FI128269B - Railing glass system and horizontal handrail for a railing glass system - Google Patents

Abstract

The invention relates to a counter-glass insertion system and a horizontal conductor such as a lower conductor or a guide for a counter-glass insertion system. The horizontal conductor (DR) comprises a glazing groove (DRG) for a welding insert construction. As the mounting structure (FS) for attaching the glass insertion structure, the horizontal conductor (DR) in the horizontal conductor wall (W) comprising the glazing groove comprises a clamping protrusion (PR) which removes in relation to this wall and also a housing (THRN) which is a control unit for a slider which can be placed in the nest, which nest (THRN) is arranged to control the slider which can be placed in the nest to disappoint said tensioning protrusion (PR) from the side towards the glazing groove (DRG).

Description

Handrail system and horizontal guide for handrail system

20165767 prh 28 -11- 2019

Background of the Invention

For the sake of being on a balcony, terrace or other similar space, there is a handrail structure at the front of the space, such as the balcony. The handrail structure with cover plates, such as glazing, also acts as a windscreen and possibly also as a visor.

The railing structure may be attached to the side of the balcony tile, i.e. practically at the front edge of the balcony tile. Another way, which is also utilized in the present invention, is that the railing structure is on top of the balcony slab. The position of the handrail structure is determined by the location of the attachment of the horizontal lower profile of the handrail structure.

The structure according to the invention is suitable for mounting both on a substrate such as a tile and on a sidewall, such as a sidewall such as the outside of a balcony slab.

For architectural and cost reasons, a handrail structure that does not use separate vertical posts between the lower profile and the upper profile, the handrail, has become increasingly popular. This structural principle poses new challenges to the stability and rigidity of the railing structure, 20 and thus to operational safety.

In barrier-less handrail glazing systems, the top surface of the lower profile has a groove on the horizontal lower edge of the glazing and, respectively, on the glazing of the upper rail or so-called. the lower surface of the handrail has a groove on the horizontal top edge of the glazing.

One important consideration in railing structures without upright posts is how the glazing structure, i.e., the cover plate elements, are relative to the horizontal sub-rail / lower profile underneath the glazing and the horizontal overhead on the glazing, which can be termed handrail.

Known is a mounting head wherein the glass is glued from its horizontal lower edge to the glazing groove of the top surface of the lower profile and from its horizontal upper edge to the glazing groove of the lower surface of the handrail.

20165767 prh 28 -11- 2019

Also known is a mounting head where the lower profile has a structure such that the recess at the leading edge of the balcony slab has large and robust clamping structures between the tile and the lower profile to squeeze 5 towards the glazing in the glazing groove. Finally, the recess in the front edge of the balcony slab and the large and sturdy attachment structures underneath the concrete casting to be added.

Certain structures are known from WO2015145477 and US2015197959.

Known solutions are either deficient in function or difficult in design or implementation, bulky and expensive.

Brief Description of the Invention

The object of the invention is thus to provide a handrail glazing system and a horizontal guide so that the above problems can be reduced. The object of the invention is achieved by a handrail glazing system and a horizontal rail, characterized by what is stated in the independent claims. Preferred embodiments of the invention are claimed in the dependent claims.

The invention is based on a new type of attachment between the glazing and the horizontal conductor.

The invention provides advantages, that is, the structure is good both in terms of manufacture 20 and in terms of the strength of the fastener and the installation work. The invention reduces or eliminates the disadvantages of the prior art. The invention allows for a good fixation of glazing in an advantageous manner and so that the fixings can participate in transferring the load away from the glazing.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be further described in connection with preferred embodiments, with reference to the accompanying drawings, in which:

Figure 1 illustrates a glazing fastening arrangement in relation to the sub-conductor from the direction of the sub-conductor end;

Figure 2 is a slightly front elevational view similar to Figure 1,

Figure 3 is a vertical sectional view showing a schematic diagram of a railing glazing arrangement on a balcony slab with a viewing direction in the longitudinal direction of the railing.

