CN1230597C

CN1230597C - Slealing strip for facade and /or roof

Info

Publication number: CN1230597C
Application number: CN 01820404
Authority: CN
Inventors: 艾特尔－弗里德里希·赫尔克; 迪特尔·施特格
Original assignee: Schueco International KG
Current assignee: Schueco International KG
Priority date: 2000-12-29
Filing date: 2001-12-15
Publication date: 2005-12-07
Anticipated expiration: 2021-12-15
Also published as: RS50478B; EP1346109A1; HRP20030516A2; YU41803A; EA200300734A1; HK1063832A1; WO2002053849A1; DE20021877U1; UA73834C2; CN1479829A; EA004636B1; PL362299A1

Abstract

The invention relates to a sealing strip for a faade or a roof comprising a metal framework. The vertical member profiles and the cross member profiles comprise sealing grooves (5, 6, 9) for sealing strips (10, 13, 13.1) and, preferably, receiving grooves (8) for leakage water. The bottoms of said sealing grooves (5) for the sealing strips (10) and, preferably, the bottoms of the receiving grooves (8) for the leakage water of the cross member profiles (2) rest on the sealing grooves (6, 9) of the sealing strips (13, 13.1) of the vertical member profiles (1). The sealing strips (13, 13.1) of the vertical member profiles are higher than the sealing strips (10) of the cross member profiles in such a way that said sealing strips occlude in a common plane, at least one sealing strip (10, 13, 13.1) of the cross member profile or the vertical member profile comprising a single-part drainage channel (11, 18) which is formed on a glass supporting area (10a) of the seal by means of a web (10c), said drainage channel having an essentially rectangular, u-shaped cross-section.

Description

The wind-lace that is used for front, room and/or roof

Technical field

The present invention relates to a kind of being used to has the front, room of metal framework framework and/or the wind-lace on roof, particularly relate to a kind of glass support wind-lace that is used to have the front, room and/or the roof of metal framework framework, its framework regional boundary preferably can be installed insulating glass plane.

Background technology

Although be used for the structure on positive and printing opacity roof, the room of stull/mullion (Riegel/Pfosten) and be used for the glass plate of balcony and the thermal insulation of wallboard is improved, in the interception of the condensed water of the fringe region of plate and drain and still have special importance.

Particularly the roof surface that tilts or under the situation of the room front face surface that horizontal plane tilts below inclined surface the zone condensed water interception and to drain be essential.The stull section bar that wherein accounts for most levels or diagonally extending relates to condensed water outflow or drippage.

Described a kind of front, room and roof of metal-glass structure with a kind of German patent DE 3419538, wherein mullion section bar and stull section bar have the condensation tank that is provided with along the both sides of lateral edges respectively.

The plane of condensation tank is provided with like this, make when being connected the stull section bar on the mullion section bar groove bottom of the condensation tank of stull section bar be bearing on the groove confining wall of condensation tank of mullion, thereby and condensed water changed over to from the stull section bar in the mullion section bar, drained in position along the condensation tank of mullion jointly then.By means of the condensation tank of an overlap joint principle mullion section bar drainage through to floor area or roof without restriction.

Such design has been confirmed not to be very desirable, promptly, the width of stull section bar and mullion section bar must design greater than originally by the needed section bar width of glass support technology cross the groove that the part glass support zone protruded is opened wide because each relevant condensation tank also must constitute towards vertical direction.

This means the more material consumption and the more visible surface that are used for section bar, it has improved the expense that is used for coating again.The section bar of broad has been run counter to the hope that architecture develops to narrow section material appearance direction equally.

For the condensation tank with stull is overlapped on the mullion, the socket that also needs to add on the stull section bar is processed, and this is to the special requirement at reprocessing position and causes significant more expense.

Summary of the invention

The objective of the invention is to, the collection of better way condensed water on a kind of structure is provided and drains measure, it can be adapted to the structure width of metal mullion section bar and metal stull section bar.

