EP2518233A1 - Élément porteur en verre - Google Patents

Élément porteur en verre Download PDF

Info

Publication number
EP2518233A1
EP2518233A1 EP12002868A EP12002868A EP2518233A1 EP 2518233 A1 EP2518233 A1 EP 2518233A1 EP 12002868 A EP12002868 A EP 12002868A EP 12002868 A EP12002868 A EP 12002868A EP 2518233 A1 EP2518233 A1 EP 2518233A1
Authority
EP
European Patent Office
Prior art keywords
glass
longitudinal
elements
features
carrier
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP12002868A
Other languages
German (de)
English (en)
Other versions
EP2518233B1 (fr
Inventor
Friedrich Dr. Gartner
Franz Heger
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Josef Gartner and Co
Original Assignee
Josef Gartner and Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Josef Gartner and Co filed Critical Josef Gartner and Co
Publication of EP2518233A1 publication Critical patent/EP2518233A1/fr
Application granted granted Critical
Publication of EP2518233B1 publication Critical patent/EP2518233B1/fr
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04CSTRUCTURAL ELEMENTS; BUILDING MATERIALS
    • E04C3/00Structural elongated elements designed for load-supporting
    • E04C3/02Joists; Girders, trusses, or trusslike structures, e.g. prefabricated; Lintels; Transoms; Braces
    • E04C3/28Joists; Girders, trusses, or trusslike structures, e.g. prefabricated; Lintels; Transoms; Braces of materials not covered by groups E04C3/04 - E04C3/20
    • E04C3/285Joists; Girders, trusses, or trusslike structures, e.g. prefabricated; Lintels; Transoms; Braces of materials not covered by groups E04C3/04 - E04C3/20 of glass

