• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:

    公开号:DK200800245U1
    申请号:DK200800245U
    申请日:2008-12-30
    公开日:2010-01-22
    发明作者:Hansen Frank;Larsen Soeren Peter
    申请人:Lafuco As;
    IPC主号:
    专利说明:

    - i - - i -DK 2008 00245 U4
    GLASS COLLECTION
    FIELD OF THE INVENTION
    The present invention relates to a glass joint for joining at least two layers of glass to each other by means of the glass joint. The present invention further relates to a glass which is adapted to be attached to the glass assembly.
    BACKGROUND OF THE INVENTION
    In modern commercial buildings it is more and more common for walls to be partly or entirely glass. Glass is used as a means that allows the scattering of daylight right into the center of the building, as a means of increasing the organization's transparency and / or as an architectural tool. Most glass walls consist of a plurality of glass layers which are joined together to define the glass wall.
    WO 2004/039 908 describes a glass joint especially for glass partitions. The glass assembly defines notches, each of which can receive a glass layer, to allow the glass to be attached to the glass assembly. Due to the provision of notches, the glasses can be attached to each other via glass joints at predetermined angular positions.
    GB 2 404 387 describes an oblong section for use between edges of transparent panels.
    Another background technique can be seen in US 2005/0 126 090 and EP 1 435 424.
    GB 2404387 discloses a glass joint for joining two glass layers where the glass layers are assembled at a side surface.
    FR 2077287 discloses a hollow glass joint for mounting between two layers of glass, where the cavity can be used to guide an electrical conductor.
    - 2 - - 2 -DK 2008 00245 U4
    None of the above references discloses a glass joint for assembling at least two layers of glass, each glass defining a front and a back which is interconnected at a side surface defining a notch for receiving at least a portion of the glass assembly, wherein the glass assembly has a circular cross-section and defining an outer surface suitable to be received in the notches of the two glass layers to enable the glass layer to be attached to the glass assembly at an infinite number of angular positions relative to each other, wherein the glass assembly comprises at least one electrical conductor and wherein the glass assembly comprises an access area on which at least one electrical conductor is accessible from an outer surface of the front or back of the glass assembly.
    When glass walls are erected in buildings, construction workers often face the problem that the geometry of most buildings differs from working drawings, with walls, floors or ceilings being uneven or not provided at the correct angles to each other. As an example, walls and floors which are assumed to be provided at right angles to each other may be provided at an angle different from the right angle. Such deviations make it more difficult to erect the glass walls, and it is therefore desirable that one or more of the glass wall elements allow the glass wall to be adapted to its surroundings.
    Accordingly, it is an object of one embodiment of the present invention to provide a glass joint which allows two glass layers to be attached to each other in an infinite number of relative angular positions. It is further an object of one embodiment of the present invention to provide an alternative to the known solutions.
    It is a further object of one embodiment of the present invention to increase the versatility of the glass walls as an architectural tool.
    - 3 - - 3 -DK 2008 00245 U4
    It is further an object of an embodiment of the present invention to provide a glass assembly which allows mounting of electrical appliances, such as lamps, on a glass wall in such a way that the power supply lines are not visible.
    It is an object of an embodiment of the present invention to provide a glass assembly comprising fire protection measures.
    DESCRIPTION OF THE INVENTION
    The present invention relates to a glass assembly for assembling at least two layers of glass, each glass defining a front and a back side connected to one another by a side surface defining a notch for receiving at least a portion of the glass assembly, wherein the glass assembly has a circular cross-sectional defining an outer surface suitable for being received in the notches of the two glass layers to enable the glass layer to be attached to the glass assembly at an infinite number of angular positions relative to each other, wherein the glass assembly comprises at least one electrical conductor and wherein the glass assembly comprises an access area on which at least one electrical conductor is accessible from an outer surface of the front or back of the glass assembly.
    An advantage of the glass joint according to the present invention is that the glass joint allows the building workers to adjust two glass layers to be assembled by rotating one of the glass layers relative to the other layer and around the glass joint. This allows the construction workers to adjust the glass wall to the geometry of the place where the glass wall is to be erected by selecting the appropriate relative angular position of the two layers of glass.
    From a manufacturing point of view, the glass assembly of the present invention enables a manufacturer to produce one versatile glass assembly which can be used to place two layers of glass in an infinite number of positions instead of producing a large number of different glass assemblies. -DK 2008 00245 U4 where each allows two glass layers to be placed in a predetermined and non-adjustable angular position relative to each other. Such a versatile glass collection is also desirable from a construction worker's point of view, since he only needs one type of glass collection in stock instead of a large number of different glass collections.
