CZ280115B6 - Structural member for a wall frame - Google Patents

Abstract

Elongate structural element made from laminated metal and intended to be used as a component of a wall frame determining a cavity for receiving insulating panels made of glass fibres of the type having easily separable layers, the said element (12) forming a U shape in cross-section defining a web (18) and two flanges (20) connecting the said web and having a width at least one quarter of that of the said web, the said element being employed as a post, the said post having sections cut out from the said web, which sections are longitudinally spaced apart and each one defining an elongate branch (36, 38) ending in a free point (46) and having free longitudinal edges and an internal end integral with the said web in a line of flexure (42), the said branch being able to flex between a non-operative position coplanar with the said web and an operative position generally orthogonal to the said web so as to engage and to retain an insulating panel, the said branch, when it is in its operative position, being inclined downwards and transversely towards one of the said flanges, and at least one of the said longitudinal edges being inclined relatively to the plane of the said web. <IMAGE>

Description

Design element for wall frame

Technical field

BACKGROUND OF THE INVENTION The present invention relates to wall frames for buildings, and more particularly to wall frame elements provided with new means for supporting and holding insulating fiber mats between the elements.

BACKGROUND OF THE INVENTION

In the construction industry, it is currently common to add insulating materials to the interior walls of a room, ceiling, crawl space, cellar, or to the exterior wall of a building. Such insulating materials are used for their sound-insulating ability, often for residential buildings, commercial buildings, etc., to provide users with peace and privacy. Instead or in parallel, such insulating materials are used for their thermal insulating ability, this insulation being necessary for all exterior walls of buildings in cold regions and also in warmer regions where, on the contrary, it is required to maintain a cooler temperature compared to the surroundings.

Such insulating materials are attached between the vertical structural members of the wall frame. Flexible glass fiber mats are often used. Such mats are compressible and consist of easily separable layers. So far, the mats have been adhered to one or more sheets of paper which served as a means of securing the mats in place. However, paper is not used now because of the risk of fire.

It is known that when glass fiber mats are not fixed, they tend to move or slide from their original position into the cavity of the wall in which they are laid, the more the thicker the mats are used.

There are many reasons why insulating mats slide into the wall cavity. Some of the most common causes are related to construction work conditions, vibration, moisture and water absorbed as a result of natural weather and working conditions, the use of unsuitable support members and many other operating conditions where friction-holding products do not serve as needed.

Of course, sagging insulation means an unacceptable loss of thermal or acoustic insulation at exposed locations.

Attempts have already been made to solve this problem. The proposed improvements relate either to the bonding of the mats to the abutment surface or to the attachment of metal strips across and at a vertical spacing as an additional element to the wall frame, the strips having sharp spikes which are inserted into the mats to secure them more reliably.

Gluing or using additional crossbands requires extra work and control. It has also been found that the belts do not hold the mats sufficiently.

-1GB 280115 B6

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a wall frame structural member provided with improved means for supporting and holding insulating fiber mats between the structural elements.

It is also an object of the invention that the ability of the structural members to support and hold said mats is time-stable and very effective.

It is a further object of the invention that the proposed structural element is advantageous in terms of production costs, that its function in building structures is reliable and finally that it can be easily and safely installed.

The above-mentioned drawbacks, while meeting the objectives of the invention, eliminate an elongated U-shaped structural member as part of a wall frame in which the structural member is positioned vertically, the structural member defining a cavity for receiving an insulating mat, and consisting of a web and two side walls connected by a web, where the web of the feature is spaced apart with separate spikes in the form of a spike with a spike, with longitudinal edge edges, and with a base that extends along the bend line of the feature , to the working position in which the surface of the spike of the component is and back an integral part of the web of the component. The feature of the feature is that the width of the sidewalls of the feature is equal to one quarter of the width of the feature web, and that in the working position of the feature spike its surface is inclined relative to the feature's longitudinal axis and the spike is inclined to one of the side walls of the structural member, wherein at least one longitudinal edge edge of the spike is inclined relative to the web surface of the structural member.

