FI126567B - Hand glazing system and multilayered building - Google Patents

Description

Field of the invention

More generally, the invention relates to the field of construction, more particularly to railing glazing systems or railing and balcony glazing systems.

Technical background

In known handrail glazing, the handrail is made so that the vertical posts at the spans support the handrail and absorb the forces coming from the handrail. Such forces include internal loads from humans, wind loads, and pressure and suction loads.

In the known handrail glazing, which is supported without handrail posts, the handrail is fixedly fixed at the bottom to a profile (cf. e.g. SteelPro U-profile A60) which is firmly anchored to the base plate below. A similar solution is described, for example, in US 2002/0195595 A1.

Handrail glazing is known from International Patent Application Publication 2013/162451 AI, International Patent Application 96/24739, US Patent 6,964,410, Czech Patent Application 2010-151, Czech Patent Application Publication No. 300,485, European Patent Publication No. 300,485, and European Patent Publication No. 300,485.

Fixed handrails at the lower part tend to deflect under the load exerted by the forces. Thus, at the lower part of the glass, at the upper part of the fixed attachment, high shear forces are created at the interface between the lower conductor profile and the glass. Because of these high shear forces, such barrier glasses are subject to high strength requirements. In practice, high strength requirements require the use of toughened and thicker glass, for example 6 + 6 mm laminated and tempered glass.

Purpose of the invention

The object of the first aspect of the invention is to enable the strength requirements of handrail glazing to be applied without vertical columns placed in the span. This function is solved by the handrail glazing system of claim 1. Thus, it is possible to realize the building of claim 21 using more economical railing glazing.

Another object of the invention is to facilitate the installation of a railing glazing system for a railing glazing system. This problem can be solved by the railing system according to claim 15.

The object of the third aspect of the invention is to enable the straightness of the handrail of the installed railing glazing system to be adjusted. This problem can be solved by the railing system according to claim 17 or 18.

Other dependent claims describe advantageous aspects of the handrail system.

Advantages of the Invention

When fixed only at their ends with a carrier fastening system, a substantially horizontal horizontal guide rail having a spacing of at least 3.0 m and having a mounting groove is provided, a substantially horizontal sub-rail having a mounting groove and a rigid and non-rigid mounting groove wherein the lower edge of the handrail glazing rests on the bottom of the mounting groove so that the lower edge of the handrail glazing is substantially movable in the mounting groove relative to the width of the mounting groove; railing glazing is freely accessible i to deflect under the influence of normal directional forces of the handrail glazing, and wherein the lower rail and handrail are arranged such that the normal handrail forces of the handrail glazing are transmitted to the supporting structures only through substantially horizontal guides (3, 2). and even non-tempered glass. Unhardened glass can be machined (eg cut), unlike toughened glass. This greatly simplifies installation. For example, any measurement errors (too wide or too high) can still be corrected during installation. In addition, at least for the time being, tempered glass is generally cheaper than tempered glass. It has not been possible to use non-tempered glass in handrail glazing systems without vertical column posts.

The handrail glazing system may further comprise a balcony glazing suspended from the upper end of the handrail glazing system, supported at its lower end by a handrail. In this case, it is also possible to implement a balcony glazing using a handrail glazing system implemented without vertical columns, which can therefore be used with lower strength glass.

When the handrail glazing system comprises a guide mounted in the mounting groove, the tread surface of which together with the tread surface of the handrail forms a flat surface along which the sliding surface of the balcony window lower profile can be transported opening and closing balcony windows.

When the balustrade glazing system is 4 + 4mm, 5 + 5mm or 6 + 6mm thick, it is possible to use the most economical glass thicknesses.When the balcony glazing installation groove consists of a fixed mounting plate with a mounting groove for a seal and a removable mounting groove , the top edge of the handrail can be installed in its mounting groove from inside the balcony. This increases safety at work. In addition, during installation, this helps to prevent the fall of glazing.

When a handrail glazing system in which the sub-barrier is attached to the carrier structure by means of fastening members, the lower barrier is capable of absorbing half of the normal directional forces on the barrier glazing.