    From an architectural point of view, the glass collection of the present invention enhances the freedom of design, since most relative angles between two glass layers are now possible. It is understood that this is desirable from an architectural point of view, as most architects are constantly seeking new modes of expression.
    The glass walls can be adapted for indoor and / or outdoor use. Furthermore, the glass walls of the present invention can be adapted so that other layers of material can be joined to the glass layer by the glass assembly of the present invention. Such other materials may be metal layers, wood, plastics etc.
    The glass may be natural or artificial glass, such as plexiglass, plastic glass or fiberglass. Further, the glass may be laminated, cured, stained, matted and / or provided with a film such as a film to prevent heat and / or ultraviolet radiation from spreading through the glass.
    The glass defines a front and a back, which in most embodiments extend parallel to each other. The front and back are separated by a page surface which can define a plurality of sections. As an example, a square glass layer can define four edge sections,
    The glass layers can be provided in any known thickness, such as 4 mm, such as 6 mm, such as 8 mm, such as 10 mm, such as 12 mm, such as 14 mm, such as 16 mm, such as 18 mm, such as 20 mm, such as 22 mm, such as 24 mm, such as 26 mm, such as 28 mm, such as 30 mm.
    The glass assembly can be provided in any suitable thickness, such as 4 mm, such as 6 mm, such as 8 mm, such as 10 mm, such as 12 mm, such as 14 mm, such as 16 mm, such as - 5 - - 5 - GB 2008 00245 U4 18 mm, such as 20 mm, such as 22 mm, such as 24 mm, such as 26 mm, such as 28 mm, such as 30 mm.
    To allow the glass layer to be attached to the glass joint, the glass joint may define one or more attachment surfaces for attaching one side section of each glass layer to the glass joint. In one embodiment, the glass assembly defines one attachment surface covering the entire glass of the exterior surface of the assembly. In another embodiment, the glass assembly defines sections on its outer surface / each of such sections defining a fastening surface.
    It is understood that the glass layer and glass assemblies can be oriented in any direction, such as horizontal, vertical or any transverse direction relative to the horizontal or vertical direction. As a result, the glass joints can define an angle relative to the horizontal or vertical direction, such as 60 degrees or 45 degrees or 30 degrees or any other angle. As an example, the glass layers and glass assemblies may form part of a ceiling, for example used in connection with a skylight window or as a cover for a light emitting element.
    With regard to glass walls, it is a known problem that electric wires / conductors cannot be hidden / stored so that they are not visible. As a result, the glass assembly comprises at least one electrical conductor. The conductor (s) can be integrated / incorporated into the glass collection so that they are invisible to a viewer. It is understood that in order for the conductors to be invisible, the glass assembly must comprise a non-transparent material. However, it is also understood that in some embodiments, the glass assembly comprises a transparent material whereby the conductor (s) are visible but still integrated into the glass assembly. An advantage of the latter is that the conductor (s) is removed from the exterior surface of a glass panel and that the conductors can be used as a decorative effect, which may be desirable in certain architectural settings.
    The glass assembly may comprise any number of electrical conductors. In one embodiment, the glass assembly comprises two conductors, for example, to provide a negative and a positive electrical conductor. In another embodiment, the glass assembly comprises three conductors, for example, to supplement the negative and positive conductors with a conductor for use as an electrical ground wire. It is understood that the glass assembly may comprise any number of electrical conductors, such as four, five, six, seven or eight.
    In certain embodiments, the conductors extend all the way through the glass joint, for example, from a floor zone to a ceiling zone. In certain embodiments, it is desirable for the conductors to be used to supply electrical energy to an electrical apparatus attached to the glass wall, as a result, the glass assembly comprises an access area to which the at least one electrical conductor is accessible from an outer surface of the front wall. or the back of the glass assembly. Examples of an electrical apparatus are lamps, audio-visual devices, such as an LCD or plasma monitor, or a speaker, or an antenna, for example, for a wireless network. Alternatively, a connector / output may be provided for, for example, a power connector / output, a connector / output for a network, or a connector / output for an antenna.
    The access area may be an area where the electrical conductors can pass between the two layers of glass without changing the glass (except providing the aforementioned notch provided in the glass side surface). In such an embodiment, it may be necessary to remove part of the glass assembly in the access area. As an example, the glass assembly may be a conventional electrical conduit comprising a plurality of conductors, each of which is electrically shielded by a shielding layer. In addition, a traditional electrical cord may further comprise an external shield for shielding the already individually shielded wires. In embodiments in which the glass assembly consists of the latter type of electrical conduit, the outer shield may need to be removed in the access area to allow the electrical conductors to pass through the passage defined between the two glass layers. It is understood that it is advantageous that each conductor's individual shielding is not removed as the individual shielding prevents electrical contact between the conductors.
