KR100721226B1 - Facade or light roof having door frame consisting of stanchion- and transomprofile - Google Patents

Abstract

At the butt joint (B) between the cross piece (5) forming the upper boundary and an upright section (6), the base of the channels receiving draining water overlaps the anchoring groove of the cross piece for a sealing strip and bears on the anchoring groove. Water flows from the upright section into the channel of the cross piece. At all further butt joints between uprights and cross piece section (1,2,3,4), the base of the channels for water of one facade section overlap the anchoring groove for sealing strips of the other facade section.

Description

Facade or window roof with building frame consisting of longitudinal profile and cross-section profile {FACADE OR LIGHT ROOF HAVING DOOR FRAME CONSISTING OF STANCHION- AND TRANSOMPROFILE}

1 is a schematic view of a building facade.

2 is a cross-sectional view of the longitudinal profile of the longitudinal column starting from the porch floor;

3 is a cross-sectional view of the longitudinal profile according to FIG. 2 with a crutch on the right side of the fixation area;

4 shows the form of a connection between the longitudinal profile according to FIG. 3 and the crossbar profile forming the top of the building facade field for door or window installation.

5 is an enlarged view of the longitudinal profile according to FIG. 2;

6 is an enlarged view of the crossbar profile of FIG.

7 is profile connections A and B of FIG.

8 is a cross-sectional view of the longitudinal profile according to FIG. 2 supplemented with a sealant and a glass plate and crossbar profile, and a longitudinal profile starting from the upper crossbar profile of the frame field for door installation; The longitudinal profile is also supplemented with sealant and glass plates and cover strips.

* Description of the symbols for the main parts of the drawings *

1, 2, 6: bar profile 3, 4, 5: bar profile

7: hollow chamber 8: profile wall

9: middle 10, 11: joint

12, 21: groove 13: transverse wall

14: screw channel (or intermediate thread groove) 15, 22: hollow chamber

16: support means 17: leaking collecting channel

18, 19: wall 20: partition wall

23, 25: protrusions 24, 26: slope

27, 28: beveled slot 29: rest of profile

30, 32, 33: notch 31: retaining groove

34: sealing strip 35: glass plate

36: strip 37: sealing material

38: screw 39: screw channel

A, B: profile connection

The present invention relates to a building facade or window roof having a door frame consisting of a longitudinal profile and a crossbar profile, said longitudinal profile and the crossbar profile being a screw of a cover strip supported by a seal on an outer edge of a glass plate or a filling plate in the middle. It has a screw groove for fixing the, the longitudinal rim has a fixing groove for the sealing strips in contact with the glass plate or the filling plate, the screw groove and the fixing groove forms a collecting channel for leakage water flowing into the structure from the outside, the door And at least one building facade field for installation of windows and the like.

Building facades in this manner are known, in which the building facade field for the installation of doors and windows is formed by the aforementioned horizontal rung profile, while the vertical face of the mentioned building facade field is formed by the longitudinal profile starting from the porch floor. It is.

The upper part forming the building facade field described above, because of the large width of the building facade field for accommodating windows or doors, i.e. twice as large as the building facade field forming the remaining longitudinal profile and the crossbar profile. The longitudinal profile emerges from the middle of the horizontal crossbar profile, and leakage flow into the leakage groove of the connected crossbar profile is not simply guaranteed. The lower area of the longitudinal profile had to be notched and the lower part had to be fitted with a drain. In addition, this drain had to be sealed at a cost to guide the resulting leakage from the leakage collection channel of the longitudinal profile to the leakage collection channel of the cross profile.

In addition, in the longitudinal profile lying on the crossbar profile forming the upper part of the building facade field for doors or the like, the intermediate threaded groove becomes narrower toward the assigned profile wall extending transverse to the threaded groove and thus the leakage collection channel area. To form an undercut. Fixing grooves for the sealing strip in the longitudinal edge region of the longitudinal profile also include an undercut in the collecting channel region for leaks.

This has a major disadvantage in the sealing of the connecting area of the building facade profile, in particular where the longitudinal profile is angled, leading to the roof area. It is difficult to seal the undercut form without defects.

It is an object of the present invention to provide for the installation of doors and windows in the manner described above without the use of additional components, so that leak guidance from the building facade profile to the other building facade profile can be carried out at all connections between the longitudinal profile and the cross profile. To form a building facade or window roof having a frontal field for.

The object is that according to the invention, the bottom of the collecting channel for leakage water collection channel of the longitudinal profile at the connection between the crossbar profile and the longitudinal profile starting from the crossbar profile forming a frame field forming a top for doors and windows etc. Overlaps the fixing groove of the crossbar profile for the leaking flow into the collecting channel for leakage of the crossbar profile, and at all further connections between the crossbar profile and the crossbar profile, The bottom of the acquisition collection channel is achieved by overlapping the fixing grooves for the sealing strips of the other building facade profiles.

Further features of the invention are presented in the following description of the dependent claims and a preferred embodiment of the frame arrangement of the building facade or window roof.