For this reason, the present invention proposes a kind of being used to and has the front, room of metal framework framework and/or the wind-lace on roof, wherein: described metal framework framework have the mullion section bar and with the stull section bar of its cross bearing; Described mullion section bar and stull section bar have the seal groove that is used for wind-lace, can support insulating glass plane on wind-lace; Described mullion section bar and stull section bar also have the holding tank that is used to leak; Be used for the bottom surface of seal groove of wind-lace of stull section bar and the seal groove that the bottom surface that is used for the holding tank that leaks of stull section bar is bearing in the wind-lace of mullion section bar; And the wind-lace monomer of mullion section bar or combination has bigger structure height compared with the wind-lace of stull section bar, so that the wind-lace of stull section bar and mullion section bar termination in same plane; It is characterized in that at least one wind-lace of described stull section bar has the condensation tank that becomes the single-piece moulding in a glass support zone that seals via a lath, it has the U-shaped cross-section of right-angle type basically; Described glass support zone is that the top genesis of seal groove considers to have a height " a " from plane X, and leak-off chute has size " b " from plane X up to the lower limb of groove bottom, and wherein size a and b are chosen to make the groove bottom of leak-off chute to be bearing on the top edge of seal groove of mullion section bar.

By this, at least one of stull section bar and/or mullion section bar or a plurality of wind-lace have one and become the rhone of single-piece moulding at a sealed glass support region, and it is used in particular for condensed water and has the U-shaped cross-section of right-angle type basically.

Because condensation tank unexpectedly no longer is arranged on the shape with simple and cheaply mode be disposed on the wind-lace, thereby can adapt to the building situation neatly, particularly adapt to the front, room and be in place inclination and zone level, that is: can enter the printing opacity roof area or consider the place that special condensed water produces.By its corresponding moulding,, utilize wind-lace of the present invention can be drained reliably too for stronger condensed water output.

The condensation tank of wind-lace constitutes with meet at right angles formula ground of good-looking and practical mode, and its size preferably is specified to according to other the theme of dependent claims and makes remaining wind-lace of itself and mullion section bar be in a particularly advantageous state.

By wind-lace of the present invention also might be in vertical room positive zone and adopt a kind of same section bar combination in the printing opacity roof area of level.

Repaired and guaranteed the compactness of height with simple tools pocket knife and scissors by the seal that elastomeric material constitutes, and reprocessing is not proposed special requirement.

Condensation tank on the wind-lace of stull compensates the difference in height to the seal of mullion direction in appearance.

The accurate length finishing of the height of seal is unwanted, because small excessive can flexibly the elimination by compressing along total length of seal.Particularly 1-2% by sealing small long even also can make between each sealing and the more flexibly driving fit of interface between angle joint and end joint.

Particularly for the straight inclined surface of the stull section bar with level, the wind-lace of a stull of bottom line is just enough, and it has a condensation tank.Like this be sealed in the stull section bar above be installed on the surface of rising and generally be enough to drain and hold condensed water.Low block glass or panel or also in the roof structure that rather level areas tilts possible, may need to be equipped with around frame or be equipped with condensed waters interception grooves at least three sides.

Wind-lace with condensation tank can be used for any place of considering that condensed water produces, below particularly tilting glass plate and the panel, there condensed water is drained to stull section bar direction.

Can utilize simple measure formation one sealing plane and glass support closely by the annex of hereinafter introducing in detail.

Because condensation tank becomes single-piece to be molded on the wind-lace in the mode of being not difficult to assemble at low cost and in practice, assembly working even an annex do not need, though the present invention can be optimized additional by other the annex that particular utility is arranged of dependent claims.

In addition, proved advantageously: the condensation tank of stull section bar is extended to the glass support zone of mullion section bar directly or indirectly, to the groove internal drainage of mullion section bar.Substantially kept in such a way as the member that has reduced the stull section bar with a kind of favourable water discharge technology of prior art.

