DE102015007611A1 - insulating - Google Patents

Abstract

An insulating element for a thermally insulated composite profile, wherein at least one profile part (8) with the insulating element (2) is connected by rolling, door, window, facade elements and the like has an insulating body (3) made of plastic and at least one curl head (5 ) made of metal, which is adapted for rolling in the one profile part (8) on. The at least one curl head (5) and the insulating body (3) are connected by adhesive.

Description

The present invention relates to an insulating element for a thermally insulated composite profile for door, window or facade elements and the like, and a thermally insulated composite profile with such an insulating element.

Typical thermally insulated composite profiles for door, window or facade elements from the prior art have two profile parts made of aluminum. The profile parts are mechanically connected by one or more insulating elements and thermally separated to limit heat loss by transferring heat from a warm profile part to a cold profile part. The insulating elements are usually made of plastic with low thermal conductivity.

The EP 2 666 949 A1 discloses a window sash with an inner profile part and an outer profile part, which are mechanically connected by a foamed, fine-pored plastic body. As a connection type rolling and gluing are disclosed. To roll in curling heads made of plastic are glued to the plastic body, which are then rolled up.

This type of connection is difficult to bond due to the combination of materials and offers optimization potential with regard to the thermal properties and costs of the composite profile.

It is an object of the present invention to provide good mechanical and thermal insulation properties of thermally insulated composite profiles with simple assembly of the insulating elements with the profile parts by means of known rolling-in.

This object is achieved by an insulating element according to claim 1 and a thermally insulated composite profile according to claim 9.

Further developments of the invention are specified in the dependent claims.

In an insulating member according to claim 1, a rolling head is formed of metal. The rolling head made of metal is subject to much smaller deformations due to shrinkage or creep than a plastic rolling-in head. It is therefore possible, without sacrificing shear strength, to form roll-up heads of metal whose dimensions in a height direction perpendicular to a longitudinal direction of the composite profile and perpendicular to a transverse direction in which the insulating member extends away from a profile member are greater than the dimensions of plastic roll-in heads are.

Thus, instead of using a plurality of insulating bars, each with a rolling head made of plastic on one side in a composite profile, a single insulating element can be used with a rolling head of metal on one side. Individual insulating elements, each with two curling heads on one side, have the disadvantage that a certain flexibility of the curling heads is necessary for inserting the curling heads into grooves of the profile parts and thus the space available for a foam body is limited. Solutions with two insulating webs using foam bodies have significantly higher manufacturing costs due to the number of bonding processes. In addition, a certain minimum distance is required between two adjacent insulating bars, which increases the overall extent of the two insulating bars with the minimum distance in the vertical direction between them. The expansion of the insulating member with the rolling head of metal in the height direction may be smaller in comparison. The extent of the insulating element in the height direction can be in the range of 10 mm to 100 mm, in particular in the range of 10 mm to 30 mm.

By using the rolling head made of metal, the mechanical strength of the composite profile can be maintained or increased compared to composite profiles with plastic curl heads while maintaining excellent thermal properties. In particular, the dimension of the rolling head of metal in the transverse direction may be smaller than the dimension of a rolling head made of plastic. Thus, the heat conduction of the composite profile can be reduced and the heat transfer coefficient (U value) can be reduced. Furthermore, by using the roll-in head of metal, the shear strength of the roll-in connection can be increased. The rolling head made of metal is connected by suitable adhesive with an insulating body. The adhesive connection can be made easily and the manufacturer of the insulating under defined conditions. By rolling the trained insulating element in a profile part, a composite profile can be formed with proven manufacturing methods and installed capacities. Solutions with comparable thermal properties, where the insulator is bonded directly to profile parts, require a redesign of existing manufacturing chains. The curling head may have on the side facing the insulating body a structured surface and / or in the direction of the insulating protruding projections or holders, through which the contact surface between the rolling head and the insulating body is increased. The projections or holders projecting in the direction of the insulating body may be designed to clamp the insulating body between them and / or to be inserted in recesses of the insulating body. The rolling head can do this be trained to compensate for tolerances in the formation of the insulator. In particular, the curl head can be designed to be centered on the insulating body in the height direction.

The surface of the curl head can be roughened by knurling, stamping, milling or the like in areas which are in contact with a surface of the profile part after rolling, so that friction between the curl head and a groove of the profile part, in which the curl head is rolled, is increased. Thus, the shear strength of the composite profile can be increased. The formation of a surface structure, in particular the roughening of the surface can already take place during the formation of the insulating element, so that, for example, knurling is avoided when connecting the insulating element to the profile part.

In order to increase the shear strength of the composite profile, a wire or a glue cord may be provided between the curling head and a groove of the tread part which is formed for curling.

The surface of the curl head can be coated with plastic in areas which are provided for rolling into the groove of the profile part. The part of the surface of the curler, which is connected by adhesive to the insulator, is excluded from the coating.