    In an alternative embodiment, one or both glass layers of the access area are modified to allow the electrical conduit to pass between the two glass layers without removing the outer shielding layer.
    In one embodiment, an electrical apparatus, such as a lamp, is provided on one side of the glass wall in the access area. In order to provide a visually pleasing solution, a cover can be provided on the opposite side of the glass wall in the access area. The cover may be non-transparent and may be a foil, a sheet, such as a wooden board or a metal board or any other type of board.
    In one embodiment, at least one portion of the glass assembly comprises an antenna, such as an antenna for a wireless network. In one embodiment, an antenna is provided along the entire glass assembly. In another embodiment, the antenna is provided in an area of the glass assembly. In one embodiment, one or more of the aforementioned conductors may be used as an antenna.
    In one embodiment, the glass assembly is tubular and, as a result, defines a longitudinal passage / channel. The channel can be used as a flow channel to allow a fluid to flow inside the glass assembly. The flow channel can be used for supplying tap water, for transporting a cooling fluid to an air conditioning system, or for transporting a fluid for fire extinguishing, such as tap water for fire sprinklers provided in a ceiling and / or glass joint or an 8-DK 2008 00245 U4 gas species. for smothering laminates. In one embodiment, the glass assembly comprises one or more nozzles / sprinklers for dispensing a fluid flowing inside the glass assembly to an area outside the glass assembly. The nozzle may be suitable for atomizing a liquid emitted through the nozzle. The nozzle may be provided as a passage extending from the channel defined within the glass assembly to an outer surface of the glass assembly. In one embodiment, the glass assembly is provided with a predetermined number of nozzles / sprinklers which can be spaced along the glass assembly. As an alternative, or as a supplement, nozzles / sprinklers may be provided by means of a drilling tool after installing the glass assembly. In one embodiment, the nozzle is adapted to open when the temperature in the nozzle area is above a predetermined temperature. The latter can be achieved using traditional sprinkler technology.
    In one embodiment, the glass joints are connected to a controller adapted to pump water into the ducts when a fire is detected near the glass joint or anywhere in the building.
    The glazing can be used for lighting purposes. As a result, the glass jam may comprise a waveguide that directs light into the glass joint. In certain embodiments, the waveguide may be adapted to spread at least a portion of the light to the surroundings, thereby enabling the glass assembly to be illuminated.
    In one embodiment, one or more light emitting elements - such as light emitting diodes - can be provided inside the glass assembly. The light emitting elements can be arranged to emit light in a direction parallel to the longitudinal direction of the glass assembly. Alternatively, the light emitting elements may be arranged to emit light in a direction extending across the longitudinal direction of the glass assembly. As an example, the light emitting elements can be arranged to emit light in the glass layer.
    - 9 - - 9 -DK 2008 00245 U4
    In order to be able to use a glass wall as an exterior surface of a building, the glass joint may be adapted to provide an air and / or water and / or windproof seal between the glass joint and two glass layers. In one embodiment, the seal is provided by an adhesive. As a result, at least a portion of the outer surface of the glass assembly may comprise an adhesive for adhering the glass layer to the glass assembly. Alternatively, the adhesive may be provided in the notch of the glass layer. As an example, the adhesive may be a UV-curing adhesive. The attachment surface can be adapted to be attached to the side section of a glass layer. In one embodiment, an adhesive is provided on the attachment surface. The adhesive may be covered by a removable release film suitable for protecting the adhesive prior to use, e.g. so that the adhesive is protected from losing its adhesive properties due to contamination with dirt particles that are often present on construction sites. Alternatively, or as an adjunct, a layer of adhesive may be provided on the surface of one of the glass layers so as to allow the glass layer to be adhered to the glass assembly. The glass assembly can be made of a material that is more flexible than the glass, such as wood, PVC, silicone, natural and synthetic rubber. In one embodiment, light emitting measures are integrated into the glass assembly to provide a decorative effect or to allow scattering of light within the glass. Such light emitting measures can be an LED.
    The glass assembly may be adapted to allow two layers of glass to be attached to the glass assembly at an infinite number of angular positions within a predetermined range of angles. As an example, the first of two glass layers - relative to the second glass layer - can be adapted to be attached to the glass assembly at an infinite number of angular positions within the range of 20 - 240 degrees, such as 60 - 300 - 10 - - 10-GB 2008 00245 U4 degrees, such as 90 - 270 degrees, such as 120 - 240 degrees, such as 150 - 210 degrees.