Description of drawings

Followingly all embodiment are described in more detail with reference to accompanying drawing, wherein:

Fig. 1 is according to first embodiment in front, room of the present invention, on the left side partly illustrate its stull section bar zone cross section and on the right part the cross section in its mullion section bar zone, the wherein left-hand component of mullion section bar and the pure embodiment of representing that exemplarily they are different of right-hand component are shown; And

Fig. 2 is according to second embodiment in front, room of the present invention, on the left side partly illustrate its stull section bar zone cross section and on the right part the cross section in its mullion section bar zone, the wherein left-hand component of mullion section bar and the pure once more embodiment of representing that exemplarily they are different of right-hand component are shown;

Space or the interior scheme of cavity that Fig. 3,4 leaks and separately enters the wind-lace below;

Fig. 5 is according to a crosspoint in the front, room of the pattern of Fig. 1;

Fig. 6 is according to a crosspoint in the front, room of the pattern of Fig. 1, and wherein the wind-lace of mullion does not have condensation tank;

The vertical view of the various schemes of the intersection region of Fig. 7-10 mullion section bar and stull section bar;

The phantom drawing of the breakdown of Figure 11,12 each section bar intersection region;

Figure 13,14 different seals;

Amplification profile that is used for the wind-lace of stull section bar of Figure 15;

Figure 16-18 is used for the various cross sections of the wind-lace of stull and mullion section bar;

The perspective front view of Figure 19,20 wind-laces;

The part breakdown figure of the stull section bar of Figure 21 another program and the intersection region of mullion section bar.

The specific embodiment

Fig. 1 illustrates the part in the front, room of metal-glass structure, and this structure has a metal framework framework that is made of the stull section bar 2 of mullion section bar 1 and perpendicular location, and wherein the stull section bar is installed on the mullion section bar 1.

Mullion section bar 1 and stull section bar 2 respectively have a middle plate strip 100 at end face, and it is used to cover the fixing of shell 101.This lid shell 101 stationary barriers such as glass plate, for example insulating glass plane 102.

Stull section bar 2 constitutes socket type at end face, makes profile wall 3 towards insulating glass plane on the seal groove 6 of installment state lower support at mullion section bar 1, and wherein profile wall 3 is configured for the bottom surface of leak-off chute 4 and seal groove 5.

The seal groove 6 of mullion section bar 1 is observed the top that is positioned at a cavity 7 from the building side in front, room.Seal groove 6 and the cavity 7 common leak-off chutes 8 that limit mullion section bar 1.

According to the scheme that exemplarily is shown among Fig. 1 to the right of mullion section bar 1, seal groove 6 on the mullion section bar 1 also is configured to open wide downwards, we can say with cavity 7 and plays seal groove jointly and be merged into the seal groove 9 of mutual combination with cavity thereby seal groove 6 extends to the zone of cavity 7 and seal groove 6 always.

The glass support zone 10a with of stull section bar 2 itself and the wind-lace 10 of sealing bottom surface 10b have the condensation tank 11 that becomes the single-piece moulding at glass support zone 10a in an advantageous manner, and it preferably has the right angle form.

Condensation tank 11 with towards the cell wall deadend ground of the seal of wind-lace 10 in abutting connection with the external surface of stull section bar 2, groove bottom 12 flushes ground or aims at the ground termination below profile wall 3 below it.Condensation tank 11 also can have any difformity in principle, and though Yuan Xing cross-sectional form for example is because the preferred right angle corner form of dying of outward appearance and stability.Importantly, the groove cross sectional dimensions is definite like this, that is, make it can realize enough big displacement and enough stability.Though the monosomy of wind-lace 10 is particularly advantageous in addition, the combined type scheme of wind-lace in theory also is feasible.