Definitions

  • the invention relates to a glass carrier for carrying or supporting a load.
  • supporting elements which consist of known materials such as wood, steel, aluminum or the like, can also be made of glass.
  • the type of glass used for this purpose, as well as the manner of attachment of such existing glass supporting elements depends on the static conditions.
  • a glass column in which elongate glass plates are arranged perpendicular to a bottom plate.
  • the bottom plate runs horizontally and serves as a stand of the column.
  • the glass plates form a right angle to each other and are limited at its lower end by the bottom plate and at its upper end by a horizontal cover plate.
  • the glass plates as supporting elements are stretched between the bottom plate and the cover plate.
  • a glass support is known as a structural element of a glass facade or a glass roof, in which a glass tube is secured at an upper and lower end in a receiving console. Facade slices are attached to the glass tube via a bracket.
  • the glass carrier has at least two glass sheets arranged in series in a longitudinal direction.
  • a frame for the glass sheets has at least two longitudinal elements arranged in the longitudinal direction, and at least three transverse elements arranged substantially perpendicular to the longitudinal elements. At least one transverse element is arranged between the glass panes.
  • a clamping device running along the longitudinal elements serves to clamp the glass panes with the transverse elements.
  • a glass support according to the invention of any body length can be treated with standard transports such as e.g. usual containers or trucks are transported. Furthermore, the maximum length of glass parts is limited both by the production equipment and by the facilities for further processing of glass.
  • the use of several glass panes arranged in a row facilitates their transport insofar as the glass panes are transported individually and connected to each other via the frame on site. As a result, the total length of the glass carrier can be extended compared to the aforementioned examples.
  • the longitudinal elements are preferably arranged on opposite longitudinal edges of the glass panes to enclose the glass pane.
  • one transverse element is respectively arranged at the two longitudinal ends of the row of discs.
  • At least one transverse element is arranged between the glass panes, and serves, for example, as an intermediate support of the panes of glass.
  • the clamping device clamps the glass panes with the Cross members by the two arranged on the longitudinal ends of the disc row transverse elements are stretched to each other and thereby exert a pressure on the two glass panes, which are arranged at the ends of the disc row. The tension is transmitted via the cross elements and the glass panes to all cross elements and glass panes.
  • the longitudinal direction is the direction in which the glass sheets are arranged one behind the other in series and in which the clamping device is formed braced. In a constructed vertical support, the longitudinal direction would point in the vertical direction. Then the glass carrier could serve as a supporting element for example, a facade. When using the glass carrier as a supporting element for a roof, the longitudinal direction in a building position can also be horizontal or diagonal.
  • a major portion of the load to be carried by the glass slide such as e.g. the wind load of a facade or the snow load of a roof are orthogonal to the longitudinal direction.
  • the longitudinal and transverse elements of the frame are arranged along the glass edges of the glass sheets. Similar to a picture frame, the transverse and longitudinal elements may comprise the glass panes along all four edges of the glass. This applies in particular to substantially rectangular glass panes.
  • the frame can have a holding function for the glass panes in such a way that it prevents the glass panes from slipping along the symmetry axes of the glass panes.
  • the glass sheets are arranged so that they have the longitudinal elements facing edge regions, which lie substantially on straight lines. While the glass edges running along the transverse elements are facing away from one another or facing away from one another, the longitudinal glass edges running along the longitudinal elements are arranged flush with one another. They form a common edge region which may be interrupted by a transverse element can and is located substantially on a straight line extending in the longitudinal direction.
  • rectilinear longitudinal elements can run along the glass edges of all the glass panes whose edge regions lie substantially on the straight line.
  • the longitudinal and transverse elements are preferably substantially rectilinear, i. they can be aligned along one direction (here in the longitudinal or transverse direction). They can be formed in one or more pieces.
  • the center planes of the glass panes and the center axes of the clamping device are preferably arranged in one plane.
  • the median plane of the glass pane is the center plane which runs parallel to the largest surface of the glass pane.
  • the central axes of the clamping device extending along the two longitudinal glass edges run in the direction in which the clamping device can be clamped. Characterized in that the said center planes of the glass panes and the center axes of the clamping device lie in the same plane, a particularly effective power transmission during clamping of the glass panes over the transverse elements is possible. Furthermore, this allows a slim design in a direction perpendicular to the disc surfaces.
  • the two ends of the transverse elements on projections with a recess which projects beyond the edge of the glass sheets in the direction of the transverse elements, and wherein the clamping device extends through the recesses of the projections.
  • the recesses form a guide for the clamping device.
  • the tensioning device has at least one tension rod for bracing the glass panes with the transverse elements.
  • Several tension rods or tension elements of the tensioning device can be arranged in series in the longitudinal direction, and be connectable via at least one connecting piece.
