EP1125034A1

EP1125034A1 - Point fitting for insulating glass panes

Info

Publication number: EP1125034A1
Application number: EP00960487A
Authority: EP
Inventors: Lothar Ginzel
Original assignee: Dorma Deutschland GmbH
Current assignee: Dorma Deutschland GmbH
Priority date: 1999-08-20
Filing date: 2000-08-18
Publication date: 2001-08-22
Also published as: SK4982001A3; CZ20011384A3; HUP0103900A3; JP2003507320A; US6715955B2; NO20011945L; CA2347729A1; DE19939172C2; WO2001014680A1; DE19939172A1; IL141718A0; NO20011945D0; HUP0103900A2; HU222686B1; US20020031398A1; PL347370A1; AU7277600A; CN1320187A; CN1144930C

Abstract

The invention relates to a fastening device for insulating glass panes. For this purpose, a point fitting (1) is used that is fastened on the outside of the insulating glass pane (50) by means of an adhesive (51). A spacer element (53) is inserted in the area of the point fitting between the spaced-apart glass panes (2, 50). The invention further relates to an assembly element (5) with adjustable pretension. A permanently elastic spring member (7) is interposed between a bell-shaped fitting (10) and the assembly element (5). Said spring member allows a relative movement of the bell-shaped fitting (10) in relation to the assembly element (5). The invention further relates to the embodiment of a plurality of three-dimensional joints (12, 13) between the insulating glass pane (2, 50) and the fitting located on the building.

Description

Title: Point-shaped holder for insulating glass panes

description

The application relates to a punctiform holder according to the preamble of claim 1, which is used to connect at least two glass panes spaced apart by an air gap, which is preferably filled with a gaseous medium, the punctiform holder being connected to a substructure in a non-positive and positive manner.

Such a holder, which can be used for a point-like, bending moment-free storage of multiple insulating glass panes, is disclosed in German utility model 93 18 862. The punctiform holder is guided through bores that are located within the spaced glass panes. For this purpose, it is necessary in the area of the bores within the spaced glass panes to seal them hermetically to the closed air gap surrounding them. At the same time, these spacings between the two glass panes must also bring about the force of connecting the insulating glass panes above the point holder. Thus, on the one hand, there is a contact plate in the outer area and, in the inner area, a contact plate on the spaced glass panes which are tightened against one another by means of a screw element. In the area of the connection of the point holder, it is so flexibly equipped with a ball and thus complementary surface interacting within the inner plate that the holder unit can be rotated with respect to the substructure. Corresponding construction tolerances can thereby be partially compensated for. Because this punctiform holder, as is usual with single-pane glass panes, is also passed through the spaced glass panes, there is a very expensive and, on the other hand, also a very critical connection with regard to long-term stability. In addition to the holes to be drilled, it is also important to securely and permanently seal the air gap between the spaced disks.

REPLACEMENT BLAπ (RULE 26) DE 44 00 979 A1 likewise discloses a device of the generic type in which the clamping element (receiving bearing) on the inside of the building has a spherical surface on the lateral surface facing the holder, on which a compensating part with a complementary spherical cap surface rests. The clamping element has a through-bore for receiving the clamping screw connecting the clamping elements and a retaining screw which grips through a shim and the compensating part and engages in the clamping element. With the known device, constructional tolerances between the bore in a glass pane and a substructure (holder) can be compensated for; a resilient, elastic support of the pane on the holder after assembly is not provided.

A similar device is described in DE 44 45 724 A1, in which the inside of the gill element on the side of the building facing the bracket has a spherical surface against which a pivot bearing of a fastening part of its complementary surface rests, the pivot bearing being held in a union nut with lateral play , After installation, a relative movement of the disc with respect to the fastening part is no longer possible.

Furthermore, from EP 0 784 129 A1 a support of a fastening screw on a holder is known, in which a plate of the holder is fixed between two plano-convex lenses, the pian surfaces of which lie directly against the plate, one lens with its convex surface on a clamping element on the inside of the building and the other lens bears indirectly on a nut receiving the fastening screw.

The object of the invention is to simplify the aforementioned prior art in such a way that an inexpensive point-shaped holder which is inexpensive to manufacture and used for insulating glass panes is created. At the same time, the punctiform holder should enable bending-free storage with simultaneous tolerance compensation in relation to the substructure.

