DE4325972C2 - Insulated composite profile - Google Patents

Description

The invention relates to a thermally insulated Composite profile for windows, doors, facades and. the like the preamble of claim 1.

Insulated composite profile bars of the pre named type have long been known and form between and the metallic profile parts insulating webs connecting one another a cavity, in which it is due to different tempe fittings, in particular of the metallic inner profile part compared to the metallic outer profile part meconvection currents can come, so that also the lower temperature, metallic profile part of the Temperature of the warmer profile part at least in part can adjust wisely. This effect is also due to the heat radiation from the warmer metallic Profile part to the colder metallic profile part still ver strengthens. This leads to heat loss and possible as undesirable condensation in the form of Condensation.

From DE 32 49 424 A1 is a thermally insulated Known composite profile, in order to avoid the aforementioned disadvantages in the cavity between the metallic profile parts and the insulating bars a Zwi is introduced in the longitudinal direction of the profile extends across the insulating bars and the hollow space between the metallic profile parts and the Isolating webs divided into at least two chambers. In addition, this previously known network profile in the immediate vicinity of the metallic profile parts further partitions can be arranged as well inserted in channels like the middle partition become. Apart from the fact that such intermediate walls de for insertion into the channels of a profile end must be thick-walled to prevent kinks to avoid bulges in the partition walls, is the introduction of the partition walls into the cavity the composite profile because of the length of the ver increasing frictional resistance difficult and time consuming.

EP 0 043 979 A1 discloses a composite profile rod, in the cavity between the light metal Profile parts and the connecting them Plastic strips a thin-walled, approximately H-shaped Plastic profile is inserted into the inner walls the one of the cavity, albeit a small one must have stood around this thin-walled art fabric profile at all in the cavity from the forehead to be able to push in the composite profile. In in this case, however, the individual chambers are all connected via air bridges so that the Effect of heat convection from one to the other ren metallic profile part not completely excluded can be. In a further embodiment ge According to this publication, the metallic profile parts by spaced in the middle area Spacer blocks connected together, the outside of cover strips between the metallic profiles len are covered. Between these distance blocks are then thin-walled plastic profile parts in ver various cross-sectional shape arranged. This Plastic profile parts are then between the distances arrange blocks before attaching the cover strips, because the thin-walled plastic profiles between the Distance blocks are not from the face of the composite profiles can be inserted here. In the over corridor between the distance blocks and the Plastic profiles can then be very warm convection between the chambers take place so that even with this known solution despite reflecting the coating of the plastic profiles to the lower bin heat radiation is not optimal thermal insulation between the metallic outer profile and the metallic inner profile can be achieved.

DE-GM 91 04 058 is a generic one Composite profile became known in which in the cavity between the metallic profile parts and these insulating sleeves connecting a sleeve only the small contact areas are used to the metallic profile parts, but the Cavity between the metallic profile parts in three Chambers divided. An airlift connection between These three chambers do not exist, so that the Thermal insulation compared to the aforementioned Ver bundle profiles could be significantly improved. Al lerdings with this known solution, the heat Measurement radiation is only delayed because it is in the cavity sleeve located in the space of the composite profile heated by heat radiation from one profile part, and this heat then by convection or heat radiation on the other part of the profile - albeit time Lich delayed - can transmit.

DE-GM 78 11 207 is a composite profile become known, in which in the cavity between the metallic Inner profile part and the metallic outer profile part from an intermediate wall is a tubular hollow profile that divides the cavity into several Chambers divided, and which may have an oval shape. However, it will be difficult to find such a hollow profile in the longitudinal direction to extend the cavity of the composite profile, since the hollow profile has a preformed cross-section that closes between insulating webs must fit to effect insulation function. Tolerances of the distance dimension between the insulating webs connecting the metallic profile parts with the hollow profile having a predetermined shape, except if this hollow profile would have an oversize, but what to Consequence would be that this hollow profile over a longer length not in the Hollow chamber of a composite profile because of the constantly growing Friction resistance could be inserted.

DE 30 01 949 C2 describes a frame profile for receiving panes known, which are held by glass terminal strips on the frame. In connection to the edge of the pane is the circumferential cavity through one on the pane on the one hand adjacent shielding part in the form of a sealing lip or Profile strip divided into chambers, the shielding part on the other hand metallic profile part. This shielding part is either one-sided or provided on both sides with a radiation-reflecting coating. This However, the layer is usually not itself insulating and is due to that of the Indoor air heated profile and pane parts, so that the part of the coating facing the colder chamber can deposit condensate, which leads to unwanted condensation.

The object of the invention is to provide a thermally insulated To create composite profile, in addition to the heat convection also heat transfer due to radiation can be prevented in an optimal way, oh ne on the advantages of light and possibly subsequent Collectibility of the cavity on its entire Length dividing component and its stability dispense.

This object is according to the invention in the claim 1 resolved characteristics. It can be the thin-walled, a reflective surface having insulating material formed tube-like intermediate reel wall into a roll from which the be agreed length of use unwound and separated can be around this partition under elastic Deformation in the cavity of the composite profile to be able to push. In doing so, this lays down contact wall after insertion close to the inner walls of the cavity, so that an effective division of the cavity into multiple chambers is achieved. This is for one thing effectively prevents heat convection, and to which is due to the reflective surface of the tubular partition the heat radiation optimally prevented, so that the heating up without out of a material with low thermal conductivity existing tubular partition wall closed is. The insulating effect of the air in the individual hollow chambers of the composite profile is thus op timed.

