EP1582682A2 - Set of elements for profiled frame - Google Patents

Abstract

Frame profile assembly (1) comprises an outer (2) and an inner side (3), a first (4) and a second frame profile (5), a connecting profile (6) connecting the two frame profiles, and at least one reinforcing chamber (9) containing a reinforcing profile (7). The connecting profile has at least two profile chambers (16b) in an inner corner region, which protrude toward the inner side at least partly beyond the inner walls (24) of the frame profiles. The reinforcing chamber is completely set back outward toward the outer side relative to the inner walls of the frame profile. The profile chambers are arranged in the inner corner region so that at least two profile chambers are arranged behind each other between one reinforcing chamber of the connecting profile and the inner side. Preferred Features: At least one profile chamber is filled with insulating material.

Description

The invention relates to a frame profile assembly with two frame profiles, by means of a connection profile are connected to each other over corner.

Such frame profile assemblies are known by public prior use. In Regarding the defrosting freedom of the inner corner region of the corner connecting profiles of known frame profile assemblies are still in need of improvement.

It is therefore an object of the present invention, a frame profile assembly of At the beginning of the type such that they increased demands on the defrost water in the inner corner area of the corner connection profile.

This object is achieved by a frame profile assembly with the Features according to claim 1.

According to the invention, it has been recognized that a projection of the connection profile in the inner corner region over the inner walls of the frame profiles creates the possibility of improved thermal insulation between the outer and the inner side of the frame profile assembly due to the increased structural depth. For a given temperature gradient over the entire construction depth of the frame profile assembly, this means that at a predetermined outside temperature, the temperature in the inner corner region of the frame profile assembly according to the invention is higher compared to a not over the inner walls of the frame profiles protruding connection profile. Due to this higher temperature, the risk of the formation of condensation in the inner corner region of the corner connection profile is reduced. Overall, the diagonal heat transfer path is increased in the corner of the frame profile assembly, which improves the thermal insulation.
It was also recognized that the generally good heat-conducting reinforcement profile in the corner connection profile is a weak point as far as thermal insulation is concerned. According to the invention, therefore, the at least one reinforcing chamber is arranged in the corner connecting profile in such a way that, owing to the projection over the inner walls of the frame profiles, it is in each case spaced outwardly from the inner corner region of the frame profile assembly. This additionally improves the thermal insulation in the inner corner area.

The plurality of inventively arranged profile chambers reduced the thermal convection within the corner connection profile. This reduces the heat transfer between the outside and the inside of the frame profile assembly in addition. The combination of all of these measures according to the invention leads to an increased Efficiency of thermal insulation through the profile chambers, eliminating the frame profile assembly meet the required increased demands on the defrost water becomes.

An embodiment according to claim 2 has an additionally improved insulation effect.

An insulation zone according to claim 3 also ensures different corner angle orientations the frame profiles each other good thermal insulation of the corner connection profile.

A monoprofile according to claim 4 has advantages in the assembly of the frame profile assembly on, because the number of items is then reduced.

Fig. 1

eine Rahmenprofil-Baugruppe mit zwei Rahmenprofilen und einem diese verbindenden Eck-Verbindungsprofil, wobei die Rahmenprofile zueinander in einem 90°-Eckwinkel festgelegt sind;

Fig. 2

die Rahmenprofil-Baugruppe nach Fig. 1, wobei die Rahmenprofile zueinander in einem 135°-Eckwinkel festgelegt sind;

Fig. 3

eine weitere Ausführungsform einer Rahmenprofil-Baugruppe mit Eckwinkel 90°; und

Fig. 4

eine weitere Ausführungsform einer Rahmenprofil-Baugruppe mit Eckwinkel 135°.

Embodiments of the invention will be explained in more detail with reference to the drawing. In this show:

Fig. 1

a frame profile assembly with two frame profiles and a connecting these corner connecting profile, wherein the frame profiles are fixed to each other at a 90 ° corner angle;

Fig. 2

the frame profile assembly of Figure 1, wherein the frame profiles are fixed to each other in a 135 ° corner angle.

Fig. 3

a further embodiment of a frame profile assembly with corner angle 90 °; and

Fig. 4

Another embodiment of a frame profile assembly with corner angle 135 °.

