The invention relates to a method and device for assembling an insulating glass panel (2) with at least two glass sheets (3, 4) spaced apart from one another by a TPS spacer, comprising: a TPS station (50) which is designed for applying a paste-like TPS string (5; 6), that subsequently solidifies, to a vertical glass sheet (3; 4) along the edge thereof and which has a horizontal conveyor (52) designed for conveying vertical glass sheets (3, 4) through the TPS station (50); a rotation station (70), arranged downstream of the TPS station (50), which has at least one horizontal conveyor (72; 74) that can be rotated about a vertical axis of rotation (70) and is designed for conveying vertical glass sheets (3, 4) through the rotation station (70), and which is designed for rotating the glass sheets (3, 4) standing on same; a pressing station (90), arranged downstream of the rotation station (70), which is designed for joining two glass sheets (3, 4) that have each been provided with a TPS string (5, 6) to form the insulating glass panel (2) and which has two horizontal conveyors (92, 94) running parallel to one another and each designed to convey vertical glass sheets (3, 4); and a controller (100) which is designed to direct two glass sheets (3, 4) that are supplied to the rotation station (70) one after another and each provided with a TPS string (5; 6) into the pressing station (90) by rotating one of the glass sheets (3, 4) and to join same in said pressing station to form the insulating glass panel (2),
E06B 3/66 - Units comprising two or more parallel glass or like panes in spaced relationship, the panes being permanently secured together, e.g. along the edges
The invention relates to a method and device (1) for assembling an insulating glass panel (2) with at least two glass sheets (3, 4) spaced apart from one another by a TPS spacer (7), comprising: a primer station (40) which is designed for the strip-like application of a primer (13; 14) on a vertical glass sheet (3; 4) along the edge thereof and which has a horizontal conveyor (42); a TPS station (50), arranged downstream of the primer station (40), which is designed for applying a paste-like TPS string (5; 6), that subsequently solidifies, to a vertical glass sheet (3; 4) along the edge thereof and which has a horizontal conveyor (52); a rotation station (70), arranged downstream of the TPS station (50), which has at least one horizontal conveyor (72; 74) that can be rotated about a vertical axis of rotation (76), and which is designed for rotating the glass sheets (3, 4) standing on same; a pressing station (90), arranged downstream of the rotation station (70), which is designed for joining the glass sheets and which has two horizontal conveyors (92, 94) running parallel to one another; and a controller (100) which is designed to direct two glass sheets (3, 4) that are supplied to the rotation station one after another into the pressing station (90) by rotating one of the glass sheets (3, 4) and to join same in said pressing station to form the insulating glass panel (2), wherein one of the two glass sheets (4) is provided with a primer strip and a TPS string arranged thereon and the other glass sheet (3) is provided with a primer strip (13).
E06B 3/66 - Units comprising two or more parallel glass or like panes in spaced relationship, the panes being permanently secured together, e.g. along the edges
3.
HANGING REGISTER STORAGE UNIT FOR A BENDING MACHINE FOR SPACER FRAMES OF INSULATING GLASS PANES
The invention relates to a hanging register storage unit (1) for a bending machine for spacer frames of insulating glass panes, said hanging register storage unit comprising a plurality of hanging registers (6) which each have a storage site (60) for a stack (61) of unbent spacer profiles (2), a storage station (3) having a plurality of receiving sites (30) for in each case one of the hanging registers (6), a removal station (4) having at least one receiving site (40) for one of the hanging registers (6), and a conveyor device (7) for transporting hanging registers (6) between the receiving sites (30) of the storage station (3) and the receiving site (40) of the removal station (4).
B65G 1/127 - Storage devices mechanical with article supports or holders movable in a closed circuit to facilitate insertion or removal of articles the circuit being confined in a vertical plane
4.