  • the tension rod or the row of tension rods can have at least one exciting end, via which a tension can be exerted on the tension rod.
  • This tension is transferable to the transverse elements and the glass panes.
  • the exciting for example, have a thread to be clamped by means of a screwing movement.
  • the longitudinal elements of the frame have at least one longitudinally aligned receptacle which is designed to receive the edge regions of the glass panes.
  • the glass panes are sustainable by the longitudinal elements or durable.
  • the receptacle may for example be formed substantially U-shaped, wherein the open end of the US has to the longitudinal side extending edges of the glass sheets.
  • the tensioning device can be arranged at least partially in the receptacle of the longitudinal elements.
  • the tensioning device can extend within the U-shaped opening.
  • the tensioning device is preferably designed to be displaceable relative to the glass panes and the transverse elements along the longitudinal direction.
  • the transverse elements and glass sheets are pushed together and clamped.
  • the clamping device may also be designed to be displaceable relative to the longitudinal elements.
  • the clamping device may be formed in cross-section at least partially substantially angularly in order to rotate parts of the clamping device in a plane perpendicular to To inhibit or prevent longitudinal direction.
  • substantially angular means that the cross-section of parts of the tensioning device along the plane to which the longitudinal direction or the clamping direction forms the normal, has at least one corner as a twist protection.
  • the cross section may be triangular or rectangular. The corners may be rounded as long as they block a twist in the described plane. Such a polygonal design facilitates screwing together of the tension elements of the tensioning device for bracing the glass panes with the transverse elements.
  • the clamping device may have at least one longitudinal end of a clamping means which is formed for example as a screw.
  • the tensioning means serves to apply a tension to the tensioning device and thus to the glass panes and the transverse elements.
  • the tensioning device is coupled to the transverse elements and the glass panes such that a tensioning of the tensioning device, in particular a length reduction of the tensioning device in the longitudinal direction, leads to tensioning of the glass panes with the transverse elements.
  • the glass carrier has tension rods of the tensioning device, which are positively coupled by coupling parts in the longitudinal elements.
  • the coupling parts serve to stiffen the longitudinal elements against torsion in the plane to which the longitudinal direction forms a normal and thus contribute to stiffen the glass panes as well as the entire glass carrier against lateral (i.e., orthogonal to the longitudinal direction) bulging.
  • the longitudinal profile itself must absorb less force and can be made slim and filigree.
  • a glass carrier 1 is shown in a side view.
  • the glass carrier 1 has a plurality of glass panes 2 and a frame 20.
  • the frame 20 is ladder-shaped or box-shaped and runs along the edges of the rectangularly formed glass panes 2.
  • the "ladder rungs" of the frame 20 are formed by transverse elements or transverse profiles 22.
  • the “conductor bars” of the frame 20 are formed by longitudinal elements or longitudinal profiles 21.
  • the components (transverse elements 22 and longitudinal elements 21) of the frame 20 are made of steel or similar. trained and grasp the glass sheets 2 a.
  • the glass sheets 2 are rectangular and arranged one behind the other in the direction in which extend the longer side edges of the rectangle. As a result, a high overall length of the glass carrier 1 is achieved.
  • the central planes of the glass sheets 2 are all in one plane, in Fig. 1 in the drawing plane.
  • the direction in which the glass sheets 2 are arranged in series defines a longitudinal direction A.
  • the longitudinal elements 21 of the frame 20 extend in the longitudinal direction A.
  • the longitudinal elements 21 extend along the two glass edges of the glass sheets 2, which are arranged parallel to the longitudinal direction A.
  • the longitudinal elements 21 comprise the glass sheets 2 at their longitudinal edges.
  • the transverse elements 22 of the frame 20 are arranged substantially transversely to the direction of the longitudinal elements 21 and extend in a transverse direction B.
  • the longitudinal elements 21 have a length which corresponds substantially to the length of the longitudinal edges of the glass sheets 2.
  • the cross members 22 have a length which is slightly larger than the length of the arranged in the transverse direction B edges of the glass sheets 2 is formed.
  • the glass carrier 1 can be transported in individual parts to the place where it is to be used as a supporting element. It is mountable on site.
  • the glass panes 2 may for example be dimensioned so that their longitudinal direction extends in a building position over an entire floor of a building.
  • the glass sheets 2 of the glass carrier 1 may each be about 3.50 m long, resulting in a total length of the glass carrier 1 consisting of four glass sheets 2 of about 14 m.
  • the four elements of in FIG. 1 shown glass carrier 1 are to be understood by way of example.
  • the invention also includes glass supports having at least two, three or more than four panes of glass.
  • the longitudinal elements 21 stabilize the glass sheets 2 against lateral bulging during tension and load bearing.
  • a tensioning device 10 has tension rods 11 which are arranged within the longitudinal elements 21 on the longitudinal edges of the glass panes 2.
  • the tension rods 11 are integrated into the longitudinal elements 21.
  • the tension rods 10 are slightly shorter than the longitudinal sides of the glass sheets 2.
  • the tension rods 11 are clamped by means of clamping screws 13 in the longitudinal direction A with each other.
  • the clamping screws 13 are formed at the longitudinal ends of the tensioning device 10. When screwing the clamping screws 13, the tension rods 11 are braced together along their direction of travel.