Wind-lace 10 feeds in the zone of wind-lace 13 of mullion 1 always and is bearing in there on the seal angle joint 14, also connects or be equipped with the glass support sealing 13 of mullion 1 on the latter.

Seal angle joint 14 has the protuberance 15 corresponding to condensation tank 11 to wind-lace 10 directions of stull section bar 2, thereby it is in the side with from following encirclement and supporting and location condensation tank 11.

Seal angle joint 14 comprises the condensation tank of one side to the stull section bar, and it leads to the hollow passageway of a sealing in the alignment area of wind-lace 13, is guided and passes the groove bottom 17 of seal groove 6 downwards and feed cavity 7 from an outlet 16 by this hollow passageway.Perhaps, outlet 16 is led to following unlimited seal groove 9.Also can save the outlet 16 in the seal angle joint 14 in this case, thereby in the seal of seal angle joint 14, have only a drain hole.

In the room Facad structure shown in Fig. 1, provide on a kind of structure simply with new sealing, condensed water drainage system cheaply, it works reliably and with the drainage system that leaks of leak-off chute 4 and 8 dividually.

Fig. 2 illustrates a kind of room Facad structure, and wherein compared to Figure 1 mullion section bar and stull section bar 1,2 do not change.But to what Fig. 1 replenished be: wherein the wind-lace 21 of mullion section bar 1 has the directly condensation tank 18 of moulding in the glass support zone of wind-lace equally, and it is again by interlocking and supporting around the protuberance 19 of a seal angle joint 20.

Seal angle joint 20 comprises a footing pattern, its not only embed in the seal groove 5 of stull section bar and also embed in the seal groove 6,9 of mullion and there shape fix sealedly.

Seal angle joint 20 also has the passage of a lengthening condensation tank along the direction of the aligning of condensation tank 11, and it passes the side that the seal angle joint is aimed at wind-lace 21.

In such a way, the leak-off chute 8 of mullion directly is communicated with the condensed water drainage system, and promptly condensed water is directly entered in the drainage system that leaks.

Seal angle joint 20 can have a draining protuberance 22 to leak-off chute 8 directions.

According to Fig. 2, be used for condensed water and the drainage system that leaks therefore no longer separately but be merged into the system of an overlap joint.

Also can realize to reduce in the interchange of air between leak-off chute 8 and the

condensation tank

11,18 minimum in this case.The filter cartridge 25 (see below and state) of the fiber formula of just in the passage of the leak-off chute 8 that is communicated with condensation tank and mullion, packing into for this purpose, its blocks air exchange, the condensed water that produces with capillarity that adheres to owing to filtering material is discharged in the drainage system that leaks but then.

The two different drainage systems of Fig. 1 and 2, that is drainage system that converges or the drainage system that separates, and condensation tank 18 being provided with all on wind-lace 21 can at random use or exchange.

The wind-lace that is provided with condensation tank 11 10 that is used for stull section bar 2 should be arranged on above the stull section bar at least on the surface that tilts.Have under the situation of slight draft at roof surface or room front face surface, sealing also can be arranged on the both sides of stull section bar.Also be so to such front, room equally, promptly the condensed water that produces by condensation tank there the top of stull section bar may occur, cover and be drained.

Below the structure and the function of front, room drainage system will be described in more detail by means of other accompanying drawing.

Fig. 3 illustrates the vertical view by the section bar crosspoint of mullion 1 and stull 2.Wind-lace 21 with all-in-one-piece condensation tank 18 is positioned on the mullion 1.Wind-lace 10,21 is connected by seal angle joint 20.

Condensation tank

11,18 is surrounded and supporting by

protuberance

15,19, wherein also realizes corresponding sealing.In addition, be provided for linking the adhesive surface of sealing and the corresponding increasing of seal angle joint.

Fig. 3 illustrates and leaks to the space 9 of wind-lace 21 belows or the draining that separates of cavity 7.Wherein also can find out drainage channel 23, it leads to outlet 16 at the lengthening part of condensation tank 11 in seal angle joint 20.