    In one embodiment, the above-mentioned angle section is defined at least in part by the geometry of the glass layers, such as by their thickness, for example, the distance between the front and back or by the geometry of the side surface.
    To allow the glass layer to be attached to / adhered to the glass assembly in an infinite number of positions, the glass assembly may define a circular cross section. Further, one or more of the glass surfaces of each layer of glass may define a notch to receive the glass assembly. The notch may have a concave cross section corresponding to the outer surface of the glass assembly. As a result, the concave cross section can define a section of a circle having substantially the same radius as the radius of a circular glass element.
    The gaseous collection may be thicker or thinner than the thickness of the glass layers. In one embodiment, the glass joint thickness / diameter in cross section is 125 percent of the thickness of at least one of the glass layers (i.e., the glass joint is 25% thicker than the glass layer), such as 150 percent, such as 175 percent, such as 200 percent, such as 250 percent, such as 300 percent such as 400 or 500 percent. In another embodiment, the thickness / diameter of the glass joint is 80 percent of the thickness of at least one of the glass layers, such as 75 percent, such as 60 percent, such as 50 or 40 percent.
    In one embodiment, the glass assembly is adapted to allow visual inspection through any part of the front and / or back. As a result, the glass joint in the latter embodiment is shaped so that when the glass joint is attached / adhered to the side surface of the glass layer, neither the front nor the back is in contact with the glass joint. It is understood that such an arrangement provides a clean-friendly outer surface of the glass wall as well as an appealing design with smooth glass surfaces which are not covered by means of assembly of the glass layers.
    Furthermore, the glass assembly may be transparent. Such transparent joints between glass layers are not possible when the jars are assembled using traditional grout, since it is practically impossible to produce joints without air pockets. However, since the glass assembly of the present invention can be manufactured under controlled industrial conditions, e.g. by extrusion or injection molding, air pockets can be avoided. It is understood that preventing such air pockets is desirable from an architectural point of view. Preventing air pockets increases the strength of the joint, which is desirable from a design standpoint.
    DESCRIPTION OF THE FIGURES
    FIG. 1a and 1b describe two layers of glass assembled by glass assembly according to the present invention,
    FIG. 2 illustrates possible rotational positions of two layers of glass assembled by means of a glass joint of the present invention;
    FIG. 3 illustrates three layers of glass assembled by the glass assembly of the present invention;
    FIG. 4 illustrates a curved glass assembled with two layers of glass by the glass assembly of the present invention;
    FIG. 5 illustrates a curved glass surface made by a plurality of glass layers and glass assemblies of the present invention, and - 12 - - 12 -GB 2008 00245 U4
    FIG. 6 and 7 illustrate two layers of glass assembled by means of a joint element according to the present invention to define a correct angle to each other.
    FIG. 1a and 1b illustrate a glass assembly 100 comprising two glass layers 102 and a glass joint 104. FIG. 1b is a front elevation of the glass assembly, and FIG. 1b illustrates a cross section A “Ar. Each of the glass layers 102 defines a front face 106 and a back side 108 which are mutually connected to a side surface 110 ', 110' '. On each layer 102 of FIG. 1a and 1b, one edge 110 '' defines a flat surface, while the second side surface 110 'defines a notch 112 to receive the glass assembly 104. One edge 114 is defined in the transition from the front / back 106, 108 to the side surface 110. Further, the side surface defines 110 'is a facet cut surface 116 extending between the edge 114 notched 112. The provision of the facet cut surface 116 increases the possible relative rotational positions between the two glass layers 102, as described in more detail in connection with FIG. 2. The glass layers 102 are attached to the glass assembly by an adhesive (not shown). The glass mount 100 can be constructed as follows. First, a first of the glass layers 102 may be erected first. In most cases, each glass layer 102 will be secured to its base 118 and / or its top 120, e.g. for a floor or ceiling respectively. Such attachment can be obtained by means of a rail. Subsequently, the glass assembly 104 is adhered to the notch 112 in the glass layer 102 by applying an adhesive to the notch and / or the outer surface of the glass assembly. Then, the second glass layer 102 is moved in engagement with the glass assembly, for example, by providing the glass layer with the above rail and by sliding the glass layer into contact with the glass assembly. It is understood that the adhesive is applied to the notch and / or glass joint before sliding the glass layer into contact with the glass joint.
