GB2106159A

GB2106159A - System for connecting transparent plates

Info

Publication number: GB2106159A
Application number: GB08226243A
Authority: GB
Inventors: Adriano Colombo; Isidoro Ronzoni
Original assignee: Montedison SpA
Current assignee: Montedison SpA
Priority date: 1981-09-16
Filing date: 1982-09-15
Publication date: 1983-04-07
Also published as: JPH0224815Y2; GB2106159B; NL8203538A; DE8226153U1; NL191948B; NL191948C; BE894413A; JPS58167106U; IT8122912V0; FR2512921A1; FR2512921B1

Abstract

In a system for connecting double-walled transparent plates having a cellular structure, along the edge of one plate is provided a projection having grooves (4) while along the cooperating edge of the other plate is formed a cavity having grooves (5), the plates being connected by inserting the projection in the cavity, and elastic packings (6) being inserted in the cooperating pairs of grooves (4, 5), the width of the packing (6) being approximately equal to the width of the grooves (4) but less than the width of the grooves (5). <IMAGE>

Description

SPECIFICATION System for connecting transparent plates The present invention relates to a system for connecting transparent plates, in particular double-walled transparent plates of cellular structure.

In the thermal insulation of transparent surfaces (windows) there are widely used doublewalled plates of a cellular structure, obtained for instance by extrusion of polymethylmethacrylate having a high light transmittance.

While such articles may have an indefinite length in the direction of the extrusion, in the transverse direction they have a well defined width, determined by the manufacturing technology.

In the case of surfaces exceeding the established manufacturing standard width of a single plate, there arises the necessity of joining several plates to each other while preserving, as far as possible, the homogeneity and continuity of the transparent surface.

To this end there are at present used several different methods, substantially based on two principles: a) A pressure and snap coupling of plates that along their edges have coupling profiles that match and engage the matching coupling profile of a neighbouring plate. The design of such coupling profiles and the dimensioning of the corresponding parts is such that the two complementary parts are sufficiently elastically deformable to ensure a mechanical seal by a forced fit. This type of connection is used for materials of great toughness and particularly for interior applications where there are particular requirements of air and water tightness.

b) Connection by means of structural sections, generally made of aluminium, with the interposition of rubber gaskets or packings to achieve air tightness and weatherproofing, together with locking elements and means for fixing to the carrying structures. This type of connection is used with materials of high rigidity, above all for use in exterior applications with requirements of maximum sealing.

However, both types of connection have certain drawbacks, more particularly: - Connection (a), being based on a mechanical forced fit of the material, in the course of time will tend to loosen. In addition, due to its structure, this kind of connection will make it difficult to absorb the thermal deformations that arise, thus giving rise to stresses in the manufactured article.

- Connection (b), requires the use of structural sections, gaskets and rather expensive assembling operations. Moreover, these sections, being more opaque, constitute an aesthetically undesirable discontinuity with respect to the total transparent surface. Lastly, these structural sections, having to block the two edges of the plates by clamping, protrude from the surfaces of the plates themselves thereby creating, at the points of insertion into the peripheral frames, problems of fixing to the structure.

The present invention provides a system for connecting transparent plates, comprising an - assembly of at least two plates wherein: (a) one plate has at least one of its connecting edges formed with a female cavity in the thickness of the edge and which extends for its whole length along the said edge; (b) the other plate has at least one of its connecting edges formed with a male projection that extends along the whole length of the edge and which can be inserted into the said female cavity of the said one plate; (c) the said female cavity has in each opposite inner face of the walls of the cavity a groove facing the groove in the other said wall, and each said groove extending parallel to the edges of the plate where the cavity is located, and along the whole length of the cavity;; (d) the said male projection has in each opposite lateral face of the projection a groove extending parallel to the edge where the projection is located and along the whole length of the projection; (e) in the connected plate system each groove in the opposite faces of the male projection is connected with the corresponding groove in the corresponding inner wall face of the female cavity by means of an elastic body placed between the two grooves and extending along the whole length of the said grooves, the cross-section of the said elastic body being about equal to the width of the grooves in the male projection and smaller than the width of the grooves in the inner wall faces of the female cavity.

The connecting system according to the present invention thus comprises an assembly of at least two plates in which the edges to be joined are shaped in such a way as to allow their coupling by interpenetration according to a malefemale configuration of the joining elements.

More specifically, one of these plates has at least one of its edges, to be connected with another plate, provided with a female cavity formed in the thickness of the plate edge and extending along the length of and parallel to the edge.

The other plate, in its turn, has at least one of its edges, to be connected with the firstmentioned plate, provided with a male projection extending along the length of and parallel to the edge. This male projection will be adapted to engage the female cavity of the other plate.

The male projection is provided with two grooves, one on each of the lateral sides of the projection, and in corresponding opposite position to each other. These grooves extend parallel to the plate edge and run along the whole length of the projection.

In its turn the female cavity is also provided with two grooves, one on each internal face of the two opposite walls of the cavity. These grooves face each other and extend parallel to the edges of the walls forming the cavity, and run along the whole length of the cavity.