SPARE BLADE (RULE 26) The object of the invention is achieved by the characterizing part of patent claim 1 in connection with its preamble. The subclaims represent a further embodiment of the inventive idea.

According to the invention, it is proposed to omit the bores usually located in the glass panes and to attach the punctiform holder, which has a flat mounting surface, to one of the spaced insulating glass panes in a force-fitting and form-fitting manner by an adhesive. So that the weight of the insulating glass panes can be safely absorbed by the punctiform holder through both spaced panes, there is a spacer in the air gap between the spaced glass panes, which spacer is also non-positively and positively connected to the glass panes by an adhesive. This spacer can be made of glass or metal. The adhesive used must be UV stable and preferably transparent. In addition, long-term stability with regard to the wearing properties must be given. The proposed bracket is also designed so that it achieves a bending moment-free storage of the glass panes on a substructure. This is also to be applied to the adhesive connection between the proposed holder and the insulating glass pane. The holder is therefore built so that it has an inside clamping element on its mounting surface facing away from the glass pane by a permanently elastic spring member conical or bali surface against which a complementary surface before an inner jacket of a union bell with adjustable bias can be adjusted, whereby between the union bell and a fastening screw on the one hand and a fastening screw and the holder on the other hand each have a rigid space hinge.

According to the solution according to the invention, wind pressure and thermal stresses are absorbed by the elastic support of the coupling bell on the inside clamping element, because even after assembly, a relative movement of the two parts to one another is possible without the introduction of restoring forces into the spaced glass panes.

SPARE BLADES (RULE 26) This is ensured by the adjustable preload between the clamping element and the cap. Due to the multiple subdivision of the fastening device by at least two further spatial joints, not only is there a good possibility of adaptation to larger construction tolerances; the individual articulation points of the spatial joints form, to a certain extent, nodes with a certain intrinsic elasticity even after firm tensioning, which additionally contribute to the stress-free mounting of the glass panes.

According to one embodiment of the invention, the inside clamping element can even have a conical or spherical surface on its outer surface facing away from the glass panes. In principle, the conical or spherical surface can also be formed by the permanently elastic spring member even when the gill element is designed to be flat. Furthermore, there is a hole in the inside clamping element, which connects the inside clamping element with the union bell adjusting screw, in the embodiment of the invention the permanently elastic spring member is designed as a permanently elastic cushion, which between the mounting plate facing conical or spherical surface of an inside clamping element and the complementary surface of the over - throwing bells is arranged. The permanently elastic cushion can be clamped by means of the above-described screw cap adjusting screw in such a way that not only stresses introduced into the glass panes by the permanently elastic cushion itself can be absorbed, but that a relative displacement of the cap bell over the permanently elastic cushion is possible, so that the glass panes and so that the connection between the glass panes and the nut is completely free of tension.

According to a special feature of the invention, the coupling bell has on its side facing the holder a cylindrical extension provided with an external thread, between which and the coupling bell an inwardly directed flange is formed for supporting the screw head of the coupling bell adjusting screw in the region of the bottom of the coupling bell is. A union bell adjusts between the flange and a shaft

REPLACEMENT BLADE (RULE 26) screw provided play the arrangement of a disk designed as a lens between the flange and the screw head of the union bell adjusting screw such that the shaft of the union bell adjusting screw can perform a pendulum movement with respect to the union bell. This pendulum movement is favored if the contact surface of the flange and the complementary surface of the lens are conical or crowned. It has proven to be expedient to use a non-metallic lens, for example consisting of a slidable hard rubber. In this way, an additional space joint is practically created between the coupling bell and the inside clamping element and thus the glass panes.

A further space joint consists in that the end face of the extension of the coupling bell directed against the holder is curved in the shape of a concave lens, a cup-like union nut encircling the external thread of the extension of the coupling bell having an inner pot bottom surface which is curved in the opposite direction to the end face of the extension of the coupling bell is, so that two convex lenses lying against each other with their flat surfaces can be mounted between the end face of the extension of the coupling bell and the pot bottom surface of the coupling nut. By means of the union nut described above, the space joint described above can be locked after assembly. In an advantageous embodiment of the invention, the plano-convex lens lying against the pot bottom surface of the union nut is part of a nut receiving the fastening screw, which makes it possible to screw the fastening screw more or less deeply into the nut for the purpose of shortening or lengthening the entire fastening device as desired , To achieve the above-mentioned space joint, the shaft of the nut is dimensioned so that it fits through a hole in the base of the union nut with play.