    Fig. 2 illustrates the possible rotational positions of the two glass layers 102 ', 102' '. The two extreme positions of - 13 - - 13 -GB 2008 00245 U4 glass layers 102 ', 102' 'are indicated by dashed lines, and it is understood that the use of the facet-cut surface 116 increases the angle between the two extreme positions and that the more exactly the angle defined between the facet cut surface 116 and a center line (not shown) of the glass layer is, the greater the angle between the two extreme positions will be. It is further understood that the larger the diameter of the glass joint - in relation to the thickness of the glass layer - the larger the angle between the two extreme positions will be. Especially when the diameter of the glass assembly is greater than the thickness of the glass layer.
    FIG. 3 illustrates a further advantage of the present invention, namely that the glass assembly 104 enables attachment of more than two layers of glass to the glass assembly. As for Fig. 3, three layers of glass are attached to the glass assembly. However, it will again be understood that the greater the diameter of the glass joint - in relation to the thickness of the glass layer, the more glass layers will be able to be attached to the glass joint. In particular, if the diameter of the glass joint is greater than the thickness of the glass layer, it is understood that a greater number of such glass layers may be attached to the glass joint.
    Figs. 3 and 4 illustrate two different embodiments of a curved glass mount / wall 100. In the embodiment of Figs. 3, the glass assembly comprises a curved glass layer 122. Since such curved glass layers 122 are usually expensive to manufacture, it is understood that the present invention provides a cheap alternative by allowing two glass layers to be provided at any desirable angle to each other. As a result, a cheap alternative to the solution of FIG. 3 provides a plurality of short linear glass layers 102 and an attachment of the glasses to each other by the glass assembly of the present invention.
    In the embodiment of FIG. 6 and 7, one end of each of the two layers 102 defines a side surface 110 which extends in a transverse direction to the longitudinal direction of the glass layer 102, which direction differs from 90 degrees. In the embodiment, the side surface 110 extends in a direction defining a 45 degree angle with the front and back 106, 108 of the glass layer 102. It will be appreciated that the provision of such a side surface 110 limits the possible relative rotational positions of the two glass layers. , while providing a sharper corner point 124 which may be desirable from an architectural point of view. It is further understood that the glass assembly need not be modified in the embodiment of FIG. 6 and 7, since the sharp corner point 124 is provided by machining the glass layer 102 in a different way.
    权利要求:
    Claims (4)
    [1]
    The glass assembly of any preceding claim, wherein the glass assembly comprises a waveguide for directing light within the glass assembly.
    [2]
    A glass assembly according to any one of the preceding claims, wherein one or more light emitting elements are provided within the glass assembly.
    [3]
    The glass joint according to any one of the preceding claims, wherein the glass joint is suitable for providing an air and / or water and / or windproof seal between the glass joint and two layers of glass.
    [4]
    The glass joint according to any one of the preceding claims, wherein at least one part of the outer surface of the glass joint comprises an adhesive for adhering the glass layer to the glass joint.
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    同族专利:
    公开号 | 公开日
    EP2030955A1|2009-03-04|
    WO2009021993A1|2009-02-19|
    DK200800245U4|2011-03-11|
    EP2185482A1|2010-05-19|
    DK2185482T3|2017-06-06|
    EP2185482B1|2017-02-22|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR1187160A|1957-11-14|1959-09-08|Hinged panels formed from prefabricated elements|
    LU60221A1|1970-01-23|1971-09-22|
    US3893271A|1973-09-27|1975-07-08|Joseph C Kotlarz|Basic beam structural member and structures built therefrom|
    US4765102A|1987-02-20|1988-08-23|Kuchem Christopher L|Building panel support member with built-in illumination means|
    DE3726503C2|1987-08-08|1989-09-21|Schoenfeld, Hans Victor, 3180 Wolfsburg, De|
    DE10111859A1|2001-03-13|2002-06-06|Saint Gobain Performance Plast|Method for joining glass components to other glass components or to profiles intended for sealing or joining of glass components involves use of an adhesive agent which is hardenable by radiation|
    AU2003283293A1|2002-10-25|2004-05-13|Dorma Gmbh + Co. Kg|Partition wall|
    GB2404387B|2003-07-28|2005-08-24|John Charlton|Link section|FR2951203A1|2009-10-12|2011-04-15|Matfor|Glazed partition, has glass panels assembled without posts and respectively comprising assembling edges provided with round longitudinal grooves, where grooves of opposite assembling edges receive round sectioned joint|
    DE102012111432A1|2012-11-26|2014-05-28|SCHÜCO International KG|Window, door or façade element with a sealing profile with integrated light source|
    法律状态:
    2018-09-19| UUP| Utility model expired|Expiry date: 20180814 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP07114298A|EP2030955A1|2007-08-14|2007-08-14|A glazing joint|
    PCT/EP2008/060695|WO2009021993A1|2007-08-14|2008-08-14|A glazing joint|
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