Glazing panel system and guide for supporting a glazing panel

专利摘要:
Glass panel system comprising: a lower guide (16) and an upper guide (14), and a first glass panel (10) coupled to the lower guide (16) and the upper guide (14) so that the first glass panel (10) can is moved along the lower guide (16) and the upper guide (14) in their longitudinal direction (X1, X2); a guide (64) located adjacent to the first glass panel (10); and at least one locking means (60) attached to the first glass panel (10) and adapted to be coupled to the guide (64) along which the locking means (60) is movable when the first glass panel (10) is in motion. The latch (60) - when coupled to the guide (64) - supports the first glass panel (10) and attempts to prevent a movement of the first glass panel (10) caused by its bending, in either a lateral direction (Y1, Y2) or in two opposite side directions (Y1, Y2) relative to the guide (64). According to one example, the guide (64) is attached to a railing (62) or structures of the railing, or the guide (64) is included in the railing. Two or more glass panels (10) are placed after or next to each other.
公开号:FI20175874A1
申请号:FI20175874
申请日:2017-10-04
公开日:2019-04-05
发明作者:Markku Lehtonen
申请人:Lumon Invest Oy；
IPC主号:

专利说明:

GLASS PANEL SYSTEM AND WIRE TO SUPPORT GLASS PANEL
The object of the solution
The solution is a glass panel system.
Background of the proposed solution
Different glass panel systems can be placed in connection with the building, for example 10 on the balcony or terrace of the building. Often it is a tempered glass panel that can be laminated with several layers of glass. A glass panel system typically comprises a plurality of glass panels, preferably arranged one after the other, which when closed form a wall.
A glass panel system typically has an overhead and a down conductor that guide the passage of the glass panel and within or over which is located one or more hinge and / or guide members that engage the glass panel. The hinge and / or guide member controls the passage of the glass panel, or the glass panel is suspended therefrom on the upper guide, or the glass panel is thereby supported on the lower guide which supports the panel. Typically, the glass panel may be movable along the top and bottom wires by means of the aforementioned hinge member or guide members. Movement is typically done manually by pushing.
The overhead and lower conductors, when installed, are usually horizontal and attached, for example, to building structures. The lower duct may be located at or above the floor level. Mostly the glass panel can be opened to the side and closed.
Two or more glass panels that are moved to a position where they can be opened can be opened side by side in a single bundle, creating a free opening for the glass panel system, e.g., for ventilation or passage.
Some known glass panel systems are disclosed in WO2014 / 068178-A1, WO-2017/081364-A1 and EP-3168408-A1.
20175874 prh 04-10- 2017
Wind, gusts of wind, storms, and air currents can often impact and load the glass panel, requiring sufficient resistance of the glass panel to prevent the glass panel from breaking. Improving the durability of the glass panel 5 often results in an increase in the thickness of the glass panel, which can be problematic for the manual handling of the glass panel as the weight of the glass panel is also increased.
Brief summary of the solution presented
A glass panel system according to the disclosed solution is set forth in claim 1. Other claims include some examples of the disclosed solution.
The glass panel system of the solution has a lower and an overhead which are substantially horizontal as well as parallel; and a first glass panel disposed vertically between the sub-conductor and the superconductor and coupled to the sub-conductor and the superconductor such that the first glass panel is movable along the sub-conductor and the upper conductor 20 in their longitudinal direction
The glass panel system of the solution further comprises a guide which is disposed adjacent the first glass panel and is substantially horizontal and parallel to the top and bottom conductors; and at least one locking member secured to the first glass panel and adapted to engage a guide along which the locking member is movable as the first glass panel moves. Said locking member, when engaged with the conductor, supports the first glass panel and tends to prevent the deflection of the first glass panel from either one lateral or two opposite lateral directions relative to the conductor.
According to one example, said locking member is affixed to a central portion of the first glass panel, one edge, both edges, one edge region, or regions 35 of both edges.
20175874 prh 04-10- 2017
According to one example, the guide is attached to the handrail or handrail structures, or the guide forms part of the handrail.
According to one example, the glass panel system has first and second glass panels which are arranged one after the other and on the same plane or which are arranged side by side and on different planes.