Fig. 4 is different from Fig. 3, a wind-lace or the glass support that is used for the frozen-free tank of mullion 1 is shown again seals 13 there.

Fig. 5 illustrates the vertical view according to the front, room of Fig. 2 pattern.Can find out drainage channel 24 particularly well in the vertical view in this section bar crosspoint, it aims at and leads to the leak-off chute 8 of mullion 1 with condensation tank 11.This drainage channel loads a filter cartridge 25, and it stops basically at leak-off chute 8, is also referred to as vallecular cavity and condensation tank, is also referred to as the interchange of air between the inner chamber.Only condensed water entered by in the fibroplastic passage by adhering to capillarity on the fiber.

Fig. 6 is equivalent to the structure according to Fig. 1 basically, just wherein wind-lace 13 constitute the frozen-free tanks and realize drainings by the drainage channel 24 and the filter cartridge 25 of packing into as shown in Figure 5.

In mullion 1, only insert wind-lace 13 according to Fig. 7.Wind-lace 10 contiguous seal end joints 26 with condensation tank 11, it is lengthened in the zone of mullion section bar 1 stull sealing 10 always.Sealed end joint 26 is constructed in the seal groove 5 that embeds the stull section bar and be we can say there and fixes with sealing 10 with a footing.The width of sealed end joint 26 is equivalent to the beam overall that wind-lace 10 comprises condensation tank 11, thus seal 13 end face can be under bias voltage the outside of contiguous seal end joint 26 closely.Sealed end joint 26 can connect a drainage channel 27 in the front of condensation tank 11 in the lengthening part of condensation tank.Drainage channel 27 leads to an outlet 16, and it is again with in the condensed water and the space 9 or cavity 7 that imports the mullion section bar dividually that leak.

Fig. 8 shows the crosspoint of a mullion section bar 1 and a stull section bar 2 as Fig. 7.A sealed end joint 28 shown in the figure, it is arranged in the overlap joint zone between stull section bar and the mullion and its drainage channel 27 feeds in the drainage channel 8 or groove of mullion section bars.Such sealed end joint 26 also is specially adapted to the stull section bar of connection, because can be according to the engagement angles shearing sealing end joint 26 of section bar.

Sealed end joint 26 has to the level and smooth plane of wind-lace 13 directions, and glass support sealing 13 can be installed on this plane to deadend.Drainage channel 27 disposes filter cartridge 25, as shown in Fig. 5 and 6.

Fig. 9 and 10 also demonstrates such relation, that is, sealed end joint 26 is used in particular for the crosspoint, and wherein stull section bar 2 is connected on the mullion section bar with an angle.For this reason with sealed end joint 26 constituent ratios its to be used for the right angle interface needed longer so that the situation that can be adapted to change by the simplest mode.

Fig. 9 illustrates the interface of the inclination of stull section bar on the mullion section bar of having mentioned and is equivalent to above-mentioned Fig. 7 such.Only sealed end joint 26 and wind-lace 13 adapt to the connection angle of each section bar.

Figure 10 illustrates the vertical view of inclined interface of stull and mullion and the description that other aspects meet Fig. 8.Only the wind-lace 13 of sealed end joint 28 and mullion mates according to intersecting angle.

Figure 11 illustrates the breakdown phantom drawing of the structure that the stull mullion in front, room connects.Stull section bar 2 is at seal grove area overlap joint mullion section bar 1.Because the different height of sealing 10 and sealing 13,13.1 produces altimetric compensation.This difference in height can be compensated by seal angle joint 14 especially.Demonstrate a seal angle joint 14 and among the figure not by the wind-lace of the condensation tank 18 of Fig. 2.Wherein can find out seal angle joint 14 especially significantly.The sealing angle joint its each side respectively have with the interface area of each wind-

lace

10,13 in centering

lug boss

29,30,31, thereby the corresponding cavity of itself and glass support section bar matches to merge and embeds the mutual alignment of wherein fixing each member.The contact surface that lug boss also form to strengthen simultaneously is in order to mutual possible bonding of each member.

