NL8203538A - METHOD OF ATTACHING TRANSPARENT DOUBLE-WALLED PLATES. - Google Patents

Description

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Method. to bond transparent double-walled sheets together

The winding. refers to a system for bonding double-walled transparent sheets together.

For thermally insulating transparent surfaces (windows), double-walled plates with a cell structure are used on a large scale, which; 5 have been obtained, for example, by extrusion of polymethyl methacrylate with high light transmittance.

While in the extrusion direction such plates can have a virtually unlimited length. their size in the direction transverse to the extrusion direction is clearly limited by the manufacturing method.

When the application requires a width greater than the extrusion width of a single sheet, the need arises to bond multiple sheets together, while at the same time maintaining the homogeneity and continuity of the transparent surface as much as possible.

For this purpose, a number of different solutions currently exist which are mainly based on two principles: a) a pressure and snap coupling of plates, which along their edges are provided with coupling members which engage in corresponding coupling members to the adjacent plate ,. so that the plates hold together. The design of these coupling members and profiles and the choice of their dimensions is carried out in such a way that the two interlocking coupling members have such tolerances that, due to the elastic deformation of the material, a mechanical sealing of the edge is obtained by a spas sing. This type of coupling is used for materials of high toughness and mainly. for indoor home applications, where clear requirements of airtightness and watertightness must be met.

b) Coupling by means of separate coupling members, usually made of aluminum, at intermediate intervals of rubber gaskets or seals or obtaining airtightness and rain tightness, together with retaining means and fasteners for the supporting structures. This type 30 coupling is used for materials with high rigidity, which are less tough and especially .. for applications in contact with the outside air, where the requirements for density are maximum. However, both types of couplings have some drawbacks:% 8203538 -2-r

In type (a) which is based on a mechanical press fit of the material, a relaxation will occur over time with the result that the coupling slackens and loosens. In addition, this type of coupling makes it difficult to absorb deformations due to its thermal expansion of the material due to its structure, so that unusually high stresses occur in the finished article; coupling (b) requires the use of profiles, gaskets and fairly expensive assembly operations. In addition, these profiles are less transparent and form an esthetically unfavorable discontinuity of the total transparent surface. From the point of view of application, these profiles, which have to hold the two edges of the plates by clamping, have the drawback that they protrude beyond the surfaces of the plate itself, so that they are problematic at the places where the whole is clamped in the frame. when attaching the structures.

The coupling system according to the invention consists of a combination of at least two plates, wherein the edges to be joined are formed such that they can be coupled or joined by sliding together a male / female (or positive / negative) shape of the contiguous elements.

In particular, one of these plates on at least one of the edges is intended. is for coupling to another plate, provided with a female recess or convex in the thickness of the plate edge, which recess or convex extends over the entire length of. that edge and parallel to that edge.

The other plate is on at least one of the edges. which is intended for joining with the other sheet, provided with a male projection obtained from the thickness of the sheet edge, which also extends the length of and parallel to that edge itself. This male protrusion must be such that it fits into the female recess 30 or cavity of the other plate, so that together with the latter it forms a system 4 of two plates in a coupled position,

The said male protrusion is provided with two grooves, one on each side of the protrusion and opposite each other. These grooves extend parallel to the edge of the plate and along the length of the projection itself. Likewise, said female cavity is also provided with two grooves, 1 and on each inner surface of the two opposite walls of this cavity.

These grooves are opposite and extend parallel 8203538 ψτ: 'ϊ .......' '.............' r ~ r .....

The edges of the walls, which form the cavity, run along the entire length of the cavity itself.

In the system of two plates in the coupled position, the grooves on each wall of the male protrusion correspond to and are connected to the grooves in each wall of the female cavities by means of an elastic object, which occupies the space between the two grooves and serves as a gasket or seal between the projection and the cavity.

This elastic body extends over the entire length of the said grooves; its thickness or smallest dimension is approximately equal to the width of the grooves in the male protrusion, but slightly smaller so that the gasket is retained in those grooves, while that gasket is smaller than the width of the grooves in each wall of the female cavity, so that mutual displacement of the two coupled plates remains possible and thermal expansion of the plates can also be included.

Figures 1A and 1B show in perspective and in section a plate 1 with an edge B, formed into a male protrusion 2, which extends along the thickness. of edge B along its entire length, while this projection is provided with grooves. This male projection may be provided with an internal cell structure or may be as shown in Figs. 1A and 1B, respectively. or it can be solid and dense.