The disclosed solution has the advantage of preventing movement due to the bending of the glass panel. Thus, wind, gusts of wind, storms and air currents 10 have less impact on and load on the glass panel. The advantage is that, for improved durability, the thickness of the glass panel does not need to be increased or even made thinner than before in the situation where the solution conductor and locking member did not exist.
The solution shown allows the glass panel to be moved and, in some examples, it can also be opened. The solution shown in some examples allows the glass panel to be raised so that the glass panel remains more stable in or on the sub-conductor.
Description of the drawings
The solution shown will be described in more detail below with reference to the accompanying drawings.
Figure 1 is a front view and mounted of a glass panel system in which the solution shown can be applied and is vertical in its operating position as shown.
Figure 2 is a side elevational view of the glass panel system of Figure 1, sectioned at position A-A in Figure 1.
Figure 3 shows in greater detail a detail of Figure 2.
Figure 4 is a top view of the glass panel system of Figure 1, sectioned at position B-B in Figure 1.
20175874 prh 04-10- 2017
Figure 5 shows in greater detail a detail of Figure 4.
Figure 6 is a top view of an alternative embodiment of the glass panel system of Figure 1.
Detailed description of the solution
In the drawings, the same or similar parts are designated by the same reference numeral.
Figure 1 shows an example of a glass panel system in which the solution shown can be applied. In Figure 1, the glass panel system in question is mounted and in its operating position, whereby it is substantially vertical. The glass panel system of the 15 solutions presented in the following description is considered in-place and in the operating position.
The glass panel system according to the embodiment may have one or more glass panels 10, a lower conductor 16, an upper conductor 14. Each glass panel 10 is connected to the lower and upper conductors 14, 16 and movable along the lower and upper conductors 14, 16. The glass panel 10 moves in two opposite directions X1, X2 in the longitudinal direction of the lower rail 14, 16.
This longitudinal direction is preferably horizontal. More preferably, 25 is further such that the lower and upper guides 14, 16 do not allow the glass panel 10 to move in two opposite lateral directions Y1, Y2, i.e., lower and upper guides 14, 16 when viewed horizontally.
In one embodiment of the embodiment shown, where there are two or more glass panels 10 as shown in Figure 4, the glass panels 10 are positioned one after the other, parallel to the lower and upper guide 14, 16, i.e., aligned with each other. In another alternative of the embodiment shown, where there are two or more glass panels 10 as shown in Figure 6, the glass panels 10 are disposed in a different plane with each other when parallel to the lower and upper conductor 14, 16. In that second one
In the alternative of 20175874 prh 04-10-2017, the glass panels may be parallel, i.e. at least partially overlapping, when viewed from the side Y1, Y2.
At least one guide member 40, 44 may be attached to the top or top of the glass panel 10 through which the glass panel 10 engages with the overhead conductor 14.
The guide member 44 is spaced from the guide member 40. At least one guide member 42, 46 may be secured to the lower or lower edge of the glass panel 10 through which the glass panel 10 engages with the down conductor 16. The guide member 46 is spaced from the guide member 42.
According to the first example, the top guide 14 supports the glass panel 10 and its weight, for example, through the guide members 40, 44, whereby at least one guide member 42, 46 follows the bottom guide 16.
According to another example and Figures 1 and 6, the lower panel 16 supports the glass panel 10 and its weight, for example through the guide members 42, 46, whereby at least one of the guide members 40, 44 follows the top guide 16.
As shown in Fig. 2, the lower rail 16 supporting the glass panel 10 may have a single rail 16a which alone supports a plurality of successive glass panels 10 and their weight along which the guide member 42, 46 passes. As shown in Figure 6, the sub-conductor 16 supporting the glass panel 10 may have a plurality of parallel, parallel rails 16a, 16b, 16c each carrying a single glass panel 10 and its weight along which guide member 42, 46 passes. In the two examples described above, the guide means 42, 46 may be, for example, a roller or a wheel.
According to one example and Figure 1, the glass panel system may further comprise at least one glass panel 12 which is non-movable along the lower and upper guides 14, 30 16. The glass panel 12 is connected to the lower and upper conductors 14, 16.
