FI120270B - Wall frame construction - Google Patents

Description

WALL FRAME STRUCTURE

The invention relates to a wall frame structure according to the preamble of claim 1.

5

Facades of buildings are made up of various elements, such as glass elements, which are assembled on metal frame profiles. Typically, these frame profiles act as a bearing frame structure for the wall structure. Frame profiles should be sufficiently strong and rigid, but preferably also as light as possible. It is possible to form lightweight profile structures of aluminum that are sufficiently strong and rigid under normal conditions of use, but the use of aluminum is problematic when forming fire-safe and partitioning structures. The aluminum-only structure essentially loses its strength at high temperatures that occur in fires due to the softening and melting of aluminum. As a result, in applications requiring high fire safety, metal profiles other than aluminum are typically used in the manufacture of frame profiles, or profiles made of aluminum are provided with various reinforcement profiles. The fire resistance can be further improved by adding heat-binding or insulating material, for example gypsum board, to the inside or outside of the frame profile.

To reinforce the wall frame structure, for example, a steel reinforcement profile, the so-called steel reinforcement profile, can be placed inside the aluminum cavity profile. exoskeleton. This structure uses aluminum and steel, which have different coefficients of thermal expansion and may have different temperatures. This results in different thermal expansion of the interior and exterior in fire situations. Connecting structures made of different materials so that different thermal movements of the materials do not cause additional stress and deflection is problematic. Temperature fluctuations during normal use do not cause such problems, but as the temperature rises, hundreds of degrees can occur in the event of a fire, causing the structure to deteriorate or premature decay due to heat movement.

2

It is an object of the present invention to provide a wall frame structure which reduces the structural deflection due to temperature variation and can thus be used in fire safe and partitioning structures.

To accomplish this purpose, the wall frame structure of the invention, comprising at least a first aluminum outer profile and a support ring disposed thereon, and a second aluminum profile 10 substantially perpendicularly attached to the first outer profile and a support bar disposed therein, are characterized in that a support plate is provided with a support plate whose position in the support ring may change in the longitudinal direction of the support ring, and a support bar inside the second outer profile 15 substantially perpendicular to the first outer profile is secured to said support plate by means of a connector.

Other dependent claims disclose some preferred embodiments of the invention.

20

The basic idea of the invention is to form a wall frame structure from an aluminum outer profile forming an outer shell and a supporting ring within it by joining the vertical and horizontal portions of the frame structure so that they can move relative to one another when required, for example The frame structure consists of the first outer profiles, the so-called. of the main profiles and of the second profiles substantially perpendicular to these main profiles, i.e. across the profile. A support plate is disposed within the support profile of the main profile so that, if necessary, the support plate can move within the support support in the longitudinal direction of the support support. The cross section support bracket is secured to this support plate inside the main profile support bracket by means of a connecting piece. The joint is shaped such that it allows movement of the cross-section support ring in the longitudinal direction of the cross-section of the joint. The support rings, the support plate and the connecting piece inserted into the outer profiles made of aluminum are made of a material which has a higher melting temperature than aluminum. Thus, the strength of the frame structure according to the invention is maintained at high temperatures, such as in a fire, because the connecting plates of the support plates prevent deflections and other stresses on the frame structure due to the different thermal movement 5 of the support frames and aluminum profiles.

Due to the structure and fastening mechanism according to the invention, the change in temperature does not cause forces between the outer profile and the support ring 10 inside it, unlike in the case where the connector is fixed directly to the support ring. Thus, the structure deflection due to temperature variation does not occur or remains small in the frame structure according to the invention. This property improves the fire resistance of the wall frame structure, so that the structure remains sized for a sufficient period of time in case of fire.

In one embodiment of the invention, a filler material, for example a gypsum element or the like, may be inserted between the outer profile and the supporting ring within it to retard heat rise.

