ANCHOR FOR LAMINATED GLASS AND METHOD FOR SETTING OF THE ANCHOR IN LAMINATED GLASS

Information

  • Patent Application
  • 20170009514
  • Publication Number
    20170009514
  • Date Filed
    February 05, 2014
    10 years ago
  • Date Published
    January 12, 2017
    7 years ago
Abstract
An anchor for laminated glass includes an expansion dowel that has expansion appendices situated circumferentially, and is preferably made of a flexible material and having a conical cross-section with thickness increasing in the direction of insertion. Above the line of the expansion appendices is a circumferential groove, situated at the height of the edge of transition of the cylindrical hole into the conical hole, forming an empty space.
Description
BACKGROUND

The invention relates to an anchor for laminated glass and a method for its setting in laminated glass in an undercut hole. The anchor is intended for fixing in laminated glass, composed of at least two layers (for instance, a support layer and an external layer), and for glazing units composed of the aforementioned set constituting a support element, a glazing cavity and an external front plate. It will be evident and understandable for a person skilled in the art that the aforementioned anchor and method for its setting may be applied also in case of other materials.


Methods for setting of anchors in laminated glass are known in the art. One of these methods consists in setting of a countersunk cap even before the lamination process. Then, a set of two glass panels with the cap set between them is laminated in a furnace under negative pressure. The connected panels have a cap set, and the cap cannot be removed. The process has some disadvantages, because during lamination at higher temperatures, the cap settles asymmetrically and askew in relation to the surface of the panels. Moreover, stresses occur resulting from the presence of the countersunk cap during the lamination process.


Other known methods for setting of the anchor in laminated glass consist in setting of a countersunk anchor in the mass of the material, not in the space between the panels. In one of these methods, the anchor is set in a conical hole with an undercut in the glass panel's depth. It is an analogous method with that used in the case of anchors for stone. The hole is not made all the way through. Then, the anchor with a protruding threaded mandrel is installed in the hole using a special machine. In another variant of this method, the anchor is set in a prepared hole, but the gap formed between the anchor and the hole requires filling with a sealant. The sealant is fed via a special hole in the anchor's sleeve.


Methods for fixing of glass using a rotule fitting are also known, and they require making a through-hole, penetrating all layers of glass. In such case, the glass panels are fixed in a visible way. The fixations of rotule fittings may be set even with the surface of the exterior wall finish or as protruding. Another method consists in cementing of steel elements using silicones for glass.


From Polish patent description No. PL166087, a coupling is known, having a spacing element in the form of a two-way bent, oval metal ring. Its bent ends abut the conical surface of the coating of the spacing cone. The front panel is characterised in that the ring is pushed onto the spacing cone, and in the undercut, its external edge abuts the wall of the drilled hole.


From another Polish patent description No. PL202352, a system with a fixing element anchored in a plate composite casing is known. The fixing element anchored in an undercut hole has an expansion cone, onto which an expansion ring is pushed. In order to enable alignment of the shift between the layers of the composite casing, the hole in the external layer has a larger diameter than that in the next layer of the composite casing. Moreover, the washer of the fixing element has an injection hole that enables filling the space between the threaded mandrel of the fixing element and the wall of the hole in the external layer of the composite casing with a sealant. A disadvantage of this solution consists in the fact that it requires using a sealant, and the anchor protrudes beyond the surface of the material.


From German paten application No. DE102009044770, an anchor set in laminated glass in a conical hole with an undercut is known. Such setting of the anchor requires making a hole in the depth of one glass panel and a through-hole in the other panel. The anchor is set using an expansion element for a countersunk cap with two sealing layers which may shift in relation to one another. A disadvantage of this solution consists in the fact that it requires using washers.


Next, in European patent No. EP1660737, a fixing device is disclosed for creation of anchorage in panels made of monolithic glass. It requires using a cover made of a flexible material and a hardenable mix on the mandrel.


SUMMARY

The aim of the invention was to develop a solution eliminating existing disadvantages of known solutions in the form of a necessity to make holes in all panels of laminated glass, and use sealants and washers, as well as protrusion of a part of the anchor beyond the panels surface. This goal was achieved thanks to setting of the anchor in a conical undercut made only in one panel, and using a structure of anchoring appendices that contact with the conical hole on the cone's surface, and not as in hitherto known solutions in the place where the cylindrical hole turns into the conical hole.


The anchor for laminated glass according to the invention, is set in a blind cylindrical hole with a conical undercut in the laminated plate, consisting of at least two panels, one of which is a support panel with a cylindrical through-hole with a conical undercut abutting the second, external glass panel. The anchor has a countersunk cap, on which a dowel with an expansion anchoring element is placed. The anchor is characterised in that the expansion dowel is equipped with expansion appendices situated on its circumference, made preferably of a flexible material and having a conical cross-section with thickness increasing in the direction of insertion. On the other hand, there is a circumferential groove above the line of the expansion appendices, the groove being situated at the height of transition of the cylindrical hole into the conical hole, and forming an empty space.