The building facade according to FIG. 1 consists of longitudinal profiles (1, 2) starting from the floor of the porch, to which the longitudinal profiles (1, 2) are connected. A crossbar profile 5 is provided between the crossbar profiles 1 and 2 at intervals from the lower vestibule bottom, with a crossbar profile in the middle of the crossbar profile 5. Below the cross profile 5 is a building facade field, which is free from the building facade profile and can be used for door or window installation.

The crossbars 3 and 4 can be fitted between the crossbar profiles 1 and 2 and the crossbar profile 6.

In FIG. 1 the profile connection between the crossbar profile 5 and the longitudinal profile 1 or 2 is indicated by A, while the profile connection between the crossbar profile 5 and the longitudinal profile 6 is indicated by B. In FIG.

In FIG. 2 the longitudinal profiles 1, 2 are shown in cross section, in which the hollow chamber 7 can be provided as a hollow chamber profile. However, a longitudinal profile, which can be implemented with a so-called double-T-support for obtaining statics, can also be considered. The hydrostatically designed hollow chamber or other profile formation that can be considered starts from the profile wall 8. This profile wall 8 is formed integrally with the structure for receiving the sealant and the fixing means at the glass joint face of the building facade. This profile wall 8 forms the bottom of the collecting channel 17 for leaks.

The longitudinal profile 1, 2 comprises an intermediate portion 9 consisting of two parallel seams 10, 11, with a groove 12 formed between the two seams 10, 11, The groove 12 is divided by an lateral wall 13 into an intermediate screw groove or screw channel 14 and a lower hollow chamber 15. The seams 10, 11 can be embodied thicker than the walls of the hollow chamber 15 in the region of the screw channel 14. The difference in thickness of the seams 10, 11 with respect to the wall of the hollow chamber 15 affects the grooves 12 such that the grooves 12 and the outer surfaces of the hollow chamber 15 are in line with each other. This hollow chamber 15 has a square cross section.

On both sides of the intermediate part 9 are arranged glass support means 16 which are provided for the reception of the sealing strip, which abuts the rim of the glass plate or the filling plate. Between the intermediate portion 9 and the glass support means or the plate support means 16, a leakage collection channel 17 is provided for receiving seepage water and for venting the glass joints. The channel 17 has no undercut and is formed in a quadrangular cross section or U-shape.

As in FIG. 5, which shows an enlarged longitudinal profile according to FIG. 2, the glass support means 16 consists of two parallel walls 18, 19, which wall 18 forms a profile contour. The dividing wall 20 between the walls 18, 19 divides the space into a groove 21 and a hollow chamber 22 which open upwards.

At the free ends of the walls 18, 19, strip-like protrusions 23 are arranged in a direction facing each other, and together with the protrusions 23 and the separating wall 20, an undercut groove 21 is formed. do. This groove 21 is used to fix the sealing strip, which borders the glass plate or the filling plate.

The protrusion 23 has a slope 24 outwardly, which slope 24 is used in particular to facilitate the insertion of the sealing strip.

The partition wall 20 is implemented to be reinforced. Because, the dividing wall 20 is used to receive the fixing screw of the crossbar profile connected to the longitudinal profile.

Below the dividing wall 20 or in the direct area of the dividing wall 20 there is provided a strip-shaped protrusion 25 starting from the walls 18, 19 and protruding into the hollow chamber 22. This strip-shaped projection 25 is also used to fix the sealing strip as described, and the projection 25 is also provided with a slope 26. In order to form such a slope, slots 27 and 28 that are inclined corresponding to the inclination of the slope 26 are provided in the dividing wall 20.

The strip-shaped protrusions 23 and 25 stand with each other at a specific ratio calculated from the height of the grooves of the cross profile 5 of FIG. 6. The crossbar profile 5 has a groove height to the bottom edge of the groove bottom, where this height is indicated by H in FIG. 6.

In order to place and connect the longitudinal profile 6 superimposed on the crossbar profile 5 at point B according to FIG. 1, the front face of the crossbar profile 5 needs to have a notched shape at point A. For this purpose, the support means 16 having a height H can have a notched shape over the width of the crossbar profile 5. The notched surface is indicated by Ⅹ-Ⅹ in FIG. 5. By having the notch shape up to this notch shaped surface Ⅹ-Ⅹ, the hollow chamber 22 can be connected to an upper open groove into which the sealing strip can be inserted, as is also possible in the fixing groove 21. . The separation wall 20 is separated by the notch shape. The notch shaped surface passes through the inclined slots 27, 28.

It is up to the person skilled in the art to fix the longitudinal profiles 1, 2 only corresponding to the width of the longitudinal profile 5, or to separate the support means 16 to the fixed surface Ⅹ-Ⅹ over the entire length of the longitudinal profile.

By means of the fastening which allows the hollow chamber 22 to open, a new fastening groove for the sealing strip is formed.

3 shows a fixture with a fixed height H. FIG. The remainder of the profile 29, which is no longer connected to the side protrusion 25 by the dividing wall 20, remains.

