EP0054251A1 - Spacer for insulating a multiple-glass sheet structure - Google Patents

Abstract

1. Spacer for multi-pane insulating glass, with a cavity (5) for drying agent (6), which is in the form of a profile which has, at least on its sides (7a) facing the panes (2), a sealing material (8) and a spacing member (19) embedded in the sealing material (8), characterised in that a somewhat flexible spacing member (19) is provided, consisting of plastics, synthetic rubber or natural rubber of a similar elastic material, which is in the form of a continous round cord or similar profile or balls, rollers or similar bodies arranged at a spacing from one another.

Description

The invention relates to a spacer profile for multi-pane insulating glass, the profile having an inner cavity for receiving a desiccant and a seal on its surfaces facing the panes in the position of use and wherein the spacing profile is continuous and curved also in the area of corners of the panes is.

There have already been proposals for profiles of this type which are intended, on the one hand, to keep the two glasses of an insulating glass pane at a fixed distance and, on the other hand, to seal the interior of this insulating glass pane and to keep it dry even after a long service life due to the action of the drying agent. Compared to profiles that are assembled in the corner areas, the advantage is to have no joints in the corner area that require particularly careful additional measures for sealing. In the previously known hollow profiles of this type, it is difficult to achieve a bend with the smallest possible radius without the outside of the profile bursting and the side surfaces becoming too distorted. Such faults can also distort the spacing of the panes, especially in the corner area. In addition, such warpage of the spacing profile in the corner area can in turn cause leaks. To avoid such disadvantages, one can work with a large bending radius, but this leads to an unsightly appearance in the corner area, because then the spacing profile can no longer be completely covered by the window frame.

The invention is therefore based on the object to provide a profile of the type mentioned, which can be bent with a narrow radius and still be securely sealed in the bending area. Above all, the risk of tearing in the bending area should be avoided so that the desiccant cannot become ineffective prematurely.

The solution to this problem consists essentially in the fact that a flexible volume part is provided in the cavity of the profile. It can thereby be achieved that when the profile is bent, the profile material can be drawn in unhindered, especially on the outside of the bend, so that tearing is avoided by the back pressure of the desiccant. This flexibility in the outer bending zone also at least reduces warpage on the side surfaces by itself.

A particularly expedient embodiment of the invention can consist in the fact that the flexible volume part of the cavity of the profile is free of desiccant. The resilient volume part of the cavity can be arranged on the outer part of the cavity when bending in the corner region. This is the area that is most at risk, especially with a narrow bending radius, and thus receives the greatest flexibility.

Another solution can be that the resilient volume part is formed by a foam strip or the like inserted into the cavity, in particular at its outer area. This foam strip keeps the desiccant from this area of the profile that is most stressed during bending, so that the practically incompressible desiccant cannot or hardly impair the bending. But is the greatest deformation z. B. by kinking on the inside. the foam strip or the like is arranged there.

Another possibility is that grains or balls of compressible material are added to the desiccant. As a result, the content of the profile, which is practically rigid when filled with desiccant only, can be made sufficiently flexible.

A particularly expedient embodiment of the invention can consist in that the inside of the profile has two parallel cavities, the part facing the inside of the pane is filled with desiccant, while the outer cavity is empty or contains a compressible material or the like. When bending, this outer cavity can easily undergo the necessary deformations, while the space filled with desiccant is additionally secured against premature leakage by the second web. The two cavities of the profile can be separated from one another by a separating web and the separating web can preferably be close to or in the neutral phase of the profile when it is bent, so that this separating web is practically not at risk during the bending process. A deformation which is as problem-free as possible during the bending process can also be useful if the side surfaces of the flexible cavity or region of the profile facing away from the pane and facing away from the pane interior are arranged at an angle and run away from the disks from the inside out. Since the outer web of the profile has the tendency to retract inward during bending, such inclined side faces are advantageous since they do not oppose this tendency to deform too much resistance.

The outside of the profile can be essentially concave or groove-like in order to further accommodate the aforementioned tendency to draw in during the bending process. The transition from the inclined side surfaces to the outside of the profile can be formed by protruding beads, the transition from the beads preferably into at least one of the adjoining profile webs being thinner than the further part of this web. The material can even flow when deformed, but the beads additionally form a kind of guide to prevent excessive lateral deflection of profile parts during the bending process.

The profile can be extruded, but it can be. Especially in the case of a design with a continuous cavity with foam insert or the like, it may also be bent from a sheet metal or metal strip, two legs preferably overlapping one another on the side facing the inside of the window, and in particular the outer leg with its edge region except for the side of the side facing the windows Profiles is led. The lateral seal can then securely seal the profile joint.