The glass panel 12 can be opened sideways (see movement direction C) so as to pivot about the vertical axis of rotation Z1. The axis of rotation Z1 is substantially perpendicular to the longitudinal directions of the lower and upper rails 14, 16. In addition, said multiplication axis Z1 is located in close proximity
20175874 prh 04-10- 2017 12 single edges of the glass panel. According to one example and Figure 1, the glass panel 12 can only be opened to one side (see direction C).
At least one guide member 5 may be attached to the top or top of the glass panel 12 through which the glass panel 12 engages with the overhead conductor 14.
At least one guide member 34 may be attached to the lower portion or bottom edge of the glass panel 12, through which the glass panel 12 engages the lower conductor 16. The guide members 32, 34 permit the glass panel 12 to be opened sideways. The axis of rotation Z1 passes through the guide means 32, 34. The guide members 32, 34 may be locked to the upper conductor 14.
The individual glass panel 10, either alone or in combination with one or more corresponding glass panels 10 and / or glass panel 12, forms a wall, a window or an opening for opening. The glass panel system 15 shown may also include a glass panel corresponding to the glass panel 10 and may be connected to the lower and upper conductors 14, 16 but not movable.
The lower conductor 16 and the upper conductor 14, which are parallel, are spaced 20 apart and are vertically superimposed.
The glass panels 10, 12 are positioned between the lower guide 16 and the upper guide 14 so that the glass panels 10, 12 are vertical. The two opposed vertical edges of the glass panel 10, 12 are vertical and the upper and lower edges of the glass panel 10, 12 are horizontal. The bottom guide 16 may adhere to a suitable surface 25, e.g., a floor, sill or lower edge 52. The bottom guide 16 may be at least partially embedded in this surface, e.g., a floor. The overhead guide 14 may be secured to a suitable surface, e.g., a ceiling, a structure mounted under the ceiling or an upper frame 54. As illustrated in FIG. 1, glass panels 10, 12 are delimited by one or both sides by a suitable surface, e.g. .
According to one example and Figure 1, a locking portion 24 which engages the upper conductor 14 and spaced from the hinge member 32 may be secured to the upper edge of the glass panel 12 to be opened and detached from the upper conductor 14 for opening the glass panel 12. e.g. by means of a wire, chain, wire, rod or the like 28.
20175874 prh 04-10- 2017
According to one example and Figure 1, a handle portion 22 may be attached to the glass panel 12. The handle portion 22 may control the lock portion 24, e.g., by a force exerted by a wire, chain, wire, rod or the like. Moving the handle portion 22 5 opens the lock portion 24. The handle portion 22 is, for example, a pivotable or rotatable handle or knob which is attached to the glass panel 12, e.g.
According to one example and Figure 1, at the bottom 10 of the glass panel 12 may be a locking member 26 which engages the lower conductor 16 and is spaced from the hinge member 34. According to a first alternative, locking member 26 is guided e.g. by handle 22 and wire, chain, wire, rod. or the like 28. According to another example, the handle portion 22 is part of the structure of the lock portion 26.
Further, according to one example and Figures 1 and 4, the glass panel 10 may be opened sideways (see direction of movement C) so as to pivot about the vertical axis of rotation Z2. For opening, the panel 10 can be moved to a predetermined position where, for example, the axis of rotation Z1 and one of the 20 or more axes of rotation Z2 are close to each other. The axis of rotation Z2 is substantially perpendicular to the longitudinal directions of the lower and upper rails 14, 16. Furthermore, said multiplication axis Z2 is located near one of the vertical edges of the glass panel 10. According to one example and Figure 1, the glass panel 10 can only be opened to one side (see direction C).
If necessary, the guide members 40, 42, 44, 46 are arranged to allow the glass panel to be opened sideways. The axis of rotation Z2 passes through the guide means 40, 42.
The guide member 40 and / or the guide member 42 may be arranged to lock into the upper guide 30 14, the lower guide 16, into the corresponding guide member of the adjacent glass panel 10
40, 42 or adjacent glass panel 12 to guide member 32, 34 when the glass panel 10 is opened sideways. Hereby, the aforementioned adjacent glass panel 10 and / or the adjacent glass panel 12 are open.
According to one example and figure 1, at the upper edge of the glass panel 10, 12 there may be attached a strip 18 to which the guide element 32, 40, 44 can be attached, e.g.
20175874 prh 04-10-2017 using bolts or nuts. At the bottom of the glass panel 10, 12 may be attached a strip 20 to which the guide member 34, 42, 46 can be attached, e.g. by means of screws or nuts. The strip 19, 20 forms part of the glass panel 10, 12, e.g., the bottom or the top of the glass panel 10, 12.