Due to the plastic coating, the rolling head can be guided in the groove. For example, the plastic coating can facilitate insertion of the curl head into the groove and increase the stability of the connection between the curl head and the groove.

The coating can provide similar processing properties as plastic roll-over heads.

The plastic coating may have adhesive properties and / or adhesive material, so that the adhesion of the curl head in the groove of the profile part or the friction between the curl head and the groove of the profile part and thus the shear strength of the composite profile can be increased.

In or on the plastic coating may be provided a wire with a rough surface, which is after rolling in contact with a surface of the profile part. The wire improves the adhesion of the curl head in the groove of the profile part by increasing the friction between the curl head and the groove of the profile part and thus the shear strength of the composite profile. An additional profile, for example made of plastic, can be provided on a surface of the curling head facing the profile part, which is inserted between the curling head and the profile part and represents an alternative to the coating.

The insulating body may be formed of plastic. For example, the insulator of foamed plastic, such. As foamed polyethylene terephthalate (PET), polymethacrylimide (PMI), polyurethane (PUR) may be formed. The insulating body can be made of closed-cell, fine-pored, foamed plastic, for example with a compressive strength of between 0.5 and 5 N / mm ² and preferably between 1 and 3 N / mm ² and particularly preferably between 1.4 and 2.3 N / mm ² be. The insulating body may comprise fiber-reinforced plastic and / or bio-based plastic. The insulating body may be formed in one piece or from several profiles or individual parts. The insulating body may have one or more cavities.

The insulating body can be cut, for example, from a foam block. The surface of the foam can be sealed during or after cutting. Alternatively, the insulating body may be foamed or extruded in a suitable form. The insulating body may for example comprise a core of foamed plastic of low density and a shell of higher density, which is formed of foamed or unfoamed plastic. The surface of the insulating body can be prepared, for example, by milling and sealed or sealed by thermoforming or coating. The shape of the insulating body can be milled and / or formed by joining individual profiles, in particular by means of gluing or welding, and then its surface can be formed by thermoforming according to the near net shape method. The surface of the insulating body can be laminated or glued with foil and / or can be filled or filled.

Due to the adhesive bond between the curling head and the insulating body of the rolling head can be easily connected to a prefabricated insulating body and a secure connection between the curl head and the insulating body can be ensured. The insulating body is not foamed on the rolling head or connected by another complex process with the curling head.

The curl head can serve as edge protection for the insulator. Furthermore, on the insulating element, in particular on or in the insulating body, functional elements such as a screw channel in the longitudinal direction or transversely to the longitudinal direction, a sealing stop, a sealing groove for central or Glasfalzdichtung, a hardware goods / Bar rod groove or a hollow chamber insulation may be formed by transverse lugs or foam blocks. The curl head may have one or more grooves for attachment of functional elements.

Functional elements can be made of plastic, such as PET, PMI, PUR or PA66GF25. Alternatively, functional elements of metal or plastic may be formed with metal reinforcement and / or fiber reinforcement. Functional elements may be formed in one piece or from several individual parts. Also, functional elements of foam may be formed with the same or different properties as the insulating body, for example, with better thermal insulation.

Functional elements may be glued or welded to the insulator or may be hooked or clipped to the curler. In particular, a groove for attaching functional elements may be provided on the curl head.

Further features and advantages of the invention will become apparent from the following description of an embodiment with reference to FIGS.

From the figures show:

1 a cross section of a composite profile with an insulating element according to an embodiment,

2 an enlarged section of the composite profile of 1 .

3A to 3F Cross-sections of alternative embodiments of the insulating, and

4A to 4C Cross sections of alternative embodiments of a rolling head.

1 shows a composite profile 1 with a profile part 8th and an insulating element 2 according to one embodiment in cross-section in a plane perpendicular to a longitudinal direction z, in which the composite profile 1 extends. The direction of the thickness / height of the insulating element 2 perpendicular to the longitudinal direction z in 1 is hereinafter referred to as height direction y, while a direction perpendicular to the longitudinal direction z and the height direction y direction in which the insulating 2 from the profile part 8th extends away, is referred to as the transverse direction x.

The insulating element 2 has an insulating body 3 on, which is formed of foamed plastic. In particular, the insulating body 3 cut out of a foam block. The cross section xy of the insulator 3 is substantially rectangular and formed uniformly along the longitudinal direction z. The expansion of the insulating body 3 in the transverse direction x is in the range of 30 mm to 100 mm. The extension h of the insulator 3 in the height direction y is in the range of 10 mm to 100 mm. The insulator 3 has a lead 4 on one side in the transverse direction x.

