WO2008046610A2

WO2008046610A2 - Extruded hollow chamber profile for windows or doors

Info

Publication number: WO2008046610A2
Application number: PCT/EP2007/009031
Authority: WO
Inventors: Stefan Eckert; Klaus Melzer; Marcus Fischer; Horst Tippenhauer
Original assignee: Rehau Ag + Co
Priority date: 2006-10-21
Filing date: 2007-10-18
Publication date: 2008-04-24
Also published as: RU2009119178A; ES2550646T3; DE202006016165U1; EP2079895A2; PL2079895T3; EP2079895B1; WO2008046610A3; RU2443843C2; DK2079895T3

Abstract

An extruded hollow chamber profile (1) for windows or doors has at least one fastening zone (2) for fastening the hollow chamber profile (1) on or to an external component (3). The fastening zone (2) has a fastening bolt (4) with profiled edges. A plastic fastening channel (8) having a channel longitudinal axis (9) for insertion of the fastening bolt (4) along the fastening channel (8) extends transversely to a direction of extrusion (7) of the hollow chamber profile (1). The fastening channel (8) is delimited by two chamber sidewalls (10, 11) at a right angle to the channel longitudinal axis (9), the distance (A) of said walls in relation to each other being smaller than the outer diameter (Da) of the fastening bolt (4). In the direction of the channel longitudinal axis (9), the fastening channel (8) is delimited by two chamber faces (12, 13) through which the fastening bolt (4) is guided. At least one fastening hollow chamber (14) is formed between the channel sidewalls (10, 11) and channel faces (12, 13). The hollow chamber profile according to the invention allows a high withdrawal force of the fastening bolt (4) even if the latter is not guided through a metal wall.

Description

Extruded window or door hollow section profile

The invention relates to an extruded window or door hollow chamber profile according to the preamble of claim 1.

Such a hollow chamber profile is known by public prior use. In the known fastening region, at least one screw is usually screwed in, with which a connection to a fitting part or, alternatively, a connection of the base body to a connecting part, e.g. a post or a fighter, is made as an external component. In order to ensure a predetermined pull-out force of the fastening bolt, the fastening bolt, in the previously known hollow-chamber profiles, that is, as a rule, the screw, is screwed through at least one metal wall of the hollow-chamber profile. Fittings only by plastic walls result in the fastening area designs, which are already known, only relatively low pull-out forces.

It is therefore an object of the present invention, a fastening region of an extruded window or door hollow chamber profile of the type mentioned in such a way that a high pull-out force of the fastening bolt is also guaranteed tet, if it is not passed through a metallic wall.

This object is achieved by a hollow chamber profile with the features specified in the characterizing part of claim 1.

According to the invention it has been recognized that it is also possible transverse to the extrusion direction of a hollow chamber profile to provide a completely made of plastic mounting channel. This mounting channel is bounded laterally by two chamber side walls. Because the distance between them is smaller than the outer diameter of the fastening bolt, the edge-side profiling of the fastening bolt works into the chamber side walls.

BESTATlGUNGSKOPfE This is preferably done over the entire length of the fastening bolt adjacent chamber side walls. As a result, a good toothing of the plastic mounting channel is ensured with the fastening bolt as possible over its entire length or over a large portion of its length, resulting in the high pull-out force of Befestigungsboizeπs. With the fastening region according to the invention, high separation requirements can be fulfilled with fastening areas made entirely of plastic, in particular in connection with burglar-proof requirements.

In the embodiment of the fastening channel according to claim 2 with chamber end walls of different wall thicknesses, for example, the stronger end wall exert a holding function for holding the two chamber side walls, while the less strong end wall has a security feature that prevents the side walls during insertion of the fastening bolt from each other flinch. Chamber side walls according to claim 2 with different wall thicknesses may also be different in their function. Thus, the side wall with the greater wall thickness have a support function, while the more flexible side wall with a smaller wall thickness provides for the teeth with the edge profiling of the fastening bolt.

A corresponding functional division of the end walls and / or the side walls is possible if these walls are made of different materials according to claim 3.

A gutter according to claim 4 secures the side walls from retreating from each other during insertion of the fastening bolt, even if the end walls have a large distance to each other, or if the side walls are made yielding due to their wall thickness or their material.