An opening 30 may be provided in the top guide 14 to allow the guide member 44 to exit the top guide 14 and to detach from the top guide 14 when opening the glass panel 10 is possible. An orifice 30 may be provided adjacent to the opening 30, which supports a guide member 44 exiting and returning from the upper guide 14. Preferably, the guide member 46 is also allowed to detach or move away from the lower guide 16 when opening the glass panel 10 is possible.
The lower guide 16 may have a support member 48. The supporting member 48 secured in place adjacent the lower guide 16 supports a glazing panel 10 which is moved to a predetermined position for opening the glazing panel 10.
The support member 48 is then spaced from the guide member 42 of the panel 10 that opens.
The opened glass panels 10 are placed side by side and in a bundle. The bundle 20 in question is typically located on one side of a wall or aperture formed by glass panels 10. The opened glass panel 12 is positioned alongside the opened glass panel 10. The extension of the lower guide 16 and / or the upper guide 14 may be one or more guides by means of which the glass panels 10 can be moved so that they are placed in parallel and in a bundle. Typically, these are glass panels 10 which are not open to the side and glass panel 12 is missing. With these guides, the glass panels 10 can also be moved away from the aforementioned wall or opening.
1 and 6, the glass panel system may further comprise a guide 64 supporting the glass panel 10 which is substantially horizontal and parallel to the top guide 14 and the bottom guide 16. The conductor 64 is located adjacent to the glass panel 10 and is vertically Z spaced from the top guide 14 and the bottom guide 16 and from the top and bottom of the glass panel 10.
20175874 prh 04-10- 2017
According to one example, the conductor 64 extends vertically Z at least 600 mm, or at least 800 mm, and at most 1500 mm, or at most 1300 mm away from the sub-conductor 16 or from the surface on which the sub-conductor 16 is located either directly or through the lower frame 52. This surface may serve as a base on which a person using the glass panel system rests or rests. According to another example, the guide 64 is located at the height of the center of the glass panel 10. According to a third example, the guide 64 is located at the height of a central portion of the glass panel 10 covering up to one-third or one-fifth of the height of the glass panel 10 when its lower and upper portions each cover at least one-third or two-fifths. height. According to a fourth example, the conductor 64 extends vertically Z at a distance of at least 500 mm or at least 700 mm from the top and bottom edges of the glass panel 10 or from the strip 18, 20.
The conductor 64 is attached at one or both ends to a suitable surface, such as a wall, wall mounted structure or side frame 56, 58. In addition, or alternatively, the conductor 64 may be secured via one or more columns or posts to a suitable surface, e.g. threshold or lower frame 52.
According to one example, the guide 64 at the same time forms a handrail, which may also serve as a handrail, for example the handrail 62 shown in Figures 2 and 6.
As shown in Figures 2 and 6, the above glass panel system may comprise a handrail 62. The handrail 62 may also serve as a handrail. Handrail 62 is fastened either at one or both ends to a suitable surface, such as a wall, wall-mounted structure or side frame 56, 58. In addition, or alternatively, handrail 62 may be attached to one or more handrail pillars or handrail posts to a suitable surface, e.g. threshold or 30 lower frames 52.
2 and 6, the guide 64 is secured to the handrail, for example, so that the dimensioning described above is realized. According to another example, the guide 64 is secured to the structures of the handrail 62, such as 35 on one or more handrail posts or handrail posts, for example, so that the dimensioning described above is realized.
20175874 prh 04-10- 2017
The handrail 62 and / or guide 64 is preferably located on the side of the glass pane 10 where the glass pane 10 cannot turn when opened, i.e. in the lateral direction Y1.
4 and 6, at least one glass pane 10 is provided with a locking member 60 which, when engaged with the guide 64, tends to prevent the glass pane 10 from moving in one or both lateral directions Y1, Y2, i.e. transverse to upper guide 14 and lower guide 10 16. deflection of the glass pane 10 as a result of a load caused by, for example, wind, gusts, storms or air currents.
When engaged with the guide 64, the locking member 60 can move 15 along the guide 64 while the glass pane 10 moves along the upper and lower guides 14, 16. The locking member 60 can move in two opposite directions X1, X2 in the longitudinal direction of the guide 64.
The conductor 64 extends to one or more glass panels 10. The conductor 64 may also extend to the glass panel 12. The length of the guide 64 is arranged such that one or more glass panels 10 can engage with it, for example, by means of a locking member 60.