At the projection 4 of the insulating body 3 is a curling head 5 made of aluminum. The extent of the rolling head 5 in the height direction y is greater than the extension of the curl head 5 in the transverse direction x. The extent of the rolling head 5 in the height direction y is smaller by 5% to 50% than the expansion h of the insulator 3 in the height direction y. The extent of the rolling head 5 in the transverse direction x is in the range of 2 mm to 10 mm.

The rolling head 5 has on one side in the transverse direction x, which is the insulating body 3 facing, a recess 6 on. The recess 6 is up and down in the height direction y each by a projection 13 limited, which projects in the transverse direction x in the direction of the insulating body. The extent of the recess 6 in the height direction y is according to the extension of the projection 4 of the insulating body 3 formed in the height direction, so that the projection 4 of the insulating body 3 into the recess 6 can be used and in the height direction y at the projections 13 is applied.

The rolling head 5 has on one side in the transverse direction x, which is the insulating body 3 facing away, in an upper area and a lower area in the height direction y surveys 7 in the transverse direction x and in the height direction y of the rolling head 5 protrude.

In 2 is an enlarged view of the lower elevation 7 at a lower end of the curl head 5 shown. The lower elevation 7 has a contact surface 7a and a side surface 7b on. The contact surface 7a runs along the height direction y and is adapted to the profile part 8th to rest. The side surface 7b forms the lower side of the curling head 5 and connects a lower end of the contact surface 7a with the lower projection 13 on the lower side of the curler 5 is trained. The side surface 7b runs obliquely to the transverse direction x and the height direction y. In particular, the side surface runs 7b in the direction from the side of the curl head 5 that the insulating body 3 is facing, on the side, the profile part 8th facing, sloping down, leaving the side surface 7b and the contact surface 7a form an acute angle. In the in 2 shown cross-section form the lower projection 13 and the lower elevation 7 a substantially trapezoidal shape with the contact surface 7a and one of the insulator 3 in the transverse direction x facing side of the projection 13 as basic pages.

The upper elevation 7 at the top of the curl head 5 is essentially mirror-symmetrical to the lower elevation 7 educated. The surveys 7 are designed to be in a groove 11 of the profile part 8th to be introduced.

Between the surveys 7 is along the height direction y on the insulator 3 facing away from the rolling head 5 a recess fourteen educated. The recess fourteen is designed after rolling the rolling head 5 in the profile part 8th from the surface of the groove 11 of the profile part 8th to be spaced so that between the recess fourteen and the groove 11 a gap is formed.

As in 2 is shown on the surface of the curl head 5 partially a coating 12 educated. In particular, the coating 12 at the contact surface 7a , on the side surface 7b and in the recess fourteen educated. A contact surface in the recess 6 , which is adapted to, with the insulating body 3 to come into contact, and the insulating body 3 facing sides of the projection 13 are from the coating 12 except. The coating 12 is made of plastic with a thickness of 0.05 mm.

The rolling head 5 is with the lead 4 of the insulating body 3 cohesively by adhesive at the contact surface between the projection 4 of the insulating body 3 and the recess 6 of the rolling head 5 connected. In the bonded state is the projection 4 of the insulating body 3 into the recess 6 of the rolling head 5 used and the adhesive is between a surface of the projection 4 and a surface of the recess 6 inserted.

A second curling head (not shown) is identical or similar to the curling head 5 formed, and the shape of the insulating body 3 on the side facing the second curl head is identical, in particular mirror-symmetrical, or similar to the shape on the rolling head 5 facing side. The second curl head is adapted to be connected to a second profile part (not shown) by rolling. By gluing the second curling head on the rolling head 5 in the transverse direction x opposite side of the insulator 3 becomes an insulating element 2 formed with an insulating body and two curling heads.

The profile part 8th For example, is an outer profile part or an inner profile part of a window frame and is formed as a hollow profile, ie with a closed cross-section xy cavity, made of aluminum. The profile part 8th points to a the insulating 2 facing side in the transverse direction x two projections, which in the direction of the insulating 2 protrude and a roll-in hammer 9 and an abutment 10 represent. Between the rolling hammer 9 and the abutment 10 is a groove 11 educated. The groove 11 is designed to roll head 5 , in particular the surveys 7 of the rolling head 5 to record.

For connecting the insulating element 2 with the profile part 8th becomes the curling head 5 in the groove 11 between the rolling hammer 9 and the re-camp 10 on the profile part 8th brought in.

In particular, the surveys 7 in the groove 11 brought in. For example, the surveys 7 of the rolling head 5 along the longitudinal direction z in the groove 11 inserted. After that, the rolling head 5 in the groove 11 rolled. This is the roller hammer 9 towards the abutment 10 against the curling head 5 pressed so that the roll-in hammer 9 and the abutment 10 non-positively on the side surfaces 7b the surveys 7 of the rolling head 5 issue. A sequence of a rolling-in process is, for example, in WO 84/03326 A1 described.