The inner leg of the overlap area in the use position can extend over the entire width of the profile and its edge abuts against the inside of the side surface of the profile, so that this leg increases the compressive strength of the profile in the transverse direction and thus also its ability ver better to serve as a spacer even with pressure glazing.

The web facing the inside of the pane, or at least the outer leg facing the inside of the pane, can have a material weakening or the like which facilitates the attachment of the passages for the desiccant to take effect, in particular after the profile has been bent to adapt to the corner regions of the insulating glass pane. A depression or groove, preferably running in the longitudinal direction approximately in the middle of the profile, can be provided as the material weakening. In the case of a profile bent from a sheet metal strip, a perforation of the outer leg facing the inside of the pane is sufficient because the desiccant can have a sufficient effect through these passages and the joint between the two legs. In addition, it is more reliably avoided than with thin perforations that the desiccant dust falls into the inside of the pane.

The effect of the profile according to the invention, the sealing in the corner areas and the nonetheless clean spacing can be achieved even better by a measure of its own worthy of protection, even slight distortions in the deformation area not leading to dimensional deviations in the distance between the two panes. This is achieved by a further development of the invention, which at the same time also represents its own invention, which consists in that, in the case of a spacer profile, preferably with a cavity, in particular for drying agents, the profile, preferably at least on its side surfaces facing the panes, is preferably prefabricated Has sealing material, in which sealing material at least one spacer is completely embedded.

This measure ensures that slight bumps can be compensated for, either with a profile to be bent, but also with a spacer profile which is not to be bent and is to be connected in the corner regions. In addition, excessive pressing out of the sealing material, which is preferably melted at high temperature, can be prevented when pressing the panes. It is advantageous if a somewhat flexible spacer, preferably made of plastic, is embedded in the seal. A hot-meltable butyl rubber can be provided as the sealing material, which results in a good seal when the panes are pressed and can also be pre-assembled on the spacer profile.

Continuous round cords or the like profiles or balls, rollers or the like bodies arranged at a distance from one another can be provided as spacers embedded in the sealing compound, these spacers expediently lying opposite each other on the profile. An additional advantage of these spacers, preferably made of plastic or the like, can be seen in the fact that, despite the use of a spacing metal profile, improved insulation can also be achieved in the edge of the pane, since contact of the glass with the metal, preferably an aluminum, in is avoided in any case. Direct cold bridges cannot even occur.

The spacer or spacers can each be provided in a recess arranged on the longitudinal side of the profile, which preferably also hold and guide the spacer during bending. On the one hand, this makes assembly easier and, on the other hand, the spacer is brought securely to the place where it should remain. It is also achieved that he himself the bending process does not leave its position in relation to the side faces of the profile.

It should be mentioned that on each longitudinal side of the profile at least two spacers can optionally be embedded in parallel in the sealing material. This is particularly useful if correspondingly high profiles are used for relatively large panes.

The sealing compound, which is preferably prefabricated on the side, can leave at least part of the outer side surface of the profile free. When the pane is pressed, the sealing material can thus deflect laterally and form a correspondingly wide sealing zone. On the other hand, however, it still occupies a relatively small area during storage and transportation, so that the risk of adhesive bonds is correspondingly low. In addition, the users of the profile can, if they wish, make an additional seal on the outside of the profile when producing an insulating glass pane. However, it is also possible that, at least in the installed state, the entire or almost the entire side surface of the profile is covered with sealing material or the side surfaces and the outer surfaces are encased in a U-shape with sealing compound. As a rule, however, the lateral coating with sealing material will suffice for a secure seal.

The bending radius in the corner area can be less than 10 mm, preferably less than 8 mm, in the center of the profile. This results in such a sharp bend that it can easily be installed in relatively narrow frames. This tight bend is possible because the profile is designed according to the invention so that there are no cracks, particularly on the outer circumference of the bend are afraid. Also, due to this adaptation to such a deformation, there is no risk of premature aging cracks, so that the service life of the entire insulating glazing is also increased. In addition, temperature fluctuations can be easily absorbed by the profile designed for the bend, since it retains additional deformation reserves even after the bend. When combined with lateral spacers, which are somewhat flexible, there is the additional advantage that a certain amount of padding is still present even when the insulating glass pane is installed in a rebate or with pressure glazing.