At seal angle joint 14 or also be provided with on seal angle joint 20 or drainage outlet 16 or draining protuberance 22, the latter has the drainage channel 27 by filter cartridge 25 sealings.

Figure 12 illustrates the breakdown phantom drawing at the intersection abutment in one stull/front, mullion room equally.Sealed end joint 26 shown in this figure, it has a pair of protrusions portion 29 equally, and it matches with a cavity of glass support section bar 10.Glass support section bar 13 flexibly is bearing on the external surface of sealed end joint 26.

Sealed end joint 26 disposes outlet 16 or is disposing drainage channel 27 and filter cartridge 25 under the situation of draining with leaking to converge in order to drain condensed water dividually.

Figure 13 illustrates seal angle joint 14, typically also is used for seal angle joint 20, and it can be learnt by above-mentioned details.Replace drainage channel 27 and shown in sealing fuse 25, the sealing angle joint is equipped with outlet 16 to be used for draining dividually condensed water.

Same also is like this to the sealed end joint 26 shown in Figure 14.

Replace seal angle joint or sealed end joint, wind-lace 10 can an overlap joint zone (not shown) through to stull 2 and mullion 1 together with condensation tank 11.So the wind-lace 13 of mullion section bar is in pre-next outside through to condensation tank 11 of power, wherein in the zone of wind-lace 13, in condensation tank 11, embed an adapter piece, it compensates up to the structure height of glass support on the one hand and seals condensation tank 11, thereby can realize condensed water is entered in the space 9 or chamber 7 below wind-lace 13 by a perforation in the groove bottom of condensation tank 11.

Adapter piece also can constitute a passage, wherein is provided with a filter cartridge 25, and it realizes draining in groove or leak-off chute 8.

Especially in this last form of implementation of describing, but equally in according to Fig. 7,8,9,10,12 and 14 form of implementation, they all relate to sealed end joint 26, and the altimetric compensation between stull section bar that is used for the glaze supporting plane and mullion section bar also can be finished (seeing Figure 18) by two-part mullion sealing 13.Wherein particularly it is contemplated that the combination of employing by the wind-lace 10 of an aluminium bottom surface filler rod and a corresponding frozen-free tank.

Below will describe wind-lace in more detail or particularly have on it structure of the wind-lace of rhone that install or moulding.

Figure 15 illustrates the amplification cross section of wind-lace 10, and it is bearing on two top edges of seal groove 5 and by sealed being fixed in the stull section bar 2 of sealing footing shape with its plane X.On seal, promptly be used for connecting a lath 10c at the glass support zone 10a of the sealing footing 10b of the moulding of seal groove 5 interlockings having of constituting in known manner basically, wherein sealing footing 10b also can relative mutually collapsible mode by film hinge interconnect with glass support zone 10a (not shown), so that with the overlap joint zone of mullion section bar the glass support zone can easily separated with the footing zone, lath 10c is molded directly within on the 10a of glass support zone in the side and has the height of glass support zone 10a basically.The outer ledge of stable lath 10c lap seal groove 5, seal groove 5 is that single face opens wide to the insulating glass plane direction, on this stable lath 10c also the moulding right-angle type and constitute the condensation tank 11 of " U-shaped " basically, one side it is by cell wall 12,200 with groove bottom 130 constitutes and point to being bearing on the stull section bar 2 of stull section bar 2 with it.The side that therefore the plane Y of the sensing seal of cell wall 12 is formed on the stull section bar 2 is fixed and supporting plane.