In the embodiment shown, the insulating element 2 from the insulating body 3 , the rolling head 5 and a second, not shown curl head formed. The rolling head 5 is designed to be with the profile part 8th be connected by rolling, and the second curl head is adapted to be connected to the second profile part, not shown by rolling. The insulating element 2 , the profile part 8th and the second profile part together form the composite profile 1 , The rolling head 8th , the second rolling head and the insulating body 3 may be formed such that the curling head 8th and the second curl head simultaneously with the insulator 3 connected, in particular can be glued.

Alternatively, the insulating element may have only one curling head and / or the composite profile may have only one profile part, or the insulating element may have more than one curling head on one or on both sides.

In the embodiment shown, the insulating body 3 cut out of a foam block. The insulating body can also be milled from a foam block. Alternatively, the insulating body may be foamed or extruded in a suitable form. The insulating body may be formed solely of foamed plastic. Alternatively, the insulator may comprise a foamed plastic core having a first density and a plastic sheath having a second density greater than the first density. The plastic shell can be foamed or unfoamed.

The surface of the insulator may have thermally or mechanically formed grooves, and the curl head and / or functional elements may be configured to engage the grooves so as to facilitate the positioning of the curl head and / or the functional elements on the insulator body.

In the embodiment shown, the insulating body 3 formed with a constant in the longitudinal direction z cross-section. The rolling head 5 is along the entire extent of the insulating body 3 formed in the longitudinal direction. Alternatively, the insulating body may be formed with a cross section changing in the longitudinal direction z. For example, the insulating body 3 the lead 4 only in sections along the longitudinal direction z and can have no projection in intermediate portions. In this case, the rolling head 5 also be provided only in the sections where the projection 4 is trained. Alternatively, the projection 4 be formed continuously, and the rolling head 5 can only partially along the longitudinal direction z to the projection 4 be provided. In particular, the curl head can be provided at regular intervals along the longitudinal direction z.

In the embodiment shown, the curl head 5 made of aluminum. Alternatively, the curl head may be formed of another metal. Furthermore, the roll-in head for welding or easier bonding with the insulating body can also be formed from a plastic, in particular from the same plastic as the insulating body. The curling head can be formed, for example, from polyethylene terephthalate (PET), PET foam, polybutylene terephthalate (PBT), polyamide-polyphenylene mixtures or a conventional or bio-based polyamide. In particular, the rolling head can be made of PA6, PA66, PA4.10, PA6.10, PA10.10, PA6.12, PA11 or glass fiber reinforced polyamide, for example PA66GF25.

In the embodiment shown, the extension of the curl head 5 in the height direction y greater than the extension of the curl head 5 in the transverse direction x. Alternatively, the extension of the curl head in the height direction y may be substantially equal to or smaller than the extension of the curl head in the transverse direction x.

In the embodiment shown, the extension of the curl head 5 in the height direction y by 5% to 50% smaller than the extension h of the insulator 3 in the height direction y. Alternatively, the extension of the curl head in the height direction may be substantially equal to or greater than the extension of the insulator in the height direction. Also, the extension of the curl head in the height direction y by more than 50% may be smaller than the extension of the insulating body in the height direction y. The extent of the rolling head 5 in the height direction y can be up to 20% greater than the expansion h of the insulator 3 be in the height direction y.

The extent of the curl head in the height direction y can be in the range of 5 mm to 100 mm, in particular in the range of 10 mm to 50 mm. The extension of the curl head in the transverse direction x may be in the range of 2 mm to 10 mm, in particular in the range of 3 mm to 6 mm.

In the embodiment shown, the curl head 5 the two surveys 7 for curling in the profile part 8th on. However, the design of the curl head is not limited to this. For example, the curl head can be a single survey 7 which extends over the entire height of the curl head and projects at a lower end and an upper end of the curl head in the height direction. In other words, the recess fourteen be omitted.

Furthermore, the in 1 and 2 profile part shown 8th the roll-in hammer 9 , the abutment 10 and the groove 11 on. However, the design of the profile part is not limited thereto. For example, the profile part a second Einrollhammer instead of the abutment 10 exhibit.

In the embodiment shown, the coating is 12 at the contact surface 7a , the side surface 7b and in the recess fourteen of the rolling head 5 educated. Alternatively, the coating 12 only on the contact surface 7a and / or the side surface 7b be educated. The rolling head 5 can also do without the coating 12 be educated.

In the embodiment shown, the insulating body 3 facing sides of the projection 13 of the rolling head 5 from the coating 12 except. Alternatively, the coating 12 also on the insulating body 3 in the transverse direction x side facing the projection 13 be educated.

In the embodiment shown, the coating is 12 of the rolling head 5 formed with a thickness of 0.05 mm. Alternatively, the coating 12 of the rolling head 5 be formed with a different thickness in the range of 0.05 mm to 1 mm and / or as an additional profile.

