GR1010034B - Flexible glazing frame in under-floor driving rolling systems - under-floor water drainage system - conversion of a semi-visible sliding system into invisible - Google Patents

Abstract

The invention relates to a flexible glazing frame with a lath in an under-floor sliding guide. The invention provides flexibility in the application of different glazing (11). while making easy and possible the replacement of a glass pane in case of breakage or wear as well as for the energy and sound insulation upgrade of the product; additionally, it enables the complete walling of the peripheral casement frame making it invisible, while offering a compact and anti-burglary construction. The main elements of the invention are: the uniform drainage channel (1), the profile (2) for the seating of the sliding frame guide (3), the seating and rolling profile (4) on which the lower part of the glazing frame (5) is seated, the lath (6) which holds the glazing (11) in the glazing frame (5) and makes, at the same time, possible the replacement of the glazing (11) without dismounting of the rest of the construction, and the tubular profiles - cases (7) for the seating of floor materials (12) (wood, marble, tile, etc.) or aluminum profiles (13).

Description

P E R I G R A F H

Flexible glazing frame in underfloor sliding system roller guide with underfloor drainage system and conversion of semi-visible sliding system into invisible

The present invention refers to a flexible glazing frame with a slat in a sub-floor rolling guide of a sliding system, providing flexibility in the application of different glazings (glass panes) and at the same time making it easy and possible to replace the glass pane in case of breakage or wear even for the energy and sound insulation upgrade in product, providing the possibility of completely walling the perimeter frame of the frame making it invisible, while at the same time offering a robust and anti-burglary construction.

The use of sub-floor sliding frame system sliding guides with sub-floor water drainage system and semi-visible or invisible frame frame is now a practice that offers high aesthetics. However, there are many practical difficulties that make them difficult to use and of reduced functionality. To date, the practice applied to corresponding glazing systems without slats in which the glazing is fixed with glue to the profile of the sheet. The main disadvantages of such applications are: A) in case of breakage or damage to the glass panel, the entire frame (glass panel and profile) must be replaced as it is not possible to replace only the glass panel due to the welding that is done and the way the frame is made . B) The glazing gap of the sheet is specific and only one glazing thickness is compatible with it. However, the needs of a project in terms of energy saving, sound insulation, etc. vary and the choice of the glazing required each time implies the use of different profiles (sheets, cases, etc.). In addition, the fastening of the glazing frame to the rolling carrier is in many cases done using clips that are at risk of failure in high wind conditions. Finally, it is impossible to convert the existing semi-visible panels of the frame into invisible ones with some simple intervention.

The present invention, by means of the flexible glazing frame in a sub-floor rolling guide of a sliding system, provides the possibility of sub-floor water drainage without the use of a visible grating and additionally incorporating (boxing) the lower guide of the sliding frame under the floor. The system in question applies to the rolling carrier a shaped slatted glazing frame that provides flexibility in the application of different glazings and at the same time makes it easy and possible to replace the glazing in case of breakage or wear, even for the energy and sound insulation upgrade to the product depending on the requirements or specifications without disassembling the entire structure. In addition, it enables the complete fitting of the perimeter frame of the frame by applying only two additional profiles and making it invisible. Finally, the lateral protrusions of the bearing and rolling profile on which the lower part of the glazing frame rests enhance wind resistance and act as a deterrent to disassembly, providing high anti-burglary protection.

Figure 1 shows a perspective view and cross-section of the underfloor water drainage system and underfloor sliding frame guide, where its individual elements can be distinguished as well as the interconnection between them.

Figure 2 shows a cross-section of the sub-floor water drainage and sub-floor sliding frame guide system, with the variation of the filling of the tubular cases with aluminum profiles.

Figure 3 shows a perspective view and section of the drainage channel and its technical details.

Figure 4 shows in section a detail of the bearing profile of the sliding frame guide.

A perspective view is shown in Figure 5 to show the compatibility of the sliding frame guide with the conventional sliding frame guide.

Figure 6 shows a section and various perspective views (perspective and sectional) detailing the bearing and rolling profile of the glazing frame.