The longitudinal axis of the spike of the component is preferably inclined relative to the longitudinal axis of the component in the off-position position of the spike.

It is further preferred that the bend line of the spike of the structural member is inclined relative to the longitudinal axis of the structural member.

For the proper function of the structural member, it is preferable that only the longitudinal edge edge of the structural member spike oriented in the working position of the structural member to the structural member web is provided with mutually separated barbs oriented towards the structural member bend line. The spike may also be provided with a longitudinal reinforcing rib.

Advantageously, the structural element is designed such that the spikes of the structural element are arranged in pairs and in the working position oriented from the web of the structural element and in opposite directions to impale the insulating mats on opposite sides of the web of the structural element.

-2GB 280115 B6

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partial perspective view of a component according to the invention with spikes in the deployed working position ready to impart the insulating mats and hold them against sagging in the wall; FIG. 2 is a longitudinal partial section. 1 is an enlarged view of FIG. 3, but with a variation of the cross-section, FIG. 4 is a partial view of a construction element associated with the lintel, with the structural element in view and with the lintel in cross-section; Fig. 5 is a partial longitudinal sectional view of the structural member and lintel, with the structural member spikes in the bent working position; Fig. 6 is a top view of the lintel and attached structural members in section, including insulating mats; which are held here by the spikes of the structural element located in the bent right Fig. 7 is a partial cross-sectional view of a spike member in an operative position showing a cross-section of a dry wall panel mounted to a side wall of the struts; Fig. 8 is a view of a tab plate with spikes in an angled operative position; Fig. 9 is a cross-sectional view of Fig. 6 with the spikes of the structural member fixed to the two insulating mats at their joint joint; Fig. 10 is a view of a variation of the retaining plate for fastening the upper part of the mat to lintel; with the fastening plate of FIG. 10 attached.

An example of an embodiment of the invention

The wall frame 10 of the building, preferably made of metal, shown partly in FIG. 1, consists, inter alia, of a plurality of structural elements 12 arranged in a vertical position parallel to each other at intervals. The lintel 14 connects the upper ends of the structural members 12 and the crossbars 16 and / or 16 'may connect the lateral edges of the intermediate cross-sections of the structural member 12. Floor beams (not shown) similar to the lintel 14 carry the lower ends of the structural members 12. W are attached to one or both walls of the wall frame 10 and complete the wall. Each Member 12, 14, 16, 16 ' it is made of sheet metal and has a substantially U-shaped cross-section so as to form a trough. The component 12 is only slightly smaller than the lintel 14 in order to be inserted therein. The structural members 12 have a conventional cross-section, and are formed by a web 18 and two side walls 20, each provided with a narrow, inwardly bent flange 22. The width of each side wall 20 of the structural member 12 is at least one quarter of the width of the web 18 of structural member 12.

Each cross member 16, 16 'is formed by a base wall 24 and two side walls 26. Both side walls 26 of the cross member 16 have an outwardly bent flange 28. On the cross member 16.' only one outwardly bent flange 28 is formed. The crossbars 16 'serve for sound insulation purposes so that their side wall 26 opposite the flange 28 of the crossbeam 16' is perforated.

When the crossbars 16 or 16 'are not used, the dry wall panels W formed by normally gypsum boards are attached directly to the side walls 20 of the structural members 12. If the crossbars 16 or 16' are used, the dry wall panels W are attached to the base wall. 24 of these crossbars.

-3GB 280115 B6

The structural elements 12 and the lintel 14 are adapted to accommodate conventional insulating mats B that fill the space between the structural elements 12 and the dry wall panels w. The insulating mats B are rectangular and are made of fiberglass which are oriented in the main plane of the insulating mat B and form easily separable layers.

The sidewalls 30 of the lintel 14 are fastened by screws 32 to the side walls 20 of the structural members 12, while the flanges 28 of each cross member 16 or 16 'are fastened by screws 34 to the corresponding one side wall 20 of the structural member 12. Typically, the threaded portions of the screws 3.2, 34, which are on the side of the trays of the structural elements 12, impart insulating mats B therein, but this is not sufficient to prevent sagging of the insulating mats B.