In the embodiment shown, the coating is 12 Made of plastic, allowing insertion of the curl head 8th in the groove 11 is facilitated and / or the stability of the connection between the rolling head 8th and the groove 11 is increased. The coating 12 may be adhesive, or it may be adhesive to the coating 12 be provided, so that the adhesion of the rolling head 5 in the groove 11 of the profile part 8th is increased. The coating 12 may have known for the use of adhesive tapes known material, such as hot melt adhesive based on co-polyamides. To facilitate an insertion process of the rolling head in the groove 11 of the profile part 8th can the coating 12 In particular, have material that has no adhesive properties at room temperature.

In or on the coating 12 can be in the area of the contact surface 7a and / or the side surface 7b a rough-surfaced wire (not shown) adapted to engage with the groove 11 , the roll-in hammer 9 and / or the abutment 10 to come into contact and the friction between the rolling head 5 and the profile part 8th to increase in the rolled-up state. The wire can be independent of the coating 12 on or in the rolling head 5 , in particular between the rolling head 5 and the groove 11 of the profile part 8th be provided. Instead of the wire or in addition to the wire, an adhesive cord may be provided.

As described above, the coating can 12 For example, only on the contact surface 7a or the side surface 7b be formed or there may be no coating on the rolling head 5 be educated. Surfaces of the rolling head 5 that with the roll-in hammer 9 , the abutment 10 and the groove 11 of the profile part 8th come into contact and on which no coating is formed, before the introduction of the rolling head 5 in the groove 11 For example, be roughened by knurling, milling or punching or structured. This may cause static friction between the contacting surfaces of the curler 5 and the profile part 8th increase. Also surfaces of the rolling head 5 on which the coating 12 is trained, can be roughened or otherwise structured. In the embodiment shown, the contact surface between the projection 4 of the insulating body 3 and the recess 6 of the rolling head 5 just trained. Alternatively, the contact surface may also have a microstructure, such as, for example, a serration or wave pattern, thereby enlarging the surface of the contact surface and thus the adhesive surface.

In the embodiment shown, the insulating body 3 the lead 4 on, and the rolling head 5 has the recess 6 on. Alternatively, the insulating element may be one of the in 3A to 3F have shown embodiments.

This in 3A shown insulating element 2a has a curling head 5a and an insulating body 3a on.

The insulator 3a is similar to the insulating body 3 educated. Therefore, hereinafter only in comparison to the insulator 3 various features described. The insulator 3a has two projections 4a towards, in the transverse direction x towards the curling head 5a protrude. The projections 4a are formed in the cross section shown substantially rectangular with rounded corners. The extent of the projections 4a in the height direction y is identical or similar and is in each case in the range of 20% to 40% of the expansion of the insulating body 3a in the height direction y. The extent of the projections 4a in the transverse direction x is identical or similar and in each case lies in the range of 1 mm to 8 mm. In particular, the extension of the projections 4a lie in the transverse direction x each in the range of 2 mm to 5 mm.

The rolling head 5a is similar to the rolling head 5 educated. In particular, the rolling head 5a also the surveys 7 and the recess fourteen on. Therefore, below are only compared to the curl head 5 various features described. Neglecting the surveys 7 is the extension of the curl head 5a in the height direction y the same or similar to the expansion of the insulating body 3a in the height direction y. The rolling head 5a points to the insulator 3a facing side two recesses 6a on. The recesses 6a are in the height direction y by protrusions 13a limited and are formed in the cross section shown substantially rectangular with rounded corners. The recesses 6a essentially correspond to the projections 4a ,

The rolling head 5a is by adhesive with the insulator 3a connected. The projections 4a are in the recesses 6a inserted, and at the contact surface between the protrusions 4a and the recesses 6a adhesive is provided.

The dimensions of the projections 4a of the insulating body 3a in the height direction y are identical. Alternatively, the extensions of the projections 4a be different from each other in the height direction y. Furthermore, the extensions of the projections 13a of the rolling head 5a in the transverse direction x identical or similar. Alternatively, the extensions of the projections 4a be different from each other in the transverse direction x. The rolling head 5a facing surface of the insulating body 3a and the insulating body 3a facing surface of the rolling head 5a are formed complementary to each other.

This in 3B shown insulating element 2 B has a curling head 5b and an insulating body 3b on.

The insulator 3b is similar to the insulating body 3 educated. Therefore, hereinafter only in comparison to the insulator 3 various features described. The insulator 3b points to the rolling head 5b facing side of a serrated cross-section surface 4b on. The individual teeth of the serrated surface 4b have an extent in the height direction y in the range of 0.01 mm to 8 mm and an extension in the transverse direction x in the range of 0.01 mm to 8 mm.