METHOD FOR FORMING A CLOSED FRAME-SHAPED SPACER FOR AN INSULATING GLASS PANE
The invention relates to a method for forming a closed frame-shaped spacer for an insulating glass pane by depositing a pasty strand (2), which then hardens, onto a glass panel (4) along the edge of the glass panel (4) in such a manner that at the beginning of the strand, the thickness of the strand (2) has a ramp in which the thickness of the strand (2) increases from null to the target thickness over a length (L), and at the end of the strand, the thickness of the strand (2) decreases from the target thickness to null in a complementary manner. The strand (2) is post-treated, wherein pressure is applied to the strand between a first jaw (35) and a second jaw (36) at the two lateral surfaces (23, 24) of the strand in a region which extends to the two sides of the edge (22) of the boundary surface between the start and the end of the strand (2) by means of the jaws.
A description is given of a method for forming a closed frame-like spacer for an insulating-glass unit by virtue of a pasty, and subsequently solidifying, extrudate (2), which is bounded by an underside (26), an upper side (25) and two side surfaces (23, 24) and has a desired thickness (D) between the underside (26) and the upper side (25) and a desired width (B) between the two side surfaces (23, 24), being applied to a glass panel (4), along the periphery of the glass panel (4), in such a manner that, at a start of the extrudate (2), the thickness of the latter, over a distance of length (L), has a ramp (16) over which the thickness of the extrudate (2) increases from zero to the desired thickness (D) and, at an end of the extrudate (2), the thickness of the latter decreases from the desired thickness (D) to zero in a manner complementary to the upwardly sloping ramp (16) over the same distance (L), overlapping the ramp (16), and therefore the surface of the ramp (16) forms a limit surface between the start and the end of the extrudate (2), and by virtue of the plastic extrudate (2) being subjected to follow-up treatment, at least that side surface (23) of the extrudate (2) which, following assembly of the insulating-glass unit, bounds the interior of the latter being subjected to mechanical vibration in a region which extends to both sides of the periphery (22) of the limit surface located between the start and the end of the extrudate (2).
A device for assembling a window sash having an integrated insulating glass pane. The window sash has a frame made from a plastic hollow profile section. On the inner face thereof, the frame has two webs parallel to each other which are adhesively secured to two glass panes that are held spaced apart by the two webs. The device has a horizontal conveyor, which is provided to be vertically adjustable, on an underframe.
A method for assembling a window sash having an integrated insulating glass pane. The window sash has a frame formed from plastic hollow profile sections. The frame has an inner face, an outer face facing away from the inner face, and two flanks that connect the inner face and the outer face to each other. On the inner face thereof, the frame has two webs parallel to each other, which constitute an all-round delimitation of the window opening of the window sash and are adhesively secured to two glass panes which are held spaced apart by the two webs.
The invention relates to a method for producing an insulating glass pane comprising a plastic spacer, wherein two glass panels (25, 49) arranged parallel to each other have a target distance from each other, by □forming a composite strand (26) by the temporal and spatial overlapping extrusion of at least two plastic partial strands (23, 24), wherein a first partial strand (23) is made of an adhesive first sealing compound (3), in which a moisture-binding substance is embedded, and a second partial strand (24) made of an adhesive and binding second sealing compound (4), a first glass panel (25) along the edge of the glass panel (25), specifically such that the beginning and end of the composite strand (26) abut and form a frame in that the first partial strand (23) is extruded with a predetermined first target thickness, which is greater than the target distance, and the second partial strand (24) is extruded with a predetermined second target thickness, which is greater than the target distance, on the glass panel (25), the partial strands (23, 24) are located next to each other in the composite strand (26) and thus immediately adjoin each other, and the first partial strand (23) is located within the frame formed by the second partial strand (24), □joining the first glass panel (25) to the second glass panel (49) such that the composite strand (26) is located between both glass panels (25, 49), connects them to each other, and keeps them at a distance from each other and □setting the target distance by pressing the joined glass panels (25, 49).