Figure 4 is a top plan view of a balustrade glazing arrangement on a balcony slab,

Fig. 5 is a schematic diagram showing the waveguide and handrail and their 35 glazing grooves,

20165767 prh 28 -11- 2019

Figure 6 shows a non-tempered laminated glazing element,

Figure 7 shows a glazing fastening arrangement similar to that of Figure 1 but in the opposite direction of the sub-conductor;

Fig. 8 shows a handrail glazing structure with three glazing elements directly in front.

DETAILED DESCRIPTION OF THE INVENTION

3, 4 and 8, the details of which are best discerned in Figures 1, 2 and 7.

Referring to the figures, this is a handrail glazing system GA which in one embodiment is provided with a balcony 1 in which the balcony slab 10, for example a concrete slab 10 of suitable strength, is either concrete slab or spot cast.

The railing glazing system GA comprises a lower profile 15 DR over the balcony slab, such as a lower rail DR, or sub-rail DR.

The structure according to the invention is suitable for mounting / mounting on a substrate such as a tile or on the side of a substrate such as a tile, such as the outside of a balcony tile.

Further, the railing glazing system GA comprises an overhead rail UR or upper profile 31 such as a top rail 31 which is a handrail of the railing glazing arrangement which the user can lean on.

Referring to, for example, Figure 8, the railing glazing system GA further comprises a glazing structure G consisting of one or more glazing elements G1 to G3 which is a cover sheet structure to protect the balcony. Each glazing element G1 of the glazing structure G is so-called. handrail or handrail.

The lower profile DR as well as the upper profile UR can be, for example, an aluminum strip made of a drop, such as a profile strip.

Thus, it is a handrail glazing system GA which comprises a horizontal sub-conductor DR and a horizontal superconductor HR a handrail HR, and a la30 sealing groove DRG or a glass groove URG URG is used between sub DR and handrail UR.

20165767 prh 28 -11- 2019

Referring to Figures 1-2, the handrail glazing arrangement further comprises an attachment structure FS for attaching the glazing structure G to the lower and upper conductors. Both the lower conductor DR and the upper conductor UR have their own mounting arrangements FS for glazing G.

With particular reference to Fig. 8, one horizontal conductor, such as a lower conductor DR or an upper conductor UR, is in one embodiment such that the fastening structures FS are numerous and spaced apart along the longitudinal extension of a horizontal conductor such as DR, UR. This gives a point-like strong clamping force between the glazing G, G1-G3 and a horizontal conductor such as 10 DR, UR. The fastening structures FS, FS1-FS5 for fastening the glazing G are, for example, such that there are 5 fastening arrangements along the 300 cm long subframe DR, with a uniform spacing of about 60 cm between the fastening points FS if the outermost fastening arrangements FS1, FS5 are near the ends of the subframe DR. The distance between the locations of the fastening structures FS, FS1-FS5 may be more than 15 cm or less than the exemplary 60 cm.

As to the fastening structures FS, it is noted that the fastening structure comprises a glazing groove DRG in the sub-conductor DR and / or the handrail DR in a wall W bordering on the URG and a tensioning protrusion PR removable from that wall W. Further, the clamping structure FS comprises a threaded housing THRN in the lower rail DR and / or the upper rail UR, and a rotatable pusher PD, with an external thread THRO, rotatable with respect to that threaded housing TRHN. In one embodiment, the pusher PD is threaded or THRO threaded.

While the housing THRN and the pusher PD as the helical pusher are discussed above and will continue to be understood, the invention is to be understood in a broader sense, that is, the spiral principle is not necessary, although well established. The insert TRHN controls the thrust member PD so that the integral clamping protrusion PR of the horizontal guide DR, UR on the glass groove DRG, URG is obtained in a transverse clamping motion towards the glass groove and glazing or similar cover plate structure.

Thus, it is noted that both the glazing girder system and the horizontal guide are such that, as the fastening structure FS, arranged to guide the housing insertion pusher PD to push said clamping protrusion PR from the side towards the glazing groove

20165767 prh 28 -11- 2019

DRG. The insertion member PD may be seen as part of or attached to the horizontal guide.

The THRN threaded housing comprises an internal thread THRI. The outer thread THRO of the pushing member PD and the inner thread THRI of the threaded housing THRN together provide a thread transmission between the pushing member PD and the threaded housing in the horizontal guide DR.

