NO138294B - PACKAGE OF WINDOW WINDOWS. - Google Patents

Description

The present invention relates to a package of window pane units comprising two window pane part manufactures, equipped with spacers for providing a double window unit which has a hermetically sealed, insulated air space between the window panes.

US patent no. 3,971,178 describes improved methods and devices for converting single-glazed windows into hermetically sealed, insulating, multiple-glazed units. The embodiments described therein comprise a temporary attachment of a spacer element to the edge rafts of the transparent plate to be attached to the window. Certain advantages are obtained if the fastening of the spacer element is carried out in the factory or a central distribution facility, and these advantages are: utilization of mass production techniques, formation of better bonds and seals due to the availability of specialized equipment, fewer limitations in terms of material

als that can be used as well as more uniform products based on

of better quality control and the use of experienced personnel.

Such a prefabrication technique would be: even more advantageous if there are practical possibilities for transport and handling of the prefabricated sub-units. A problem in this regard is that it is usually preferred

use of spacers soni contains a desiccant, which must be protected against moisture in the atmosphere during transport. :IN

in many cases it is desirable to arrange a protective coating on the surface of the fitted window pane which is to be placed in the sealed air space. Many such coatings are, however, fragile and.

will tinder transport of the partial products easily break down as a result,

of contact with the atmosphere and scraping. Also because the route

surface facing the sealed room must be completely clean during installation, it would be advantageous if strict factory cleaning operations could be used and the surface of the glass panes could be kept free of contamination during the subsequent transport and handling.

A proposal for solving this problem is known from US Patent No. 1,1915,098 (Kile). According to this proposal, a removable sheet of coarse canvas material ("Holland cloth") is placed over the open surface of the partial product and fixed around the circumference of the spacer. However, this is an unfortunate solution due to the large amount of material required, because it will be difficult to achieve a moisture-proof seal and because the cloth can easily be displaced or torn to pieces.

Thus, it is an object of the present invention

to produce a package of window pane units that facilitate shipping, storage and processing of glass for window use, and the invention is characterized by the fact that it comprises two separate window pane sub-manufactures, each comprising a transparent pane and a spacer element attached to edge parts of a main surface of each pane, the sub-manufactures being brought together facing each other, essentially without gluing, and with the spacers lying between the panes opposite each other so that an essentially closed space is formed between the panes, and closing elements attached to the outer surfaces of said joined partial products so that these are retained in a joined state .

The air space is preferably sealed using tape that is covered with an adhesive or a sealant. During on-site installation, the partial products are separated by tearing off or cutting the tape.

The invention is applicable not only to the particular embodiments shown in US Patent No. 3,971,178, but also

in connection with any glass unit which has its air space temporarily opened.

The invention will be described below with further reference to the drawings, where: fig. 1 shows a typical single window installation in perspective, partially broken away,

fig. 2 is a partial section of an embodiment of a mounting part,

fig. 3 is a partial cross-section of the two sub-manufactures of

the type shown in fig. 2, assembled to form a tight package in accordance with the present invention,

fig. 4 is a partial section of a separate partial fabrication with applied sealing material, prepared for assembly,

fig. 5 is a perspective representation, partially broken away, of a window structure according to fig. 1, after conversion to a double window,

fig. 6 is a partial cross-section along the lines 6-6 in fig. 5 of a complete installation of the partial product shown in fig. 4

on a window according to fig. 1,

fig. 7 is a partial cross-section of two attachment parts in another embodiment, assembled to form a tight package in accordance with the invention,

fig. 8 is a partial cross-section of a partial product after dividing the package according to fig. 7,

fig. 9 is a partial cross-section of a complete installation of the partial product as shown in fig. 8 on a window according to fig. 1,

fig. 10 is a partial cross-section of two attachment parts in a third embodiment, assembled to form a tight package in accordance with the present invention,

fig. 11 is a partial cross-section of a partial product formed when the package, as shown in fig. 10, cut in half,

fig. 12 is a partial cross-section of a completed installation of the partial fabrication shown in FIG. 11 on the industrial installation according to fig. 1, and

fig. 13 is a partial cross-section of a fourth embodiment of packaged semi-finished products.