Notches can run in the longitudinal direction of the profile on the web or leg facing the pane interior, the spacing of which corresponds to the distance between the projecting beads arranged opposite one another. This allows profile bars according to the invention to be stacked precisely, in that the beads of one bar can be inserted into the recesses of the bar below. This also simplifies the packaging, shipping and storage of these profiles. The beads on the outside of the profiles also act as spacers and prevent the side seal coatings of superimposed profiles from coming into contact with each other. This good storage and transportability as well as the problem-free processability of the prefabricated profile also allows it to be sold in any country, where it can be used by practically any insulating glass manufacturer and its advantages are immediately available even after a long storage period. Because of the configuration according to the invention, it is advantageously also suitable for those manufacturing companies which are not in themselves able to carry out difficult and complex productions by avoiding any problems that arise during bending or also when not working profiles with regard to securing the lateral seal - through the embedded spacers - are avoided from the outset.

• Fig. 1 einen Längsschnitt durch ein erfindungsgemäßes Profil mit zwei voneinander getrennten Hohlräumen, welches im Eckbereich einer Isolierglasscheibe gebogen ist,
• Fig. 2 in vergrößertem Maßstab einen Querschnitt gemäß der Linie II-II in Fig. 1, wobei ein stranggepreßtes Abstandhalter-Profil dargestellt ist, sowie
• Fig. 3 in verkleinertem Maßstab einen Querschnitt gemäß der Linie II-II in Fig. 1, wobei das Profil aus Blech od.- dgl. geformt ist und an seinem Außenrand eine nachgiebige Einlage aufweist.

The invention is explained in more detail below with its details that are essential to it, using the drawing in two exemplary embodiments. It shows in a partially schematic representation:

• 1 shows a longitudinal section through an inventive profile with two separate cavities, which is bent in the corner region of an insulating glass pane,
• Fig. 2 on an enlarged scale a cross section along the line II-II in Fig. 1, wherein an extruded spacer profile is shown, and
• Fig. 3 in a reduced scale a cross-section along the line II-II in Fig. 1, wherein the profile is made of sheet metal or the like. And has a resilient insert on its outer edge.

A spacer profile, generally designated 1 (FIGS. 1 and 2) or 1 a (FIG. 3), hereinafter also referred to as profile 1 or 1 a for short, serves to open the individual panes 2 of a multi-pane insulating glass 3 Keep distance and seal the interior 4 between the individual panes 2 and keep dry. The profile 1 or 1 a has an inner cavity 5 for receiving a desiccant 6. A sealing compound or seal 8 is arranged on its side faces 7 facing the panes 2 in the use position. 1, the profile 1 or 1 a can also be continuous and curved in the area of corners of the panes 2. With this bend, especially the outer web 9 does not dissolve can tear, even if a relatively narrow bending radius is selected, a flexible volume part is provided in the cavity 5 of the profile ₁ or 1 a. This resilient volume part of the cavity 5 is free of desiccant 6. It is located in both embodiments on the outer part of the profile 1 or 1 a when bending in the corner area.

In the exemplary embodiment according to FIG. 3, this resilient volume part of the cavity 5 is formed by a foam strip 10 inserted into the cavity at its outer area.

In the embodiment according to Figures 1 and 2, the interior of the profile 1 is divided into two parallel cavities 5 and 5 a, the part 5 facing the pane interior 5 is filled with desiccant 6, while the outer cavity 5 a is empty or, if necessary, a compressible material could contain. The two cavities 5 and 5 a of the profile 1 are separated from one another by a separating web 11, which is as close as possible to or in the neutral phase of the profile 1 when it bends. As a result, this separating web 11 is practically not subjected to excessive tensile or compressive forces during bending, so that the risk of cracking is practically avoided. However, as indicated in FIG. 1, the outer web 9 can retract strongly, so that it receives a correspondingly large bending radius and is therefore also not exposed to excessive deformation.

So that a good adaptation to a sharp bend can also be achieved in the area of the side faces 7, the side faces 7 a facing the panes 2 a of the flexible cavity 5 a facing away from the pane interior 4 or that with the foam strip 10 are formed. _f ü _ll th region of the section 1 or 1a obliquely arranges and runs away from the panes 2 from the inside to the outside. This reduces the section modulus in these outer areas and at the same time reduces the risk of cracks caused by a sharp bend. In addition, the outside of the profile 1 or 1 a formed by the outer web 9 is substantially concave or channel-like. The transition from the oblique side surfaces 7 a to the outside 9 of the profile is formed by protruding beads 12. The transition from the beads 12 into at least one of the adjoining profile webs, that is to say into the side surface 7a and / or the outer web 9, can be somewhat thinner than the further part of the respective web, in order to ensure the flexibility and flowability of the material Enlarge bending process.