B29C 47/00 - Extrusion moulding, i.e. expressing the moulding material through a die or nozzle which imparts the desired form; Apparatus therefor (extrusion blow-moulding B29C 49/04)
B29C 47/02 - incorporating preformed parts or layers, e.g. extrusion moulding around inserts or for coating articles
B05C 5/02 - Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work from an outlet device in contact, or almost in contact, with the work
B05C 9/06 - Apparatus or plant for applying liquid or other fluent material to surfaces by means not covered by groups , or in which the means of applying the liquid or other fluent material is not important for applying two different liquids or other fluent materials, or the same liquid or other fluent material twice, to the same side of the work
A method and device for preparing a paste-like compound having at least two constituents which set after having been mixed. The mixed compound is injected into an intermediate space between two glass panels of an insulating glass pane by delivering the at least two constituents from storage containers into separate intermediate storage units from which they are delivered into a mixer in which the constituents are mixed while passing through the mixer. The compound leaving the mixer is injected into the intermediate space between the two glass panels by a nozzle which has at least one opening directed into the intermediate space between the glass panels. The nozzle is moved along the edge of at least one of the two glass panels. The constituents of the paste-like compound are pumped using gear pumps from the intermediate storage units into the mixer, where they are dynamically mixed by motor-driven mixing elements.
The invention relates to a method for assembling insulating glass panes which have three glass panels (41, 42, 43) that are parallel to each other, said glass panels being held along the edges thereof in pairs at a distance to each other and adhesively bonded to each other by an adhesive first spacer (54) and by an adhesive second spacer (55) and having two sealed inner chambers (56, 57). The inner chambers contain a gas that is different from air. According to the method, a device for assembling insulating glass panes is used. Said device comprises a supporting device (6) for supporting, holding, and positioning the glass panels (41, 42, 43), said supporting device being inclined towards the rear by some degrees with respect to the vertical, and comprises a mounting (15) for holding and positioning a first of the glass panels (41) at a distance from the other two glass panels (42, 43), said mounting being parallel to the supporting device (6). The distance of the mounting (15) from the supporting device (6) can be changed, and both the supporting device (6) as well as the mounting (15) are equipped with means for bending a glass panel; an edge region of the two outer glass panels (41, 43) of an insulating glass pane can be held with said means at a distance from the non-bent central glass panel. Thus, an entrance to each of the two inner chambers (56, 57) of the insulating glass pane is temporarily held open, and air is exchanged with a gas that is different from air in the inner chambers (56, 57) through said entrances.
The invention relates to a method for assembling a window sash having an integrated insulating glass pane. The window sash has a frame (51) formed from plastic hollow profile sections (21), said frame having an inner face (23), an outer face (22) facing away from the inner face (23), and two flanks (24, 25) that connect the inner face (23) and the outer face (22) to each other. On the inner face (23) thereof, the frame (51) has two webs (26, 27) parallel to each other, which constitute an all-round delimitation of the window opening of the window sash and are adhesively secured to two glass panes (52, 53), which are held spaced apart by means of the two webs (26, 27).
The invention relates to a device for assembling a window sash having an integrated insulating glass pane. The window sash has a frame (51) made from plastic hollow profile section (21), wherein on the inner face (23) thereof the frame (51) has two webs (26, 27) parallel to each other, which are adhesively secured to two glass panes (52, 53) that are held spaced apart by the two webs (26, 27). The device has a horizontal conveyor (62), which is provided, so as to be vertically adjustable, on an underframe (55).
B23P 19/04 - Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformationTools or devices therefor so far as not provided for in other classes for assembling or disassembling parts
The invention relates to a method for producing an insulating glass pane comprising a plastic spacer, wherein two glass panels (25, 49) arranged parallel to each other have a target distance from each other, by forming a composite strand (26) by the temporal and spatial overlapping extrusion of at least two plastic partial strands (23, 24), wherein a first partial strand (23) is made of an adhesive first sealing compound (3), in which a moisture-binding substance is embedded, and a second partial strand (24) made of an adhesive and binding second sealing compound (4), a first glass panel (25) along the edge of the glass panel (25), specifically such that the beginning and end of the composite strand (26) abut and form a frame in that the first partial strand (23) is extruded with a predetermined first target thickness, which is greater than the target distance, and the second partial strand (24) is extruded with a predetermined second target thickness, which is greater than the target distance, on the glass panel (25), the partial strands (23, 24) are located next to each other in the composite strand (26) and thus immediately adjoin each other, and the first partial strand (23) is located within the frame formed by the second partial strand (24), joining the first glass panel (25) to the second glass panel (49) such that the composite strand (26) is located between both glass panels (25, 49), connects them to each other, and keeps them at a distance from each other and setting the target distance by pressing the joined glass panels (25, 49).
