EP0322495A1 - Method for manufacturing insulating glazing units - Google Patents

Abstract

In a method for manufacturing insulating glazing units from at least two individual panes (2) which are interconnected by interposition of a spacer running around the edge region, a hollow profile frame forming the spacer is first stuck onto one of the individual panes (2) and then covered by sticking on the other individual pane. In order to make possible simple easily automatable manufacture of insulating glazing units, the hollow profile frame, which is prepared as a continuous extruded profile (1), is stuck on in sections corresponding to the pane edges, the extruded profile (1), after the sticking on in each case of one section (1a) and for sticking on the following section (1b), being bent according to the respective pivoting angle, with simultaneous rotation of the pane (2), until the last and the first section join together at the ends to form the closed frame. <IMAGE>

Description

The invention relates to a method for producing insulating glass panes from at least two individual panes connected to one another with the interposition of a circumferential spacer, according to which a hollow profile frame forming the spacer is first glued to one of the individual panes and then covered by gluing on the other individual pane.

In the known manufacturing processes, which allow the use of stable spacer profiles, the spacers are prepared prior to being glued between the individual panes, for which purpose the spacer profiles, mostly hollow aluminum or galvanized steel profiles with a rectangular cross section, are assembled by piece-by-piece assembly of individual profile parts or by suitable bending of one long profile part formed into a closed frame and filled with adsorbents for dehumidifying the interior of the insulating glass pane by appropriate perforation of the profile inner walls. After coating the profile surfaces facing the panes with sealant and adhesive, preferably butyl, the prefabricated spacer frame is then placed on a single pane and by pressing on the second single pane, which is congruent with the first the individual panes and the spacer frame are then glued together to form the insulating glass pane. Since the frames have to be adapted very precisely to the respective pane formats, the prefabrication of the frames requires the tightest tolerances to be met, which is precisely aligned and centered when the frames are placed on the panes, so that these known production processes are extremely cumbersome and complex and are can also hardly be automated.

For the more efficient production of insulating glass panes, it has also already been proposed to use spacers in the form of flexible strips, which are then inserted directly between the two individual panes held in a coordinated position and are bent around the edge of the pane, so that the spacer is only inserted between the panes during insertion arises. However, the flexible spacer tapes are not comparable to spacer profiles, especially with regard to their optical impression, and the insertion of the spacer tape between two panes entails the risk of the adhesive layer required for the adhesive application being sheared away before being placed on the panes, and thus the risk of contamination and one Infiltrating the adhesive layer with water. Apart from this, in devices which allow the spacer tape to be automatically inserted between the individual disks, all the equipment required for insertion, such as adhesive nozzles, tape guide rollers, disk pressure rollers, disk holding and pivoting arms and the like, must be provided. Like., spatially close to each other in a common work area, which is functionally and constructionally considerable difficulties.

The invention is therefore based on the object of eliminating these deficiencies and of specifying a method of the type described at the outset which ensures the rational production of insulating glass panes and which, despite the use of stable spacer profiles, permits relatively inexpensive, reliable automation of the production of insulating glass panes.