As the threaded housing THRN advances, the pusher PD is arranged to push said clamping protrusion PR toward the side surface of the glazing structure G in the glazing groove in its peripheral region. The edge area of the glazing side surface is on the side of the DR 10 in the groove DRG, for example, the lowest 25-30 mm from the glazing side surface.

In the examples of the figures it is seen that there is a seal S between the groove such as URG and the glass G, so that the clamping protrusion PR moves against the seal S when the pushing member PD like a bolt is rotated forward in the screw housing THRN. It is found that in the area below the threaded housing THRN and the bolt-type pusher PD, the back surface BS of the clamping protrusion extends obliquely with respect to the longitudinal direction of the screw housing THRN and the pusher PD, since The oblique dorsal surface BS of the clamping protrusion PR extends below the threaded housing in the lower conductor (UR, i.e., above the threaded housing in the handrail), i.e. from the viewpoint of the threaded housing THRN to the outlet side of the thrust member PD. This achieves that the same threaded housing and adjustable threaded pusher PD can provide adjustable tensioning, because as the pusher PD is rotated forward, the integral tensioning protrusion PR becomes closer and closer to the seal S and the glazing G. The sealing S may not be in direct contact. on the side surface of the glazing element or the like in the lower and / or upper part of the side surface.

The seal S in the figure is a U-type sealing gutter which provides mutual sealing and quick installation. The seal S has projections SPR 30 at points of glazing G to improve contact. In the lower conduit DR below the seal S, at the very bottom of the groove DRG may be a support piece SP as shown in Fig. 1.

It will be appreciated that in one embodiment, the handrail glazing system is such that, in addition to the removable clamping protrusion PR on the wall W of the glazing groove such as DRG, 35 threaded housing THRN for the threaded pusher PD is located in that glazing groove wall.

20165767 prh 28 -11- 2019

The horizontal conductor such as the sub conductor DR is integral, e.g., the extruded component, so that the clamping protrusion PR is an integral region / point / part with the other horizontal conductor DR, and likewise the THRN housing W in the wall W of the horizontal conductor. In this case, these structures help to make the glazing G attachment to the horizontal conductor DR solid or non-floating and better transferring power from the glazing to the horizontal conductor, and the adhesion from the attachment projection PR to the glazing is at the bottom or upper edge of the glazing hand rail). The structure may be similar in the upper guide, i.e. the handrail UR.

Referring in particular to Figure 3 and also to Figures 4 and 6, it is noted that the structure shown allows the force exerted on the balcony side, as inwardly, to be distributed not only in direction A but also in direction B via a glazing element such as G1 and its membrane F. / adjacent glass element (s).

With particular reference to Figure 4, the following will be discussed with respect to the sides a, b and c of the handrail structure, of which page b is the middle, i.e., usually the longest side and pages a and c are edge pages. It is a matter of transferring the lateral horizontal force of two adjacent separate sides to that other side, thus receiving the force parallel to the horizontal profiles DR, UR on the glass.

Thus, the lateral forces on the side a, b of the side are received by the handrail and the subrunner UR of page b being fixed to each other.

Correspondingly, the forces parallel to the horizontal guides DR, UR on the sides a and / or c of the side b are arranged to receive the whole of the sides a and / or a and b, i.e. the handrail UR and the G, G1-G3 , which also has fastening arrangements FS, FS1-FS5 in the lower guide (respectively in the upper guide).

It can be noted that if there is a blow from the inside to the side b, from the glass G, G1-G3 the force is applied to the lower profile DR which is attached to the slab 10 and the force is also applied to the handrail DR which is attached to the wall. Since the glasses 30 G1-G3 are fastened by means of fastening arrangements FS, FS1-FS5 by squeezing the horizontal rails DR, UR, in the impact situation, the impacted glass bends outwards, whereby the horizontal runner like the handrail UR tends downwards or upwards. they remain to support the UR movement of the handrail so that it does not detach from the glasses and that the impacted glass cannot escape from the handrail.

20165767 prh 28 -11- 2019

When the inside into the blow side of a direction of arrow C, then the lower guide track DR having glass against the force coming from the lower guide track as the DR plate 10 is closed.