When a glazing glazing installation groove is formed between the gaskets to be mounted in the grooves of the lower conductor profile, which is open upwards, the glazing glazing can be installed from above.

When the glazing system gaskets are or contain rubber elastic masses, the gaskets dampen the movement of the glazing and sharp shocks caused by the motion, reducing the risk of breakage. When the seals are arranged on both sides of the handrail glazing tightly against the handrail glazing, the seals also act as a dampener for the handrail glazing vibrations: when the lower and / or upper end of the handrail glazing deviates from the equilibrium position

When there is a cavity at both ends of the handrail for mounting the clamping piece, the rigidity of the handrail to the carrier structures is obtained by forming a rigidity against deflection.

Where the handrail is a handrail profile, and when a stiffener profile for the bending resistor is mounted or mounted within the handrail and is attached to the handrail profile by means of fastening members, the handrail bending resistance may be increased without changing the outer shape and / or dimensions of the handrail.

In addition to this, or alternatively, the handrail is an extrudate having a constant cross-section excluding any attachment throughs, whereby the cavity is available to accommodate both the anchors and the stiffener profile, then both the rigid anchor and the bending resistance of the handrail In addition, the handrail can be manufactured relatively simply, for example by extrusion of aluminum.

When a material with a lower friction coefficient than the friction coefficient of the handrail and subframe mounting interface is at the bottom of the sub-rail mounting groove, it is possible to slide the lower edge of the rail at the bottom of the sub-rail during bending of the rail. This allows the bottom edge of the handrail to slide freely at the bottom of the mounting groove during any bending, thus reducing the risk of the bottom edge of the glass breaking.

When the substrate is mounted with a material that has a hardness lower than that of the handrail, it reduces wear on the underside of the handrail and reduces the risk of breakage of the lower edge of the handrail under vertical loading, compared to metal-to-glass confinement.

When the handrail glazing system comprises a guard profile mounted or mounted at the top of the handrail to guide vertical forces from the handrail over a wider area, the risk of breaking the upper handrail is reduced as the point forces from the handrail are more distributed over the handrail.

When a handrail glazing system is configured to use an attachment profile mounted or installed at the top of the handrail glazing to hold or support the handrail glazing during the handrail installation, the handrail glazing installation is facilitated and even one installer can perform the handrail glazing.

When the guard / retention profile is or comprises an h-profile, its shape reliably holds the handrail in the installation groove during installation and facilitates installation of the handrail glazing and can be installed by only one installer.

When the guard / hold profile is wedged between the handrail and the handrail to straighten the handrail, the handrail's straightness can be adjusted by adjusting the height of the wedge or wedges.

When the handrail glazing system comprises a wedge-shaped member for straightening the handrail over a span, the straightness of the handrail over the span can be infinitely adjusted. For aesthetic reasons, the straightness of the handrail over the span is important anyway, but it is especially important when installing a balcony glazing over the handrail.

When the wedge-shaped member comprises a screw, screw thread or bolt, the distance between the handrail and the upper surface of the profile at the top of the glass can be infinitely adjusted by rotating the screw or bolt. Generally, the torque required to rotate a screw, screw thread, or bolt is small relative to the force it produces, so a screw, screw thread, or bolt facilitates straightening a fairly heavy handrail.

Attaching the handrail glazing from the center of the span with an elastic adhesive to both the bottom of the sub-conductor material and the bottom of the guard / attachment profile, which is further glued to the base of the handrail mounting groove, ensures that the handrail remains in its mounting grooves. However, elastic bonding does not prevent the handrail from bending.

When using a balustrade glazing system in a multi-storey building to provide balustrades, balustrades and balconies for exterior balconies on different floors, or roof terraces or terraces on different floors, these can be accomplished without the use of weaker, non-tempered glass.