The invention solves this problem in that the hollow profile frame prepared as a continuous profile strand is glued to the pane edges in sections by angled the profile strand after gluing one section at a time to glue the following section while simultaneously rotating the pane in accordance with the respective corner angle until the Join the last and the first section to the end of the closed frame. To prepare the spacer, the desired hollow profile, if necessary after a suitable perforation and absorbent filling, only needs to be cut to length according to the pane, which can be achieved by means of a wide variety of measuring devices, for example light barriers and the like. Like., Can be carried out easily and with the required accuracy, and the actual completion of the spacer takes place during the gluing onto a single pane, which inevitably ensures the exact adaptation of the hollow profile frame to the respective pane. There are neither extensive preparation steps nor cumbersome alignment and centering measures to be taken and, since the section of the profile in the frame legs is attached and glued to the pane, there is no impairment of the applied adhesive layer with all the associated risks of a shear movement between the pane and Fear profile. Since the profile strand is preferably coated with adhesive and not the panes and the profile strand itself does not require any special guidance due to its inherent rigidity, it is unnecessary to locally press together the facilities required for the mechanical implementation of the method, and the facilities preparing the profile strand, such as coating nozzles, cutting devices and the like. Like., Can be arranged at a sufficient distance from the bending point, which bending point is advantageously equipped with guide and bending jaws for angling the profile strand and with pivoting devices for pivoting the disc, without causing space problems. If the profile strand is angled accordingly and glued along all the edges of the pane, the free ends of the first and last sections meet, which are connected to each other to close the frame by applying adhesive or by inserting a clip of their own. Once the hollow profile frame has been applied to the one pane, the second individual pane only has to be glued congruently to the first on the hollow profile frame and the simple insulating glass pane is finished. To produce a multiple insulating glass pane, the process of inserting the spacer is repeated, with the single insulating pane now being the existing insulating glass pane to which the profile strand must be glued in sections. Since the profile strand can be adapted to the respective pane size and shape when gluing and angling without any additional measure, any pane formats can also be produced, only one pane shape with uneven side edges requiring a corresponding preforming of the profile strand.

It is expedient if, according to the invention, the profile strand is guided at an acute angle to the pane and is pressed onto the pane to adhere it with elastic deformation. Thereby the profile strand can be brought into the correct position relative to the pane, section by section, without rubbing against the pane during feeding or angling. Since the profile strand remains elastic in spite of its rigidity, the profile strand section which has been brought into position can be pressed onto the pane so that a secure bond is achieved.

If, according to the invention, the profile strand is scored between the adjacent sections, the angling can be facilitated and the corner profile of the hollow profile frame is neat. In addition, the profile cavity can be closed by a corresponding notch or the like. The profile extrusion ends and prevent leakage of the adsorbent.

In and of itself, a wide variety of profiles, but especially aluminum profiles, are suitable for producing the spacer. According to a particularly advantageous embodiment of the invention, a profile strand composed of two metal strips, preferably aluminum strips, can be used, from which metal strip one is shaped like a groove in the longitudinal center region and the other is perforated, whereupon after an adsorbent filling of the formation, both metal strips are placed on top of one another and by longitudinally folding them Edges are joined together. This composite profile strand can therefore be manufactured continuously in the course of the production of insulating glass panes, with two smooth metal strips simply serving as the starting material, which are then automatically formed by corresponding roller tables and also folded together. The filling of the profile with adsorbent can be carried out without any difficulty shortly before the metal strips are laid on top of one another and folded, the perforated metal strip being the same as the insulating glass ben side space forms profile side surface. The metal strips can be made thin-walled and thus allow a clean angling when inserting them into the individual panes, the rigidity required for the spacer being guaranteed due to the profiling and interlocking.

• Fig. 1 eine Vorrichtung zur Durchführung des erfindungsge­mäßen Verfahrens in schematischer Ansicht und
• Fig. 2 einen Schnitt nach der Linie II-II der Fig. 1 in größerem Maßstab.

In the drawing, the subject matter of the invention is illustrated in more detail, namely show

• Fig. 1 shows a device for performing the method according to the invention in a schematic view
• Fig. 2 shows a section along the line II-II of Fig. 1 on a larger scale.

In order to be able to produce insulating glass panes efficiently even when rigid, stable spacers are used, the hollow profile frame forming the spacer is designed from a continuously prepared profile strand 1 only in the course of the actual insulating glass production. For this purpose, the profile strand 1 is gradually glued in the sections 1a, 1b corresponding to the pane sides to one of the individual panes 2 of the insulating glass pane, the profile strand 1 being angled in the corner regions while the pane 2 is pivoted at the same time, which is possible by a device 3, the conveyor belts 4 and a support wall 5, preferably air cushion wall, slightly inclined to the vertical for guiding and advancing the individual disks 2. In a processing station 6, the profile strand 1 is glued to the individual disks 2, the profile strand 1 being brought parallel to the conveyor track of the conveyor belts 4, but at a slightly acute angle to the supporting wall 5, to the processing station 6. The profile strand 1 passes through a preparation station 7 arranged upstream of the processing station 6, the coating nozzles 8 for applying adhesive and sealing material on the extruded section 1, a separating device 9 for cutting to length and a notching device 10 for notching the extruded section 1.