  • This tension is transmitted via the transverse elements 22, which are arranged at the longitudinal ends of the glass carrier 1, to all the glass panes 2 and arranged between the glass panes 2 transverse elements 22 such that the glass panes 2 and the transverse elements 22 are clamped together.
  • Suspensions 43 arranged at the longitudinal ends of the glass carrier 1 serve for fastening the glass carrier 1 in its built-up position.
  • the suspensions 43 have the form of fastening tabs which are either integrally connected to the end-side cross members or braced as additional components with the clamping device 10.
  • the longitudinal direction A is at the same time the tensioning direction (i.e., the direction in which the tensioning device 10 and the glass support 1 are strained therethrough) and the direction of row (i.e., the direction in which the glass sheets 2 of the glass carrier 1 are arranged in series one behind the other).
  • the transverse direction B perpendicular to the longitudinal direction A is the alignment direction of the transverse elements 22.
  • the load to be absorbed by the glass carrier such as e.g. the wind load of a facade or the snow load of a roof.
  • the glass sheets 2 of the glass carrier 1 are load-bearing. Similar to the filling in a shear field carrier pressure forces are guided over the glass sheets 2 in the construction position.
  • Fig. 2 shows a side view of a section of an inventive Glass carrier. As in Fig. 1 are the center planes of the glass sheets 2 arranged in drawing plane.
  • the frame 20 consists of several longitudinal elements 21, which in FIG. 2 only shown on the left side. To view the tension rods 11 of the tensioning device 10, the longitudinal elements 21 of the frame 20 on the right side of Fig. 2 omitted. The longitudinal elements 21 together form a multi-piece longitudinal element of the frame 20.
  • the tensioning device 10 has tension rods 11, which are formed substantially square in cross-section. At their longitudinal ends, the tension rods 11 have tension rod ends 11A whose cross-section is circular and has a thread.
  • the tension rods 11 can be screwed into a connecting piece 12.
  • the drawbar ends 11A are screwed into the connecting piece 12, which has a thread for receiving the drawbar ends 11A.
  • a plurality of framed glass panes 2 are arranged in series in the longitudinal direction and are pretensioned or prestressed from the ends of the row.
  • the tensioning device 10 is formed by a continuous tension rod system.
  • the tension rods 11 are perpendicular to the transverse elements 22.
  • the transverse elements 22 have a projection 22A, which projects beyond the longitudinal edges of the glass sheets 2 and a (in Fig. 2 not shown) has a recess through which the tie rods 11 extend positively.
  • the tension rods 11 are designed to be displaceable relative to the glass panes 2 and the transverse elements 22 through the recess in the longitudinal direction A.
  • the recess of the projection 22A serves to support the supports 11 to the transverse elements 22nd
  • glass supports 32nd are glass supports 32nd arranged, which support the glass sheets 2 to the cross members 22.
  • Longitudinal inserts 33 serve to support the longitudinal glass edges of the glass panes 2 on the tie rods 11, the connecting pieces 12 and / or on the longitudinal elements 21.
  • the longitudinal inserts 33 and the glass supports 32 of the FIG. 2 shown glass carrier are arranged in the longitudinal or transverse direction at the corners of the glass sheets 2. For cost reasons, they do not run along the entire edge length of the glass sheets 2. Alternatively, longer longitudinal inserts 33 and / or glass supports 32 would also be possible.
  • Fig. 3 shows a side view of a section of a to the in Fig. 2 shown glass carrier alternative glass carrier, for example, the in Fig. 1
  • the tension rods 11 in the in Fig. 3 embodiment not shown by the projections 22A of the cross member 22 extend.
  • Fig. 3 are the tension rods 11 as in Fig. 2 connected to each other via a connecting piece 12.
  • the connecting piece 12 passes through the recess of the projection 22A of the transverse element 22.
  • the tension rods 11 end shortly before the position of the transverse elements 22nd
  • the alternative embodiments of the Figures 2 and 3 show that the height arrangement of the connecting pieces 12 can be variable depending on the embodiment. While the connectors 12 of the embodiment of the Fig. 2 are each arranged approximately in the middle of the glass sheets 2, they are in the embodiment of Fig. 3 arranged at the ends of the glass sheets 2.
  • the length of the tension rods may also be formed independently of the longitudinal length of the glass panes 2.
  • both the length of the tension rods 11 and the length of the longitudinal elements 21 correspond to the longitudinal length of the glass panes 2, in order to permit the most user-friendly mounting of the glass carrier 1.
  • the recess of the projection 22A of the transverse elements 22 is formed in a form-fitting manner with the component of the tensioning device 10 passing through it (the tension rod 11 and / or the connecting piece 12). In this case, a rotation of the clamping device 10 is provided relative to the cross members 22.
  • the exact position of the connecting pieces 12 relative to the transverse elements 22 is determined by turning the tension rods.
  • the tension rods 11 at their exciting no uniform thread, but at its one exciting 11 A a right-hand thread, at its other a left-hand thread.
  • the connecting pieces 12 each have at their two ends in the longitudinal direction A a thread corresponding thereto for screwing in the exciting ends 11A.
  • Fig. 4 shows a cross-section in the transverse direction B through a glass carrier 1, which serves in a mounting position for supporting an insulating facade 41.
  • the glass substrate 1 pierces the insulating facade 41 in the transverse direction B.
  • the insulating facade 41 is bolted to the glass carrier 1 via facade bars 42 or angles.
  • the loads to be taken up by the glass carrier 1 are introduced via the facade bars 42 into the transverse elements 22 of the glass carrier 1.
  • a load introduction into the longitudinal elements 21 would alternatively or additionally be possible, which is preferably used in roof structures.
  • the glass carrier 1 is used as rafters with resting (glass) roof surface.