When a building is a multi-storey structure that does not use a stiffener profile in the handrails of the lower deck and has a stiffener profile in the upper handrails, the handrail glazing can be optimally stiffened while the appearance of the handrail glazing remains the same on all floors.

drawing List

In the following, a handrail glazing system will be described in more detail with reference to the accompanying drawings, in which exemplary embodiments of the handrail glazing system shown in FIGS. In the drawings: FIG. 1 is a cross-sectional view of a rail glazing system; FIG. 2 is a cross-sectional view II-II of the balcony glazing glazing system shown in FIG. 5; FIG. 3a is a cross-sectional view of a handrail in a balustrade glazing system without balcony glazing (cf. FIG. 2, item III); FIG. 3b is a detail III of FIG. 2, i.e. a cross-section of a railing and balcony glazing system including a balcony glazing and a guide; Fig. 4 is a detail of a cross-sectional view of a sub-conductor IV; FIG. 5 is an inside view of a handrail glazing system and a balcony glazing system; FIG. 6 details VII, i.e. concealed attachment of the carrier structure of the rail glazing system; FIG. 7 is a cross-sectional view VII-VII of the concealed fastener shown in FIG. 6; FIG. 8 details the alternative attachment of the handrail glazing system to the carrier structure;

FIG. 9 is a cross-sectional view IX-IX of the attachment method shown in FIG. 8; and FIG. 10 is a cross-sectional view of an alternative attachment of the lower rail.

The same reference numerals refer to like parts throughout FIG.

Detailed explanation

FIG. 1 is a cross-sectional view of a rail glazing system 1. The glazing glazing system 1 is otherwise similar to the glazing glazing system 1 shown in FIG. 2, but the glazing glazing system 6 of FIG. 2 is also fitted with a balcony glazing 6. FIG. 5 shows an interior glazing and balcony glazing system. The number of balustrades 4 and balconies 60 may vary.

The handrail glazing system 1 integrally comprises only at its ends a substantially horizontal handrail 2 with a spacing of at least 3.0 m and a mounting groove 9, and a substantially horizontal subrail 3 having a lower rail profile 30 and a handrail glazing 4 substantially floating between the mounting groove 38 and supporting the handrail 2 from the center of the span so that the handrail glazing 4 is freely deflected by forces parallel to the normal F of the handrail glazing 4, and wherein the lower rail 3 and handrail 2 are arranged The F-directional forces are transmitted to the bearing structures 5 and 8 only through substantially horizontal guides 3 and 2.

By "substantially horizontal" is meant a horizontal direction in which the horizontal deviation remains within the limits permitted by the standards in force at the time of the review.

Figure 2 shows, in section II-II (see Figure 5), a rail glazing system 1 with a balcony glazing 6 connected thereto. Balcony glazing 6 comprises a plurality of balcony glazing 60. The glazing glazing system 1, comprising a balustrade 6 at its lower end supported on the handrail 2. The handrail 2 carries half of the forces exerted on both the handrail glazing 4 and half of the potential glazing glazing 6 in the normal F direction.

Figure 3b shows a handrail glazing system 1, further comprising a guide 50 mounted in a mounting groove 17, the tread surface 25 of which, together with the handrail tread surface 27, forms a flat surface along which the sliding surface 26 of and the driving surface 25 of the guide 50 from the closed position to the open position and vice versa.