According to the invention, the members 12, 16, 16 '. (known per se) have partially cut out spikes 36, 38, 54 spaced along the length of these members.

As shown in FIG. 1, pairs of spikes 36, 38 are arranged along the length 18 of the member 12. The spikes 36, 38 of each pair are parallel, spaced apart and pointed upwardly with the tip 46. Each spike 36, 38 of the structural member 12 is partially cut out of the web 18 of the structural member 12 and leaves the aperture 90, while remaining connected to the web 18 of its structural member 12 along its base along the bend line 42 of into working position.

Before use, the spikes 36, 38 of the component 12 remain flush with the web 18 of the component 12 / to prevent injury during handling of the components 12. However, when the components 12 are mounted, the spikes 36, 28 bend along the line 42 bending around its base alternately outwardly in opposite directions to an operating position generally perpendicular to the web 18 of the structural member 12, the upper spikes 36 of the structural member 12 preferably pointing away from the side walls 20 of the structural member 12 and the lower spikes 38 of the structural member 12 In this position, the two spikes 36, 38 of the structural member 12 can impale a pair of opposing insulating mats B which are interposed between the structural members 12 and rest against the web 18 of the structural member 12.

As can be seen, not only the longitudinal axis of each spike 36, 38 of the component 12 is inclined relative to the longitudinal axis of the component 12, but also the bend line 42 of the spike 36, 38 is inclined relative to the longitudinal axis of the component 12 as well. Thus, when the spikes 36, 38 of the component 12 move to the working position, they not only pass through a plurality of glass fiber layers of the insulating mat B, but also the plane of the spikes 36, 38 is inclined relative to the vertical. Only their upper longitudinal edge is provided with inward spikes 44 and the spikes 46, 38 have a conical tip 46. It has been found that in this arrangement the attachment of the fiberglass insulating mats B is very effective and the spike 36, 38 of the structural member 12 into the insulating mat. B is very easy. It is sufficient to push the insulating mats B on the spike 36., £ 8. When the pressure is released, the insulating mat B tends to slide down the transversely inclined spike 38 or 36 until it abuts the side wall 20 of the structural

The element 12, or on the dry wall panel W, is fastened to the side wall 20 of the structural member 12 or to the crossbar 16 or 16 '. Each spike 36, 38 is preferably provided with a longitudinal reinforcing rib 48.

As can be seen from FIGS. 1 to 3, the spikes 54 of the cross-member 66 are cut from each flange 28 of the cross-member 16 at a distance along its length. It forms an aperture 52 that corresponds to the shape of the individual spike 54 of the crossbeam 16. The spike 54 of the crossbeam 16 is substantially rectangular with a short tapered tip 56 and a barb 58 at the edge opposite the corresponding side wall 26 of the crossbeam 66. the crossbar 16 with its base 55, about which it can be avoided from a basic position in which it is flush with the flange 28 of the crossbar 66, to a second position facing away from the flange 28 and inclined about 30 * from the axis perpendicular to the flange 28 on the outside a plane passing through the corresponding side wall 26 of the crossbeam 16 and parallel to the base wall 24 of the crossbeam 66 so that it can impal the insulating mat B. As can be seen in Fig. 2, both spikes 54 of the crossbeam 16 are inclined upwards so that the insulating mats B they tend to slide down the spike 54 and abut the flange 28 of the cross-member 66. In crossbars 46 'having only one flange 48, there is only one row of spikes 54 inclined upwards. The longitudinal axis of the spike 54 of the crossbeam 46 'is parallel to the longitudinal axis of the flange 28 of the crossbeam 46' because the flange 28 of the crossbeam 46 'is narrow, but the base 55 of the spike 54 is tilted up to the point 54.

