EP2792835B1 - Sliding door or window assembly with a frame part and door or window wings that can be slid within the frame - Google Patents

Description

The invention relates to a sliding door or window arrangement with the features specified in the preamble of claim 1.

As is known, such sliding door or window arrangements - for the sake of simplicity, only sliding door arrangements will be discussed below - have a building-solid frame part with horizontal floor and ceiling side and two vertical, lateral frame legs. In this frame part at least one, usually two or more door or window sash between an open and a closed position are displaced. In the open position, the wings are slidable in a floor and ceiling side rail arranged and usually swung out at one end of the track from the door or window opening. Thus, the wings of the sliding door assembly can be folded to save space to the side and the door opening are largely free.

The wings themselves each have a disc element with its edges comprehensive frame profiles, which have suitable functional elements for holding the disc elements and for the guidance of the wings within the sliding door assembly.

A fundamental problem with door and window arrangements is the sealing of the gaps between the wings and the frame part against drafts. This is a particular problem with sliding door systems, as here - unlike a window sash to be pressed tightly into a window frame - due to the mobility of the individual wings larger gap and tolerance dimensions between the individual components are present.

From the US 2009/151259 A1 respectively. US 2008/060276 A1 is known a window assembly comprising a building-fixed frame part with horizontal, floor and ceiling side and two vertical, lateral Zargenschenkeln and at least one displaceable between an open and a closed position in the frame part door or window sash, wherein the wing each having a disc element having the edges of the disc elements comprehensive frame profile. In this case, a pivotable sealing lip arrangement is provided along at least one of the Zargenschenkel which is pivotally mounted about a parallel to the longitudinal direction of the corresponding Zargenschenkels pivot axis in Zargenschenkel and at least in the closed position of the wing from a pivoted inactive position in one of the adjacent frame profile the wing adjacent sealing position can be swung out.

The DE 20 2012 011 998 U1 discloses in this context a sliding door arrangement in which in at least one of the vertical lateral Zargenschenkel a deliverable in the closed position of the wings against the adjacent frame profile of the wing sealing bar is provided with a running over the vertical length of the frame profile sealing lip arrangement. The feed movement is a pushing movement transversely to the longitudinal direction of the sealing bar, for which a toggle-type drive kinematics is used. Thus, the sealing bar is adjustably mounted between a retracted in the Zargenschenkel passive position and delivered to the frame profile of the wing active sealing position. The leadership of the long sealing bar in its feed movement transverse to its longitudinal direction is kinematically relatively complex and prone. The aforementioned utility model also shows a sealing lip arrangement in the region of the horizontal Zargenschenkel, wherein a running against the adjacent frame profile of the window or door leaf sealing lip arrangement is provided on transverse to itself sliding sealing webs. The drive and the displaceable mounting of this sealing webs is relatively expensive.

Similar sealing mechanisms with transversely to their longitudinal direction via a gap undeliverable sealing arrangements are known from US 2007/0234657 A1 and US 2,766,860 A known.

The DE 33 46 735 A1 discloses in sealed window assemblies details, such as a hinged floor or ceiling sealing lip assembly of two sliding door sealing flaps, housed in pairs in a frame and pivotable in opposite directions from an inwardly pivoted inactive position outwardly into a sealing position against the frame profile are. The two sealing lip arrangements run below the longitudinal inner and outer edges of the frame profile.

The invention has for its object to improve a sliding door or window arrangement of the generic type with respect to their sealing lip arrangement so that a structurally simple, but effective sealing of the initially described column between the door or window sash and the respective Zargenschenkeln in constructive advantageous operation of this Sealing lip arrangement is made possible.

This object is achieved by the features specified in the characterizing part of claim 1, which provides a drive kinematics according to the invention for each sealing lip arrangement, which is driven by means of an actuating handle. This simplifies the manual operation of the sealing lips for pivoting from the inactive to the sealing position. Particularly preferred is a coupling of the drive kinematics of the sealing lip arrangements with a closure rotary handle of the sliding door or window arrangement, so that no separate operation of the sealing lip arrangements is necessary. Rather, this is automatically actuated by locking the sliding door or window assembly in its closed position.

A structurally reliable, yet simple design of the drive kinematics further provides according to the invention a sliding crank assembly with a push rod member and a crank member, is implemented by a derived from the operating handle linear drive movement of a drive slide in the pivotal movement of the at least one sealing lip assembly. The drive slide can be coupled, for example, with the rotary handle for locking the door or window assembly.

The sealing concept used differs essentially from a part of the described prior art in that no translational movement of the entire sealing lip arrangement must take place transversely to itself for the transfer of the seal from the inactive to the sealing position. Rather, a simple pivoting movement of the sealing lip arrangement around its parallel to the Zargenlängsrichtung pivot axis sufficient, which can go storage and drive technology with significantly less effort vonstatten.

The sealing lip arrangement preferably has a pivotably mounted shaft rod and an attached, radially projecting sealing lip. With this configuration, the sealing lip arrangement is optimally adapted to the pivoting function. About the shaft rod, the pivotal movement can be reliably transmitted to the sealing lip over its entire length.