Reinforcement profiles according to claim 5 favor a toothing of the profiling tion having side wall with the edge profiling of the fastening bolt.

By a curvature of the side walls according to claim 6, a bias of the side walls is given to the fastening bolt out with inserted fastening bolts. This bias counteracts a retreat of the side walls away from the mounting bolt. It is preferred if both side walls are curved symmetrically to the interior of the chamber. Alternatively, it is also possible that only one of the two side walls is curved toward the interior of the chamber.

A manufactured according to claim 7 mounting channel can be manufactured inexpensively.

A fastening channel according to claim 8 allows retrofitting of an already manufactured profile.

A screw according to claim 9 has proven to be a fastening bolt.

A fine-thread screw according to claim 10 surprisingly leads to a particularly high pull-out force of the fastening bolt from the fastening channel.

Screw parameters according to claims 11 to 13 also lead to an advantageously high pull-out force. A suitable screw as an example of a fastening bolt according to the invention is a sheet metal screw DIN7981 or a window screw (FFB screw). The tapping screws DIN7981 has a pitch angle of 60 ° and a thread pitch of 1, 34 mm. The FFB screw has a pitch angle of 40 ° and a pitch of 2.6 mm.

Embodiments of the invention are explained below with reference to the drawings. In this show:

1 shows a section of an extruded window or door hollow chamber profile, wherein an extrusion direction is perpendicular to the plane of the drawing, in a fastening region for fastening an external component to the hollow chamber profile;

Fig. 2 is a view similar to Figure 1 showing another embodiment of a mounting area, these surrounding chamber walls of the hollow chamber profile and the external component are omitted.

FIG. 3 shows a representation similar to FIG. 2 of a further embodiment of a fastening region; FIG. Fig. 4 to 7 to Fig. 1 similar representations of further embodiments of mounting areas with omitted external component.

A window or door Hohlkammerprofii 1, which is only partially shown in the drawing about a mounting portion 2, has between a window or Türinnen- and an outer side a plurality of hollow chambers, as is known per se from the prior art.

The attachment area 2 serves for fastening the hollow chamber profile 1 to one or with an external component 3. The latter can be a window or door fitting. Alternatively, the external component 3 may be a window or door frame connector, e.g. a post or a fighter, act.

1 shows a first embodiment of the fastening region 2. This has a fastening bolt 4 profiled on the edge in the form of a screw with a screw body 5 and a thread 6 integrally formed thereon. The fastening bolt 4 may in particular be a fine-thread screw. As an alternative to a screw, the fastening bolt 4 can also be designed as a bolt which is not profiled, but in particular can be slammed into it.

For introducing the fastening bolt 4, the hollow chamber profile 1 has a transverse to an extrusion direction 7, which is perpendicular to the plane, extending mounting channel 8 with a channel longitudinal axis 9. The mounting channel 8 is made entirely of plastic. The fastening bolt 4 is introduced along the longitudinal axis 9 in the fastening channel 8. The fastening channel 8 is extruded in one piece with the other hollow chamber profile 1. The fastening channel 8 is perpendicular to the channel longitudinal axis 9 and the extrusion direction 7 of two chamber side walls 10, 11 limited. A distance A of the chamber side walls 10, 11 to one another is smaller than the outer diameter D _{3 of} the fastening bolt 4 predetermined by the outer diameter of the thread 6. In the area of the chamber side walls 10, 11, the thread 6 has at least partially penetrated into the chamber Side walls 10, 11 incorporated. The screw as an example of the fastening bolt 4 is next to its outer diameter D _a still characterized by a diameter D _{1 of} the inner bolt body and by a distance G of two adjacent threads. The difference D _a minus D ₁ gives twice a flank height of the thread 6. This flank height is approximately 0.5 mm in the fastening bolt 4. Flank heights which are greater than 0.2 mm are preferred.

The distance G between adjacent threads is a measure of a thread pitch of the screw as an example of the fastening bolt 4. The thread pitch is in the embodiment of FIG. 1 to 6 about 40 °. Such a thread pitch is found in FFB screws. FFB screws are also referred to as coarse-thread screws. Preferred is a thread pitch which is less than 65 °. Also a thread pitch of 60 °, which is common with tapping screws, is possible.

