Semi-invisible combination for sliding doors which allows the unhindered passage

Abstract

A semi-invisible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the semi-invisible combination. The interior and exterior floor has co-planarity and uniformity while the invention permits unhindered passage of people and objects, is accessible by people with walking disabilities, has narrow width grooves, has a classy profile design, has high levels of waterproofing for the non-visible parts as well as high waterproofing against normal weather conditions.

Claims

1. A partially visible combination of thermal insulating profiles of a lower part of sliding doors and windows which allows the unhindered passage of people and objects above at least one groove formed in a floor comprising: a) at least one thermal insulating profile forming a frame firmly attached to structural components of a building; b) at least one thermal insulating profile forming a sash (3) which is made from PVC or strengthened Polyamide and which is equipped with at least one U-shaped channel (18) in order to be able to receive at least one heat insulating panel or glazing (19); and c) at least one tubular thermal insulating profile forming a horizontal support (2) and being manufactured from Polyamide or Polyester; wherein, following installation, the sash (3) and a vertically upper portion of the horizontal support are visible above the floor having the at least one groove, at least the horizontal support (2) and the sash (3) slide along the at least one groove (34), (25), the frame (1) and a vertically lower portion of the horizontal support (2) are located vertically below the floor, and the horizontal support (2) and the sash (3) are manufactured separately but are joined together by a connecting profile (4), and the horizontal support (2) has sockets (23) in which rollers (22) are placed.

2. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the thermal insulating profile frame (1) comprises from at least one groove (34).

3. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein a width (C) of a middle part of horizontal support (2) is smaller than a width (E) of a part of the horizontal support (2) which is above and below the floor.

4. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein support profiles (7a) , (7b) from one or both sides, are screwed; or riveted to the frame (1) to achieve alignment, co-planarity, support and extension of the structural components (12a), (12b), (12c), (12d), (12e) and (12f) of interior and exterior of the tangential floor via the support aluminum profiles (8a), (8b), (8c), (8d), (8e) and (8f), placed at the receivers (14a), (14b).

5. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1 wherein a thermal insulating zone (27) is a vertical extension of the insulating panel or glazing (19) and boundaries of the thermal insulating zone (27) are centered with respect to a vertical mid-axis (31).

6. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the horizontal support (2) and the sash (3) are connected via the projections (26b), (15a), (15b) and cavities (26a), (16a), (16b) respectively after pressure is applied longitudinally at -shaped connection points (4a), (4b), (4c) and (4d) of the connecting profile (4).

7. The partial visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the connection between the horizontal support (2) and the sash (3) allows the profiles to slide between them due to contraction and expansion longitudinally on the axis.

8. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the visible part above the floor has a dimension (B) less than 22 mm.

9. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the frame and the horizontal support (2) have channels (17a), (17b), (17c) and (17d), in which waterproofing materials (13a), (13b), (13c), (13d), Q-Ion or gaskets can be placed.

10. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1 wherein the rollers (22) are adjusted by an addition or removal of spacers (9).

11. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage passing of people and objects above the at least one groove formed in the floor according to claim 1, wherein the horizontal support (2) has one wheel (20a) rotating on a vertical axis (21) placed on at least one cavity (32).

12. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the horizontal support (2) have embedded cavities (30) for placement with screws or pins of waterproofing caps at ends of the profile or combination of profiles.

13. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the support profiles (8a), (8b) and (8c) have embedded linear, longitudinal cavities cooperating with projections (10) at edge of the profiles.

14. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein an inclined upper side of the support base (22a) of the rollers (22), cooperate with the horizontal support (2) which also inclines (24) with the same angle at their contact point.

15. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the horizontal support has two mirror inclinations (24), along a length of the profile or profiles.

16. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein ball bearings (22b) have U form grooves at a contact point (22d), cooperating with a cylindrical stainless guide (6a), (6b), (6c) and (6d).

17. The partially visible combination of thermal insulating profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above the at least one groove formed in the floor according to claim 1, wherein the support profiles (8a), (8b), (8 c) of the floor (12a), (12b) and (12c) having angular extension (8d), (8e), (8f) to the groove (25) sidewalls (28a), (28b) and create new aluminum sidewalls (25a).

