NL8802764A - Transparent roof panel-securing system - uses panels with corners chamfered to form thrust edges - Google Patents

Abstract

The clamping system secures rectangular transparent panels in rooves and gables. The corners of the plates (1) are chamfered at a45 deg. to form thrust edges, so as to bear against nodal components (3) with clamping devices (11). Holes (7) are formed in the plates near the thrust edges, to accommodate tapped bushes, (9, 10) with which the clamping devices engage.

Description

Clamping work for roof and facade panels.

Inventor: Ir. Hendrik Johannes Grashoff

The invention relates to a tensioning device for switching substantially rectangular roof and facade panels of transparent material, such as glass.

One of the conclusions drawn from the current development of glass facades and roofs is that the share of the material glass is increasing in importance. In the past, single-leaf glass was used, now it is increasingly laminated and hardened and glass is coated with various coatings. In particular, the laminated and the hardened glass offers excellent resistance to vandalism and also offers higher safety against all kinds of mechanical damage. Contemporary glass types have a certain overcapacity in the strong area, so that the glass can also be loaded with normal forces originating from other glass plates: that is, in vertical position, the glass must be able to be loaded by the weight of glass plates on top plus any constructive systems to make this completely stable. Applied in a horizontal roof situation, the glass plates could also take over the constructional function of the pressure-loaded metal elements.

The object of the invention is now to provide a clamping work that makes it possible to apply the signaled glass properties in architectural structures that meet the contemporary demand for the largest possible application of the material glass. However, since the invention can then also be automatically applied to other transparent material, the requested exclusive rights are also directed thereto.

The most important features of the invented tensioning are that the corner points of the plates are provided with pressure edges which are chamfered below 45p, which pressure edges cooperate with a button element provided with biasing elements, and that holes are provided near the pressure edges for fixing to the plates. of screw bushes co-operating with the biasing elements.

The knotter preferably consists of a center plate in which rectangular holes are provided for passing centering pieces with two inlets for passing the biasing elements. This measure ensures that the pretensioning force exerted by the biasing elements always acts centrally between the glass plates and the center plate.

The sides of the square heart plates are preferably longer than the pressure edges of the plates themselves. This provides space between the ordinary edges of the plates for receiving sealing material, which is compressed by biasing the construction and thereby forms a watertight seal.

One of the screw bushes associated with one hole is preferably provided with an internal screw thread, so that both screw bushes can just be connected to each other by means of an Allen screw. At this point, it may of course be desirable to work with rubber washers to prevent damage to the glass.

A heart plate may be covered on at least one side by a larger cover plate provided with corresponding rectangular holes for the centering pieces. The cover plates can have a central hole for receiving one end of a tensioning mast.

When the invention is applied to a roof or facade, the tensioning masts are mutually connected by wires which exert a tension force via the tensioning masts on the knot members.

The invention will be explained in more detail below with reference to the drawing, in which, by way of example, an embodiment of a tensioning device according to the invention is shown. In the drawing shows; figure 1 shows a test setup of a panel with nine glass plates; figure 2 shows a perspective view of an area of the panel where four glass plates come together; figure 3 shows a schematic top view of the area of figure 2, leaving out the cover plate; figure 4 is a larger-scale perspective view of a heart plate, a centering piece inserted therein, one of the biasing elements, and a pair of screw sleeves, and figure 5 a longitudinal section of a knot member.

The test arrangement of the panel of figure 1 involves nine glass plates 1 with smaller dimensions than they can actually have. These nine glass plates are located in a frame 2 which is not essential to the invention, and are as it were made as a whole by a tensioning work, which according to the invention consists of knot members 3 which can be mutually connected by wires 4. In the case of a vertical outer facade of a building built up from such panels, wires 4 must be provided on both the outside and the inside to be able to absorb the wind load. When used as a horizontal roof, it may be sufficient to apply a tensioning work with wires only at the bottom. The tensioning must then be dimensioned sufficiently strong to be able to absorb its own weight plus the snow load.

In principle, a system can also be created for the roof of glass panels coupled together, which are coupled by means of vertical tubular supports to form a structural whole with an under-tensioned system of tie bars or cables. It is also possible to reverse this completely; tensile load on the glass panels, the tubular supports on top, in order to create a connection with a coupled system of pressure-loaded horizontal pipes.