A distance between two threads of the screw as an example of the fastening bolt 4 may for example be 1, 5 mm. This is the case in the embodiment according to FIGS. 1 to 6. The thread pitch may also be greater, for example 2.6 mm.

In channel longitudinal direction of the mounting channel 8 is bounded by two chamber end walls 12, 13, passed through the fastening bolt 4, in the example of FIG. 1 is screwed through, is. Depending on the design of the fastening bolt 4, passages are made through the chamber end walls 12, 13 either before the fastening bolt 4 is inserted or the fastening bolt 4 is created, e.g. when using a self-tapping screw, the passages in the chamber end walls 12, 13 itself.

The chamber end walls 12, 13 prevent the chamber side walls 10, 11 from retracting one another when the fastening bolt 4 is inserted, so that the edge profiling of the fastening bolt 4, in the example shown, of the thread 6, into the chamber side walls is incorporated 10, 11 is ensured over virtually its entire length.

In the example of FIG. 1, the walls 10 to 13 form exactly one fastening hollow chamber 14. Figures 2 to 7 show further embodiments of mounting areas 2. Components which correspond to those which have already been explained above with reference to the embodiment of FIG. 1 bear the same reference numerals and will not be discussed again in detail.

In the embodiment according to FIG. 2, the chamber end wall 13 shown below is not part of a chamber wall extending transversely to the channel longitudinal axis 9 outside the fastening region 2, as in the embodiment according to FIG. 1, but instead constitutes a fastening channel 8 closing off at the bottom Connecting web between the chamber side walls 10, 11 represents. The connecting web 13 has a wall thickness which is less than that of the upper chamber end wall 12th

The embodiment of FIG. 3 initially differs from that of FIG. 2 in that the chamber end wall 13 has a greater distance to the chamber end wall 12. In addition, between the chamber end walls 12, 13 in the embodiment of FIG. 3, a parallel to the end walls 12, 13 extending intermediate web 15 is provided. The mounting channel 8 is thus divided in the embodiment of FIG. 2 in two mounting hollow chambers 14. Also, two such intermediate webs 15 between the chamber end walls 12, 13 are possible.

The embodiment of Fig. 4 differs from that of FIG. 1 in that between the chamber end walls 12, 13 three parallel to these end walls 12, 13 extending intermediate webs 15 are provided. So here are a total of four mounting hollow chambers 14 available. The wall thicknesses of the intermediate webs 15 according to FIG. 4 is less than that of the end walls 12, 13.

Also, the chamber side walls 10, 11 may have a different wall thickness.

The gutter 15 or the intermediate webs 15 prevent retraction of the chamber side walls 10, 11 during insertion of the fastening bolt 4, even if the chamber end walls 12, 13 to each other a large distance or if the chamber side walls 10, 11 due to their Wall thickness and / or their material are yielding. The embodiment of Fig. 5 differs from that of Fig. 1 in that the chamber side walls 10, 11 are extruded in the embodiment of FIG. 5 of different materials. In this case, the left-hand chamber side wall 10 in FIG. 5 is made of a material other than the right-hand chamber side wall 11 and the chamber end walls 12, 13. The chamber side wall 10 may be made of a softer material, for example Walls 11 to 13, so that the edge-side profiling of the fastening bolt 4 in the chamber side wall 10 works more strongly and is supported against the opposite chamber side wall 11 substantially.

The embodiment according to FIG. 6 differs from that according to FIG. 1 by reinforcement profilings 16 on the inner sides of the side walls 10, 11 facing the interior of the fastening channel 8. The distance A of the chamber side walls 10, 11 is in the embodiment 6 defined by the distance between the mutually opposite reinforcing profiling 16. The reinforcing profiling 16 may also be provided only on one of the two chamber side walls 10, 11. The edge-side profiling of the fastening bolt 4, in the example shown in FIG. 6 so the thread 6, works in this embodiment in the reinforcing profilings 16, which deform plastically. Since the reinforcing profilings 16 have space for plastic deformation along the channel longitudinal axis 9, the force exerted on the chamber side walls 10, 11 after insertion of the fastening bolt 4 perpendicular to the channel longitudinal axis 9 is lower than in the embodiment according to FIG. 1. In the embodiment according to FIG. 6, in comparison to the embodiment according to FIG. 1, it is possible to work with smaller wall thicknesses of the chamber side walls 10, 11 without the chamber side walls 10, 11 after the introduction of the fastening bolt 4 too much be crowded outside.