Figure 7 shows a cross-section of the glazing sheet shaped on the inner side to receive the glazing retaining profile - slat and detail thereof.

In Figure 8, the tubular profiles - cases are presented in section.

Figure 9 shows in section the positions of the sheet bearing profile on the guide and on the tubular profiles - cases, where there are formed notches in which sealing materials can be placed (membrane brushes, etc.).

Figure 10 shows a perspective view and a section of how the semi-visible window frame can be made completely invisible

The main elements of the invention are illustrated in Figure 1 and summarized as follows: Single water drainage channel (1), bearing profile (2) of the sliding frame guide (3), with the additional function of safely guiding the water entering the sliding frame guide ( 3) in the water drainage channel (1). Sliding frame guide (3) together with the additional profile (3.1) for placing the stainless steel rolling bars (10). Bearing and rolling profile (4) on which the lower part of the glazing frame (5) rests, while the rolling rollers (4.8) are embedded in the lower part of the bearing and rolling profile (4). Glazing retention profile - slat (6), which holds the glazing (11) in the glazing frame (5) and at the same time makes it possible to replace the glazing (11) in case of wear or damage, even for the energy and sound insulation upgrade to the product depending on the requirements or specifications, without disassembling the rest of the structure. Tubular profiles - cases (7) for the seating of floor materials (12) (wood, marble, tile, etc.) or aluminum profiles (13), which give the appearance of a uniform appearance of the interior and exterior. The particular illustration of Figure 1 is shown with floor material (12) and not aluminum profile (13). Type C aluminum profiles (8), which are anchored on both sides to the sliding frame guide (3) and offer additional support to the tubular profiles - cases (7).

Figure 2 shows a cross-section of the sub-floor water run-off and sub-floor sliding frame guide system, and shows the filling of the tubular profiles - cases (7) with aluminum profiles (13) and not with floor materials (12) as shown in Figure 1.

Figure 3 shows various views from the water runoff channel (1). The underfloor water drainage channel (1) is a single aluminum profile, which is attached to a notch (2.1) of the bearing profile (2), after silicone has previously been applied to the cavities (2.1) and (2.2) of the bearing profile (2), and then it is fixed with a screw (1.1). This method of installation as well as the fact that the drainage channel (1) is a single profile give the advantage of quick installation on the project, while at the same time ensuring the tightness of the construction, since there is no vertical contact of the side walls of (1) and (2). In addition, the subfloor water drainage channel (1) has notches (1.2), where sections of aluminum slats (1.4) are placed, which, acting as struts, keep the geometry of the profile at par, especially in long construction lengths. The upper part (1.3) of the sub-floor drainage channel (1) is the base of the outer floor, creating a 10 mm slot at its end for the uninterrupted drainage of water from the outer floor into the drainage channel (waterfall system).

Figure 4 focuses on the bearing profile (2) of the sliding frame guide (3), which has a sloping design (2.3) that directs the quantities of water entering the sliding frame guide (3) towards the drainage channel. Also, on the upper part of the bearing profile (2) there are protrusions that act as bearing and alignment pockets for the sliding frame guide (3) on the bearing profile (2). In this way, the installation time on the projects is reduced to a minimum and at the same time the straight installation both vertically and horizontally is ensured regardless of the total length of the structure. The bearing profile (2) is thermally broken (thermal break (2.4)) in the same imaginary vertical line as the sliding frame guide (3), creating an insulating zone in the subfloor system of the sliding frame guide.

Figure 5 shows the fact that the sliding frame sub-floor guide (3) is absolutely the same as the perimeter guide of the conventional sliding frame. In this way, the construction of the frame of the frame around the perimeter is done in the conventional way, i.e. by cutting and joining in a mechanical way at an angle of 45°. This gives the advantage of shorter construction time, minimizes the degree of difficulty in construction and gives great strength and better waterproofing to the weak points of the corners of the frame. Aluminum connection angles (3.2) ensure verticality and connect the horizontal to the vertical part of the guides at a right angle (90°).