FIGS. 8 and 9 show a gripping plate 80 with a modification of the spikes 76, 78 of the gripping plate 80. The spikes 76, 78 of the gripping plate 80 are cut from a rectangular gripping plate 80 to form a corresponding aperture 86, 82 '. Their base 86 is perpendicular to their longitudinal axis. Each spike 76, 78 of the gripping plate 80 has barbs 88 along only one longitudinal edge. The spines 88 of the pair of spikes 76 of the gripping plate 80 are opposite each other and the spikes 76 of the gripping plate 80 diverg from each other starting from the base 86 of the spike 76 of the gripping plate 80. The same is true for the pair of spikes 78 of the gripping plate 80.

When the spikes 76, 78 of the gripping plate 80 evolve into their working position, the gripping plate 80 is pressed against the two insulating mats B at their butt joint C, with the spikes 76, 78 of the gripping plate 80 being woven into the insulating mats B. they can press in any position, but always the spikes 76, 78, their spikes 88. are at the highest, diverging transversely and downwards so as to exert a certain tension in the insulating mat B under the weight of the upper insulating mat B. the insulating mats B are also kept flush.

The retaining plate 80 may have apertures 90 in all four corners, of which the two uppermost holes serve to secure the retaining plate 80 by bolts 92 to the lintel side 14 in the manner shown in Fig. 11 so as to hold the insulating mats B in this lintel. For this use, a gripping plate 80a having only one pair of spikes 78a, corresponding spikes 78 of the gripping plate 80 of Fig. 8 and secured to the lintel side 14 by screws 92 passing through holes 90 ♦ The gripping plates 80 or 80a may be of course, to be attached to the wooden lintel instead of the lintel 14 made of metal. The spikes 78a of the gripping plate 80a have a longitudinal stiffening rib 94. The spikes 76 and 78 of the gripping plate 80 may be reinforced or the like.

-5GB 280115 B6 frame (10), with elongated wall mounted to fit two side webs (18)

PATENTOVÉ

Claims

Claims (6)

The U-shaped wall element (12), the frame (10) in the vertical position and defining the cavity of the insulating mat (B) is formed by a web (18) and walls (20) connected by a web (18). the element (12) is provided with spaced apart notches in the form of an elongate spike (36, 38) with a spike (46), with longitudinal edge edges, and with a base that is along the spike line (42) of the spike (36, 38) 12) from a non-working position in which the spike (36, 38) lies in the surface of the web (18) of the member (12) to an operating position in which the spike (36, 38) surface is at least approximately perpendicular to the web surface (18) of the structural member (12), and back, an integral part indicating the wall (20) of the structural member a quarter of the web width (18) of the working position of the spike, its surface inclined (12) and to one (12), and the web (18) , the structural member (12) of the structural member cons of the member (12) is inclined in that the width of the side is at least one (12), and in (12) is to the longitudinal axis of the member (12), the edge edge of the spike (36, 38) being the web (18) of the structural member (12). (36, 38) with respect to (36, 38) a spike from the side walls of at least one inclined with respect to the longitudinal surface A structural element according to claim 1, characterized in that the longitudinal axis of the spike (36, 38) of the structural element (12) in a non-working position is inclined relative to the longitudinal axis of the structural element (12). A structural element according to claim 2, characterized in that the bend line (42) of the spike (36, 38) of the structural element (12) is inclined relative to the longitudinal axis of the structural element (12). The component according to claim 1, 2 or 3, characterized in that only the longitudinal edge edge of the spike (36, 38) of the component (12) oriented in the working position of the spike (36, 38) to the web (18) of the component (12). 12) is provided with mutually separated barbs (44) oriented towards the bend line (42) of the spike (36, 38) of the structural member (12). The component according to claims 1 to 4, characterized in that each spike (36, 38) of the component (12) is provided with a longitudinal reinforcing rib (48). A structural element according to claims 1 to 5, characterized in that the spikes (36, 38) of the structural element (12) are arranged in pairs and oriented in the operating position from the web (18) of the structural element (12) in opposite directions to each other. piercing the insulating mats (B) on opposite sides of the web (18) of the structural member (12).