Another space hinge can be in a known manner in the area of the direct connection of the mounting screw to the bracket can be realized in that the fastening screw passes through a hole in the holder with play and the holder is fixed between a nut and a lock nut, wherein between the nut and the lock nut on the one hand and the holder on the other hand a plano-convex lens with its flat surface of the holder is provided and the nut and lock nut have complementary mounting surfaces to the lens. Here, too, the assembly is an adjustable and adaptable space joint that can be rigidified after assembly, with a spacer sleeve being provided between the latter space joint forming the connection to the holder and the space joint formed by the union bell and the union nut can.

The invention is explained in more detail below on the basis of various exemplary embodiments. Show it:

Figure 1: A cross section through an insulating glass pane with a point-shaped holder.

Figure 1 a: A cross section through a fastening device.

Figure 2: The cross section of Figure 1 a with the angled insulating glass pane.

Figures 3 - 12: Details of the inside clamping element, the

Union bell, the lens lying against the screw bell of the union bell adjusting screw, the nut holding the fastening screw and the union nut, each in a perspective view and in cross section.

A punctiform holder 1 according to FIG. 1 has a mounting element 5 with a flat mounting surface 4 which is adhesively bonded to the insulating glass pane, which consists of at least two individual glass panes 2, 50. The glass panes 2, 50 are spaced apart on the circumferential edge in a conventional manner by a spacer 54, so that an air gap between the glass panes 2, 50 forms space 52. This air gap 52 can be filled with a gas. The glass panes 2, 50 can be produced as single-pane safety glass or as laminated glass. In FIG. 1, the punctiform holder 1 with the flat mounting surface 4 is attached to an outer surface of the glass pane 50 by an adhesive 51 in a non-positive and positive manner.

In the area of the punctiform holder 1, a spacer 53 is provided between the glass panes 2, 50, also non-positively and positively connected to the glass panes 2, 50 by an adhesive 51. A direct power transmission can thus be transmitted from the glass panes 2, 50 to the punctiform holder 1. As is clear from the exemplary embodiment in FIG. 1, in the case of such a fastening of a punctiform holder 1 to the glass panes 2, 50 by means of adhesive, no processing of the glass is necessary, that is to say drilling holes and sealing these bores with respect to the air gap 52 of the insulating glass panes 2, 50. This type enormously simplifies and cheapens the manufacture of such insulating washers. The adhesive used is UV stable and preferably transparent. The spacer 53 to be used can consist of glass or metal.

Compared to the flat mounting surface 4 in the exemplary embodiment, the mounting element 5 has a conical outer surface 14, against which a permanently elastic spring member, which is supported on a projection 57 and is designed as a permanently elastic cushion 19, lies, which practically forms the actual outer surface 6 of the mounting element 5. An inner jacket 9 of a union bell 10 with a complementary surface 8 bears against this lateral surface 6. A blind bore 16 (see FIGS. 3 and 4) of the mounting element 5 connects the mounting element 5 to a space joint 12. The blind bore 16 has an internal thread 15 for this purpose. In the internal thread 15, a cap-adjusting screw 18 surrounds, the screw head 24 of which is supported on a flange 23 of a cylindrical extension 21 of the cap-10. Between the flange 23 and the screw head 24, a preferably elastic lens 27 is provided, which is supported on a contact surface 28 of the flange 23, so that at this point a space joint in

ERSATZBLAT. (RULE 26) Frame of a game 26, as shown in Figure 2, is formed. For this purpose, the lens 27 has a complementary surface 29. The cylindrical extension 21 of the coupling bell 10, which extends from the area of the deepest floor 22, has an end surface 30 directed against a substructure 3, which is concavely curved. A corresponding opposite curvature has an inner pot bottom surface 32 of a union nut 31, so that between the end face 30 of the extension 21 and a pot bottom 39 of the union nut 31 two lenses 34 and 35 can be arranged, the flat surfaces 33 of which lie on top of each other and one of which has a loose lens 34 with its convex surface abuts the end face 30 of the extension 21, while the second lens 35 is a fixed component of a nut 36 receiving a fastening screw 11 and is supported with its convex surface on the pot base 39. The nut 36 has a shaft 37 which passes through a bore 38 in the union nut 31 with play 40.