A frame profile assembly 1 according to FIGS. 1 and 2 is part of a bay or Conservatory design with an outside 2 and an inside 3. The frame profile assembly 1 has a first frame profile 4 and a second frame profile 5. The Frame profiles 4, 5 each carry a glazing shown in Fig. 1 only partially. The Frame profiles 4, 5 made of plastic are connected with a corner connecting profile 6 via corner with each other connected. The corner connecting profile 6 is a monoprofile, so as a one-piece plastic profile, educated. The corner angle is in the frame profile assembly 1 of FIG. 1 90 °. This corner angle is spanned in the drawing plane of FIG. 1. The area of Eckwinkels is referred to below as the inner corner area.

Perpendicular to the plane of Fig. 1, the corner connecting profile has an inner, hollow cylindrical tubular reinforcing profile 7. This is between retaining ribs 8 in a in Cross-section of Fig. 1 octagonal Armierungskammer 9 arranged.

An outer wall 10 of the corner connecting profile 6 has adjacent to the frame profile 4th mutually parallel wall sections 11, 12, which in a part-cylindrical convex Exterior wall section 13 pass over in such a way that the outer wall 10 in the cross section of FIG. 1 is reminiscent of the letter P. The frame profiles 4, 5 have a profile thickness of about 70 mm. The part-cylindrical outer wall portion 13 has a diameter of about 90 mm.

A central longitudinal tube axis 14 of the reinforcing profile 7 is offset to a rotation axis of symmetry 15 of the part-cylindrical outer wall portion 13 to the outside 2 out. Between the reinforcing chamber 9 and the outer wall 10 a plurality of the reinforcing chamber 9 surrounding profile chambers 16 is arranged, which together form an insulating zone 17. Due to the mentioned offset of the longitudinal tube axis 14 to the rotational axis of symmetry 15, the insulating zone 17 towards the inside 3 towards stronger than the outside 2 out.
Towards the outside 2, the insulation zone 17 is subdivided into a plurality of adjoining profile chambers 16a, which are separated from one another by radially extending partitions 18. Overall, there are three profile chambers 16a.

There, where the corner connecting profile 6 adjacent to the frame sections 4, 5 and in the inner corner area the Dämmzone 17 a plurality of rows of profile chambers 16b, with an exception by in Fig.1 horizontally and vertically extending partitions 19 from each other are separated. Only one of these partitions 19, the partition 19 a, in the Representation of the corner-connecting profile 6 of FIG. 1 is arranged at the top right, runs obliquely and substantially parallel to the adjacent adjacent Armierungskammerwand and is therefore the exception mentioned. The multi-row arrangement of the profile chambers results in that between the Armierungskammer 9 and the inner side 3 a plurality of profile chambers 16b arranged one behind the other.

A lower in Fig. 1 end wall 20 of the corner connecting profile 6, which is a part of the outer wall 10 is, via a latching device 21 having a plurality of latching hooks 22, connected to the first frame profile 4. An outer boundary wall 23 of the Frame profile 4 is aligned with the outer wall portion 11 of the corner connecting profile. 6 An inner boundary wall 24 of the first frame profile 4 is aligned with the inner Wall section 12 of the corner connecting profile. 6

The second frame profile 5 is located on the part-cylindrical outer wall portion 13 of the corner connecting profile 6 via a complementary shaped concave and also partially cylindrical Outer wall 25 of the second frame profile 5 at. Because of each other complementary partial cylindrical design of the abutting outer wall sections 13, 25, the frame profile 5 at the corner connecting profile 6 in one of a A plurality of predeterminable orientations, which are defined by the angle between the corners of the Frame profiles 4, 5 predetermined frame levels differ from each other determined be. This corner angle is 90 ° in the embodiment of FIG. 1.

The partially cylindrical concave outer wall 25 of the second frame profile 5 is part of an adapter profile 26 of the second frame profile 5, which is arranged between the corner connection profile 6 and the further second frame profile 5, which is identical in its construction to the first frame profile 4.
The adapter profile 26 and the second frame profile 5 are connected to each other via a latching device 27, which is identical to the latching device 21 between the first frame profile 4 and the corner connection profile 6.

Due to the approximate P-shape of the cross section of the corner connecting profile 6 and the fact that the diameter of the part-cylindrical outer wall portion 13 is larger is than the profile thickness of the frame sections 4, 5, is the Dämmzone 17 with parts of the profile chambers 16b to the inside 3 through the inner boundary walls 24 of the frame profiles 4, 5 in an approximately circular sector-shaped projection region 28 with sector angle 90 ° across, which is indicated in Fig. 1 by dashed boundary lines.

For fixing the second frame profile 5 on the corner connecting profile 6 in the given Corner angle orientation becomes the second frame profile 5 from an inner armor chamber 29 of the second frame profile 5 forth with a screw, not shown set, which penetrates the adapter profile 26 and the insulation zone 17, and in the reinforcement profile 7 of the corner connecting profile 6 engages.