In Fig. 4, since the glasses G1-G3 5 of the side b, i.e. the front side, or the longest side, are properly pressed against the lower and upper conductors DR, UR, they support the support parallel to its side c so that the handrail is resistant to impact.

In this case, the handrail UR, URI, UR2 is a sufficiently sturdy structure for attaching, for example, balcony glazing to it.

Wall brackets WF, e.g., bolts, are used to stiffen the handrail structure at the ends of the handrail of Figure 4.

The structure shown is suitable for both straight rails, L-shaped and U-shaped.

In one embodiment, the housing, such as the helical housing THRN for the pusher PD, is substantially vertical, which is transverse to the longitudinal direction of the horizontal conductor. In this case, the installation work is easy to perform and the adjustability of the tensioning is easy to achieve since the pushing contact PD pushing on the back face of the tensioning projection BS can push the tensioning projection transversely

In some embodiments, the usability and features of the invention can still be improved.

In one embodiment, the screw housing THRN for the pusher PD is substantially parallel to the depth direction 25, i.e. the vertical direction, of the glazing groove such as DRG. And it is also such that the threaded housing for the thrust member is substantially parallel to the longitudinal direction of the clamping projection.

The threaded housing THRN has a diameter of e.g. 8mm and thus is intended for an 8mm diameter threaded pusher PD. Of course, the diameter can be other, for example 6mm.

The screw housing TRHN for the insertion member extends at least partially parallel to the clamping protrusion PR. Further, in one embodiment, the clamping protrusion PR is substantially parallel to the depth direction, i.e. vertical direction, of the glazing groove DRG, since it is in a good position and more easily brought into the clamping movement towards seal S and glazing G.

20165767 prh 28 -11- 2019

The threaded housing THRN has, for example, a through-length of 5 to 20 mm, because it provides good support for the threaded pusher PD for pushing the clamping protrusion PR on the DRG edge of the glazing groove.

The clamping protrusion PR is a bendable arm with a pusher PD whose construction shows that the clamping protrusion PR comprises a free end T and at the opposite edge a clamping protrusion socket BA. In one embodiment, the free end T of the clamping protrusion PR is farther from the bottom of the glazing groove than the base of the clamping protrusion, i.e. the free end T of the clamping protrusion PR is on the side where glazing G1 G1-G3 enters contact la10 a horizontal edge.

It will be appreciated that, in one embodiment, the clamping protrusion PR extends at least partially parallel to the glazing groove DRG, thereby providing a good positioning of the clamping protrusion PR towards the seal S and glazing G, which are thus in the groove DRG.

With regard to the importance of the embodiment of the tensioning arrangements FS, it can be noted that such tensioning arrangements form a fixed non-floating attachment to the glazing structure G1, G1, G2 with both the sub-conductor DR and the handrail UR. Such a fixed non-floating fastening is thus arranged to transfer the load on the glass 20 to the substructure G and to the sub-rail DR and thereby the rail glazing installation base 10 such as the balcony tile as well as the UR rail and through both ends of the rail.

The structures shown also make it possible to use non-tempered 25 man laminated glass (no need for expensive and heavier tempered glass) although the attachment of glazing G to the horizontal guides DR, UR is fixed or floating.

Referring to Fig. 6, the glazing structure, i.e., in practice, its single glazing element, comprises two glazed non-glazing members GLA, GLB laminated to each other by a film F. Thus, each glazing element, such as G1 and G2, is a laminated glazing element formed by two opposed glazing units GLA, GLB and an interlayer F. The diaphragm F has the previously mentioned role in transmitting the load sideways. However, in some destinations or countries it is desirable or necessary to use glazing elements having a glass element laminated with a film 35F, but thus one of its glasses is tempered and the other is unglazed.

20165767 prh 28 -11- 2019

In connection with the facilitation of installation work, in the sub-conductor DR the glazing groove DRG has a depth of at least 28 mm and the glazing groove DRG has a transverse width of at most 1.5 mm, e.g. 0.2mm to 0.8mm, wider than the thickness of the glazing structure. The thickness of the laminated glazing structure may be e.g. 4mm + 4mm, and the width of the glazing groove slightly more.