In fig. 1 shows an interior window of a single window pane unit, which usually forms part of a building's wall construction. The window comprises a pane of glass 15 and a frame 16. The transformation of such a window into a double window serves as an illustrative example.

In Fig. 2, a preferred embodiment of an attachment part product is shown. This includes a moisture proof (i.e.

essentially water vapour-permeable) band 20, preferably aluminum foil with a thickness of about 0.2 mm, along which is attached an elongated spacer element, preferably flexible, moisture-permeable, organic material with a

desiccant distributed therein as described in US Patent No. 3, 758,996. The spacer element 21 is attached to the tape 20 by means of an adhesive or sealing layer 22. The spacer element is attached to the edge of a main surface of the window by folding the tape 20 around the edge of the transparent window 30 (which is the window to be fitted) along the entire the perimeter of the window, and sealing the tape to the peripheral edge 32 of the window and to the edge of the second major surface 33 of the window by means of a sealing layer 23. The sealing layer 23 is preferably an adhesive, non-curing butyl-based sealant as described in U.S. Pat. No. 3,971,178. The other side of the band 20 is folded around a corner of the spacer element 21 and attached to one side of this by means of an adhesive or sealant 24. The window 30 can be made of glass or plastic, can be tinted or coated with a reflective coating. If the window 30 includes a coating that can be easily damaged, this coating should be the inner main surface 31, i.e. the surface facing the air space 4 3 (fig. 6) in the finished assembly.

In fig. 3 shows a closed package according to the invention, formed from the partial product according to fig. 2 and another identical partial product. The components for the second partial product, which correspond to the components for the partial product according to fig..4, are indicated by corresponding reference numbers, provided with an apostrophe. The partial products are assembled with the surfaces 31 and 31' facing each other and with the spacers 21 and 21' in non-adhesive contact along the circumference. The two partial products are held together and the intermediate air space 39 is sealed by placing a cover around the circumference above the contact surface between the spacers. The cover may consist of tape 37 which preferably consists of a moisture-proof material, preferably a substantially moisture-impermeable material such as a metal foil (especially aluminum foil) or the like, and is provided with a layer of adhesive material 38, which is preferably pressure-sensitive. As the formed inner space is only to be temporary and normally not exposed to harsh temperature conditions, the adhesive 38 must not be chosen with a view to very strong moisture tightness, but the tape 37 and the adhesive material 38 preferably have sufficient width and moisture tightness to create a relatively ^ show long barrier against moisture penetration. For this reason, it is desirable that the tape 37 has sufficient width to cover most of the peripheral surface of the assembled partial products. An even greater moisture barrier can be achieved by using a tape that is wider than the short sides of the assembled partials, so that the excess can be folded around the outer edges of the partials. A suitable commercial adhesive tape with a foil backing is "3M 425", manufactured by Minnesota Mining and Manufacturing Co., Minneapolis, Minnesota, USA.

When a pair of parts are packaged together in this way, the units can be handled, transported and stored in the same way as ordinary factory-made double-glazed or multi-paned windows. Desiccant, which is arranged in or on the spacers, will be protected, coatings on the inner surfaces will remain free from external influence and degradation, and the crucial . the cleanliness of the inner rafts will be maintained. At the installation site.

the tape 37 can be pulled off or cut open along the contact surface between the spacers of the two partial products, whereby it must

it is ensured that the band 20 or the organic spacer is not damaged. If the tape is to be cut, it should be relatively thin, so that it does not require great effort to divide. This reduces the risk of the band and spacer being damaged. Fig. 2 shows a partial product, where the tape 37 has been pulled off. Figures 5 and 6 show the window according to fig. 1 with the finished part in place to form a multi-pane window according to the method described in US Patent No. 3,971. 178.