Fig. 2 shows the frame profile assembly 1, in which the frame profiles 4, 5 to each other in a corner angle orientation with a corner angle of 135 ° arranged and fixed are. The contact area of the concave outer wall 25 of the second frame profile 5 is at the orientation of FIG. 2 relative to the orientation of FIG. 1 on the convex Outer wall portion 13 displaced counterclockwise by 45 °. In the inner corner area are also in this orientation of the frame profiles 4, 5 to each other several Profile chambers 16b arranged in front of each other. The protrusion area 28 has opposite the protrusion region 28 of FIG. 1 to an approximately circular sector-shaped Enlarged sector with sector angle 135 °, as indicated by dashed lines in Fig. 2.

Fig. 3 shows another embodiment of a frame profile assembly. Components that correspond to those already described above with reference to FIGS. 1 and 2 were, bear the same reference numbers and will not be detailed again explained.

The frame profile assembly 1 of FIG. 3 has a fixed corner angle of 90 °.

A corner connecting profile 30 according to FIG. 3 has a central square profile chamber 31 and two in Fig. 3 right or below this arranged, smaller rectangular Armierungskammern 32. The corner connecting profile 30 is formed as a monoprofile. Reinforcement chambers 32 may vary depending on the stability requirements of the frame profile assembly 1 of Fig. Take 3 Armierungsprofile. In the illustrated embodiment is in each of the two rectangular Armierungskammern 32 a reinforcing profile 33rd added. These are based on the Armierungskammern 32 via the inner walls as well as via retaining ribs 34.

An outer wall 35 of the frame profile assembly 1 of Fig. 3 has a substantially square basic shape, whose in Fig. 3 lower right corner, ie in the inner corner region of Corner connection profile 30 is chamfered by an oblique outer wall portion 36. The oblique outer wall portion 36 is perpendicular to the bisector of the corner angle the frame profile assembly 1.

Between the Armierungskammern 32 and the outer side 2 on the one hand and between the Armierungskammern 32 and the inside 3 on the other hand is each a Dämmzonenabschnitt an insulation zone 37 of the frame profile assembly 1 of FIG. 3 before. The inner one Dämmzonenabschnitt form two rectangular profile chambers 38, which to the rectangular Arming chambers 32 to the right or down in Fig. 3 adjacent. Between these rectangular profile chambers 38 and the oblique outer wall portion 36 is a arranged in cross-section at right angles triangular profile chamber 39. In the inner corner area of the corner connection profile 30 are a total of three profile chambers 38, 39, so one Plurality of profile chambers, in front. The two profile chambers 38 adjoin the profile chamber 39 on the catheter walls of the profile chamber 39 at. The sloping outer wall section 36 is formed by the hypotenuse wall of the profile chamber 39. Between the armor chambers 32 and the outside of the 2 facing portion of the outer wall 35th are two rows of profile chambers 40 arranged in succession from the outside to the inside arranged, which form the outer Dämmzonenabschnitt the Dämmzone 37. The profile chambers 40 of the outer Dämmzonenabschnitts are separated by partitions 41 separated. In total there are eight profile chambers 40. The profile chambers 38 are of the triangular profile chamber 39 via partitions 42 separated from each other.

About the locking devices 21, 27 are frame profiles 43, 44 at one in Fig. 3 lower End wall 45 and a fixed in Fig. 3, the right end wall 46 of the corner connecting profile 30. The frame profiles 43, 44 each have an outer frame profile part 47, on which a vane-carrying wing profile part 48 rests on sealing elements 49. At the in Fig. 3 top right frame profile 44 is only the outer frame profile part 47, the wing profile part is omitted there.

In the area of the outer frame profile parts 47, the frame profiles 43, 44 have an outer Boundary wall 50 and an inner boundary wall 51 on. The triangular profile chamber 39 is towards the inside 3 through the inner boundary walls 51 of the frame profiles 43, 44 completely over. The reinforcing chambers 32 with the reinforcing profiles 33, however, are completely outward beyond the inner boundary walls 51 of Frame profiles 43, 44 via. In a marked in Fig. 3 by a dashed line Projection region 52 thus protrudes none of the reinforcing chambers 32 into it.

The frame profiles 43, 44 have a thickness of 70 mm. The mutually parallel wall sections the outer wall 35 of the corner connecting profile 30 have one another Distance of about 95 mm.