A glass groove such as DRG is deep but narrow enough for glass G, G1-G3 to remain upright during installation, even without temporary supports, but it is possible that the glass tightening arrangements FS, PD, PR on the sub-conductor DR are already tightened before the handrail UR is installed.

The installation of the glazing glazing system GA is started by first attaching the sub-conductor DR to the base such as the balcony tile 10, subsequently the glazing elements G1-G3 of the glazing structure G are lifted into the groove DRG of the lower rail DR.

Next, the superconductor UR, i.e. the handrail, is inserted and tensioned in both the sub-DR and the handrail / superconductor UR by each tightening arrangement FS by rotating the thrusters PD in the THRN so that the tensioning protrusion PR

According to the Applicant, the ringing order of installation is: first sub-conductor, 20 DR, then glazing elements / cover plates elements G1-G3, next superconductor or handrail UR, next handrail UR with fastening to WF walls, and finally with fastening systems FS (PR, THRN, PD) -G3 clamping to the lower conductor DR and the upper conductor UR.

The clamping arrangements for the upper guide UR, such as FS, are equivalent to 25 for the lower guide DR, and due to the opposite position of the upper guide, the mouth of the housing THRN is at the lower surface of the guide and the housing THRN faces upward.

Instead of the vertical direction, the housing THRN may be, for example, horizontal, both in the lower DR and in the upper UR.

The invention is also suitable, for example, as a space divider in a commercial or other space.

In addition to or instead of the entire rail glazing system GA, the invention can be viewed as a horizontal guide. That is, it is a horizontal conductor such as the DR conductor or the UR handrail, i.e. the upper conductor UR for the rail glazing system. Horizontal guide like DR, UR hands for glazing groove like DRG, URG for glazing structure G.

As already pointed out for the entire rail glazing system GA, as a fastening structure FS for attaching the glazing structure G to the horizontal rail DR, UR comprises a glazing groove DRG, a horizontal rail wall 10 mass W surrounding the URG and a tensioning protrusion PRN. In addition, a movable pusher relative to that housing is needed. In one embodiment, the pushing member PD may be a threaded surface such as a bolt-type or 5 threaded pin type pushing member arranged to push said clamping protrusion PR sideways, i.e., from the direction W of the edge wall toward the glazing groove DRG, or gasket S. in the vicinity of the housing THRN because they allow the insertion member PD to be positioned, moved relative to the housing THRN and ki10 to the junction protrusion PR and the pusher member PD to influence the insertion of the clamping protrusion PR toward the glass groove and glazing therein.

Referring to Fig. 7, it is noted that on the front face of the clamping protrusion PR, i.e., the face of the glass groove DRG, the clamping protrusion comprises a protrusion H1 which not only improves clamping of the glasses G1-G3 but also the weapon 15 locks seal S into its position. It is also noted that the outer wall WW defining the glass groove DRG in the horizontal guide DR comprises a protrusion H2 which also positions the seal S and improves tension on the glass.

It will be obvious to a person skilled in the art that as technology advances, the basic idea of the invention can be implemented in many different ways. The invention and its embodiments 20 are thus not limited to the examples described above, but may vary within the scope of the claims.

Claims (17)