The unglazed and laminated glass is used as the glazing 4. The thickness of the glass is 4-12 mm (e.g. 4 + 4 mm, 5 + 5 mm or 6 + 6 mm). FIG. 3a shows a handrail glazing system 2 without balcony glazing 6. The mounting groove 9 of the handrail glazing 4 consists of a fixed mounting strip 22 integrated with a handrail profile 10 having a mounting groove 18a for a seal 20a and a removable mounting rib 11 with a mounting groove 20a. The removable mounting strip 11 is secured to the handrail 2 by means of a mounting member 12. The seals 20a are mounted in place prior to installation. The handrail profile 10 and the removable mounting strip 11 are cut to length before being brought to the installation site. The gaskets 20a are usually installed at the factory after cutting off the handrail profile 10 and the removable mounting strip 11. FIG. 3b shows a handrail 10 with a balcony glazing 6 integrated therewith, whereupon the cover 21 which may have been in the handrail 10 (FIG. 3a) has been removed. In addition, a guide 50 is provided in the mounting groove 17 of the handrail 2 at a convenient point for opening the balcony window 60, along which the balcony windows 60 can be opened and closed. FIG. 4 is a cross-sectional view of the bottom rail 3. The lower guide 3 is secured to the carrier 5 by means of fastening means 32. Between the lower guide 3 and the carrier 5 there may be an mounting bracket 33 shown in FIG. 4, for which the lower guide 2 is fastened by means of fastening means 32. 33 may be provided with a washer 35. The angle iron 33 may have oval holes for fastening members 34 and 32 both for attaching the lower rail 30 to the mounting bracket and for attaching the mounting bracket 33 to the support structure 5. The oval holes can adjust the glazing glazing 4 both in depth and height. If the fastening member 34 is a concrete screw, it may then have an integrated washer 35. FIG. 10 illustrates an alternative attachment of the lower guide 3 to the carrier structure 5, where the lower guide 3 is directly attached to the carrier structure 5 by the fastening member 44.

Between the seals 20a and 20b to be installed in the mounting grooves 36 of the lower conductor profile 30, a mounting groove 38 of the handrail glass 4 is formed which is open upwards. The gasket 20a is mounted in the mounting groove 36 to the specified length of the sub-conductor profile 30 after cutting before installation. The cutting of the low-conductor profile 30 and the installation of the gasket 20a are usually done at the factory. The inner seal 20b of the handrail glazing 4 is installed only after the handrail glazing 4 is installed. With seal 20b, the lower part of the handrail glazing 4 is sealed and centered in the mounting groove 38 of the lower rail 3.

The seals 20a, 20b may be of rubber elastic mass, for example rubber. Most preferably, the seals 20a, 20b are or contain an EPDM (ethylene propylene diene monometer (M-class) rubber). FIG. 6 shows a detail of the balcony and railing glazing shown in FIG. lowered therethrough through the opening 106 in the profile shown in FIG. 7 and secured to the mounting plate 101 by the side with the securing member 102 and the top by the securing members 103. FIG 7 is a sectional view VII-VII of the securing of the handrail 2. FIG. 107 for mounting the bracket 101. The brackets 101 are mounted on the carrier structures 8 by the fastening members 105 before the handrail 2 is installed. An opening 106 is provided in the cross-section of the handrail profile 10 to lower the handrail 2 over the brackets 101. with insertion means 102 (e.g. M6x30 RST Allen screw) and 103 (e.g. pop rivet 4.2x13 RST). Figs. 8 and 9 show an alternative attachment of the handrail 2 to the carrier structure 8, wherein the bracket is secured to the carrier structure 8 by means of fastening members 108 and washers 109 and the handrail is secured to cavity 107 (FIG. 3a) with fastening means 16. The handrail 2 is an extrudate having a constant cross-section, except for possible fastenings, whereby the cavity 107 is used to accommodate both the fastening plates 101 (see FIG. 7) and stiffener profile 15 (see FIG. 3a). The stiffening profile 15 may be solid (e.g. rod-shaped) or open (e.g. tubular).

At the bottom of the mounting groove 38 of the lower guide 3 is a material 31 (e.g. plastic) having a hardness less than the handrail 4 and having a friction coefficient lower than the friction coefficient of the mounting groove 38 of the handrail 4. Material 31 is exemplified in the shape of a U-profile. The material is mounted in place at the bottom of the sub-conductor profile 30 where it locks under the shoulders 45 of the sub-conductor profile 31.

The protective / fastening profile 42 to be mounted or installed at the upper edge 41 of the handrail glazing 4 serves to direct vertical forces from the handrail 2 to the wider area of the upper edge 41 of the handrail glazing 4.

The handrail glazing system 1 is configured to use a guard / hold profile 42 mounted or to be mounted on the upper edge 41 of the handrail glazing 4 to hold or support the handrail glazing during the installation of the handrail glazing 4. In this case, preferably, the protection / retention profile 42 may take the form of an h profile.