The rolling head 5b is similar to the rolling head 5 educated. In particular, the rolling head 5 also the surveys 7 and the recess fourteen on. Therefore, below are only compared to the curl head 5 various features described. Neglecting the surveys 7 is the extension of the curl head 5b in the height direction y the same or similar to the expansion of the insulating body 3b in the height direction y. The rolling head 5b points to the insulator 3b facing side of a serrated cross-section surface 6b on. The shape of the serrated surface 6b of the rolling head 5b is complementary to the shape of the serrated surface 4b of the insulating body 3b ,

The rolling head 5b is by adhesive with the insulator 3b connected. The serrated surface 6b of the rolling head 5b and the serrated surface 4b of the insulating body 3b are nested, and at the contact surface of the serrated surface 6b of the rolling head 5b and the serrated surface 4b of the insulating body 3b adhesive is provided.

Alternatively to the serrated configuration, the surface 4b of the insulating body 3b and the surface 6b of the rolling head 5b be formed wave-shaped with mutually complementary waveforms.

This in 3C shown insulating element 2c has a curling head 5c and an insulating body 3c on.

The insulator 3c is similar to the insulating body 3 educated. Therefore, hereinafter only in comparison to the insulator 3 various features described. The insulator 3c has three projections 4c towards, in the transverse direction x towards the curling head 5c protrude. The projections 4c are formed in the cross section shown substantially rectangular. The extent of the projections 4c in the height direction y is identical or similar and is in each case in the range of 25% to 31% of the expansion of the insulating body 3c in the height direction y. The extent of the projections 4c in the transverse direction x is identical or similar and is in the range of 1 mm to 8 mm, preferably in the range of 2 mm to 5 mm.

The rolling head 5c is similar to the rolling head 5 educated. In particular, the rolling head 5c also the surveys 7 and the recess fourteen on. Therefore, below are only compared to the curl head 5 various features described. Neglecting the surveys 7 is the extension of the curl head 5c in the height direction y the same or similar to the expansion of the insulating body 3c in the height direction y. The rolling head 5c points to the insulator 3c facing side three recesses 6c on. The recesses 6c are in the height direction by protrusions 13c limited and are formed in the cross section shown substantially rectangular. The recesses 6c correspond to the projections 4c of the insulating body 3c ,

The rolling head 5c is by adhesive with the insulator 3c connected. The projections 4c are in the recesses 6c inserted, and at the contact surface between the protrusions 4c and the recesses 6c adhesive is provided.

The dimensions of the projections 4c of the insulating body 3c in the height direction y are identical or similar. Alternatively, the extensions of the projections 4c be different from each other in the height direction y. Furthermore, the extensions of the projections 13c of the rolling head 5c in the transverse direction x identical or similar. Alternatively, the extensions of the projections 13c be different from each other in the transverse direction x. The rolling head 5c facing surface of the insulating body 3c is complementary to the insulator 3c facing side of the rolling head 5c educated.

This in 3D shown insulating element 2d has the curl head 5 and an insulating body 3d on.

The insulator 3d is similar to the insulating body 3 educated. Therefore, hereinafter only in comparison to the insulator 3 various features described. The expansion of the insulating body 3d in the height direction y is the same or similar to the extent of the recess 6 of the rolling head 5 in the height direction y. The insulator 3d indicates at its the rolling head 5 facing side a flat surface 4d on.

The rolling head 5 corresponds to the in 1 and 2 Rolling head shown 5 ,

The rolling head 5 is by adhesive with the insulator 3d connected. The insulator 3d is in the recess 6 inserted and at the contact surface between the insulator 3d and the recess 6 adhesive is provided.

This in 3E shown insulating element 2e has a curling head 5e and an insulating body 3e on.

The insulator 3e is similar to the insulating body 3 educated. Therefore, hereinafter only in comparison to the insulator 3 various features described. The expansion of the insulating body 3e in the height direction y is the same or similar to the extension of the curl head 5e in the vertical direction y, neglecting the elevations 7 , The insulator 3e indicates the rolling head 5e facing side a flat surface 4e on.

The rolling head 5e is similar to the rolling head 5 educated. In particular, the rolling head 5e also the surveys 7 and the recess fourteen on. Therefore, below are only compared to the curl head 5 various features described. The rolling head 5e points to the insulator 3e facing side a flat surface 6e on. The rolling head 5e has the surveys 13 of the rolling head 5 not up.

The rolling head 5e is by adhesive with the insulator 3e connected. The insulator 3e adjoins the flat surface 4e on, and at the contact surface between the insulator 3e and the flat surface 4e adhesive is provided.

This in 3F shown insulating element 2f has a curling head 5f and an insulating body 3f on.