FIG. 1 a shows that when the union nut 31 is screwed onto the union bell 10 by means of an external thread 20 in the region of the extension 21, the space joint generally designated 12 and formed by the two lenses 34 and 35 can be locked. The nut 36 (see FIGS. 9 and 10) has a blind bore 56 with an internal thread 55 into which the fastening screw 11 can be screwed, 36 key surfaces 58 being provided on the outer jacket of the nut. FIG. 1 a further shows that in the exemplary embodiment, a nut 49 connects to the nut 36, which in turn is supported against a nut 43 which clamps the substructure 3. Lenses 46 and 47 are provided between the nut 43 and a lock nut 44, which bear against complementary contact surfaces 48 of the nut 43 or lock nut 44. Flat surfaces 45 of the lenses 46 and 47 rest directly on the holder 3. Since a fastening screw 11 extends through a bore 41 of the holder 3 with play 42, a space joint designated 13 is also formed here, with which construction tolerances can be compensated for.

FIG. 2 shows the possible inclined position of an insulating glass pane of the spaced glass panes 2, 50 relative to the substructure 3 with the

REPLACEMENT SHEET (RULE 26) speaking setting of the room joints 12 and 13, as well as corresponding angling in the area of a shaft 25 of the union screw adjusting screw 18 with respect to the union bell 10 on the one hand and with respect to the union nut 31 on the other hand. It can be seen that the union bell 10 has been displaced relative to a permanently elastic spring member 7. This means that a non-rigid spatial joint is formed at this point. The position of the permanently elastic spring member 7 has not changed relative to the mounting element 5 as a result of the support on the projections 57.

The fastening device described above is thus suitable for maintaining the elasticity of the glass panes 2, 50, since it does not restrict the freedom of movement of the glass panes and thus leads to a neutralization of force. The fastening device according to the invention means adaptation to the environmental specifications and not a rigidity of the building material glass, which inevitably leads to destruction, as is the case with the prior art shown.

SPARE BLADE (RULE 26) reference numeral

1 point holder

2 glass pane

3 substructure

mounting surface

5 mounting element

Shell surface of permanently elastic spring member

complementary surface

inner sheath

10 union bell 1 fastening screw 2 universal joint 3 universal joint 4 lateral surface 5 internal thread 6 blind hole 8 union bell adjusting screw 9 permanently elastic cushion 0 external thread 1 cylindrical extension 2 deepest floor 3 flange 4 screw head 5 shaft 6 clearance 7 lens 8 contact surface 9 complementary surface 0 front surface 1 union nut 2 inner pot bottom surface 3 Flat surface 4 lens 5 lens

ERSA ZBLAπ (RULE 26) mother

shaft

drilling

pot base

game

drilling

game

mother

locknut

plan surfaces

lens

Lens complementary contact surface

Distanzhulse

pane

adhesive

Air gap

Distance Stuck

spacer

inner thread

blind hole

projections

Schlusselflachen

LAπ RULE 26

Claims

claims

1. punctiform holder for connection to insulating glass panes with at least two glass panes (2.50) spaced apart by an air gap (52), which is preferably filled with a gaseous medium, and wherein the punctiform holder is also connected to a substructure in a non-positive and positive manner, characterized in that the punctiform holder (1) has a mounting element (5) with a flat mounting surface (4) which is non-positively and positively connected to an outer surface of the glass panes (2, 50) by adhesive (51) and in the air gap (52), in the area of the punctiform holder (1), a spacer (53) between the glass panes (2, 50) is also connected to one another by means of an adhesive (51) in a non-positive and positive manner.

2. Point-shaped holder according to claim 1, characterized in that the spacer (53) consists of glass.

3. Point-shaped holder according to claim 1, characterized in that the spacer (53) consists of metal.

4. Point-shaped holder according to claim 1, characterized in that the adhesive (51) is UV-stable and transparent.

5. punctiform holder according to claim 1, characterized in that the punctiform holder (1) includes a bending moment-free mounting of the glass panes (2, 50) on a substructure (3).