20

In the following, the invention will be explained in more detail with reference to the accompanying drawings, in which Fig. 1 is a fragmentary view of parts of the frame according to the invention; Figures 2a-2d show the interconnection of parts of the frame; and Figure 4 is a side elevational view of a joint of parts of a frame structure according to the invention.

35 The term "longitudinal direction" is used in the description to refer to the direction parallel to the longest side of the outer profile beam or support bar. The outer profile of the frame structure and the support ring have a constant cross-section.

Figure 1 shows parts of the frame structure according to the invention, and Figures 2a-2d show the joining of parts of the structure. The frame structure of the wall comprises main profiles and cross sections which are substantially perpendicularly attached thereto. The figures show, by way of example, one vertical main profile and a horizontal cross section attached thereto. One skilled in the art will appreciate that the wall frame structure 10 may comprise a plurality of main and cross sections depending upon the desired wall frame structure. The main profile may be horizontal or vertical to which at least one cross section is substantially perpendicularly fixed. The main profile is generally longer in length than the transverse profiles substantially perpendicular to it.

15

The figures show a frame structure in which the main profile comprises an aluminum outer profile 2 with a support bar 3 inserted therein and a cross-sectional profile comprising an aluminum outer profile 8 with a support bar 7 inserted therein -connections. The cross-section support bracket 7 is secured to the support plate 4 by a connecting piece 5 such that the cross section support bracket 7 is located substantially perpendicular to the outer profile 2 of the main profile. The connecting piece 5 is secured through the outer profile 2 of the main profile to the support plate 4 by one or more fastening members 10, for example a screw.

The aluminum outer profile has shapes that allow glass panels or other façade panel elements, sealing strips, cover strips and the like to be fixed to the frame structure. These forms and their purpose are known in the art.

The cross-sections of the support ribs 3, 7 are substantially similar to the I-beam and the support plate 4 is disposed within the support ring 3 of this I-beam main profile on the side of the cross-sections. The support plate 4 is positioned in the groove of the I-beam 35 so that it can move substantially freely in the longitudinal direction of the groove as a result of the different thermal movement of the materials caused by the temperature change. When the main profile is vertical, the downward movement of the support plate 4 is prevented by attaching an obstacle piece, for example a screw 9, to the support ring 3 below the support plate 4. The support plates 4 are positioned at the junctions of the cross sections of the main profile support ring 3, so that their position and number in the main profile support ring 3 may vary depending on the desired wall frame structure.

The connector 5 is secured to the support plate 4 by means of fastening means 10 through an outer profile 2 of the main profile from a directional portion 10 of the support plate 4 of the connector 5. The connecting piece 5 also comprises flanges 6 substantially perpendicular to the direction of the support plate on both sides of the connecting piece, the inner surface of which has protrusions 6 perpendicular to the flanges. the grooves. The outer profile profile 8 of the cross section is placed over the cross section support ring 7 and the connecting piece 5 so that they remain within the outer profile 8. Further, the outer profile 8 of the cross section is attached to the outer profile 2 of the main profile.

Figure 3 is a cross-sectional view of the support profile 3 of the main profile and the supporting plate 4 inserted therein. The support plate 4 is in the form of a bent plate which fits in a groove formed by an I-bar shaped support ring 3.

Fig. 4 shows that the cross-section support bracket 7 is inserted into the connecting piece 5 so that the projections 6 in the connecting piece 5 are located in the grooves on the outer edge of the supporting bracket 7. If necessary, the cross-section support ring 7 can move in these projections over the length of the projections. The connecting piece 5 is secured by means of fastening means 10 through the outer profile 2 of the main profile to the support plate 4 inside the main profile support ring 3. 30 The external profile 8 of the cross section is placed on the support ring 7.

The main profile may also be horizontal with vertical cross sections attached thereto. The fastening mechanism in this case is similar to that described above. The support plates are located in the support ring of the main profile 35 and allow the support arms of the boom profiles fixed to the support plates by means of a connecting piece to move horizontally, if necessary. If necessary, the vertical support arms of the cross-sections also move within the limits allowed by the projections 6 of the connecting piece 5.