According to one example and Figure 3, the locking member 60, for example its outermost end 70, has a shape that engages the shape of the guide 64 so that the locking member 60 cannot be detached from the guide 64 when one or both lateral directions Y1, Y2 are viewed. Alternatively or additionally, the locking member 60 is arranged to abut the guide 64 so that the locking member 60 cannot move towards or away from the guide 64 when one or both lateral directions Y1, Y2 are considered. Preferably, at least, the locking member 60 cannot move away from the guide 64 in the lateral direction Y2. The principles shown in this example and in Figure 3 can also be applied to the alternative of Figure 6.
20175874 prh 04-10- 2017
For example, head 70 can slide along guide 64, or end 70 is provided with a roller or wheel which rolls along guide 64 as the glass pane 10 moves along top and bottom guide 14, 16.
For example, the shape in the guide 64 may be a groove, slot or recess where the end 70 sits and enables the engagement described above. According to another example, the shape of the conductor 64 is a structure or flange substantially oriented upwardly or downwardly, with the end 70 positioned so that the engagement described above is possible. The groove, slot, recess, structure and flange described above 10 extend in the longitudinal direction of the guide 64.
According to one example and Figure 3, the head 70 is seated in a groove 66 in the guide 64, where the locking member 60 and its end 70 can enter through the mouth 15 of the groove 66. This groove 66 and the mouth extends in the longitudinal direction of the guide 64.
The head 70 is arranged larger than the mouth opening so that the above-mentioned locking of the shapes is realized in one or both lateral directions Y1, Y2.
According to one example, the head 70 is rotatable and shaped so that in one position it can pass through the mouth of said groove 66 and in another, in an inverted position, it cannot pass through said mouth, whereby the above locking indoors. According to another example, the head 70 is rotatable and shaped such that in one position it is pivoted away from the structure or flange of the guide 64 so that it can pass past that structure or flange, and in another position it is pivoted by that structure or flange. so that the locking of the shapes described above is realized.
For the purpose described above, the head 70 may be secured to the locking member 60 so as to be rotatable in the aforementioned positions. Preferably, the end 70 is also lockable to at least the second position mentioned above. For turning the head 70, the locking member 60 may have, for example, a pivotable or rotatable handle or a knob 35.
20175874 prh 04-10- 2017
A locking member 60 having a rotatable end 70, as described above, may also be attached to the glass panel 12. The locking member 60 may then be part of the handle portion 22 of the glass panel 12.
In the examples of locking member 60 and guide 64 described above, either as an alternative to or laterally supported Y1 and / or Y2, the locking member 60 may be adapted to position against the guide 64 so that the locking member 60 cannot be lifted when viewed in the vertical direction Z. for example, in the example of Figure 3, where, in addition to the abovementioned support, the glass panel 10 can be prevented from falling out of the sub-conductor 16, over the sub-conductor 16 or over one of its rails 16a, 16b, 16c.
To open the glass panel 10, 12 sideways (see movement direction C), the locking member 60 must be disengaged from the guide 64.
For example, the rotation end 70 of the locking member 60, as described above, may be utilized in the above disengagement. According to another example, guide 64 has a point for locking member 60 to move and disengage from guide 64. This point is, for example, in the groove, slot, recess or flange of guide 64 20. This point is also used when the locking member 60 engages the guide 64 when the glass panel 10 is closed. This point is located in the conductor 64 at the position at which the locking member 60 is located when the glass panel 10 is positioned at a predetermined position as described above so that the glass panel 10 can be opened to the side 25.
According to one example and figure 1, the above-described position of the guide 65 has a shape at the mouth of the groove 66, for example an expansion 68, so that the end 70 of the locking member 60 can enter the groove 66. According to another example 30 an expansion, contraction or opening through which the locking member 60 can pass through the guide 64 for engagement and disengagement. This point is, for example, in the groove, slot, recess or flange of the guide 64.
20175874 prh 04-10- 2017
As the closed glass panel 10 is moved along the lower overhead line 14, 16, the locking member 60 moves along the guide 64 at the above point and engages with the guide 64 so that the glass panel 10 described above is supported by the guide 64 to prevent bending of the glass panel 10.