In the two-plate system, when the plates are connected together, the grooves located in each face of the male projection cooperate with and are connected with the grooves located in each wail of the female cavity through an elastic body that occupies the space between the two grooves, acting as a gasket or packing or sealing element between the projection and the cavity.

The elastic body extends along the whole length of the grooves; its width or lesser dimensions is about equal to the width of the grooves located in the male projection, with a slight allowance so as to keep the elastic body steadily in position in the grooves, while it is smaller than the width of the grooves located in each wall of the female cavity, thus allowing reciprocal slipping of the two coupled plates and to absorb thermal expansion.

The invention will be further described, by way of example only, with reference to the accompanying drawings, in which: Figures la and Ib are perspective and sectional views respectively of a plate to be connected to another plate as shown in Figure II; Figures Ila and llb are perspective and sectional views respectively of a plate to be connected to the plate shown in Figure l; Figure III is a sectional view showing the plates of Figures I and II connected together; and Figure IV is an enlarged view showing a detail of the connection shown in Figure Ill.

Figures la and lb show a plate 1 with an edge B shaped into a male projection 2 which extends along the edge B for its whole length, the projection 2 having grooves 4 formed therein as shown. This male projection 2 may have either a cellular inner structure, as shown in Figures la and Ib, or it may be hollow or it may be solid.

Figures lla and llb show a plate 1 having a female recess or cavity 3 in the edge B' and having in each inner opposite face F of the walls of the cavity a groove 5.

Figure III shows the assembly of the two connected plates, with gaskets or other elastic bodies 6 interposed respectively between the grooves 4 and 5 of the male projection and female cavity respectively of the plates.

Figure IV shows a detail of the elastic connection achieved through the elastic body 6 placed in the grooves 4 and 5.

The elastic body may be made of any natural, artificial or synthetic material, such as natural or synthetic rubber, and is preferably transparent or translucent.

In order to connect the plates with each other it is sufficient to introduce the male projection 2, the grooves 4 of which contain the elastic body 6, into the female cavity 3, either by insertion from above or by means of a slight lateral pressure, and by then sliding the projection 2 along the female cavity to the desired position.

In order to facilitate the insertion of the male projection into the female cavity, the inner sides of the opposite wall F of the cavity may be slightly divergent towards the outside of the cavity.

The distance between the grooves 4 of the male projection 2 and the outer end E of the projection is smaller than the distance between the grooves 5 of the female cavity 3 and the base C of the cavity. Thus, the distance between the grooves 4 and the edge B of the one plate is greater than the distance between the grooves 5 and the edge B' of the other plate. This is so in that between the connected plates there remain empty spaces for the thermal expansion of the material. These spaces have been indicated in Figure III by reference numeral 7.

The configuration of the edges of the plates to be connected may either be asymmetrical on the opposite edges of the same plate, that is the one edge may have a male projection while the other edge of the plate may have a female cavity; or the configuration of the edges may be symmetrical, that is both opposite edges may be provided either with male projections or with female cavities.

The above described system allows a lateral connection or joint of a plurality of plates with each other to be obtained, and further: a) preserves the continuity of the transparency; b) ensures good water- and air-tightness; c) absorbs easily the thermal expansion of the material; d) maintains also in the connecting zone the same thickness as that of the plates.

The system according to the present invention is particularly suited for double-walled transparent plates of a cellular structure, irrespective of the material used, which may be glass polymethacrylate or other such like transparent material, and for which, in the installation thereof, there arise the necessity of obtaining the above requirements (a) to (d).

Claims

1. A system for connecting transparent plates, comprising an assembly of at least two plates, wherein: (a) one plate has at least one of its connecting edges formed with a female cavity in the thickness of the edge and which extends for its whole length along the said edge; (b) the other plate has at least one of its connecting edges formed with a male projection that extends along the whole length of the edge and which can be inserted into the same female cavity of the said one plate; (c) the said female cavity has in each opposite inner face of the walls of the cavity a groove facing the groove in the other said wall, and each said groove extending parallel to the edge of the plate where the cavity is located, and along the whole length of the cavity;; (d) the said male projection has in each opposite lateral face of the projection a groove extending parallel to the edge where the projection is located and along the whole length of the projection; (e) in the connected plate system each groove in the opposite face of the male projection is connected with the corresponding groove in the corresponding inner wall face of the female cavity by means of an elastic body placed between the two grooves and extending along the whole length of the said grooves, the cross-section of the said elastic body being about equal to the width of the grooves in the male projection and smaller than the width of the grooves in the inner wall faces of the female cavity.

2. A system as claimed in claim 1, wherein the distance between the grooves located in the male projection and the outer end of the projection is smaller than the distance between the grooves located in the inner walls of the female cavity and the base of the cavity, and wherein the distance between the grooves in the male projection and the edge of the plate on which the projection is located is greater than the distance between the grooves of the female cavity and the edge of the plate in which the cavity is located.

3. A system as claimed in claim 1 or 2, wherein the internal faces of the opposite walls of the female cavity diverge from each other towards the exterior of the cavity.

4. A system according to claim 1, substantially as herein described with reference to, and as shown in, the accompanying drawings.