Seal or glass support zone 10a promptly consider to have a height " a " from the top genesis of seal groove 5, and leak-off chute have size " b " from plane X up to the lower limb of groove bottom 130 from plane X.The resulting structure height " H " that is used for the wind-lace 13 of mullion section bar 1 is made up of the size " b " of the height and the leak-off chute in glass support zone, also is " a+b " sum.

Size a and b are chosen to make the groove bottom 130 of leak-off chute to be bearing on the top edge of seal groove 6 of mullion section bar.Wherein cell wall 200 is also perpendicular to groove bottom 130 and be configured for the part of the area supported of wind-lace 13 in special embodiment.

The height of cell wall 200 " h " equals to be used for the size " b " of condensation tank 11 in an advantageous embodiments.

Figure 16 to 18 can compare the installation dimension of various sealings.Figure 16 illustrates the wind-lace 10 that is used for stull section bar 2, and Figure 17 illustrates the wind-lace 13 that is used for the mullion section bar, and Figure 18 illustrates the combined labyrinth and carbon gland unit that is used for the mullion section bar.Make Figure 16 to 18 and registration, just can find out to be used for glass support filler rod 10 that the stull section bar comprises condensation tank 11 with having identical structure height with 17 mullion sealing according to Figure 16.

Therefore be suitable for H=a+b

According to Figure 18, combined labyrinth and carbon gland unit or wind-lace 13.1 are made of two parts, that is it has a wind-lace 21 (not shown all-in-one-piece condensation tank 18) and a groove that is made of encapsulant here and dwindles section bar 220, the latter is generally by the material of stull section bar and mullion section bar, therefore for example or preferably made of aluminum.

In this respect, groove dwindles section bar 220 and has height b, and it meets the situation in the structure of the cell wall 200 of a particularly advantageous sealing 10.

Under this situation, wind-lace 21 can a frid bar or a groove bottom through to wind-lace 10, wherein the sealing footing of wind-lace 21 away from the overlap joint zone of condensation tank 11.So the drainage channel that forms loads filter cartridge 25 or is sealed by a sealing block.Guarantee whereby condensed water is entered in the chamber 7,9 of wind-lace below of leak-off chute 8 or mullion section bar.

Figure 19 illustrates an intercept of wind-lace 10, wherein can one sealing moulding spare 230 be inserted in the zone of condensation tank 11 at end face.Sealing profiled member 230 replenish condensation tanks up to the last sealing surfaces of wind-lace 10 and flush outside simultaneously with cell wall 200 terminations, thereby the wind-lace formation one of mullion section bar is used for level and smooth whole area supporteds of tight seal in the overlap joint zone of 1 of stull section bar 2 and mullion section bar.Wind-lace 10 feeds the overlap joint zone of each section bar always in this case, and additional seal angle joint or sealing edge joint needn't be set.

Sealing moulding spare 230 is offered a passage, so that it can lead to perforation in a condensation tank 11 bottom surfaces in order to drain condensed water.

According to Figure 20, sealing moulding spare 240 is different from Figure 19, and has a passage that runs through, thereby condensed water directly can be imported in the holding tank that leaks of stull section bar.In this unrestricted passage, can insert filter cartridge 25 by synthetic polyamide (PA) filter medium system.

Figure 21 illustrates positive crosspoint, a room or zone again.Wherein wind-lace 10 also feeds the overlap joint zone always, thereby condensation tank 11 is bearing on the seal groove of mullion section bar.

Constitute the area supported that seals by means of sealing moulding spare 230,240, so that wind-lace 13 is closely rested on wind-lace 10 or the condensation tank 11.