  • the in Fig. 4 Section shown passes through one of the glass panes 2 of the glass carrier 1 and shows a substantially U-shaped configuration of the longitudinal elements 21.
  • the U-shaped in cross-section longitudinal elements 21 point with their U-opening to the longitudinal edges of the glass pane 2.
  • the connecting pieces 12 and the tension rods 11 are also arranged. This is what the Longitudinal elements 21 both for supporting and holding the glass sheets 2 and for laying and for receiving the clamping device 10.
  • the longitudinal elements 21 are preferably formed of steel.
  • the longitudinal elements 21 surround the connecting pieces 12 and the tension rods 11 so that they are protected from the effects of weather.
  • the longitudinal elements 21 serve to cover the tensioning device 10 and protect the longitudinal edges of the glass panes 2 and increase the rigidity of the glass carrier 1.
  • connecting pieces 12 and / or the tie rods 11 and the glass sheets 2 longitudinal inserts 33 are arranged.
  • cover strips 23 are screwed, which are the in Fig. 4 Cover non-visible cross members 22 from the outside. You could also be integrally formed with the cross members 22, since the individual components of the glass carrier 1 are threaded during assembly of the ends. By screwing on and unscrewable cover strips 23, however, a replacement of individual glass sheets in the building position is made possible in particular in the event of damage. In this case, not the entire glass carrier 1 must be removed and disassembled from one side to the damaged area, but it is only the damaged glass 2 replaced.
  • Fig. 5 shows a longitudinal section through a section of a glass carrier according to the invention.
  • the cross section of the cross member 22 is formed as a double-T, which saves material over a solid cross member 22 material and improves the statics.
  • the cross members 22 are preferably formed as the longitudinal elements 21 of the frame 20 made of steel.
  • the glass sheets 2 consist of centrally arranged glass panes for supporting the load and arranged parallel to them cover plates 2 ', not for Carrying a load are provided.
  • the cover plates 2 ' are formed as a monolithic disc and serve to protect the load-bearing glass 2. They are laminated on both sides of the glass sheets 2 at least one layer.
  • the glass sheets 2 are provided in the longitudinal direction A for carrying a load, between the transverse edges of the glass sheets 2 and the cross members 22 both elastic pads 31 and glass support 32 are arranged, which are adapted to absorb the compressive forces occurring there.
  • the elastic coverings 31 are arranged between the longitudinal ends of the glass panes 2 and the glass supports 32.
  • the glass supports 32 support the supporting glass 2.
  • the laminated cover plates 2 ' are spaced from the glass supports 32 and thus are not on them to keep the cover plates 2' as possible load.
  • the glass supports 32 and the (in Fig. 4 on the one hand, longitudinal linings 33 are suitable for absorbing the compressive forces occurring there and, on the other hand, are elastic enough to reliably prevent damage to the glass by punctual load peaks between the support and the glass plate.
  • Suitable materials for this purpose are special plastics which do not flow under high pressure, or metals or metal alloys with the corresponding properties. Preference is given to aluminum or soft aluminum used.
  • the special shape of the glass overlay and the processing of the glass edges such as hemming, grinding and polishing prevent the load transfer directly to a sensitive glass corner and the formation of load peaks due to unevenness on the glass edge.
  • FIG. 6 is a side view of the glass carrier 1 of FIG. 1 shown.
  • an insulating glazing 41 which is supported by the glass substrate 1.
  • the insulating glazing 41 is located on the weather side, while facade latch 42, with which the insulating glazing 41 is fixed to the transverse elements 22 of the glass carrier 1, are arranged on the room side.
  • the glass carrier 1 is arranged in its mounting position so that the cross members 22 extend from the room inside to the weather side and to the facade to be supported (here the insulating glass 41) are arranged vertically.
  • the tension rods 11 are comprised of coupling parts 14, which have a substantially square cross-section and are arranged within the longitudinal elements 21.
  • the coupling parts 14 couple the longitudinal elements 21 against rotation in a form-fitting manner to the tension rods 11 and thereby make them torsion-resistant.
  • the use of the coupling parts 14 allows a filigree design of the longitudinal elements 21 (narrow and with a small overall depth).
  • the tension rods 11 and the tension rod row consisting of tension rods 11 and connecting pieces 12 extend through the recess of the projections 22A of the transverse elements 2 and through the coupling parts 14, wherein they are arranged within the U-shaped receptacle of the longitudinal elements 21.
  • the position of the coupling parts 14 is also in FIG. 4 shown.
  • the coupling parts 14 are arranged in a form-fitting manner between the tension rods 11 and the longitudinal elements 21 and bolted to their position. They comprise the (in the exemplary embodiment) in cross-section substantially square tie rod 11 of at least two sides, while the glass pane 2 facing side of the tie rod 11 adjacent to the longitudinal shim 33.
  • FIG. 7 shows a cross section through the glass sheet 2 and a longitudinal element 21 of the glass carrier 1 of FIG. 1 ,
  • the longitudinal element 21 is formed in cross-section U-shaped. In its interior extends a connector 12 in the longitudinal direction, in which the round in cross-round exciting 11 A of a tension rod 11 is screwed.
  • the glass panes 2 facing ends of the longitudinal elements 21 with the glass panes 2 and the cover plates 2 'glued via a bond 24.
  • the Adhesive 24 is used for insulation and for sealing and lateral support of the glass pane 2.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Load-Bearing And Curtain Walls (AREA)
  • Securing Of Glass Panes Or The Like (AREA)
EP20120002868 2011-04-26 2012-04-24 Élément porteur en verre Not-in-force EP2518233B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE102011018534A DE102011018534A1 (de) 2011-04-26 2011-04-26 Tragendes Element aus Glas