Good insulation of the partition and their unproblematic production and processing is advantageously achieved in that the hose formed partition made of paper or paper-like Material is folded and on the outside with a reflective coating is coated. Thereby may Stabilize such a partition of this Intermediate wall forming hose advantageous on two diametrically opposed steepness stuck to serve as support on the insulating bars Have marginal areas. Furthermore, a safe one Determination of the intermediate formed as a hose achieve wall on the insulating webs in that the  Insulating webs spaced support beads for Holding the intermediate formed as a hose exhibit wall.

An embodiment of the invention is in the Drawing is shown and will be described in more detail below purifies.

First of all, it should be noted that only that area of the composite profile is shown in the drawing that is necessary for the understanding of the invention, since adjacent cross-sectional shapes of the metallic part profiles can be designed arbitrarily and in principle without importance for the heat-insulating connection cross-section between the part profiles is. The inner profile part 10 shown only in its edge region is connected to the outer profile part 11, also shown only in the edge region, via two spaced-apart mutually spaced-apart insulating webs 12 to form a hollow space 13 . For this purpose, the longitudinal sides of the insulating webs 12 trapezoidal, extending over the length of the composite profile bar edge strips 14 which engage in dovetail grooves 15 from the inner profile part 10 and outer profile part 11 . These grooves 15 can be formed, for example, by bending or rolling in outer wall approaches on the inner profile part 10 and the outer profile part 11 , including the insulating webs 12 . While the inner profile part 10 and the outer profile part 11 are preferably made of aluminum or aluminum alloys, glass fiber reinforced plastic is preferably provided as the material for the insulating webs 12 . The bridging the cavity 13 on two opposite sides of the insulating webs 12 together with the cavity prevent heat transfer by heat conduction from one profile part to the other. An intermediate wall 16 designed as a tube 17 is introduced into this cavity and extends from the insulating web 12 to the insulating web 12 and extends approximately parallel to the walls of the inner profile part 10 and the outer profile part 11 delimiting the cavity 13 . The designed as a hose 17 te partition 16 divides the cavity 13 into two chambers 18 a and 18 b, while by the design device of the partition 16 as a hose 17, a third chamber 18 c inside the hose 17 as a result of this expansion to an oval Cross section is formed. The outside surfaces of the hose 17 are coated with a reflective coating 19 through which the heat emanating from a profile part is reflected back onto this profile part. During the colder season, the heat radiation emitting profile part of the inner profile part 10 will be, while in the warmer season, the outer profile part 11 naturally emits heat radiation.

To increase the stability of the thin-walled, tubular partition 16 , the hose 17 can be glued together at its diametrically opposite edge regions 20 . To fix the partition 16 in the illustrated embodiment, the inside of the insulating webs 12 see ver with spaced support beads 21 , which protrude into the cavity 13 and have a sol chen distance from each other, that the Randbe rich 20 of the tubular partition 16 between rule the support beads 21 can be arranged. If necessary, however, the support beads 21 can also be arranged at a greater distance from one another for easier insertion of the intermediate wall 16 bil denden hose 17 , so that possibly between the support beads 21 intermediate wall 16 against the position shown in the drawing is a slight Can assume an inclined position where, due to the flexibility of the intermediate wall 16, it can be twisted over the longitudinal direction of the profile. However, this does not matter with regard to the effectiveness of the composite profile in terms of its thermal insulation.

Claims (4)

1. Insulated composite profile for windows, doors, facades and. Like. With a metallic inner profile and a metallic outer profile part, which are connected to each other via at least two insulating webs enclosing a cavity and causing an interruption of the thermal bridge, wherein in the cavity between the inner profile part and the outer profile part one the cavity in at least two in the longitudinal direction of the profile extending partition dividing partition is arranged with low thermal conductivity, and the partition consists of a supported on the insulating webs, spread in use in an oval cross-section formed from thin-walled insulating material, characterized in that the intermediate wall ( 16 ) of the insulating web ( 12 ) extends to the insulating web ( 12 ) and runs approximately parallel to the walls of the inner profile part ( 10 ) and outer profile part ( 11 ) delimiting the cavity ( 13 ) and the intermediate wall ( 16 ) designed as a tube ( 71 ) on the outside is coated with a heat-reflecting coating ( 19 ) and the insulating webs ( 12 ) have spaced support beads ( 21 ) for holding the intermediate wall ( 16 ) designed as a tube ( 17 ). 2. Thermally insulated composite profile according to claim 1, characterized in that the inter mediate wall ( 16 ) is folded from paper or paper-like material. 3. Heat-insulated composite profile according to claim 1 or 2, characterized in that the intermediate wall ( 16 ) forming the tube ( 17 ) together at two diametrically opposite locations glued together, the support on the insulating webs ( 12 ) serving edge areas ( 20 ). 4. Heat-insulated composite profile according to one of claims 1 to 3, characterized in that the insulating webs ( 12 ) spaced te support beads ( 21 ) for holding the tube ( 17 ) formed intermediate wall ( 16 ).