, in the floor area, in the door area and in the rear area but also at the partition to the engine by means of panels according to the invention can be isolated. Again, the low weight of importance. The relative high temperatures in the Engine room and also by solar radiation can inside the passenger compartment be greatly reduced. The general application is also in everyday things Use possible, for example, in cooking pot side walls and pot lids. On the other hand is of course, the heating plate (bottom plate) of the pot not according to this Approach trained. The heat is therefore very strong inside the pot retained, which reduces the cooking time while touching the pot and the lid without problems is possible. Also, coolers and coolers can be formed in this way. While traditional styrofoam insulated coolers and cool boxes but relatively quickly to a temperature balance between the interior and surroundings come, the heat transfer when using greatly reduced in accordance with the invention equipped panels. In addition, the advantage is the low Height.

Due to the low height are also other applications conceivable about on the water surface floating covers of Swimming pool or the like. In rest periods. Here in particular the self-floating Property of the panels are exploited and their low height. It could offer an embodiment, as in shutter blinds with reference to FIG. 17 has been explained: is. In such an application, the side walls be occupied by planks of panels. In training this idea can be the. Trunks of waterbeds, which also lately are formed heated, be lined with panels. Also Rescue blankets can be formed using the idea underlying the invention be. To allow foldability, the then elastic foil-like Construction elements with the bag-like deposits in between so with. Notches provided, so profiled that a folding can be done. Also a rolling up is possible.

Another application is given for media-carrying pipelines.

It turns out that the application to pipelines easily results in that on the pipeline itself an evacuated deposits having arrangement filed and fixed, which in turn by an outside only a protective function-performing enclosure is surrounded or can be surrounded. Basically, the invention is also applicable to complete rooms - such as vehicle superstructures - applicable, which have inside and outside metal structures. Instead of the hitherto usual foaming or inserting insulating glass wool, it is expedient equip this space with evacuated deposits, providing profile-like supports are.

It is further shown that in particular in the embodiments illustrated in the figures the evacuation of the individual profiles both in sections as well can only be done in the fully assembled state.

In the mentioned application to piping is to mention that the pipeline based on Fig. 23 may be formed as a double-walled line, wherein between the inner wall and the outer wall evacuated deposits are arranged to the To effect thermal insulation in the sense of interrupting the heat conduction.

It turns out that the invention basically in the illustrated but also similar Use cases is usable.

Claims (13)

1. Profile arrangement for blocking a thermal conduction bridge between an exterior and an interior, comprising a component containing an evacuated insert and providing said blocking, said insert being an evacuated insert (50, 50') and being formed of pre-shaped or shapeable foil bags (7, 7') evacuated and closed in a vacuum tight manner, having a filling (8, 8') which does not outgas and comprises parts which bear upon one another and have significant intermediate spaces,
   characterised in that,
   said evacuated insert (50, 50') is formed in the manner of a wedge so that any condensation water arising can run off.
2. Profile arrangement according to claim 1,
   characterised in that,
   said component is a plastics profile part having an interior hollow chamber, which plastics profile part is placed between metal profile parts (3, 4, 9, 10, 27, 29) of said profile arrangement, in particular aluminium profile parts.
3. Profile arrangement according to claim 1,
   characterised in that,
   the component is formed by means of plastics profile parts (39, 40) which are put in place between metal profile parts (3, 4, 9, 10) of said profile arrangement, in particular aluminium profile parts and together therewith bound an inner hollow chamber (41, 42) .
4. Profile arrangement according to claim 3,
   characterised in that,
   the plastic profile parts (41, 42) are put in place in the metal profile parts (3, 4, 9, 10) in a vacuum tight manner.
5. Profile arrangement according to claim 1,
   characterised in that,
   the blocking is provided in a connection section of a plastics profile part.
6. Profile arrangement according to claim 1,
   characterised in that,
   that a blocking has a first outer section (34, 34') and a second inner or building-near section (35, 35', 35, 2') which together with corresponding profile parts (29, 27) of said profile arrangement may receive therebetween panels, plate arrangements (28) are fillings (80), the profile parts (27, 29) and connection elements (30, 31) penetrating the sections (34, 35, 34', 35', 35, 2') having thermal conduction blocking sections.
7. Profile arrangement according to anyone of claims 1 to 6,
   characterised in that,
   the insert (6, 6', 35, 35, 34', 35', 35, 2') is formed in a plurality of parts.
8. Profile arrangement according to anyone of claims 1 to 7,
   characterised in that,
   the walls of the profiles of the profile arrangement are so dimensioned or so dimensioned and so supported on one another that they do not deform upon evacuation.
9. Profile arrangement according to anyone of claims 1 to 8,
   characterised in that,
   the interior is associatable with a transport line and in associated position said blocking interrupts the thermal conduction between the transported good and the outside surroundings or vice versa.
10. Profile arrangement of anyone of claims 1 to 8,
    characterised in that,
    the interior is associatable with a space or container and in associated position said blocking interrupts the thermal conduction between the interior of the space or container and the outside surroundings or vice versa.
11. Profile arrangement according to claim 10,
    characterised in that,
    the space is provided in, at or on a vehicle, in particular an aircraft.
12. Profile arrangement according to any preceding claim,
    characterised in that,
    it is manufactured completely of a plastics material.
13. Application of a profile arrangement in accordance with any preceding claim to the connection between interior and exterior profiles of windows or door frames, of windows or door casements, of window spars, between interior and exterior sides of gates, roller shutter boxes, roller shutter guides, roller shutter elements, sandwich elements in industrial construction, walling bricks, roofing tiles, covers, rescue covers and the like.

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