According to one example and Figures 1 and 6, the locking member 60 is secured to the side, one edge or an edge region of the glass panel 10, for example its vertical edge. The locking member 60 may also be located in the central portion of the glass panel 10. In the example of Fig. 1, in which the glass panels 10 are in succession, at least two locking members 60 may be attached to the glass panel 10, for example located at both edges or areas of both edges of the glass panel 10, e.g. In the example of Figure 6, where the glass panels 10 are parallel, the distance of each glass panel 10 to the guide 64 varies, so that the dimensions of the locking member 60 and / or its end 70 may vary.
The locking member 60 may also be provided with a handle 38, as shown in Fig. 1, for engaging the glass panel 10 along the top and bottom guides 14, 16. Preferably, the handle 38 is disposed relative to the guide 64 on the opposite side of the glass panel 10.
According to one example and Figure 5, the locking member 60 has a slot 66 in which the vertical edge of the glass panel 10 can be inserted and secured.
According to one example and Figure 5, the locking member 60 attached to the glass panel 10 is also adapted to rest on another adjacent glass panel 10. In another example, the glass panel 10 has a separate support member mounted on the second adjacent glass panel 10. 10 30 to one side, to one side, or to an edge area, such as its vertical edge.
Said locking member 60 or support member tends to prevent movement of the glass pane 10 in one or both lateral directions Y1, Y2.
According to one example and Figure 6, the glass panel 10 is provided with, in addition to the locking member 60 35, a vertical seal 72 disposed between the two glass panels 10. Said seal 72 is attached to the glass panel 10
20175874 prh 04-10-2017 sideways, on one edge, or on an edge region, such as its vertical edge. The gasket 72 is secured to the glass panel 10 through, for example, a vertical strip which may be adapted to stiffen the glass panel 10. The locking member 60 and the gasket 72 may be disposed at different edges of the glass panel 10 as shown in FIG. The seal 72 may even be arranged to support a second adjacent glass panel 10.
According to one example and figure 5, the locking member 60 of the glass panel 10 has a slot 68 in which the vertical edge of the adjacent glass panel 10 can be inserted e.g.
such that one glass panel 10 is inserted along the top and bottom conductors 14, 16 adjacent to the other glass panel 10.
The examples described above allow the glass panel 10 to rest on the guide 64 via at least one locking member 60. In addition, said glass panel 10 may rest on the guide 64 either through the support member and locking member 60 of the adjacent glass panel 10, or solely through the locking member 60 of the adjacent glass panel 10.
The abutment of the adjacent glass panels 10 as described above with respect to one another makes it possible to attach to each glass panel 10 only one locking member 60 for each conductor 64.
As shown in Figure 1, the glass panel 10 may be provided with a support member 36 through which the glass panel 10 may rest on the glass panel 12 or its handle portion 25 22. The handle portion 22 engages the support member 36, for example, by a movable locking tab. Moving the handle portion 22 releases the handle portion 22 from the support member 36.
Two or more conductors 30 at different heights may be disposed in the glass panel system shown, each of which is executed as in the foregoing conductor 64. Thus, the functions of these conductors may also differ. Thus, each of the glass panels 10 may be provided with two or more locking members 60 at different heights, each of which is executed as described above.
The upper conductor 14 and / or the lower conductor 16, or the bar 18 and / or the bar 20, or the railing 62, or the bar 64 is, according to one example, made of aluminum or aluminum alloy and of continuous or elongated shape. Other materials and metals can also be used.
The guide member 32, 34, or the guide member 40, 42, 44, 46, is preferably a piece made of metal or plastic material and other materials may also be used.
The glass panel 10, 12 is made of tempered glass according to one example. Other glass materials can also be used. The glass panel 10, 12 may be a laminated structure. The glass panel 10, 12 is preferably transparent, but glass panels treated as opaque are also suitable.
The solution presented is not limited to the alternatives or examples set forth in the accompanying drawings, or specifically described in the foregoing description, or to which reference is made therein. The above features can be combined and implemented in various combinations. For example, the principles of FIGS. 1-5 and the examples 20 above are applicable to the example of FIG. 6 and vice versa.
Various embodiments of the disclosed solution will be apparent from the appended claims.