The embodiment of Fig. 7 differs from that of FIG. 1, characterized in that the chamber side walls 10, 11 are curved towards the interior of the mounting channel 8. The side walls 10, 11 thus form outwardly concave boundary surfaces of the mounting channel 8. The distance A between the chamber side walls 10, 11 is defined by the smallest distance approximately centrally between the chamber end walls 12, 13. This distance A is in turn smaller than the outer diameter D _{a of} the fastening bolt 4. The curved shape of the chamber side walls 10, 11 results in a bias of the chamber side walls 10, 11 against the displacement force, the introduced fastening bolt 4 on the chamber Side walls 10, 11 exerts outwards.

In one embodiment, not shown, the attachment channel 8 may be part of a inserted into a corresponding hollow chamber of the hollow chamber profile 1, separate attachment additional element. The predetermined by the additional element attachment channel 8 can be designed as described above in connection with Figures 1 to 7 and shown.

The design details of the above-described configurations of the attachment portion 2 may also be combined with each other. So it is e.g. possible to provide the embodiment of FIG. 6 additionally with intermediate webs 15. Another exemplary embodiment results if the embodiment according to FIG. 7 is additionally provided with reinforcing filings 16 according to FIG. Other such detail combinations are possible.

Claims

protection claims

1. Extruded window or door Hohikammerprofil (1) with at least one mounting area (2) for fastening the hollow chamber profile (1) on or with an external component (3) wherein the mounting area (2) a profiled on the edge Befestigungsbol- (4 ), characterized by at least one transverse to an extrusion direction (7) of the hollow chamber profile (1) extending plastic mounting channel (8) with a channel longitudinal axis (9) for introducing the fastening bolt (4) along the mounting channel (8), wherein the fastening channel (8)

- Is perpendicular to the longitudinal axis of the channel (9) bounded by two chamber side walls (10, 11) whose distance (A) is smaller than an outer diameter (D _a ) of the fastening bolt (4), in the direction of the channel longitudinal axis ( 9) is limited by two chamber end walls (12, 13) through which the fastening bolt (4) is guided, so that between the chamber side (10, 11) and end walls (12, 13) at least one fastening Hollow chamber (14) is formed.

2. hollow chamber profile according to claim 1, characterized in that at least two chamber end walls (12, 13) and / or at least two chamber side walls (10, 11) have a different wall thickness.

3. hollow chamber profile according to claim 1 or 2, characterized in that at least two chamber end walls (12, 13) and / or at least two chamber side walls (10, 11) are made of different materials.

4. hollow chamber profile according to one of claims 1 to 3, characterized in that between the chamber end walls (12, 13) at least one parallel to the end walls (12, 13) extending intermediate web (15) is provided.

5. hollow chamber profile according to one of claims 1 to 4, characterized in that at least one of the two chamber side walls (10, 1 1) to the interior of the fastening channel (8) toward reinforcing profiles (16).

6. hollow chamber profile according to one of claims 1 to 5, characterized. in that the chamber side walls (10, 11) are curved towards the interior of the fastening channel (8).

7. hollow chamber profile according to one of claims 1 to 6, characterized in that the fastening channel (8) is extruded in one piece with the other profile.

8. hollow chamber profile according to one of claims 1 to 6, characterized in that the fastening channel (8) is part of an inserted into a hollow chamber of the profile, separate attachment additional element.

9. hollow chamber profile according to one of claims 1 to 8, characterized in that the fastening bolt (4) is designed as a screw.

10. hollow chamber profile according to claim 9, characterized by a fine-thread screw as a fastening bolt (4).

11. hollow chamber profile according to claim 9 or 10, characterized in that the fastening bolt (4) has a flank height (D _a / 2 - D / 2) of a screw thread which is greater than 0.2 mm.

12. hollow chamber profile according to one of claims 9 to 11, characterized in that the fastening bolt (4) has a thread pitch which is smaller than 65 °.

13. hollow chamber profile according to one of claims 9 to 12, characterized in that the fastening bolt (4) has a thread pitch which is in the range between 1, 34 and 2.6 mm.