18. A partially visible combination of thermal insulating profiles of a lower part of sliding doors and windows which allows the unhindered passage of people and objects above at least one groove formed in a floor comprising: a) at least one thermal insulating profile forming a frame firmly attached to structural components of-a building; b) at least one thermal insulating profile forming a sash which is made from PVC or strengthened Polyamide and which is equipped with at least one U-shaped channel in order to be able to receive at least one heat insulating panel or glazing; and c) at least one tubular thermal insulating profile forming a horizontal support and being manufactured from Polyamide or Polyester; wherein, following installation, the sash and a vertically upper portion of the horizontal support are visible above the floor having the at least one groove, at least the horizontal support and the sash slide along the at least one groove, the frame and a vertically lower portion of the horizontal support are located vertically below the floor, the frame supports a pair of cylindrical profiles and a vertically downward facing surface of the horizontal support supports at least a pair of rollers which respectively engage with the pair of cylindrical profiles and facilitate sliding movement of the sash and the horizontal support along the at least one groove relative to the frame, and the horizontal support and the sash are manufactured separately but are joined together by a connecting profile.

19. A partially visible combination of thermal insulating profiles of a lower part of sliding doors and windows which allows the unhindered passage of people and objects above at least one groove formed in a floor comprising: a) at least one thermal insulating profile forming a frame firmly attached to structural components of-a building; b) at least one thermal insulating profile forming a sash which is made from PVC or strengthened Polyamide and which is equipped with at least one U-shaped channel in order to be able to receive at least one heat insulating panel or glazing; and c) at least one tubular thermal insulating profile forming a horizontal support and being manufactured from Polyamide or Polyester; wherein, following installation, the sash and a vertically upper portion of the horizontal support are visible above the floor having the at least one groove, at least the horizontal support and the sash slide along the at least one groove, the frame and a vertically lower portion of the horizontal support are located vertically below the floor, the frame supports a pair of cylindrical profiles and a vertically downward facing surface of the horizontal support supports at least a pair of rollers which respectively engage with the pair of cylindrical profiles and facilitate sliding movement of the sash and the horizontal support along the at least one groove relative to the frame, at least one cavity is formed in the horizontal support and the at least one cavity is filled with an insulating material to improve a coefficient of thermal transmittance of the horizontal support, and the horizontal support and the sash are manufactured separately but are joined together by a connecting profile.

Description

BRIEF

(1) FIG. 1 is a perspective view of the lower horizontal part of the sliding door and window where the following can be seen: the two grooves (25), the “frame” (1) with it's two movement channels (34), the support profiles (8a), (8b), (8c), the “sash” (3) with the “added horizontal support” (2), the glazing (19) as well as the U shaped channels (18).

(2) FIG. 2 is a vertical section showing the combination of thermal insulating profiles of its lower horizontal part.

(3) FIG. 3 is a perspective view that shows the “sash” (3), the “added horizontal support” (2), the glazing (19), the wheels (20a), (20b), (20c) placed in the sockets (32), as well as the rollers (22) placed in their sockets (23).

(4) FIG. 4 shows the thermal insulating zone and how it is placed in accordance to the vertical axis (31) without any deviation from the axis, as it is known that thermal insulation must be in a straight line in order to achieve optimum coefficient of thermal transmittance.

(5) FIG. 5 shows a fixed “sash” (3) cooperating with the thermal insulating profiles of the “added horizontal support” (2) and the “frame” (1), the glazing (19) and the spacer part (9).

(6) FIG. 6 shows the cooperation and the connection between the “sash” (3), the “added horizontal support” (2) and the “” shaped profiles (4c), (4d) which cover the thermal insulating profiles (3) & (2).

(7) FIG. 7 shows the cavity (11a) and the projection (11b)

(8) FIGS. 8, 9 show two perspective views of the sockets where the rollers (22) are being placed as well as the inclination surfaces (24).

(9) FIGS. 10, 11 shows a vertical section and a perspective view respectively, that show the combination of all thermal insulating profiles cooperating with the support profiles (8d), (8e), (8f) which have angular extensions (25a).