2 is an extruded profile 1, in FIG. 3 a profile 1 a with a continuous cavity 5 with foam insert 10 is shown, which is bent from a sheet or metal strip. In this case, two legs 13 and 14 overlap on the side facing the window interior 4, the outer leg 13 being guided with its edge region 15 up to the side of the profile 1 a facing the windows 2. The inner leg 14 in the use position also extends over the entire width of the profile 1 a and abuts with its edge 16 against the inside of the side surface 7 of the profile ₁ a. In this way, the force occurring can be absorbed well by these two legs 13 and 14 even at higher pressure on the spacing profile. At the same time, the edge region 15 of the outer leg 13 protruding into the side region gives the possibility of embedding this edge region 15 ′ in the sealing compound 8, so that overall a profile 1 a of high strength and tightness is obtained, which nevertheless has the advantages of good flexibility according to the invention has in the corner area.

Both profiles 1 and 1 a, in turn, have in common that the web 17 facing the inside of the pane, or at least the outer leg 13 facing the inside of the pane 4, has a material weakening 18 or the like which, in particular, indicates the attachment of the passages for the desiccant 6 to take effect the bending of the profile easier. In the case of the profile 1 a bent from a metal strip, such a weakening of material ₁ 8 in the outer leg 13 is sufficient because the joint between the two legs 13 and 14 'can transmit a sufficient effect of the desiccant, but the advantage is achieved that no desiccant dust can fall into the inside of the pane 4.

In both exemplary embodiments, a depression or groove running in the longitudinal direction approximately at the center of the profile 1 or 1 a is provided as the material weakening 18.

Both exemplary embodiments also have an additional embodiment in common, which represents their own invention, but at the same time can be viewed as a further development of the entire embodiment of the profile for its particular purpose. This configuration consists in that at least one spacer 19 - on both side surfaces 7 of the profiles - is completely embedded in the sealing material 8. It is a somewhat resilient spacer 19, preferably made of plastic, which can compensate for minor inaccuracies in size at high pressing pressures or high pressures when installing the insulating glass pane 3, which in particular may still occur in the curved corner area. In the exemplary embodiment, a continuous round cord made of plastic is provided as a spacer ₁₉ embedded in the sealing compound 8, although a different profile could also be provided or instead of a continuous spacer 19 balls, rollers or the like. Bodies arranged next to one another could be provided. It is important that the spacers 19 on a profile 1 or 1 a are opposite each other as precisely as possible in order to avoid any displacement or moments on the disks 2 when pressure forces occur.

The spacers 19 are each arranged in a recess 20 arranged on the longitudinal side 7 of the profiles 1 and 1 a, which also guides the spacers 19 during bending. They are preferably made of plastic, synthetic rubber or rubber or the like. Elastic material.

A hot-meltable butyl rubber is provided as the sealing material, which is expediently prefabricated and leaves at least part of the outer side surface 7 or 7 a free. When installing this sealing material 8 is then slightly compressed on both sides and thus results in a wide sealing surface.

On the web 17 or leg 13 facing the window interior 4, notches 2 ₁ are arranged on the edge in each case in the longitudinal direction of the profiles 1 and 1 a, the spacing of which corresponds to the distance between the beads 12 located opposite one another. The beads 12 provided on the outside protrude beyond the edge of the lateral sealing material 8 and serve as a spacer between the individual coatings with sealing material when stacking several profiles 1 and 1 a. This can effectively prevent the sealing compound 8 of stacked profiles from sticking during storage and transport. The beads 12 thus have a double function. At the same time, such profiles lie securely and precisely on top of each other due to the positive connection. The beads, which serve as a kind of material reserve when bending, when the deformed material flows exceeds the limit, can also be used to improve the storage capacity of the prefabricated profiles. These beads 12 and the notches 21 can therefore, like the lateral spacers 19, also be provided in the case of profiles which are not to be bent in the corner region of a pane. But they are particularly advantageous for such profiles to be bent for the reasons described above.

All features and construction details shown in the description, the claims and the drawing can have significant meaning both individually and in any combination with one another.