Figure 6 illustrates the bearing and rolling profile (4) of the glazing frame (5) which has the following characteristics:

• In its upper part there are lateral recesses (4.1) to which the lower part of the glazing frame (5) is applied, which has the corresponding recesses (5.1). The lateral protrusions (4.1) serve on the one hand as guides for the easy placement and alignment of the glazing frame (5), on the other hand, they provide particular static resistance to this assembly, when strong wind pressures are exerted from the external environment as the slope of the lateral protrusions (4.1) is such that it creates loads against the external wind pressure and in this way the assembly "secures" and disassembly is prevented.

• The above assembly of the bearing and rolling profiles (4) and glazing frame (5) is completely stabilized with:

the placement of screws (5.2) at certain intervals of the glazing frame (5).

placing the plug (4.9) at the two ends of the frame, which is fixed with a screw at point (4.2) in the hole formed by the bearing and rolling profile (4) and glazing frame (5). At the same time, the plug (4.9) due to its configuration, stabilizes the joint and does not allow the independent displacement of the glazing frame (5) in the rolling direction from the bearing and rolling profile (4).

• The section (4.3) of the bearing and rolling profile (4) that joins the floor to the sub-floor area is solid - without tubular parts - giving greater static resistance to compressive stresses and at the same time maintaining the smallest possible cross-section, resulting in the elongated rolling slot of the bearing and rolling profile (4) to be as small as possible, below 12 mm.

• In the notch (4.4) a plug (4.6) is fixed with an integrated detail for placing a determining material (brush) (4.7) or other material, e.g. some spongy piece, which during the rolling of the bearing and roller (4) cleans the stainless steel guide (10) from dust and other portable materials that would prevent smooth rolling and cause damage to the stainless steel guide (10) and the rolling rollers (4.8).

• The lower part of the bearing and rolling profile (4) has two closed chambers, which are locally machined on their lower side, creating recesses where the rolling rollers (4.8) are placed. At the same time, the outer side of the chambers has a projection (4.5) which functions as a water dropper. In this way, the rolling rollers (4.8), which are an essential part for rolling the frame, are completely protected from water and portable materials that would accumulate and damage their function and their durability over time.

Figure 7 shows a cross-section of the glazing frame (5) shaped on the inner side to receive the glazing retaining profile - slat (6). The existence of the glazing retaining profile - slat (6) in the glazing frame (5) offers a series of essential features:

The replacement of the glass panel in case of wear or breakage, even for the energy and sound insulation upgrade to the product depending on the requirements or specifications becomes a simple process, as by removing only the glazing retaining profile - slat (6), there is direct access to the glazing ( 11), without the need to replace other parts of the construction (eg glazing frame (5)).

• It is possible to place the glazing (11) on the project.

• Increased flexibility is provided as it is possible to place different thicknesses of glazing (11) in the same glazing frame (5), thus covering the special requirements for glass panes of the constructions. The detail at the bottom right of Figure 7 shows indicatively the solution for a thinner glazing thickness (11), using the glazing retaining profile - slat (6).

• It is possible to install a hidden - not visible - screw (5.2) connecting the glazing frame (5) with the bearing and rolling profile (4) to increase the sturdiness of the construction.

Figure 8 emphasizes the tubular profiles - cases (7) which have the following characteristics:

• Lateral upper sides (7.3) which serve as guides for the placement of the various floor materials (12) or aluminum profiles (13) and thus do not require their gluing and alignment in the construction. At the same time, however, the height of the lateral sides (7.3) is lower than the upper height of the floor, with the result that their edges are not visible on the floor and thus the final aesthetic result is not altered (only one material is visible).

• The central tubular profile - holder (7) is fixed to the insulating rod of the sliding frame guide (3) and is completely filled with insulating material. The position of the chamber of the central tubular profile - case (7) which is filled with insulating material is in the same imaginary line as the thermal break (3.3) of the sliding frame guide (3) and the thermal break (2.4) of the bearing profile (2) and thus an insulating zone is created throughout the subfloor system of the sliding frame guide.