Optionally, a putty band 34 can be applied along the exposed surface of the folded part of. the tape 20 which carries the adhesive or putty 24 as shown in fig. 4. The putty 34 should preferably be tacky and non-hardening, preferably the butyl-based substance discussed above in connection with the putty 23. Fig. 6 is a cross-section taken along the line 6-6 in fig. 5 and shows details of the edge part of the partial product after* assembly on the inner side of the window shown in fig. 1. A putty layer 42 is applied around the periphery of the inner surface 41. of the installed window 15 along a path corresponding to general-t. the way for the spacer 21 on the partial product. The putty 42 is preferably the same tacky, non-hardening, butyl-based

agent like putty 34.

The finished part is then brought into position, the spacer in line with the putty 42, and pressed against the square 15 to effect sealing with the putty 42, which thus provides a hermetically sealed air space 43. As an additional precaution, it may be desirable to extrude a sealant 44 into in the open space around the perimeter of the finished part. Any suitable compound can be used for this purpose. For decorative purposes, a trim strip 40 should be applied around the perimeter of the installation.

Fig. 7, 8 and 9 relate to another embodiment of the attachment part product and a variation of the packing technique. This embodiment is particularly aimed at a partial product comprising a hollow, metallic spacer 50 which contains desiccant 51 and has an opening 52. The metallic spacer is attached to the pane 30 by means of an adhesive or sealant layer 53. In this embodiment, a partial product is together with another partial product, whose components are denoted by corresponding reference numbers with an apostrophe, the spacers 51 and 51' being brought into non-adhesive contact to form a closed space 56, as shown in fig. 7. The package thus formed is then sealed by applying a cover in the form of a moisture-proof tape 54 and adhesive 55 around the perimeter of the combined partial products, so that the cover extends over the contact surface between the partial products' spacers. As shown in fig. 7, the moisture barrier formed by the tape can be enlarged by. use of a wider tape, which is folded around the outer edges of the partial products. The pack can be given extra strength by using a heavier tape, such as a 0.2 mm thick aluminum band. The stronger application of force required to cut the thicker tape, when the units are to be separated, is not a decisive disadvantage when metallic spacers are used, as these are not as easily damaged as the organic ones. The tape can of course be torn off instead of being cut in half. The adhesive 55 is preferably pressure-sensitive and can advantageously consist of the sticky, non-hardening sealant on butyl bases as mentioned earlier.

In fig. 8 shows a partial product that has been cut from the package according to fig. 7, where the adjacent tape and adhesive parts 54 and 55 are still attached. The tape and adhesive provide extra protection for the seal formed by the layer 53 and will at the same time strengthen the connection between the spacer and the route 30. Fig. 9 shows a completed installation of the partial product according to fig. 8 on the window according to fig. 1. The partial product is mounted on the window in the same way as described in connection with the previously mentioned design.

It should be noted that organic spacers can be replaced by metallic ones in the device according to fig. 7-9, provided that the tape 54 is to be removed by tearing, or that the parts are cut apart with great care.

Another embodiment according to the invention is shown in fig. 10 with a spacer 60, preferably made of metal, which is filled with a desiccant 61 and provided with an opening 62. The spacer 60 has an incision 63 in the longitudinal direction for receiving a liquid sealing compound, which solidifies at room temperature. temperature, such as a hot melt applied plastic or a conventional sealant based on polysulfide, as disclosed in US Patent No. 3,348,351. Such spacers can be used for the production of an attachment part by one side of the spacer being tightly attached to the extra pane 30 with a layer of sealant 64, which is preferably a sticky mass based on butyl. The thus produced partial product can be combined with another identical partial product (whose corresponding components are denoted by reference numbers with an apostrophe in fig. 10) with part of the surfaces of the spacers in non-adhesive contact, so that a package is formed as shown in fig. 10.

Instead of gluing a tape over the contact surface between the two spacers to close them together, in this embodiment it is proposed that the package is closed by extruding sealant 65 in liquid form, which solidifies at room temperature, such as polysulphide, into the open space formed by the two adjacent incisions on opposite spacers. Such sealant can, when solidified, give the package structural cohesion, while at the same time sealing the enclosed air space 66.