Claims

1. be used to have the front, room of metal framework framework and/or the wind-lace on roof, wherein:

Described metal framework framework have mullion section bar (1) and with the stull section bar (2) of its cross bearing;

Described mullion section bar and stull section bar have the seal groove (5,6,9) that is used for wind-lace (10,13,13.1), can support insulating glass plane (102) on wind-lace;

Described mullion section bar and stull section bar also have the holding tank (8) that is used to leak;

Be used for the bottom surface of seal groove (5) of wind-lace (10) of stull section bar and the seal groove (6,9) that the bottom surface that is used for the holding tank that leaks (8) of stull section bar (2) is bearing in the wind-lace (13,13.1) of mullion section bar (1); And

Wind-lace (13, the 13.1) monomer of mullion section bar or combination has bigger structure height compared with the wind-lace (10) of stull section bar, so that the wind-lace of stull section bar and mullion section bar (10,13,13.1) termination in same plane;

It is characterized in that at least one wind-lace (10) of described stull section bar has the condensation tank (11) that becomes the single-piece moulding in a glass support zone (10a) that seals via a lath (10c), it has the U-shaped cross-section of right-angle type basically;

Described glass support zone (10a) is that the top genesis of seal groove (5) considers to have a height " a " from plane X, and leak-off chute has size " b " from plane X up to the lower limb of groove bottom (130), and wherein size a and b are chosen to make the groove bottom (130) of leak-off chute to be bearing on the top edge of seal groove (6) of mullion section bar.

2. according to the described wind-lace of claim 1, it is characterized in that described wind-lace is the glass support wind-lace that is used to have the front, room and/or the roof of metal framework framework, its framework regional boundary can be installed insulating glass plane.

3. according to the described wind-lace of claim 1, it is characterized in that, the wind-lace of stull section bar constitutes by following mode: described wind-lace is adjacent on two top edges of a seal groove (5) and by its sealing footing (10b) shape with its plane (X) and is fixed in the stull section bar (2) sealedly, wherein a lath (10c) is molded on seal and glass support zone (10a) in the side, the outer ledge of this lath (10c) lap seal groove (5) and moulding condensation tank (11) thereon.

4. according to one of claim 1 to 3 described wind-lace, it is characterized in that described condensation tank (11) has two cell walls (12,200) and a rectangular therewith groove bottom (130) that is parallel to each other.

5. according to the described wind-lace of claim 4, it is characterized in that the height h of cell wall (200) is equivalent to be used for the size b of condensation tank (11).

6. according to one of claim 1 to 3 described wind-lace, it is characterized in that at least one wind-lace (13.1) that is used for stull section bar or mullion section bar constitutes many combined labyrinth and carbon gland unit.

7. according to the described wind-lace of claim 6, it is characterized in that, the combined labyrinth and carbon gland unit of mullion section bar comprises a wind-lace (21), sealing filler rod (21) extends to the frid bar or the groove bottom of stull section bar wind-lace (10) always, and the sealing footing of sealing filler rod (21) away from the overlap joint zone of condensation tank (11).

8. according to the described wind-lace of claim 1, it is characterized in that, one sealing moulding spare (230) can be inserted in the zone of condensation tank (11) in the wind-lace (10) of described stull section bar, sealing profiled member (230) make condensation tank (11) expand to always described stull section bar wind-lace (10) last sealing surfaces and flush outside with cell wall (200) termination.

9. according to the described wind-lace of claim 8, it is characterized in that described sealing moulding spare (230) is offered a passage, thereby can lead to perforation in a condensation tank (11) bottom surface in order to drain condensed water.

10. according to the described wind-lace of claim 8, it is characterized in that, described sealing moulding spare (240) has a passage that runs through, thereby condensed water directly can be imported in the holding tank that leaks of stull section bar, and in this passage, can insert the filter cartridge of making by synthetic polyamide (PA) filter medium (25).

11. according to one of claim 8 to 10 described wind-lace, it is characterized in that, constitute an area supported that seals by means of sealing moulding spare (230,240), so that wind-lace (13) is closely rested on the condensation tank (11).

12. according to one of claim 1 to 3 described wind-lace, it is characterized in that, the wind-lace of described stull section bar (10) enters the overlap joint zone of stull section bar and mullion section bar always, thereby condensation tank (11) is bearing on the seal groove of mullion section bar.