• C-type cross-sections (8) are fixed on either side (left and right) of the sliding frame guide (3) and offer additional support surface to the lateral tubular profile-cases (7).

• The fixation of the tubular profile-cases (7) on the sliding frame guide (3) is done for reasons of strength with screws, while the configuration (7.1) of the lower part "forces" the profiles to be placed in the intended position and not obstruct the scrolling.

In the bearing and rolling profile (4) in the guide of the sliding frame (3) and in the tubular profiles - cases (7) there are formed slots in which sealing materials (membrane brushes etc.) can be placed, as shown in the section of Figure 9. Such sealing materials are placed in corresponding notches at the points: (a) of the tubular profiles - cases (7) at points (7.2), (b) of the sliding frame guide (3) at points (3.1) and (c) of the bearing and rolling profile (4) in points (4.6). In particular, points (7.2) and (3.1) are located in such a position as to prevent the direction of water and other transported elements towards the rolling rollers (4.8) and to be pushed away from them, through the surface (4.7) of the bearing profile and scroll (4).

Figure 10 shows how the semi-visible window frame can be made completely invisible by simply applying just two additional profiles, as follows:

· By adding additional profiles (9.1) and (9.2) to the profile of the case, which is the same as that of the sliding frame guide (3), the glazing frame (5) can be fully walled. So the perimeter aspect of the frame which was visible, now becomes invisible.

• With the use of the profile (9.1) and the construction of a recess in the masonry (9.3), the disappearance of even the shutter (9.4) from the user's field of view is achieved.

In this way, maximum flexibility is provided, as the same system can have a semi-visible or completely invisible appearance around the perimeter. The application of the additional profiles can also be done in an already installed frame with only minor interventions in the masonry (gypsum board).

Claims (4)

A X I O S E I S 1. "Flexible glazing frame in sub-floor sliding system roller guide with sub-floor drainage system and conversion of semi-visible sliding system to invisible" is characterized in that the glazing frame (5) has a configuration on its inner side so that the glazing retaining profile is applied - slat (6) which, by removing and reinstalling it, carries out: (a) the installation and replacement of the glazing (11), (b) the installation of the hidden - not visible - screw (5.2) connecting the glazing frame (5) to the bearing and rolling profiles (4), (c) the installation of different thicknesses of glazing (11) and (d) the installation of glazing (11) on the project. 2. The "Flexible glazing frame in underfloor sliding system guide with underfloor water drainage system and conversion of semi-visible sliding system into invisible" according to Claim 1 is characterized by the fact that for the anti-burglary protection and resistance to wind pressure in the upper part of the bearing and rolling profile (4) of the glazing frame (5) there are lateral protrusions (4.1) to which the lower part of the glazing frame (5) is applied which carries the corresponding recesses (5.1); the assembly of the bearing and rolling profiles (4) ) and glazing frame (5) is fully stabilized and reinforced by placing screws (5.2) at certain intervals of the glazing frame (5) and placing a plug (4.9) at the two ends of the frame, which is fixed with a screw at point (4.2) in the hole formed by the bearing and rolling profile (4) and glazing frame (5) - in parallel, the plug (4.9) stabilizes the joint and does not allow the independent displacement of the glazing frame (5) from the bearing and rolling profile (4) in the rolling direction. 3. The "Flexible glazing frame in underfloor sliding system guide with underfloor water drainage system and conversion of semi-visible sliding system into invisible", according to Claim 1, is characterized in that the semi-visible frame frame can be converted into completely invisible by adding additional profiles (9.1) and (9.2) to the frame profile that is the same as that of the sliding frame guide (3), in order to mount the glazing frame (5). 4. The "Flexible glazing frame s system with sub-floor system retractable system in invisible", according to that with the use of the profile (9.1) and the disappearance of the shutter is achieved (9.4 with sub-floor sliding water flow guide and conversion of semi-visible a with Claim 1 and 3, characterized by the construction of recess in the masonry (9.3) ) from the field of view of the user. �