Whatever the view, the glass plates will in any case have to be coupled in such a way that it is possible to transfer normal forces in the form of tensile and compressive forces.

The essential features of the invented construction will now be explained with reference to Figure 3. The glass plates 1 must be provided at all vertices with pressure edges 5 chamfered at 45 ° which can cooperate with a square heart plate 6 of the knot member 3. Holes 7 are drilled near all vertices of the glass plates 1. Through these holes 7, Allen screws 8 can be inserted with which the screw bushings 9/10 can be fixed on the glass plates 1. These screw bushings 9/10 have screw holes for receiving pairs of biasing elements 11 which are connected to the center plate 6 and can thereby draw the glass pawls 1 towards the knot 3. Elastic joint tape 12 placed between the glass plates 1 is thereby compressed. This makes the connection between the glass plates waterproof.

It can be seen from figure 4 that the biasing elements consist of screw rods, and that four rectangular holes 13 are arranged in the heart plates 6 for passing centering pieces 14 with two recesses 15 facing away from each other and above and below the heart plate 6. The width and depth of these inlets 15 is such that the screw rods 11 can rest therein, running parallel to the glass plate 1. A nut 16 is drawn on the end of the screw rods 11 remote from the screw bushes 9 and 10. This should really be a nut if the biasing elements 11 are anchored in the threaded bushes 9 and 10, but the combination of threaded rod 11 and nut 16 can also be a bolt if the threaded rods 11 can rotate in threaded holes of threaded bushes 9 and 10. In all cases, the centering pieces 14 ensure that even though the pulling forces in one pair of screw rods 11 are not equal, a centric force is nevertheless transferred between the glass plate 1 and the center plate 6.

If the panel described so far has little or no load perpendicular to the glass plates 1, i.e. when used as an inner wall, the panel is completed. For all other applications, reference is made to figure 5. This shows that the center plate 6 is covered on both sides by a cover plate 17 (see also figure 2) which is larger than the center plate 6 and is provided with corresponding rectangular holes for the centering pieces 14. The cover plates 17 have a central, optionally blind hole for receiving one end of a tensioning mast 18. These tensioning masts 18 have holes at the other end for fixing the wires 4 there, which incidentally run parallel to the joint tapes 12.

Returning to Figure 1, it is noted that in projects to be carried out in practice, half knot members 3 will also have to be used in which only two glass plates come together. Also at the corner points of a panel provisions will have to be made to anchor the wires 4, but this does not change the essence of the construction described above. If the wires are properly tensioned, a frameless panel can be obtained which can be mounted in the desired location of the building.

Other embodiments than the one shown in the drawing also fall within the scope of the claims.

Claims (8)

1. Clamping for switching mainly rectangular roof and facade panels of transparent material. With the cheese *, that the corners of the panels (1) are provided with pressure edges (5) chamfered at 45 °, which pressure edges cooperate with a knot member (3) provided with biasing elements (11), and that holes (7) are provided near the pressure edges (5) in the plates (1) for fastening screw sleeves (9, 10) cooperating with the biasing elements on the plates ). Tensioning device according to claim 1, characterized in that the knotting member consists of a heart plate (6) in which rectangular holes (13) are provided for passing centering pieces (14) with two inlets (15) for passing the biasing elements (12). Clamping device according to claim 1 or 2, characterized in that the sides of the square heart plates (6) are longer than the pressure edges (5) of the plates (1). Clamping device according to one of the preceding claims, characterized in that one (10) of the threaded bushes (9, 10) associated with one hole (7) is provided with internal screw thread, so that the two threaded bushes are connected to each other by an Allen screw (8). can be connected. Clamping device according to any one of the preceding claims, characterized in that a heart plate (6) is covered on at least one side by a larger cover plate (17) provided with corresponding rectangular holes for the centering pieces (14). Clamping device according to claim 5, characterized in that the cover plates (17) have a central hole for receiving an end of a clamping mast (18). Roof or facade with a tensioning device according to any one of the preceding claims, characterized in that the tensioning masts (18) are mutually connected by wires (4) which exert a tensioning force on the knot members (3) via the tensioning masts. 8. Span work, roof or facade as shown in the drawing and / or discussed on the basis thereof.