Figures 2A and 2B show respectively. a perspective view and a cross-section of plate 1, with the female cavity or recess 3, which is provided in the thickness of the edge B and which has a groove F on each of the opposite inner surfaces of the cavity.

Fig. 3 is a sectional view of an assembly of two coupled or joined plates with gaskets of elastic objects 6 interposed between the grooves 1 and 5 in the male protrusion and in the female recess or recess.

Fig. k shows a detail of the elastic connection obtained by the elastic article 6, which is arranged in the grooves 4 and 5.

This elastic article or gasket can be made of any natural, artificial or synthetic material, for example natural or synthetic rubber, and more preferably of a translucent or transparent type of elastic material.

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It is sufficient to combine the plates with one another, the male projection 2, the grooves of which k already already contain an elastic article or gasket 6, in the female recess. or cavity 3, either by pushing it from above or with the aid of a slight lateral pressure, after which this protrusion is shifted along the female cavity. to the desired. stand. To facilitate insertion of the male protrusion into the female cavity, the inner walls of the opposing walls of the cavity itself may diverge slightly towards the outside of the cavity.

In Figs. 1A, 1B, 2A and 2B, the distance between the grooves k of the male protrusion 2 and the outer end E of this protrusion is smaller than the distance between the grooves 5 in the female cavity and the lower end C of this cavity. As a result, the distance between the grooves k and edge B of the plate is also greater than the distance between the grooves 5 and the edge B of the plate.

This is done because an empty space must remain between the joined plates. for the thermal expansion of the material and its environment. These spaces are indicated in figure 3 by the number J.

The xands of the plates to be joined may be asymmetrically formed on opposite edges of the same plate, ie the right edge may have a male protrusion, while the left edge of the plate has a female recess or cavity or -the configurations of the edges can be symmetrical, ie the two opposite edges can both be provided with male protrusions or both with female recesses.

The coupling system described above makes it possible to make a side-to-side connection or joining of a number of plates with each other and it makes it possible.

(a) keep the surface continuously transparent; 30- b) obtain good watertightness and airtightness; c) absorb the thermal expansion of the material; and d) also to keep the thickness of the plates constant on the joint edge.

The coupling system according to the invention is particularly suitable for 35 double-walled transparent plates with a cell structure and which, irrespective of the material used, can consist of: glass, polymethacrylate or other transparent materials and which also include installation 8 2 0 3 5 3 8 Winding problems can arise, many of which are mentioned below under points (a) - (d) and many of which can be solved according to the invention.

8203538

Claims (3)

1. System for coupling or joining double-walled transparent. Many cellular plates, characterized in that it consists of nit. a combination of at least two plates with the following properties a) one of those plates is provided on at least one of its connected edges with a female recess or recess in the thickness of the edge itself, which extends over the entire length of that edge and parallel to that edge; b) the other plate is formed on at least one of the joined edges into a male protrusion extending the entire length of the edge and parallel to that edge which can be slid into the aforementioned female hollow or recess; c) the female recess or recess is provided on each inner surface of the side walls of that cavity with a groove opposite the other wall, each groove extending parallel to the edge 15 of the plate in which said recess is arranged and over the entire length of that edge and of the cavity; d) said male protrusion is also provided with two grooves, one on each of the opposing side faces of said protrusion. which grooves extend parallel to the edge of the plate on which the protrusion is mounted, while extending the entire length of the protrusion itself; e) in the joined set of plates, each of the grooves on the opposing faces of the male protrusion is connected to the corresponding groove in the corresponding inner face of the female recess or recess by an elastic object interposed between those two grooves placed and. extending the entire length of those grooves, the cross section of this object being approximately equal to the width of the grooves in the male protrusion and smaller than the width of the grooves on the inner wall of the female protrusion 30 hollowing ... System according to claim 1, characterized in that the distance between the grooves on the male protrusion and the outer or furthest end of the protrusion is smaller than the distance between the grooves on the inner walls of the female cavity and the lower end of said recess or depression, while the distance between the grooves on the male 8 20 3 5 3 8 | llpr. : 'Γ: <·. * ♦ ·:. -7- protrusion and the edge of the plate, on which this protrusion is fixed, is larger; then the distance between the grooves of the female recess. or recess and the edge of the slab, in which the recess or recess is provided. 5 3. System according to claim 1 or 2, characterized in that the hollow surfaces of the opposing walls of the female cavity or storey expand towards the outer side of said cavity or storey, 8203538