At the installation site, the package according to fig. 10 is divided in two by cutting through the sealing compound 65. This results in a partial product as shown in Fig. 11 with the adjacent part 65' of the sealing compound retained. As shown in fig. 12, when installing on the existing route 15, a sticky putty 42 is preferably used, as discussed above. A liquid sealing compound 67, such as a polysulphide, is then pressed into the space around the partial product and into the cavity formed by the incisions 63, so that the sealing is completed.

In fig. 13 shows a further package type according to the invention. This embodiment is specially adapted to protect organic spacers, when the package is cut in half. This is achieved in the embodiment shown by placing a moisture-proof tape 70, preferably aluminum foil, around the circumference of a pair of partial products, which are first brought together with an opening between the opposing spacers 21 and 21'. The part of the tape 70 that spans the opening is folded, so that an inwardly extending fold 71 is formed when the partial products are brought towards each other. Each half of the package thus provided will essentially comprise the partial product according to fig. 2, when the package is cut in two using a sharp knife or the like along the fold 71. During transport and handling, the fold 71 can be pressed together, so that the sticky layers 24 and 24' are at least partly stuck to the spacers. The layers 24 and 24' can alternatively be applied to the spacers in advance instead of being on the tape. Another variation involves the use of a single, continuous layer of a tacky, non-hardening sealant along the entire width of the tape 70. It should be noted that the package according to Fig. 13, due to the fold 71, allows rapid cutting through without having to take special care to prevent damage to the organic spacers.

All sealants, putty types or adhesives used in connection with the present invention are preferably highly moisture-proof, i.e. they are characterized by low vapor permeability, and thus form good moisture barriers and hermetic seals. Moreover, they are preferably characterized by very good flexibility, cohesive and adhesive bonding and fracture and shear strength, tear resistance and tensile strength over a relatively large spectrum of expected temperatures, including temperatures from -40 to 60°C. Furthermore, they should be essentially inert and unaffected by chemicals, e.g. cleaning fluids, airborne contaminants or the like, with which they can normally be expected to come into contact.

It should be noted, however, that one or some of the above-mentioned properties in some cases, depending on the localization or the use of sealing compounds, putty compounds or adhesives in the structures shown, may be present in a more dominant

end degree than one or more others, and consequently the choice of putty material can vary greatly.

For example, moisture resistance does not need

be a dominant requirement for the adhesive 38 in the embodiment in fig. 3

as long as the tape 37 in conjunction with the adhesive 38 provides the desired protection against moisture penetration during shipping or storage. Another example can be seen from the prefabricated design used in the package shown in fig. 3. There, moisture resistance need not be a dominant requirement for layer 22 because sufficient protection against moisture penetration

ning can be provided by the band 20 in conjunction with the second putty during shipping or storage as well as after completed installation to form a multi-glazed window.

It is thus clear from the preceding description

that the present invention is applicable to the shipping or storage of any application glass unit comprising a spacer attached to a window pane. Thus, the application glass prefabs described herein are only preferred embodiments, but only examples.

Claims (6)

1. Package of window pane units, characterized in that it comprises two separate window pane parts, each comprising a transparent pane (30,30') and a distance element (21, 21', 50, 50', 60, 60') attached to edge parts of a main surface (31, 31') of each window, the partial products being brought together facing each other, essentially without gluing, and the spacers lying between the panes facing each other so that an essentially closed space (39,56,66) is formed between the panes, and closing means (37,38,54,55,65,70) attached to the outer surfaces of the said joined partial products so that these is maintained in a combined state. 2. Package as stated in claim 1, characterized in that the closing means also comprise a barrier which prevents penetration of moisture into the closed space. 3. Package as specified in claim 1, characterized in that the closing means comprise a moisture-proof tape (37, 54, 70) glued to the outer surfaces of the assembled partial products. 4. Package as specified in claim 3, characterized in that the tape is metallic and flexible. 5. Package as stated in claim 3, characterized in that the tape comprises a fold (71) arranged between the spacers. 6. Package as stated in claim 3, characterized in that the tape is glued on using a layer of moisture-proof material (38,55) between the tape and the mentioned outer surfaces.