claim 1. Railing glass insertion system, comprising a horizontal lower conductor (DR) and as horizontal upper conductor a supervisor (UR), as well as a glazing groove (DRG) in the lower conductor (DR and a glazing groove (URG) in the supervisor) and a glass inserting structure (G ), comprising one or more glazing elements (G1-G3), which glass insertion construction using the glazing lock (DRG, URG) is located between the lower conductor (DR) and the guide (UR), and a further attachment structure (FS) for attaching the glass insert structure (G), and that the mounting structure (FS) comprises in the lower conductor (DR) and / or in the guide (UR) a clamping protrusion (PR) and further comprises the clamping structure (FS) in the lower conductor (DR) and / or in the the guide (UR) a housing (THRN) and a sliding member (PD) slidable relative to the housing, which is arranged to push said clamping protrusions (PR) in the direction of the glazing lock (DRG, URG), the side surface of the g The welding insert structure (G, G1-G3) characterized in that the clamping protrusion (PR) is one in the wall (W) of the lower conductor (DR) and / or the guide (UR), which surrounds the glazing barrier (DRG, URG), integral clamping protrusion ( PR) which can be removed in relation to the wall (W). Railing insert system according to claim 1, characterized in that, in addition to the integral clamping projection (PR), which is located in the wall (W) of the lower conductor and / or the guide, which surrounds the glazing barrier (DRG, URG), and which can be removed in relation to to the wall (W), also the housing (THRN) of the slider is located in the wall surrounding the glazing bar. 3. A glass insertion system according to claim 1 or 2, characterized in that the housing (THRN) of the sliding member (PD) is substantially vertical. 4. A glass insertion system according to any one of the preceding claims, characterized in that the housing (THRN) of the slider is substantially equal to the depth direction of the glazing bar (DRG, URG). 5. A glass insertion system according to any one of the preceding claims, characterized in that the housing (THRN) of the sliding means (PD) is substantially equal to the longitudinal direction of the clamping projection (PR). 20165767 prh 28 -11- 2019 6. A glass insertion system according to one of the preceding claims, characterized in that the housing (THRN) of the sliding member extends at least partially parallel to the clamping projection. 7. A glass insertion system according to any one of the preceding claims, characterized in that the clamp projection (PR) is substantially rectified with the depth direction of the glazing bar. 8. Railing insert system according to one of the preceding claims, characterized in that the clamping projection (PR) extends at least partially parallel to the glazing track (DRG). Railing insert system according to one of the preceding claims, characterized in that the clamping projection (PR) comprises a free end (T) and at the opposite edge of the clamping projection base (BA), and that the free end (T) of the clamping projection is at a longer distance from the glazing bar (T). DRG) bottom than the clamping base (BA). A glass insertion system according to one of the preceding claims, characterized in that the glass insertion structure (G, GIGS) comprises two via a membrane (F) laminated glass parts (GLA, GLB), at least one of which is uncured. 11. A glass insertion system according to any one of the preceding claims, characterized in that in order to provide sufficient support for the glass insertion structure during mounting only with the lower conductor (DR), the depth of the glazing barrel (DRG) in the lower conductor is at least 28 mm and the width of the glazing barrel (DRG). is not more than 1.5 mm wider than the thickness of the glass insert construction. A glass slide insert system according to any one of the preceding claims 1-6, characterized in that the housing (THRN) is a spiral housing and the sliding member (PD) has a threaded surface. 13. Horizontal conductor, for example, a lower conductor or a guide for a glass insertion system, and which horizontal conductor (DR, UR) comprises a glazing groove (DRG, URG) for a glass insertion structure, and that as an attachment structure (FS) for attaching a glass insertion structure, it comprises the horizontal conductor (DR, UR) in the horizontal conductor wall (W) which angles the glazing groove a clamping protrusion (PR) which removes in relation to this wall and, in addition, a housing (THRN), which is a control unit for a sliding member which can be placed in the nest, which housing (THRN) is arranged to control the slider which can be placed in the nest to displace said clamping projection (PR) from the side towards the glazing groove (DRG, URG), characterized in that the clamping projection (PR) is one in the wall (W) of the horizontal conductor. (DR, UR), which surrounds the glazing groove (DRG, URG) located, integral clamp protrusion (PR) that can be removed relative to the wall (W). Horizontal conductor according to claim 13, characterized in that, in addition to the integral clamp projection (PR), which is located in the wall (W), which surrounds the glazing groove (DRG, URG) and which can be removed in relation to the wall (W), also the housing (THRN) for the slider located in the wall (W) surrounding the glazing groove (DRG, URG). Horizontal conductor according to any one of the preceding claims 1314, characterized in that the housing (THRN) of the slider (PD) is substantially equal to the longitudinal direction of the clamping projection (PR). Horizontal conductor according to claim 13, characterized in that the horizontal conductor comprises a slider (PD) which is placed in a guiding nest in the conductor. Horizontal conductor according to claim 13 or 16, characterized in that the housing (THRN) is a spiral housing comprising an inner thread (THR1).