The insulator 3f is similar to the insulating body 3 educated. Therefore, hereinafter only in comparison to the insulator 3 various features described. The expansion of the insulating body 3f in the height direction y is the same or similar to the extension of the curl head 5f in the vertical direction y, neglecting the elevations 7 , The insulator 3f indicates at its the rolling head 5f facing side a projection 4f on.

The rolling head 5f is similar to the rolling head 5 educated. In particular, the rolling head 5f also the surveys 7 and the recess fourteen on. Therefore, below are only compared to the curl head 5 various features described. The rolling head 5f points to the insulator 3f facing side at the upper edge and at the lower edge in the height direction y each have a projection 13f pointing towards the insulator 3f protruding in the transverse direction x. Between the projections 13f is a recess 6f educated. Each of the tabs 13f points to a rolling head 5f in the transverse direction x opposite end of a projection 15f on, in the height direction y in the direction of the insulator 3f protrudes. The projections 15f are designed to be in the insulating body 3f intervene.

The rolling head 5f is by adhesive with the insulator 3f connected. The lead 4f of the insulating body 3f is in the recess 6f between the projections 13f inserted, and at the contact surface between the insulator 3f and the recess 6f or between the insulator 3f and the projections 13f adhesive is provided.

At the in 3A to 3F shown insulating elements only one curl head is shown in each case. As with the in 1 shown insulating element 2 However, at the opposite side in the transverse direction x side of the insulating each additional rolling head can be provided.

At the in 3A to 3F shown insulating elements is formed to improve the adhesive bond between the curl head and the insulating an enlarged contact or adhesive surface. In addition, at the in 3E and 3F shown insulating elements deviations in the shape of the insulating body, resulting for example due to tolerances in the production, are compensated by the arrangement of the insulating head.

In 4A is an alternative embodiment of a curling head 15 shown. The rolling head 15 is similar to the rolling head 5 educated. In particular, the rolling head 15 the two surveys 7 and the recess fourteen on the profile part 8th facing side up. The projections 13 of the rolling head 15 are formed longer in the transverse direction x than the projections 13 of the rolling head 5 , For example, the projections 13 of the rolling head 15 in the transverse direction x a length of 60% of the extension of the curl head 15 in the height direction y on. Alternatively, the length of the projections 13 in the transverse direction x another value in the range of 30% to 70% of the extension of the rolling head 15 in the height direction y.

Furthermore, on the curling head 15 between the two protrusions 13 on the insulating body side facing an inner projection 16 educated. The inner projection 16 is in the middle of the curl head 15 with respect to the height direction y between the two protrusions 13 arranged. The two projections 13 each point to the inner projection 16 facing side a textured surface 13a on. The inner projection 16 points to the two the two projections 13 facing sides structured surfaces 16a on. The inner projection 16 has in the transverse direction x the same or a similar length as the projections 13 on. Alternatively, the length of the inner projection 16 in the transverse direction x greater or smaller than the length of the projections 13 be. Also, the protrusions 13 have a different length in the transverse direction x. The thickness of the protrusions 13 and the inner projection 16 in the height direction y is in the range of 1 mm to 4 mm, and is for example 1.2 mm.

An insulator (not shown) designed to engage the curl head 15 connected, in particular glued, points to the rolling head 15 facing side three recesses, which are adapted to the projections 13 and the inner projection 16 take. The depth of each of the recesses is equal to or similar to the length of the respective protrusion 13 . 16 which is adapted to be inserted into the respective recess.

Alternatively, the insulating body may have only one recess, which is adapted to the inner projection 16 and the thickness of the insulating body in the height direction y may be equal to or similar to the pitch of the patterned surfaces 13a the projections 13 be. In this case, the protrusions 13 serve as brackets and be designed to pinch the insulator between them.

The inner projection 16 can be omitted. Alternatively, the projections 13 be omitted and / or one or more further internal projections 16 on the rolling head 15 be formed. The projections 13 and / or the one or more internal protrusions 16 can at regular or irregular intervals along the height direction y at the curling head 15 be educated.

The projections 13 and the one or more inner projections 16 may have on sides that come into contact with the insulator, structured or even or smooth surfaces. Structured surfaces 13a . 16a can be the adhesive surface and / or friction between the rolling head 15 and enlarge the insulating body. Plain or smooth surfaces may be the joining of the curl head 15 facilitate with the insulating body.

The inner projection 16 can be formed with straight, parallel sides or wedge-shaped with a in the transverse direction x on the insulating body to be tapered shape for better transfer of load on the insulating body.

As in 4B is shown, the inner projection 16 at one end, which faces the insulating body, a thickening 17 exhibit. The thickening 17 is adapted to be inserted into a recess of the insulating body and load from the rolling head 15 to transfer to the insulating body. In the area of thickening 17 can the inner projection 16 for example, be thickened by up to 10% or by up to 50%. The thickening 17 may be formed as a spherical thickening.