权利要求:
Claims (13)
[1]
Claims:
1. Glass panel system with:
a lower and a superconductor that are substantially horizontal;
5 parallel; and a first glass panel disposed vertically between the sub-conductor and the superconductor and connected to the sub-conductor and the superconductor such that the first glass panel is movable along the sub-conductor and the superconductor;
A conductor disposed adjacent the first glass panel and substantially horizontal and parallel to the top and bottom conductors; and at least one locking member secured to the first glass panel and adapted to engage with the guide, allowing the locking member 15 to move as the first glass panel moves, and which locking member when engaged with the guide supports the first glass panel and in the opposite lateral direction with respect to the conductor.
[2]
A glass panel system according to claim 1, wherein the conductor is located adjacent to the central portion of the glass panel, or at least 500 mm or at least 700 mm vertically from top and bottom of the glass panel, or at least 600 mm or 800 mm vertically and up to 1500
25 mm, or at least 1300 mm, from the sub-conductor or the surface on which the sub-conductor is located.
[3]
A glass panel system according to claim 1 or 2, further comprising:
A second glass panel disposed vertically between the lower and upper conductor and connected to the lower and upper conductor such that the second glass panel is movable along the lower conductor and the upper conductor; and wherein the locking member is also adapted to rest on another glass panel,
35 which is displaced after the first glass panel and which, when the locking member is supported on the second glass panel, tends to prevent the second glass panel
20175874 prh 04-10-2017 movement due to bending of the glass panel, either in one lateral or two opposite lateral directions relative to the conductor.
[4]
The glass panel system of claim 3, wherein
[5]
The first and second glass panels are positioned one after the other and in the same plane.
The glass panel system of claim 1 or 2, further comprising:
a second glass panel placed vertically in the sub - conductor and
10 between the top conductor and connected to the bottom conductor and the top conductor such that the second glass panel is movable along the bottom conductor and the top conductor; and wherein the first and second glass panels are arranged side by side and at different levels; and wherein said locking member is affixed to one edge or region of one of the edges of the first and second glass panels.
[6]
A glass panel system according to any one of claims 1 to 4, wherein a central portion of the first glass panel, one edge, both edges, one edge region, or both edge regions are attached
20 such locking member.
[7]
A glass panel system according to any one of claims 1 to 6, wherein the guide is attached to the handrail or the handrail structures, or the guide forms a part of the handrail.
[8]
A glass panel system according to any one of claims 1 to 7, wherein the locking member comprises an outermost end having a shape adapted to lock into the shape of the guide so that the locking member cannot detach from the guide when viewed from either of said lateral directions or
30 mentioned both lateral directions.
[9]
A glass panel system according to claim 8, wherein the shape of the guide is a groove, slot or recess into which the end of the locking member is capable of engaging.
[10]
A glass panel system according to claim 8, wherein the shape of the guide is a structure or flange substantially upwardly or downwardly, and behind which the end of the locking member is able to position.
5
[11]
A glass panel system according to claim 8, 9 or 10, wherein the guide has a shape through which the locking member can enter the guide for engagement with and engagement with the guide.
[12]
The glass panel system according to any one of claims 1 to 11, wherein the locking member 10, when engaged with the conductor, tends to prevent the first glass panel from rising vertically relative to the down conductor.
[13]
A glass panel system according to any one of claims 1 to 12, further comprising:
a third glass panel disposed vertically between the sub-conductor (16) and the upper conductor and connected to the lower and upper conductor so that the third glass panel can be opened sideways.
A glass panel system according to any one of claims 1 to 14, wherein the first glass panel is openable sideways when the first glass panel is moved to a predetermined position for opening.

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同族专利:

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公开号 | 公开日

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EP3467248A1|2019-04-10|

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FI129241B|2021-10-15|

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US10538914B2|2020-01-21|

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CA3019703A1|2019-04-04|

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US20190100912A1|2019-04-04|

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法律状态:
2021-10-15| FG| Patent granted|Ref document number: 129241 Country of ref document: FI Kind code of ref document: B |

优先权:

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申请号 | 申请日 | 专利标题

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FI20175874A|FI129241B|2017-10-04|2017-10-04|Glazing panel system and guide for supporting a glazing panel|FI20175874A| FI129241B|2017-10-04|2017-10-04|Glazing panel system and guide for supporting a glazing panel|

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EP18397523.4A| EP3467248A1|2017-10-04|2018-08-31|A glass panel arrangement and a guide track for supporting a glass panel|

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US16/125,105| US10538914B2|2017-10-04|2018-09-07|Glass panel arrangement and a guide track for supporting a glass panel|

---

CA3019703A| CA3019703A1|2017-10-04|2018-10-03|A glass panel arrangement and a guide track for supporting a glass panel|