The processing station 6 is equipped with pressure rollers 11 for a tight pressing of the profile strand 1 onto the respective individual pane 2, bending jaws 12 for angling the profile strand 1 and a swivel arm 13 with suction cups 14 for holding and pivoting the pane 2.

To produce an insulating glass pane, a single pane 2 is then brought from a washing installation (not shown further) after passing a measuring device upright along the support wall 5 on the conveyor belts 4 to the processing station 6, while at the same time a profile strand 1 is supplied, which is coated on both sides in the preparation station 7 with adhesive and was notched and cut to length according to the side lengths or the disk circumference. In the processing station 6, the disk 2 and the extruded section 1 are moved synchronously with one another and the extruded section 1 is pressed by the pressure rollers 11 with elastic bending, so that there is a good bond between the disk 2 and the spacer 1. After the profile strand section 1a has been glued along the first side edge, the feed stops and the profile strand 1 is angled 90 ° in conformity with the pivoting of the disk 2. The bending jaws 12 perform this bend exactly, the notches in the profile strand 1 allowing a clean corner formation. The disc 2 is pivoted via the swivel arm 13, which grips the disc 2 with its suction cups 14 and also pivots by exactly 90 ° until it touches the conveyor belts 4 with the second side. The feed begins again and section 1b of the profile strand 1 is glued along the second edge of the disc, whereby again the pressure rollers 11 ensure a tight pressing of the strand 1 on the disc 2. Subsequent to this gluing of the profile strand section 1b, the profile strand 1 is then angled while simultaneously pivoting the pane 2, then the next section is glued, etc. until the profile strand 1 is glued along all the side edges of the pane 2, whereupon the abutting strand ends by adhesive or by a suitable end piece can be connected to the closed hollow profile frame.

The pane 2 with the profile strand 1 now glued on and angled to the hollow profile frame is transported away from the processing station 6, whereupon only the second individual pane needs to be glued to the adhesive-coated hollow profile frame by placing and pressing on it to complete the insulating glass pane.

As can be seen above all from FIG. 2, for further rationalization and automation of the production of insulating glass, the profile strand 1 can be composed of two metal strips 15, 16, of which the metal strip 15 has a channel-shaped shape 15a in the longitudinal center region and the metal strip 16 has a perforation 16a. Since the metal strips 15, 16 are connected to one another at the edges by longitudinal folds 17, the profile strand 1 can thus also be produced continuously in the course of the production of insulating glass, since the metal strips 15, 16 are preformed and folded without difficulty by corresponding roller tables or the like can and before joining the two metal strips 15, 16, the formation 15a can be easily filled with adsorbent 18, which is then accessible through the perforation 16a from the interior of the insulating glass pane.

Claims (4)

1.Method for producing insulating glass panes from at least two individual panes (2) connected to one another with the interposition of a spacer running around the edge, according to which a hollow profile frame forming the spacer is first glued onto one of the individual panes (2) and then covered by gluing on the other single pane, characterized in that the hollow profile frame prepared as a continuous profile strand (1) is glued on in sections in accordance with the edges of the pane, in that the profile strand (1) after gluing on each section (1a) for gluing on the following section (1b) while simultaneously rotating the pane (2 ) is angled according to the respective corner angle until the last and the first section join together at the end to form the closed frame. 2. The method according to claim 1, characterized in that the profile strand (1) at an acute angle to the disc (2) and is pressed for gluing with elastic deformation to the (2) disc. 3. The method according to claim 1 or 2, characterized in that the profile strand (1) between the adjacent sections (1a, 1b) is notched. 4. The method according to any one of claims 1 to 3, characterized in that a profile strand (1) composed of two metal strips (15, 16) is used, of which metal strips one (15) in the longitudinal center region formed like a channel and the other (16) is perforated, whereupon after an adsorbent filling (18) of the formation (15a), both metal strips (15, 16) are placed on top of one another and connected to one another by longitudinal folding (17) of their edges.

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