The guard / hold profile 42 may be used to straighten the handrail 2 by wedging it between the handrail 4 and the handrail 2. In this case, the handrail glazing system 1 preferably comprises a wedge-shaped member 13 for straightening the handrail 4 over a span.

The wedge-shaped member 13 may be or comprise a screw or bolt.

The glazing glazing system 1 is used in a multi-storey building for the implementation of balustrades, balustrades and balconies, or roof terraces or terraces on different floors of external balconies. Thus, preferably, the stiffener profile 15 of the lower floors of the multi-storey buildings need not be used and the stiffener profile 15 of the upper storey of the handrails 2 may be used.

The handrail glazing 4 is secured to the base of material 31 of the sub-guide 3 and to the bottom of the mounting groove 9 of the handrail 2 with an elastic adhesive 39 (e.g. silicone type adhesives such as Sikaflex®-221 or Sikaflex®-222 UV). When calculating the deflection of the handrail 2, the loads shall be calculated according to Eurocodes. Such Eurocodes include:

European Standard 1991-1-1 Eurocode 1: Actions on structures. Part 1-1: General loads. Volumetric weights, own weight and payloads of buildings and European Standard 1991-1-4 Eurocode 1: Actions on structures. Part 1-4: General loads. Wind loads.

Eurocodes require handrails 4 and balcony glazing 6 to be designed to withstand wind pressure, depending on the height and terrain class of the building in question.

For example, in a 20 m high building with a terrain class 0, the wind pressure used in the design is 1.25 kN / m2. In a 40 m high building with a terrain class 1, the design wind pressure is 1.01 kN / m2.

With the prototype railing glazing system 1 according to the invention, glazing glazing can be implemented in a 20 m high building (terrain class 0), for example, when the balcony width is 4.6 m or less. With the prototype handrail glazing system 1 according to the invention, handrail glazing can be implemented in a building up to 40 m high (terrain class 1) when the balcony width is 6 m or less. In the case of the figures presented here, the rail glazing system 1 also includes a balcony glazing 6 above the handrail 2. The wind load is illustrated in the drawings with the normal direction F of the rail glazing 4.

In some locations, such as Helsinki, building control instructs the maximum permissible deflection of the handrail. At the time of writing this is 25 mm in Helsinki. In the above cases, the maximum deflection of the handrail glazing system 1 according to the invention is less than or equal to the maximum allowable deflection. In this case, the handrail 2 is reinforced with a stiffener profile 15, at least on the upper layers. When implemented in this way, the railing and balcony glazing system is capable of implementing railing and balcony glazing similar to Eurocodes, building regulations and the following examples.

The invention is not to be construed as being limited to the appended claims, but is to be understood to include all their legal equivalents and combinations of the embodiments disclosed.

List of reference numbers used: S Inside glazing glazing U Outside glazing glazing F Normal force of the glazing glazing 1 Handrail glazing system 2 Handrail 3 Sub-glazing 4 Handrail glazing 5 Carrier 6 Balcony glazing 7 Carrier lashings 8 Carrier lashings, facade fittings 11 fastener 13 wedge-shaped member 15 stiffener profile 16 fastener 17 fastening groove 18a mounting groove 18b mounting groove 19 locking hole 20a seal 20b seal 21 cover 22 fixed mounting strip 23 threaded hole 24 seal 25 tread 26 sliding surface 27 tread 28 oval hole 29 oval hole 32 lower groove 32 mounting member 35 washer 36 mounting groove 37 U-profile base 38 mounting groove 39 elastic adhesive 40 lower edge of handrail 41 upper edge of handrail 42 shield / hold profile 43 cover profile 44 shoulder 50 shoulder 50 guide 60 balcony glass 61 overhead 62 carrier structure 63 lower profile 101 fastening plate 102 fastening member 103 fastening member 104 mounting bar 105 opening 107 in the profile of fastening member 106 cavity 108 fastening member 109 washer 110 fastening member

Claims (44)