4 shows a profile connection according to the profile connection A of FIG. 1. The end side notches 30 of the crossbar profile cover the walls 18, 19 fitted with the crossbar profile. The fixing groove 31 for the sealing strip is then connected with the fixing groove 21 of the longitudinal profiles 1, 2.

7 shows the overall relationship between the profile connections A and B according to FIG. 1. The longitudinal poles 1 and 2 have a notched shape from one side to the notched surface Ⅹ-Ⅹ. On this notched face the cross profile 5 is located by the notch 30 formed at its end. This corresponds to profile connection area A.

The crossbar profile 6 is raised on the crossbar profile 5 by the notch 32.

In addition, the crossbar profiles 3 and 4 are raised by the notches 33 on the support means 16 of the crossbar profiles 1 and 2 where the notches are not formed, so that the fixing groove 31 is formed on the crossbar at the front of the building. One common plane is formed for the sealing strips 3 and 4 and for the sealing strips of the longitudinal profile 6, in which the profile connection (collision) B is an overlapping drainage of the building facade for draining leaks. Principle is created. Such butt joints do not require special means or special seals.

8 shows a cross section of the longitudinal profiles 1, 2, in which the sealing strip 34 is fixed to the fixing groove 21, and the edge of the insulating glass plate 35 is supported by the sealing strip. The outer rim of the glass plate 35 is covered by a cover strip 36, and the cover strip 36 is supported on the glass plate rim by the sealing material 37. The fixing of the cover strip 36 is made by screws 38, the screw shafts of which are rotationally inserted into the screw channels 39.

8 also shows that the cross sections of the crossbar profiles 3, 4 and the crossbar profile 6 can coincide with each other.

According to the present invention, a building facade or window roof having a front field for installation of doors and windows of the above-described manner without the use of additional parts, so that leakage can be carried out from one building facade profile to another building facade profile. Is formed.

Claims (8)

On the outer rim of the glass plate or the filling plate is provided a screw groove 12 for fixing the screw 38 of the cover strip 36 supported by the sealing material in the center, and a seal in which the inner rim of the glass plate or the filling plate is supported. A fixing groove 21 for the strip 34 is provided at the longitudinal rim, and the leakage collecting channel 17 and the screw groove 12 and the fixing groove for receiving the leakage water penetrating into the structure from the outside. A building with a building frame consisting of longitudinal profiles (1, 2, 6) and crossbar profiles (3, 4, 5), bounded by (21) and provided with one or more building facade fields for installing doors and windows. In the front or window roof, At the connection B between the crossbar profile 5 forming the top surface and the crossbar profile 6 starting from the crossbar profile 5, the bottom of the leakage collection channel 17 is connected to the sealing strip 34. Overlapping at the distal end with the fixing groove 21 of the crossbar profile 5 for fastening of the crossbar, and located on the fixing groove 21, from the crossbar profile 6 into the leakage collection channel 17 of the crossbar profile 5. Leakage flows, and at all further connections between the longitudinal profile (1, 2) and the crossbar profile (3,4), the bottom of the leak collection channel 17 of the building facade profile is connected to the sealing strip of the other building facade profile. Characterized in that overlapping mounting groove for Building facade or window roof. The method of claim 1, The longitudinal profile (1,2) starting from the bottom vestibule floor is a profile wall extending transverse to the longitudinal intermediate plane of the longitudinal profile (1,2) and forming the bottom of the leakage collection channel (17). (8), wherein the profile wall (8) is provided with support means (16) for plate rims or filling plate rims, said support means having a dividing wall (20), said dividing wall (20) Characterized in that the hollow chamber 22 is formed simultaneously with the fixing groove 21 for the sealing strip. Building facade or window roof. The method of claim 2, The inclined slots 27 and 28 are provided in the dividing wall 20, and the inclined slots 27 and 28 form a strip-shaped protrusion 25 protruding into the hollow chamber 22. Building facade or window roof. The method of claim 3, wherein In order to provide a profile connection between the crossbar profile 5 and the crossbar profiles 1, 2, the crossbar profile has a notch shape in the upper part of the support means 16 which terminates with the separating wall 20, and the groove The height has a downward notch shape to the lower edge of the groove bottom (dimension H) of the crossbar profile, and after the notch 30 is formed at the end of the crossbar profile, the crossbar profile of the hollow chamber 22 was opened by the notch forming operation. Characterized in that it is mounted on a wall joint, Building facade or roof. The method according to claim 1 or 2, Characterized in that the side walls of the fixing grooves 21 of the longitudinal profiles 1, 2 are aligned with the side walls of the associated hollow chamber 22, Building facade or window roof. The method according to claim 1 or 2, Said longitudinal profile (1, 2) is characterized in that it has a hollow chamber (15) having a quadrilateral cross section between the intermediate thread groove (14) and the profile wall (8), Building facade or window roof. The method according to claim 1 or 2, The leakage collection channel 17 in the longitudinal profile 1, 2 is characterized in that it does not have an undercut and is formed in a quadrangular cross section or U-shape, Building facade or window roof. The method according to claim 1 or 2, Characterized in that cross sections of the crossbar profiles 3 and 4 and the crossbar profile 6 correspond to each other, Building facade or window roof.

Images