The in 4C Rolling head shown 15C is similar to the one in 4A Rolling head shown 15 , The rolling head 15C has the projections 13 on. The recess 6 is between the protrusions 13 educated. The rolling head 15C points to the recess 6 opposite side a sloped surface 19 in the height direction y and in the transverse direction x from the upper and lower edges of the curl head 15C obliquely in the direction of a roll-in projection 18 runs. The rolling head 15C can in the area of the curl projection 18 through the formation of the inclined surface 19 mechanically strengthened.

The curling projection 18 has a head 7C on top of the elevations 7 is formed and intended to be rolled into a groove of a profile part. The head 7C has a substantially triangular shape with a contact surface 7a , which is adapted to abut the profile part, and two side surfaces 7a on. The extension of the head 7C in the height direction y is in the range of 10 mm to 100 mm or in the range of 10 mm to 30 mm.

The curling projection 18 is so on the curl head 15C trained that he is the extension of the rolling head 15C in the height direction y in a ratio of 60% to 40%. Alternatively, the roll-in projection 18 in the height direction y centered on the rolling head 15C be formed or be formed, the extension of the rolling head 15C in the height direction y in another ratio of, for example, 70% to 30% or 80% to 20%.

Furthermore, the rolling head 15C instead of the inclined surface 19 have a straight surface that is parallel to the height direction y.

The textured or roughened surfaces 13a and 16a the in 4A to 4C Rolling heads shown can be formed for example by sandblasting, plasma processing, knurling or milling.

The rollover heads in 4A to 4C can be shown from the above Materials, in particular made of metal or plastic. In particular, curling heads with protrusions 13 . 16 shown on a side facing the insulator. The projections 13 . 16 For example, they may have a length in the transverse direction x in the range of 5 mm to 100 mm, in particular in the range of 10 mm to 50 mm or in the range of 10 mm to 30 mm. The projections 13 . 16 For example, surfaces which come in contact with the insulator may have a microstructure. Such a microstructure may be formed by serrations, grooves or waves having a characteristic size in the range of 0.01 mm to 1 mm. The projections 13 . 16 may be adapted to be inserted into corresponding recesses of the insulating body. The projections 13 can be designed to clamp the insulator between them. On surfaces of the projections 13 . 16 and the rolling head 15 . 15C , which come into contact with the insulating body, adhesive for connecting the curl head 15 . 15C be provided with the insulating body.

It is explicitly stated that all features disclosed in the specification and / or claims are intended to be separate and independent of each other, both for the purpose of the original disclosure and for the purpose of limiting the claimed invention independently of the compilation the features in the embodiment and / or the claims to be disclosed. It is explicitly stated that all value ranges or indications of groups of objects disclose every possible intermediate value or possible intermediate object both for the purpose of the original disclosure and for the purpose of restricting the claimed invention, in particular for determining the boundaries of value ranges.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 2666949 A1 [0003]
• WO 84/03326 Al [0043]

Claims (10)

Insulating element for a thermally insulated composite profile, in which composite profile at least one profile part ( 8th ) with the insulating element ( 2 ) is connected by rolling, for doors, windows, facade elements and the like, with an insulating body ( 3 ) made of plastic and at least one rolling head ( 5 ) made of metal, for rolling in the one profile part ( 8th ), in which the at least one curling head ( 5 ) and the insulating body ( 3 ) are connected by adhesive. Insulating element according to Claim 1, in which the insulating body ( 3 ) is formed of foamed plastic. Insulating element according to Claim 1 or 2, in which the insulating body ( 3 ) comprises a foamed plastic core having a first density and a plastic sheath having a second density greater than the first density of the plastic core. Insulating element according to one of the preceding claims, in which the at least one rolling head ( 5 ) is formed of aluminum. Insulating element according to one of the preceding claims, in which the surface of the at least one curling head ( 5 ) is at least partially roughened. Insulating element according to one of the preceding claims, in which the at least one rolling head ( 5 ) on at least a part of its surface, which is formed by rolling with the at least one profile part ( 8th ), except for the part of the surface of the curling head ( 5 ), which by adhesive with the insulating body ( 3 ), a coating ( 12 ) and / or has a profile made of plastic. Insulating element according to Claim 6, in which the coating ( 12 ) or the profile is formed of an adhesive plastic and / or an adhesive and / or a metal wire with a rough surface to increase friction between the rolling head ( 5 ) and the profile part ( 8th ) having. Insulating element according to one of the preceding claims, in which a contact surface between the at least one curling head ( 5 ) and the insulating body ( 3 ) is serrated or wavy. Thermally insulated composite profile, with a profile part ( 8th ) and a single insulating element ( 3 ) according to one of the preceding claims, with which the profile part ( 8th ) is connected by rolling. Thermally insulated composite profile according to claim 9, in which a further profile part is provided and connected to the insulating element ( 3 ) is connected by rolling.

Images