Standard: Handrail glazing system (1), characterized in that it comprises: - a substantially horizontal handrail (2) with a spacing of at least 3.0 m, fixed at its ends only by means of a carrier fastening system (7), with a span of at least 3.0 m; ; - a substantially horizontal lower rail (3) provided with a mounting groove (38); - a handrail made of non-tempered and laminated glass substantially floating between the handrail mounting groove (9) and the lower rail mounting groove (38), the lower edge (40) of the handrail glazing (4) resting on the bottom of the mounting groove (4) (40) substantially movable in the mounting groove (38) relative to the width direction of the mounting groove (38); and wherein: - the handrail (2) supports the handrail (2) in the middle of the span so that the base of the mounting groove (9) of the handrail (2) rests on the upper edge (41) of the handrail (4) so that the upper edge (41) moving in the mounting groove (9) with respect to the width direction of the mounting groove (9), whereby the handrail glazing (4) is substantially freely deflected by forces in the normal (F) direction of the handrail glazing (4); and - the lower guide (3) and the handrail (2) are arranged such that the forces exerted on the handrail glazing (4) in the direction of normal (F) are transmitted to the carrier structures (5, 8) only through substantially horizontal guides (3, 2). The balustrade glazing system (1) according to claim 1, further comprising a balcony glazing (6) suspended from the upper end (61) of the carrier (62) of the balustrade glazing system, supported at its lower end by a handrail (2). Handrail glazing system (1) according to claim 1 or 2, further comprising a guide (50) mounted or to be mounted in the mounting groove (17) of the handrail (2), whose driving surface (25) together with the driving surface (27) of the handrail (2) along which the sliding surface (26) of the lower profile (63) of the balcony window (60) can be transported such that the balcony window (60) is movable against the driving surface (27) of the handrail (2) and the driving surface (25) towards. Handrail glazing system (1) according to any one of claims 1 to 3, wherein the handrail glazing (4) has a thickness of 4 + 4 mm, 5 + 5 mm or 6 + 6 mm. Handrail glazing system (1) according to any one of claims 1 to 4, wherein the mounting groove (9) of the handrail glazing (4) consists of a fixed mounting strip (22) integrated with the handrail profile (10) having a mounting groove (18a) for seal (20a) and a removable mounting strip (11). having a mounting groove (18b) for the seal (20a). Handrail glazing system (1) according to any one of claims 1 to 5, wherein the lower guide (3) is fixed to the carrier structure (5) by means of fastening means (32). Handrail glazing system (1) according to any one of claims 1 to 6, wherein between the seals (20a, 20b) to be mounted in the mounting grooves (36) of the lower conductor profile (30), a mounting groove (38) for the handrail glass (4) is open up. Handrail system (1) according to claims 5 and 7, wherein the seal (20a, 20b) is or contains rubber elastic mass. Handrail glazing system (1) according to any one of claims 1 to 8, wherein at each end of the handrail (2) there is a cavity (107) for mounting the fastening piece (101). Handrail glazing system (1) according to any one of claims 1 to 9, wherein the handrail (2) is a handrail profile (10) and wherein a stiffener profile (15) is provided or mounted within the handrail (2) to be attached to the cavity profile (2). ) with fastening means (16). Handrail glazing system (1) according to claims 9 and 10, wherein the handrail (2) is an extrudate having a constant cross-section, except for possible fastenings, whereby the cavity (107) is used to accommodate both the fastening plates (101) and stiffener profile (15). Handrail glazing system (1) according to any one of claims 1 to 11, wherein at the bottom of the mounting groove (38) of the lower guide (3) is material having a coefficient of friction lower than that of the mounting groove (38) of the handrail glazing (4). Handrail