The invention relates to a method for producing an insulating glass pane comprising a plastic spacer, wherein two glass panels (25, 49) arranged parallel to each other have a target distance from each other, by ? forming a composite strand (26) by the temporal and spatial overlapping extrusion of at least two plastic partial strands (23, 24), wherein a first partial strand (23) is made of an adhesive first sealing compound (3), in which a moisture-binding substance is embedded, and a second partial strand (24) made of an adhesive and binding second sealing compound (4), a first glass panel (25) along the edge of the glass panel (25), specifically such that the beginning and end of the composite strand (26) abut and form a frame in that the first partial strand (23) is extruded with a predetermined first target thickness, which is greater than the target distance, and the second partial strand (24) is extruded with a predetermined second target thickness, which is greater than the target distance, on the glass panel (25), the partial strands (23, 24) are located next to each other in the composite strand (26) and thus immediately adjoin each other, and the first partial strand (23) is located within the frame formed by the second partial strand (24), ? joining the first glass panel (25) to the second glass panel (49) such that the composite strand (26) is located between both glass panels (25, 49), connects them to each other, and keeps them at a distance from each other and ? setting the target distance by pressing the joined glass panels (25, 49).
The invention relates to a method for preparing a paste-like compound, comprising at least two constituents (3, 4), which sets after the constituents that are initially present in separate storage containers (1, 2) have been mixed, and for injecting the setting, paste-like compound into an intermediate space between two glass panels (33, 34) of an insulating glass pane (32), by delivering the at least two constituents from the storage containers into separate intermediate storage units (13, 14), from which they are delivered into a mixer (20), in which the constituents are mixed with each other while passing through the mixer and the setting, paste-like compound leaving the mixer is injected into the intermediate space between the two glass panels by means of a nozzle (25), which has at least one opening directed into the intermediate space between the glass panels, while the nozzle is moved along the edge of at least one of the two glass panels. According to the invention, the at least two constituents of the paste-like compound are pumped using gear pumps (15, 16) from the intermediate storage units into the mixer, where they are dynamically mixed by means of motor-driven mixing elements (22).
A method is described for manufacturing a solar module which contains solar cells in an interior space which is enclosed by a first and a second glass panel and a spacer element, wherein a strand (2) of a first sealing material is applied around the first glass panel (1) in order to form the spacer element, which strand (2) has, at one location, a cutout (3), the cutout (3) is at least partially filled with a second electrically insulating sealing material (4), at least one electrical conductor (5) is applied, as a connection for solar cells of the solar module, to the second sealing material (4), the conductor (5) is covered with a third electrically insulating sealing material (6) in such a way that in the region of the cutout it is surrounded by the second and third sealing materials (4, 6) in an all-round electrically insulating fashion, and a second glass panel is fitted onto the first glass panel (1), with the result that the solar cells connected to the conductor (5) are enclosed in an interior space which is surrounded by the two glass panels and the strand (2). The invention also relates to a corresponding solar module.
The invention relates to a device for injecting a strand of a paste-like mass formed of multiple components into the intermediate space between two glass panes (33, 34) of an insulated glass pane, having a nozzle (25) comprising a storage unit (15, 15', 16, 16', 27, 27') for each of the components of the paste-like mass, which is connected to the nozzle (25) via a supply path in which a dynamic mixer is provided.