DETAILED

(10) The semi-invisible combination of thermal insulation profiles of the lower part of sliding doors and windows which allows the unhindered passage of people and objects above it, as a set, consists from three parts as below:

(11) a) from at least one thermal insulating profile, firmly attached to the structural components of the building, which is called “frame” (1) The “frame” (1) is a thermal insulating profile, having at least one movement groove (34) which is firmly attached to the structural components of the building, is a constructed set of some aluminum profiles (1a), (1b), (1c) and some polyamide profiles (1d), (1e), (1f), (1g) crimped, as indicated by European and global standards. At FIG. 2 a two movement grooves (34) “frame” (1) is crimped as one profile. Moreover at the “frame” (1) there are adjusted as rails, two per movement groove (34), aluminum profiles (5a), (5b), (5c) and (5d) that are firmly attached to the “frame” (1), In addition to the above, the aluminum profiles (5a), (5b), (5c) and (5d) have embedded cylindrical stainless steel profiles (6a), (6b), (6c), (6d), in which the rollers (22) are sliding. At FIG. 5 there can be seen a two movement grooves (34) “frame” (1), one with a fixed “sash” (3) and one movement groove with two rails from cylindrical stainless steel profiles. Spacer parts (9) of parallelepiped shape are adjusted, at the appropriate points of the “frame” (1), in order for the fixed profiles to be placed.

(12) b) from at least one thermal insulating profile, parallel to the floor, made from PVC or from strengthened polyamide, which is called “sash” (3) and it is equipped with the appropriate U shaped channels (18) in order to receive thermal insulating panels or glazing (19). The bottom side of the “sash” (3) has concave sockets (26a) and projections (15b) in order to cooperate with the profile (4a), (4b), (4c) and (4d) and profile (2) respectively. In all figures except FIGS. 7 and 9 the “sash” (3) can be seen as well as its collaboration with the other elements of this invention. The moving sash profiles as well as the fixed, are the same.

(13) c) from at least one tubular thermal insulating profile (2) placed parallel to the floor, made from polyester or polyamide, which incorporate or not fiberglass produced with pultusion or extrusion method or an assembly of thermal insulating or not profiles, is called “added horizontal support” (2). Inside the cavities (33) of the tubular thermal insulating profile (2), materials such as polyurethane, Nanogel etc. can be used for the improvement of the coefficient of thermal transmittance. Alternatively inside these cavities reinforcement profiles can be used to improve the static and dynamic resistance of the profile. The “added horizontal support” (2) is machined (23) and (32), so that the rollers (22) and the wheels (20a), (20b) and (20c) to be placed. Setting of the wheels needs drilling at the “added horizontal support” (2) in order to place their axis (21). At specially shaped cavities (30) of the “added horizontal support” (2) plugs are placed and the vertical elements of the “sash” (3) that surrounds the glazing (19) of the sliding door and window. The 2D and 3D FIGS. 2,3,8,9 and 10 show the machining and the positioning points.

(14) Combination of the above thermal insulating profiles for sliding doors and windows is enclosed at the floor openings, allowing to at least one “sash” (3) and one “added horizontal support” (2) to slide. The visible elements above the floor, have dimension (D) less than 22 mm.

(15) The “added horizontal support” (2) attached to the “sash” (3) are two independent profiles that slide one on the other, contract and expand without the one loading the other caused by material and temperature difference. The wheels (20a), (20b), (20c) that are placed at the “added horizontal support” (2) corrects the curvature of the “sash” (3) and therefore helps to the functionality of movement. The part of the “added horizontal profile” (2) which is placed between the sidewalls (28a) and (28b) is narrower dimension (C) from the rest of the profile dimension (E). The narrow main body dimension (C) of the “added horizontal support” (2) allows the movement grooves (25a) on the floor to have width with (D) dimension less than 16 millimeters. Support profiles (7a), (7b) are screwed or riveted at the “frame” (1). Moreover the floor support profiles (8a), (8b), (8c), (8e), and (8f) are glued to the structural components and are placed at the sockets (14a), (14b). At point number (10) glue should be placed at the grooves.

(16) The support profiles (8a), (8b), (8c) of the floor (12d), (12e), (12f) have angular extension (8d), (8e), (8f) which covers the sidewalls (28a) and (28b) of the grooves (25) and creates new sidewalls (25a) in order to provide uniformity and linear alignment. FIG. 10, 11 show the application of the angular support profiles (8d), (8e) and (8f).