glazing system (1) according to any one of claims 1 to 12, wherein the lower groove (3) has a material (31) of lower hardness than the handrail glass (4) at the bottom. Handrail glazing system (1) according to any one of claims 1 to 13, further comprising a guard profile (42) mounted or mounted on the top edge (41) of the handrail (4) to apply vertical forces from the handrail (2) over a wider area. Handrail glazing system (1) according to any one of claims 1 to 14, wherein the handrail glazing system (1) is configured to use a guard / retention profile (42) mounted or mounted on the upper edge (41) of the handrail glazing (4). Handrail glazing system (1) according to claim 14 or 15, wherein the guard / retention profile (42) is or comprises an h-profile. Handrail glazing system (1) according to any one of claims 14 to 16, wherein the guard / retention profile (42) is wedged between the handrail glazing (4) and the handrail (2) to straighten the handrail (2). Handrail glazing system (1) according to any one of claims 1 to 17, comprising a wedge-shaped member (13) for straightening the handrail (2) over a span. Handrail glazing system (1) according to claims 17 and 18, wherein the wedge-shaped member (13) comprises a screw, a screw thread or a bolt. Handrail glazing system (1) according to any one of claims 1 to 19, wherein the handrail glazing (4) is secured to the base of the material (31) of the lower guide (3) and to the bottom of the protective / fastening profile (42) (2) to the bottom of the mounting groove (9). Multi-storey building using a rail glazing system (1) according to any one of claims 1 to 20 for providing balustrades, balustrades and balconies for outdoor balconies on different floors, or roof terraces or terraces on different floors. A multi-storeyed building according to claim 21, wherein the handrail glazing system (1) is used according to claim 9 or 10, with no stiffening profile (15) on the lower handrails (2) and a stiffening profile (15) on the upper layers. claim: 1. System (1) för inglasade räcken, kännetecknat av att det omfattar en med hjälp av et bärkonstruktionsfastsättnings system (7) vid bärkonstruktionerer (8) i sand ändar fast bet, till sin spännvidd minst 3,0 m Lång, väsentligen horisontell handled (2) som det har anordnats ett monteringsurtag (9) i; en väsentligen horisontell nedre ledare (3) som det har anordnats ett monteringsurtag (38) i; en mellan handledarens monteringsurtag (9) och den nedre ledarens monteringsurtag (38) på en spännvidd väsentligen flytande monterad, icke-härdat och laminerat glas framställd räckesinglasning (4), color räckesinglasningens (4) på så provision (4) bottnen av monteringsurtaget (38) att räckesinglasningens (4) nedre kant (40) väsentligen kanöra sig i monteringsurtaget (38) i förhållande till monteringsurtagets (38) breddriktning; och där räckesinglasningen (4) på så provision bär upp handledaren (2) i mittområdet på spännvidden att bottnen av handledarens (2) monteringsurtag (9) på så provision Vilar på ræckesinglasningens (4) övre kant (41) att ræckesning (4) cant (41) väsentligen kan röra sig i monteringsurtaget (9) i förhållande till monteringsurtagets (9) breddriktning, varvid räckesinglasningen (4) väsentligen frit kan böja sig genome inverkan av krafter i riktning med normalen (F) mot räckes; och den nedre ledaren (3) och handledaren (2) så anordnade att de krafter i riktning med normalen (F) mot räckesinglasningen (4) riktar sig på räckesglaset (4) överförs till bärkonstruktionema (5, 8) enbart via de väsentlig horisontella ledarna (3, 2). 2. System (1) för inglandade räcken enligt krav 1 som ytterligare omfattar en balkonginglasning (6) upphängd på en övre ledare (61) ingående i en bärkonstruktion (62) för systemet (1) för inglandade räcken, vilken balkonginglasning nedtillen stöds (2). 3. System (1) för inglandade räcken enligt krav 1 eller 2 som ytterligare omfattar en styranordning (50) som har monterats eller ska monteras i et fästurtag (17) för handledaren (2) och stalk (25) tillsammans med handledarens (2) ) horn (27) bildar en jämn yta längs vilken glidytan (26) av balkongglasets (60) nedre profil (63) på så provision kan föras att balkongglaset (60) horn mot handledarens (2) horn (27) respektive mot styranordningens ( 50) horns (25) från Stängt light till öppet läge och tvärtom. 