B29B 7/60 - Component parts, details or accessoriesAuxiliary operations for feeding, e.g. end guides for the incoming material
B01F 15/04 - Forming a predetermined ratio of the substances to be mixed
B01F 7/00 - Mixers with rotary stirring devices in fixed receptacles; Kneaders
B29B 7/40 - MixingKneading continuous, with mechanical mixing or kneading devices with movable mixing or kneading devices rotary with single shaft
B29B 7/42 - MixingKneading continuous, with mechanical mixing or kneading devices with movable mixing or kneading devices rotary with single shaft with screw or helix
01 - Chemical and biological materials for industrial, scientific and agricultural use
07 - Machines and machine tools
09 - Scientific and electric apparatus and instruments
19 - Non-metallic building materials
42 - Scientific, technological and industrial services, research and design
Goods & Services
Adhesives and sealing compounds for the manufacture of
insulating glass panes and of photovoltaic modules. Machines for cutting, treating, conveying, grinding,
heating, washing and drying of flat glass; machines for the
manufacture and the sealing of insulating glass panes;
machines for the manufacture and the sealing of photovoltaic
modules; machines for handling, lifting, conveying and
storing of glass panes, of insulating glass panes and of
photovoltaic modules; horses for glass panes, insulating
glass panes and photovoltaic modules; machines for the
manufacture of spacers for insulating glass panes; machines
for filling spacers for insulating glass panes with
desiccants; machines for filling insulating glass panes and
photovoltaic modules with a gas other than air; parts of the
aforesaid goods; fittings for the aforesaid goods, included
in this class. Electronic control units for machines; electronic apparatus
for controlling and monitoring the manufacturing process of
insulating glass panes and of photovoltaic modules; data
processing equipment and computers; data processing programs
and software, in particular for control units; photovoltaic
modules (not for buildings); photovoltaic apparatus and
installations made thereof; parts of the aforesaid goods;
fittings for the aforesaid goods, included in this class. Insulating glass panes; parts of insulating glass panes;
photovoltaic modules for buildings; fittings for the
aforesaid goods, included in this class. Scientific and technological services and research and
design relating thereto; industrial analysis and research
services; technical planning and development of
installations for the manufacture of insulating glass panes
and of photovoltaic modules; technical consulting regarding
the manufacture of insulating glass panes and of
photovoltaic modules.
19.
METHOD AND DEVICE FOR INJECTING A STRAND OF A PASTY MATERIAL INTO THE INTERMEDIATE SPACE BETWEEN TWO GLASS PANES OF AN INSULATING GLASS PLATE
A description is given of a method for injecting a strand of a pasty material into the intermediate space between two glass panes (33, 34) of an insulating glass plate, in that a nozzle (25) with at least one mouth which is directed into the intermediate space between the glass panes (33, 34) is moved along the edge of at least one of the two glass panes (33, 34) and the pasty material is fed to the nozzle (25) during this movement, in that this material or a constituent of this material is respectively pressed out of at least one refillable reservoir (15, 15', 16, 16', 27, 27'), which is connected to the nozzle (25) by a first delivery path. According to the invention, it is provided that two arrangements that are connected to the nozzle (25) and comprise a reservoir (15, 15', 16, 16', 27, 27') and a torpedo (17, 17', 28, 28') engaging in the said reservoir are respectively operated in opposite directions for the material or for constituents of the material.
Disclosed is a method for assembling insulating glass panes filled with a gas other than air. According to said method, two glass sheets provided with a spacer are arranged in a vertical or inclined position and facing each other, gas that is different from air is introduced into a chamber from below and the insulating glass pane is formed by moving the glass sheets closer to each other after reaching a desired gas filling level. According to the invention, the gas is homogenized before said gas is introduced through said gap.
A method for assembling insulating glass panes from two or more glass sheets filled with a gas other than air, two plates facing each other, arranged parallel to each other vertically to inclined with adjustable mutual distance, a horizontal conveyor arranged near the lower edge of the plates, a first sealing device and a second sealing device, positioned at the protruding edges of both the plates or near these edges or between the plates and can extend between the horizontal conveyor and a point lying above the horizontal conveyor, and having means for feeding a gas other than air into a chamber, delimited on both the sides by the two plates and by the two sealing devices. For assembling overlong insulating glass panes, the glass sheets, at one of which a frame-like spacer is attached on both the sides, are positioned between the plates an the plates opposite each other.