Publications (2)

Publication Number Publication Date
EP2518233A1 true EP2518233A1 (fr) 2012-10-31
EP2518233B1 EP2518233B1 (fr) 2014-12-17

Family

ID=46146502

Family Applications (1)

Application Number Title Priority Date Filing Date
EP20120002868 Not-in-force EP2518233B1 (fr) 2011-04-26 2012-04-24 Élément porteur en verre

Country Status (2)

Country Link
EP (1) EP2518233B1 (fr)
DE (1) DE102011018534A1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ITMI20131722A1 (it) * 2013-10-16 2015-04-17 Azzimonti Paolino Spa Pilastro prefabbricato portante in vetro e metallo per rivestimenti in vetro strutturale

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2813303A1 (fr) * 2000-08-30 2002-03-01 Saint Gobain Assemblage d'elements verriers
DE202004016675U1 (de) 2004-10-28 2005-03-03 Seele Gmbh & Co. Kg Glasstütze
DE202005009572U1 (de) 2005-06-18 2005-09-08 Maier & Co. Säule, insbesondere aus Glas
EP1607540A1 (fr) * 2004-06-18 2005-12-21 Octatube Holding B.V. Structure de verre

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
BE1016607A3 (fr) * 2005-05-31 2007-02-06 Glaverbel Element structurel de construction en verre.

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2813303A1 (fr) * 2000-08-30 2002-03-01 Saint Gobain Assemblage d'elements verriers
EP1607540A1 (fr) * 2004-06-18 2005-12-21 Octatube Holding B.V. Structure de verre
DE202004016675U1 (de) 2004-10-28 2005-03-03 Seele Gmbh & Co. Kg Glasstütze
DE202005009572U1 (de) 2005-06-18 2005-09-08 Maier & Co. Säule, insbesondere aus Glas

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
HI-TEC-GLAS GRÜNENPLAN GMBH: "Träume von tragender Transparenz", 15 July 2008 (2008-07-15), pages 1 - 4, XP002680837, Retrieved from the Internet <URL:http://www.hitecglas.de/downloads/hitecglas.pdf> [retrieved on 20120724] *

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ITMI20131722A1 (it) * 2013-10-16 2015-04-17 Azzimonti Paolino Spa Pilastro prefabbricato portante in vetro e metallo per rivestimenti in vetro strutturale

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Publication number Publication date
DE102011018534A1 (de) 2012-10-31
EP2518233B1 (fr) 2014-12-17

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