6. punctiform holder according to claim 1 and 5, characterized in that the bending moment-free mounting consists of the mounting element (5), and that on the mounting surface (4) facing away from the lateral surface (6) formed by a permanently elastic spring member conical or spherical surface ( Shell surface 6) against which a complementary surface (8) of an inner shell (9) of a cap with adjustable preload

REPLACEMENT BLAπ (RULE 26) is adjustable, and that between the coupling bell (10) and a fastening screw (11) and the substructure (3) a rigid spatial joint (12, 13) is arranged.

7. Point-shaped holder according to claim 6, characterized in that the mounting element (5) has a conical or spherical surface on a lateral surface (14) facing away from the mounting surface (4).

8. punctiform holder according to claim 6 and 7, characterized in that the mounting element (5) has an internal thread (17) having a central blind bore (16) for receiving a cap (10) with the mounting element (5) connecting cap adjusting screw (18 ) having.

9. Point-shaped holder according to claim 6, characterized in that a permanently elastic cushion is arranged between the conical or baliigen surface of the mounting element (5) and a complementary surface (8) of the cap (10).

10. punctiform holder according to claims 6 to 9, characterized in that the cap (10) on its side of the substructure (3) facing a with an external thread (20) provided cylindrical extension (21) between and the cap (10) in the area of a floor deepest (22) of the union bell (10) an inwardly directed flange (23) for supporting the screw head (24) of the union bell adjusting screw (18) is formed.

1 1. Fastening device according to claim 10, characterized in that a clearance (26) is provided between the flange (23) and a shaft (25) of the union bell adjusting screw.

12. Fastening device according to claim 10 and 1 1, characterized in that between the flange (23) and the screw benkopf (24) of the cap screw (18) a disc (lens) (27) is arranged

Fastening device according to claims 10 to 12, characterized in that a contact surface (28) of the flange (23) and a complementary surface (29) of the disc (lens) (27) are conical or spherical

Fastening device according to claim 10, characterized in that an end face (30) of the extension (21) of the coupling bell (10) directed towards the substructure (3) is curved in a concave lens shape

Fastening device according to one of claims 6 to 14, characterized by a cup-like union nut (31) which encompasses the external thread (20) of the extension (21) of the union bell (10) and whose inner pot bottom surface (32) is opposite to the end face (30) of the extension (21 ) the cap (10) is curved

Fastening device according to claim 15, characterized in that between the end face (30) of the extension (21) of the union bell (10) and the pot bottom surface (32) of the union nut (31), two with their flat surfaces (33), plano-convex lenses lying against each other (34, 35) are arranged

Fastening device according to claim 16, characterized in that the plano-convex lens (35) which bears against the pot bottom surface (32) of the union nut (31) is part of a nut (36) receiving the fastening screw (1 1)

Fastening device according to claim 17, characterized in that a shaft (37) of the nut (36) extends through a bore (38) in the pot base (39) of the union nut (31) with play (40)

Fastening device according to one or more of the preceding claims, characterized in that the fastening screw (11) has a bore (41) in the substructure

REPLACEMENT BLAπ (RULE 2t (3) with play (42) and the substructure (3) is fixed between a nut (43) and a lock nut (44), whereby between the nut (43) or the lock nut (44) on the one hand and the substructure (3 ) on the other hand, each has a plane-convex lens with its plane surface (45) of the holder

(46, 47) is provided and the nut (43) and lock nut (44) to the lens (46, 47) complementary contact surface (48).

20. Fastening device according to one of claims 6 to 19, characterized in that a spacer sleeve (49) is arranged between the nut (36) receiving the fastening screw (11) and the nut (43) fixing the substructure (3).

21. Fastening device according to claims 1 and 5, characterized in that the bending moment-free mounting consists of a construction made of a ball, which is wholly or partially enclosed by complementary surfaces, the bias of which is adjustable.

22. Fastening device according to one or more of the preceding claims, characterized in that at least one of the spaced glass panes (2, 50) consists of a single-pane or multi-pane laminated safety glass.

ERSATZBLAπ (RULE 26