Preferably, between the conical frontal surface of the expansion cap with compressed expansion dowel and the bottom surface of the hole, empty space is located.


Preferably, between the expansion dowel and the surface of the hole, a plastic cover is placed, reducing point stress, while the diameter of the expansion cap is larger than the diameter of the expansion dowel.


Preferably, diameters of the expansion cap and the expansion dowel are the same.


Preferably, the surface of the expansion appendices is covered with a plastic having a high friction coefficient, preferably nylon or EPDM or polyolefins.


Preferably, the angle α of the cap's cone is in the range of 110-150°.


Preferably, the angle β between the external surface of the cap's cone and the internal surface of the expansion dowel's appendices is in the range of 0-30°.


Preferably, the angle γ between the internal surface and the external surface of the expansion dowel's appendices is in the range of 0-20°.


The method for setting of the anchor in laminated glass according to the invention, the glass consisting of at least two panels, one of which preferably is a support panel, and the other, external one a glass panel, consists in setting of the anchor in an undercut hole made in the support panel, which is laminated with the external glass panel so as to the conical undercut of the hole abuts the other glass panel. The method is characterised in that in the hole of the support panel, a countersunk expansion cap is placed, and a dowel with expansion appendices is put onto it. The expansion appendices are situated on the circumference of the expansion dowel, made preferably of a flexible material and having a conical cross-section with thickness increasing in the direction of insertion. Then, the dowel is deformed so as to the expansion appendices, in the result of compressive forces, contact the conical hole on the cone's surface, beyond the edge connecting the conical surface with the cylindrical surface of the hole, increasing the diameter of the hole. On the other hand, surfaces of the cap and the expansion dowel are located at the same level and in one plane, and the circumferential groove situated above the line of the expansion appendices, is located at the height of the edge of transition of the cylindrical hole into the conical hole, forming an empty space.


Preferably, an empty space forms between the conical frontal surface of the expansion cap with the compressed dowel and the bottom surface of the hole.


Preferably, the conical part of the hole is made at an angle of from 40° to 50° in relation to the surface of the support panel.


Thanks to application of an anchor design placed in an undercut hole according to the invention, the anchor does not protrude above the surface of the panels. A shift between the panels during lamination does not affect the shape of the hole and subsequent setting of the anchor. The appendices of the anchoring dowel made in a special way contact the conical hole on the surface of the conical hole linearly, and not on the edge in the place where the cylindrical hole turns into the conical one. Moreover, the appendices of the expansion dowel, having a conical shape of their cross-section, protect the cap from slipping, as the cap locks in the hole, increasing the diameter of the whole anchor. In this way, operation of the anchor consists in transmission of forces onto the material by compression, and not cutting the appendices off.





DESCRIPTION OF THE DRAWINGS

The subject of the invention is illustrated as an embodiment in the drawing, where:



FIG. 1 shows a cross-section of the anchor set in a two-layer plate of laminated glass;



FIG. 2—a dowel with expansion appendices;



FIG. 3—an expansion cap;



FIGS. 4-8—the method for setting of the anchor in an undercut hole;



FIG. 9—a part of the dowel in the form of expansion appendices with a circumferential groove; and



FIG. 10—deformation of the appendices on a cap.





DESCRIPTION OF DISCLOSED EMBODIMENTS

In one of embodiments of the invention, a circular anchor is set in a two-layered glass panel in a cylindrical hole 1 with a conical undercut 10.


In order to set the anchor, at first, the hole 1 with a conical undercut 10 is made in the support panel 2, which is drilled all the way through. The conical part of the hole is made at an angle of from 45° in relation to the surface of the support panel. The glass panels are laminated together so as to the broadened conical part 10 of the hole 1 is connected by the laminate with the second glass panel. A shift between the panels during lamination does not affect the shape of the hole, and subsequent setting of the anchor. Connected and laminated panels form together the blind hole 1 with a conical undercut 10, in which the anchor is set.


The anchor consists of a countersunk expansion cap 3 and an expansion dowel 4. The angle α of the cap's cone is equal to 130°. Then, a screw is driven in into the thread of the cap 3 in order to fix the whole structure. The dowel 4 has twelve expansion appendices 5 made of a flexible material and having a conical cross-section with thickness increasing in the direction of insertion. There is a circumferential groove 6 above the line of the expansion appendices 5, the groove being situated at the height of transition of the cylindrical hole 1 into a conical hole 10. The surface of the expansion appendices 5 is covered with a plastic having a high friction coefficient, selected from the group comprising nylon, EPDM and polyolefins. The diameters of the cap 3 and the dowel 4 have the same size. On the other hand, in another embodiment of the invention, a cover 9 made of a plastic reducing point stress is placed between the hole 1 and the anchor, but then, the diameter of the expansion cap 3 is larger than the diameter of the expansion dowel 4.