4. The system (1) for the English rack (4) is 4 + 4 mm, 5 + 5 mm eller 6 + 6 mm. 5. System (1) för inglasade räcken enligt något av kraven 1-4 där monteringsurtaget (9) för räckesinglasningen (4) utgörs av en i en handledarprofil (10) integrerad fast monteringsurtag (22) som uppvisar ett monteringsurtag (18a) för en tätning (20a) och av en Löstagbar monteringslist (11) som uppvisar et monteringsurtag (18b) för en tätning (20a). 6. The system (1) for engaging the rails 1 to 5 (3) for the construction (5) for the element (32). 7. The system (1) for mounting the blank (1-6) in the monteringsurtag (38) for the blank (4) for the blank (20a, 20b) for the blank (36) for the blank (30) ), whisper urtag up to learn uppåt. 8. Räckessystem (1) enligt kraven 5 och 7 där tningningen (20a, 20b) and an eller innehåller rubber elastic mass. 9. System (1) for loading rails 1 to 8 (2) for handling (107) for inserting (101). 10. System (1) för inglasade räcken enligt något av kraven 1-9 där handledaren (2) utgörs av en handledarprofil (10) och där det inne i handledaren (2) har monterats eller kan monteras en förstyvningsprofil (15) som ekar böjmotstand och som fästs i handledarprofilens (2) hålrum (107) med hjälp av fästelement (16). 11. System (1) för inglandade räcken enligt kraven 9 och 10 där handledaren (2) utgörs av en strängsprutad product vars tvantsnitt and constant med undantag av eventuella fästgenomföringar, colors hålrummet (107) kan användas för att inkvartera både förstyvningsprofilen (15). 12. System (1) For the purpose of the invention (1) For the purpose of the montering surtaget (38) For the ledder (3) For the material (31) The frogtionskoefficient för montering surtaget (38) ) för räckesinglasningen (4) och den nedre ledaren (3) · 13. The system (1) for the English racking system (12) for the bottom shelf (38) for the ledger (3) for the material (31) for the rack (4). 14. System (1) för inglasade räcken enligt något av kraven 1-13 som dessutom omfattar en skyddsprofil (42) som ska monteras eller har monterats på ræckesglasets (4) övre kant (41) för att leda de vertical krafterna från handledaren (2) ) till räckesglasets (4) belt edge (41) på ett bredare område. 15. System (1) för ingland räcken enligt något av kraven 1-14 där systemet (1) för inglandade räcken har configurerats att använda en skydds- / fasthållningsprofil (42) som harterter eller ska monteras på räckesinglasningens (4) övre kant ( 41) för att hålla fast eller stöda räckesinglasningen under monteringen av räckesinglasningen (4). 16. The system (1) for ingesting the räcken enligt krav 14 eller 15 där skydds- / fasthållningsprofilen (42) har formen av en H-profil eller omfattar en sådan. 17. The system (1) for ingesting a rack 14-16 for a panel (42) for fastening a rack (4) and a handgear (2) for a grooming (2). 18. The system (1) for the ingestion of the fish (1) for the craven 1-17 som omfattar et kilformigt organ (13) for the treatment (2) of the spannvidd. 19. System (1) för inglasade räcken enligt kraven 17 och 18 där det kilformiga organet (13) omfattar en skruv, screw screw eller bult. 20. The system (1) for englade räcken enligt något av kraven 1-19 där räckesinglasningen (4) i mitområdet på spännvidden fästs med hjälp av elastiskt lim (39) i den nedre ledaren (3) och i bottnen på skydds- / fästprofilen (42), som vidare limmas i bottnen på monteringsurtaget (9) för handledaren (2). 21. Flervåningsbyggnad där ett system (1) för inglasade räcken enligt något av de föregående kraven 1-20 används för räckes- eller räckes- och balkonginglasning av utomhusbalkonger på olings våningsplan, eller för att utassåra. 22. Flervåningsbyggnad enligt krav 21 där systemet (1) för angelade räcken enligt krav 9 eller 10 används, och där man i handledarna (2) för de lägre våningsplanen inte använder en förstyvningsprofil (15) och där man i högre våningsplanen använder en förstyvningsprofil (15).