Fig. 4 shows another embodiment of a frame profile assembly 1. This is only there where it differs from the frame profile assembly of FIG. components, which correspond to those described above with reference to the Figs. 1 to 3 have been described, have the same reference numerals and will not again explained in detail.

The frame profile assembly 1 of FIG. 4 has a corner angle of 135 °.

A corner connecting profile 53 of the embodiment according to FIG. 4 has a pentagonal outer wall 54, which has an oblique outer wall section 55 towards the inner side 3. The corner connecting profile 53 is formed as a monoprofile. The corner connecting profile 53 is mirror-symmetrical to a plane of symmetry 56, which is perpendicular to the plane of the drawing of FIG. 4 and contains the bisector of the corner angle of the frame profile assembly of FIG. 4.
In this plane, a central partition wall 57 of the corner connecting profile 53 extends. The oblique outer wall section 55 extends perpendicular to this plane.

Centrally in the corner connecting profile 53 are two in cross-section trapezoidal reinforcing chambers 58, which are separated by the partition 57 from each other. In the armor chambers 58, a reinforcing profile 59 is respectively received between holding ribs 60.

Between the two reinforcing chambers 58 and the outer wall 54 is at the corner connecting profile 53 of FIG. 4, an insulation zone 61 is arranged, which is divided into a Inner Dämmzonenabschnitt in the inner corner area and an outer Dämmzonenabschnitt.

The inner Dämmzonenabschnitt is so in four in cross-section each quadrangular profile chambers 62 divides that between the inclined outer wall portion 55 and the Armierungskammern 58 each two profile chambers 62 are arranged one behind the other. The the oblique outer wall portion 55 immediately adjacent two profile chambers below as profile chambers 62a and behind these subsequent profile chambers referred to as profile chambers 62b. The two inner profile chambers 62 a and the two adjoining profile chambers 62b are separated from each other by the Partition 57 separated. The two inner profile chambers 62a are in the inner corner area the corner connection profile 53 to the inside 3 out over the inner boundary walls 51 of the frame profiles 43, 44 via. This is indicated by a dashed line in FIG indicated and in cross-section triangular protrusion region 63 illustrates. In these Projection region 63 does not protrude the reinforcing chambers 58, so they are completely towards the outside 2 over the inner walls 51 of the frame profiles 43, 44 via.

The outer Dämmzonenabschnitt the Dämmzone 61 is also in four profile chambers 63rd divided. These are arranged such that between the Armierungskammern 58 and the outside 2 each two profile chambers 63 are arranged one behind the other. The two Pairs of profiled chambers 63 arranged one behind the other are arranged above the dividing wall 57 separated from each other.

The profile chambers 16 may in alternative embodiments of frame profile assemblies also be filled with an insulating material. This can be for example to act polyurethane (PUR). Styrofoam can also be used as insulating material.

The described frame profile assemblies 1 are dew-free according to DIN 4108-2.

Claims (4)

Frame profile assembly (1) with an outer (2) and an inner side (3), with a first (4, 43) and a second (5, 44) frame profile, with a connection profile (6, 30, 53), which the two frame profiles (4, 5, 43, 44) connects together at the corner, has at least one reinforcing chamber (9, 32, 58) with a reinforcing profile (7, 33, 59) received therein, in which the connection profile (6, 30, 53) in an inner corner area of this at least two profile chambers (16b, 39, 62a) which at least partially towards the inside (3) via inner walls (24, 51) of the frame profiles (4, 5 , 43, 44) the at least one reinforcing chamber (9, 32, 58) is completely set back towards the outside (2) towards the inside walls (24, 51) of the frame profiles (4, 5, 43, 44), wherein the profile chambers (16b, 38, 39, 62) are arranged in the inner corner region such that between a reinforcement chamber (9, 32, 58) of the connection profile (6) and the inner side (3) at least two profile chambers (16b, 62a, 62b) are arranged one behind the other. Frame profile assembly according to claim 1,
characterized in that at least one profile chamber (16, 38, 39, 62) is filled with insulating material. Frame profile assembly according to claim 1 or 2, characterized by a plurality of profile chambers (16, 38 to 40, 62, 63), which together a Dämmzone (17, 37, 61) between a reinforcing profile (9, 32, 58) containing Armierungskammer (9, 32, 58) and the outer wall (10, 35, 54) of the connecting profile (6, 30, 53) form. Frame profile assembly according to one of claims 1 to 3, characterized in that the connecting profile (6, 30, 53) is designed as a monoprofile.

Images