Then, a countersunk expansion cap 3 is placed in the hole 1 of the support panel 2. Onto the cap 3, the dowel 4 with the expansion appendices 5 is put and the dowel 4 is deformed so as to the expansion appendices 5 in the result of compressive forces contact the conical hole 10 on the cone's surface, beyond the edge connecting the conical surface with the cylindrical surface of the hole 1, leading to an increase of the diameter of the hole 1. Surfaces of the cap 3 and the expansion dowel 4 are located at the same level and in one plane, and the circumferential groove 6 situated above the line of the expansion appendices 5, is located at the height of the edge of transition of the cylindrical hole 1 into the conical hole 10, forming an empty space 7 in-between. In case when the deformation is carried out properly, surfaces of the cap 3 and the dowel 4 are located at the same level. At the same time, an empty space 8 is formed between the conical frontal surface of the expansion cap 3 with the compressed expansion dowel 4 and the bottom surface of the hole 11.


The angle β between the external surface of the cap's cone 3 and the internal surface of the appendices 5 of the expansion dowel 4 is in the range of 0-30°. The obtained difference between the angles is filled with the appendices 5 of the expansion dowel 6. It leaves much more space for deformation of the appendices 5 of the dowel 6 and lower setting of the anchor. Then, the angle □ between the internal surface and the external surface of the appendices 5 of the expansion dowel 4 is in the range of 0-20°. After deformation, the appendices 5 form contact with the material beyond the bend edge between the cylindrical 10 and conical part of the hole 1. Conical shape of the appendices 5 is intended for protection of the cap 3 from sliding off, as a result the cap 3 locks itself in the hole 1, increasing the diameter of the whole anchor. In this way, operation of the anchor consists in transmission of forces onto the material by compression, and not cutting the appendices off.

Claims
  • 1. An anchor for laminated glass, set in a blind cylindrical hole with a conical undercut, in a laminated panel, composed of at least two panels, one of which is a support panel with a cylindrical through-hole with conical undercut abutting a second external glass panel, the anchor having a countersunk cap, onto which a dowel with an expansion anchoring part is placed, wherein the expansion dowel (3) has expansion appendices (5) situated circumferentially, preferably made of a flexible material and having a conical cross-section with thickness increasing in the direction of insertion, while above the line of the expansion appendices (5) a circumferential groove (6) is located, situated at the height of the edge of transition of the cylindrical hole (1) into the conical hole (10), forming an empty space (7).
  • 2. An anchor according to claim 1, wherein an empty space is located (8) between the conical frontal surface of the expansion cap (3) with compressed expansion dowel (4) and the bottom surface of the hole (11).
  • 3. An anchor according to claim 1, wherein between expansion dowel (4) and the surface of the hole (1), a plastic cover (9) is placed, reducing point stress, while the diameter of the expansion cap (3) is larger than the diameter of the expansion dowel (4).
  • 4. An anchor according to claim 1, wherein the diameters of the expansion cap (3) and of the expansion dowel (4) are the same.
  • 5. An anchor according to claim 1, wherein the surface of the expansion appendices (5) is covered with a plastic having a high friction coefficient, preferably nylon or EPDM or polyolefins.
  • 6. An anchor according to claim 1, wherein the angle □ of the cap's cone (3) is in the range of 110-150°.
  • 7. An anchor according to claim 1, wherein the angle □ between the external surface of the cap's cone (3) and the internal surface of the appendices (5) of the expansion dowel (4) is in the range of 0-30°.
  • 8. An anchor according to claim 1, wherein the angle □ between the internal surface and the external surface of the appendices (5) of the expansion dowel (4) is in the range of 0-20°.
  • 9. A method for setting of the anchor in laminated glass, the glass consisting of at least two panels, one of which preferably is a support panel and the other, external one—a glass panel, the method consisting in setting the anchor in an undercut hole made in the support panel, which is laminated with the external glass panel so as to the conical undercut of the hole, abuts the other glass panel, wherein in the hole (1) of the support panel (2) a countersunk expansion cap is placed (3) and a dowel (4) is put on it, the dowel having expansion appendices (5) situated on the circumference of the expansion dowel (4), made preferably of a flexible material and having a conical cross-section with thickness increasing in the direction of insertion, and then, the dowel (4) is deformed so as to the expansion appendices (5) in the result of compressive forces contact the conical hole (10) on the cone's surface, beyond the edge connecting the conical surface with the cylindrical surface of the hole (1), increasing the diameter of the hole (1), and the surfaces of the cap (3) and the expansion dowel (4) are located at the same level and in one plane, while the circumferential groove (6) situated above the line of the expansion appendices (5) is located at the height of the edge of transition of the cylindrical hole (1) into the conical hole (10), forming an empty space (7).
  • 10. A method according to claim 9, wherein an empty space forms (8) between the conical frontal surface of the expansion cap (3) with the compressed dowel (4) and the bottom surface of the hole (1).
  • 11. A method according to claim 9, wherein the conical part of the hole (11) is made at an angle of from 40° to 50° in relation to the surface of the support panel (2).
PCT Information
Filing Document Filing Date Country Kind
PCT/PL2014/050006 2/5/2014 WO 00