Claims (27)

_1st Spacer profile for multi-pane insulating glass, the profile having an internal cavity for receiving a desiccant and a seal on its surfaces facing the panes in the position of use, and the spacing profile being continuous and curved also in the area of corners of the panes, characterized in that that a resilient volume part is provided in the cavity of the profile (1, 1 a). 2. Profile according to claim 1, characterized in that the resilient volume part of the cavity (5) of the profile is free of desiccant. 3. Profile according to claim 1 or 2, characterized in that the resilient volume part of the cavity is arranged on the outer part of the cavity when bending in the corner region. 4. Profile according to one of claims 1 to 3, characterized in that the resilient volume part is formed by a foam strip (10) or the like, in particular, inserted into the outer region thereof. The like. 5. Profile according to one of claims 1 to 3, characterized in that the interior of the profile (1) has two parallel cavities (5, 5 a), the part of the disc (4) facing part (5) filled with desiccant (6) is, while the outer cavity (5 a) is empty or contains a compressible material or the like. 6. Profile according to one of claims 1 to 4, characterized in that the two cavities (5, 5 a) of the profile (1) are separated from one another by a separating web (11) and that the separating web (11) is preferably close to or in the neutral phase of the profile (1) lies when it bends. 7. Profile according to claim 1, characterized in that the desiccant grains or balls of compressible material are added. 8. Profile according to one of claims 1 to 7, characterized in that the discs (2) facing side surfaces (7 a) of the flexible interior facing away from the disc (4) (5 a) or region of the profile (1, 1 a) are arranged at an angle and run away from the disks from the inside out. 9. Profile according to one of claims 1 to 8, characterized in that the outside of the profile (1) is substantially concave or channel-like. 10. Profile according to one of claims 1 to 9, characterized in that the transition from the inclined side surfaces to the outside of the profile is formed by protruding beads (12). 11. Profile according to one of claims 1 to 10, characterized in that the transition from the beads (12) in at least one of the adjoining profile webs is thinner than the further part of this web. 12. Profile according to one of claims 1 to 11, characterized in that the profile is extruded. 13. Profile according to one of claims 1 to 12, characterized in that, in particular in the case of a profile with a continuous cavity with foam insert or the like. This is bent from a sheet metal or metal strip or the like, preferably on the inside of the pane (4th ) facing side two legs overlap each other and in particular the outer leg (13) with its edge region (15) is led to the side of the profile facing the panes. 14. Profile according to one of claims 1 to 13, characterized in that the inner leg (14) in the use position extends over the entire width of the profile (1 a) and with its edge (16) against the inside of the side surface (7 a) of the profile (1 a). 15. Profile according to one of claims 1 to 14, characterized in that the web (4) facing the web or at least the outer of the window interior (4) facing leg (13) or a material weakening (18) the attachment of the passages for the desiccant (6) to become effective, in particular after the profile has been bent to adapt to the corner regions of the insulating glass pane. 16. Profile according to one of claims 1 to 15, characterized in that as a material weakening (18) preferably in the longitudinal direction approximately on the center of the profile, (1, 1 a) recess or groove is provided. 17. Spacer profile, preferably with a cavity, in particular for desiccants, which profile has a preferably prefabricated sealing material, at least on its side faces facing the panes, since - characterized in that at least one spacer (19) is completely embedded in the sealing material (8) is. 18. Profile according to one of claims 1 to 17, characterized in that a somewhat resilient spacer, preferably made of plastic, synthetic rubber or rubber or the like. Elastic material is embedded in the seal. 19. Profile according to one of claims 1 to 18, characterized in that a hot-meltable butyl rubber is provided as the sealing material. 20. Profile according to one of claims 1 to 19, characterized in that continuous round cords or the like. Profiles or balls, rollers or the like arranged at a distance from one another are provided as spacers (19) embedded in the sealing compound (8). _21st Profile according to one of claims 1 to 20, characterized in that the spacer (s) (19) are each provided in a recess (20) arranged on the longitudinal side (7) of the profile, which preferably hold the spacer (19) also during bending and lead. 22. Profile according to one of claims 1 to 21, characterized in that at least two spacers are embedded parallel to each other in the sealing material on each longitudinal side of the profile. 23. Profile according to one of claims 1 to 22, characterized in that the laterally preferably prefabricated sealing compound leaves at least a portion of the outer side surface exposed. 24. Profile according to one of claims 1 to 23, characterized in that at least in the installed state, the entire or almost the entire side surface of the profile is covered with sealing material or the side surfaces and the outer surface are coated with U-förmit sealing compound. 25. Profile according to one of claims 1 to 24, characterized in that the bending radius in the corner region in the center of the profile is less than 10 mm, preferably less than 8 mm. 26. Profile according to one of claims 1 to 25, characterized in that on the disc (4) facing web (17) or leg (13) notches (21) in the longitudinal direction of the profile (1, 1 a), the distance between them corresponds to the distance between the beads (12) arranged opposite one another. 2 ₇ . Profile according to one of claims 1 to 26, characterized in that the beads (12) provided on the outside project beyond the edge of the lateral sealing material (8) and, when stacking several profiles (1, 1 a), as a spacer between the individual coatings Seal material of the stacked profiles.

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