The outer profiles 2, 8 are formed by dropping from aluminum. The support rings 3, 7 and the support plate 4, which are inserted into the outer profiles 5, are made of a material which has better heat resistance than aluminum. Preferably, the support rings 3, 7 and the support plate 4 are made of steel. Also, the connection piece 5 is made of a material which has better heat resistance than aluminum, preferably steel.

10

During rapid temperature changes, such as fire, the aluminum outer profile 2, 8 softens or melts earlier than the support rib 3, 7 inside the aluminum profile. Before melting, the aluminum expands as the temperature increases. The cross-section support ring 7 is attached by means of a connecting piece 5 to a support plate 4 in the main profile support ring 3 which moves in the longitudinal direction of the support ring 3 while thermal expansion takes place in the aluminum. In other words, the steel support plate moves along the support ring with the aluminum. Thus, the forces between the outer profile of the structure and the support ring inside it are not generated and the structure deflections due to the temperature rise do not occur or remain small and the frame structure thus remains intact for a defined time. Also in the fire situation, the outer profile 8 of the aluminum cross-section expands more than the inside support bar 7, but forces acting on the structure cannot be generated because the main support bar 7 moves over the projections 6 of the connecting piece 5. This also contributes to the wall frame structure in case of fire.

For example, the heat generated by a fire can be up to 40 mm in a main profile about 4 meters long. Thus, the method of attaching the main profiles 30 and the cross sections described above substantially reduces and prevents deflections and distortions of the wall frame structure in the event of fire and maintains the structure for a sufficient period of time.

Between the outer profile of the main profile and / or the cross section profile and the support strip within it, a filler material, for example a gypsum element or the like, may be inserted to retard heat rise.

7

It will be understood, of course, that the invention is not limited to the above embodiments, but that, for example, the support bar and / or outer profile may be shaped in a manner different from the examples. The purpose of the support bar is the same as in prior art solutions: to maintain the load-bearing capacity of the structure for at least a certain time in the event that the outer profile is destroyed or its strength is reduced in a fire situation and generally act as a reinforcing element.

The invention is not intended to be limited to the exemplary embodiments set forth above, but is intended to be extensively applied within the scope of the inventive idea defined in the claims defined below.

Claims (6)

1. A frame structure for a wall comprising at least one - an aluminum exterior profile (2) and a skeleton (3) positioned within it, and - a second aluminum profile substantially perpendicular to the first outer profile (2). 8) and a skeleton (7) located therein, characterized in that in the skeleton (3) located inside the first outer profile (2) is placed a support plate (4), the position of which in the skeleton (3) can be changed in the skeleton (3). longitudinal direction, and the relative perpendicular to the first outer profile substantially perpendicular, within the skeleton (7) existing of the second outer profile (8) is attached to said support plate (4) by means of a joint (5). A wall structure for a wall according to claim 1, characterized in that the joint (5) is attached to the support plate (4) with one or more fasteners (10) through the first outer profile (2). Frame structure for a wall according to claim 1 or 2, characterized in that the skeleton (7), which is substantially transverse to the second outer profile (8) relative to the first outer profile, is placed in the joint (5) so that the projections of the joint ( 6) is located within the latch at the outer edge of the skeleton (7). Frame structure for a wall according to any of the preceding claims, characterized in that when the first outer profile is vertical, the movement of the support plate (4) downwards in the longitudinal direction of the skeleton (3) is prevented by attaching a buffer piece (9) below the support plate ( 4). Frame structure for a wall according to any of the preceding claims, characterized in that the skeleton (3, 7) and the supporting plate (4) are made of frame. Frame structure for a wall according to any of the preceding claims, characterized in that filling material is placed between the outer profile (2, 8) and the skeleton (3, 7).