A further preferred embodiment provides for the bearing of the shaft rod in a chamber-like bearing profile, which is inserted in the respective Zargenschenkel. This bearing profile can be optimally adapted to the material of the shaft rod in its mechanical properties, such as the friction coefficient, so that a smooth pivoting of the shaft rod and thus the sealing lip arrangement is ensured.

The sealing lip arrangement according to the invention is particularly suitable for installation in the floor or ceiling side horizontal Zargenschenkel the sliding door or window assembly.

For a perfecting of the sealing effect of the sealing lip arrangement, a pair of parallel adjacent sealing lip arrangements is preferably provided in the respective Zargenschenkel, which are preferably in opposite directions from the inwardly pivoted inward position outwardly in the sealing position in contact with the frame profile pivot. In the pivoted inactive position, the sealing lip is laid flat, so that in the open door or window position, the sealing lip does not interfere with the frame leg. This results in a flat image of the door or window opening facing side of the Zargenschenkels. The sealing lip also covers the bearing of the associated shaft rod in the pivoted-in inactive position, so that contamination of the bearing area of the sealing lip arrangement is effectively prevented, in particular in the case of a lower horizontal frame leg.

According to a further preferred embodiment, the two sealing lip arrangements extend within a Zargenschenkels below the longitudinal inner and outer edges of the associated frame profile of the respective door or window sash. In the pivoted-sealing position of the sealing lip assemblies whose sealing lips are so far maximum outside on the inner and outer edges of the frame profile, so that the entire gap region between the frame profile and Zargenschenkel is sealed. For a maximum insulation and protection effect is achieved, for example, from contamination. In the above-mentioned paired sealing lip arrangements in a frame leg, a preferred embodiment provides that one of the two sealing lip arrangements directly over that of the push rod element acted upon crank element and the other is actuated via a lever arm which is pivotally coupled to the crank member via a gear coupling. Thus, at the same time the opposite swinging and Einschwenkbewegung the two sealing lips is achieved by the structural design without further action.

A further preferred embodiment of the invention provides a reliable rotationally fixed coupling between the shaft rod of the sealing lip assemblies with the crank member or the lever arm in such a way that a driver on the crank member or lever arm rotatably engages in a longitudinal channel in the shaft rod. For example, the driver may be formed as a flat square bar, which is inserted in a corresponding square-shaped longitudinal channel in the torsion bar.

A development of the invention provides that the push rod element is divided into two coupled via a coupling rocker push rods, of which the first with the drive slide and the coupling rocker and the second with the coupling rocker and the crank member of the crank assembly are hinged. This makes it possible to constructively set by appropriate articulation points of the two push rods on the coupling rocker a certain ratio between the linear movement of the drive slide and pivotal movement of the crank member. The structural degrees of freedom in particular for the fitting of all components in the usually confined spaces in the Zargenschenkeln of door or window assemblies are thus increased in an advantageous manner.

Due to the design of the coupling rocker as a two-armed lever, it is particularly easy to drive, the desired direction of rotation of the respective Set sealing lip arrangement as a function of the linear movement of the drive slide. Depending on whether the two hingedly connected push rods engage the same and the opposite lever arms, one or the other sense of rotation is generated in a linear movement of the drive slide.

The above-mentioned gear ratios between the linear movement of the drive slide and the pivoting movement of the crank element of the slider crank assembly are optimized according to a preferred embodiment, when arranged between coupling rocker and crank push rod with a - preferably significantly shorter - lever arm length is articulated to the coupling rocker, as between the drive slide and Coupling rocker arranged first push rod. For a larger thrust movement of the first push rod is converted into a smaller pushing movement of the second push rod, which is sufficient, however, to pivot the crank member by the desired angular amount for the pivoting of the sealing lip assembly.

A further preferred embodiment provides the pivotable mounting of the coupling rocker, the crank member and the lever arm of the push rod assembly on a common bearing plate. In this case, the second push rod between the coupling rocker and the crank element can also be integrated into this unit rationally.

By the mentioned assembly of bearing plate, coupling rocker, crank member, lever arm and second push rod rational pre-assembly of this assembly outside the door or window assembly is possible. The installation of the drive kinematics is then facilitated, because only the bearing plate with the pre-assembled components to their destination must be mounted within the corresponding Zargenschenkels.

Fig. 1

eine Ansicht einer Schiebetürenanlage mit vier Flügeln im geschlossenen Zustand,

Fig. 2

eine Ansicht der Schiebetürenanlage gemäß Fig. 1 im geöffneten Zustand,

Fig. 3

eine ausschnittsweise perspektivische Darstellung eines unteren, horizontalen Zargenschenkels mit einem Rahmenprofil des Flügels in Inaktiv- bzw. Dicht-Stellung,

Fig. 4

einen Vertikalschnitt quer zur Profillängsrichtung der Anordnung gemäß Fig. 3 entlang der Schnittlinie IV-IV nach Fig. 1,

Fig. 5

eine perspektivische Detailansicht eines Teils der Antriebskinematik für die Dichtlippenanordnungen gemäß Fig. 3 und 4,

Fig. 6

eine Ansicht der Antriebskinematik gemäß Pfeilrichtung VI nach Fig. 5,

Fig. 7

einen Vertikalschnitt durch einen vertikalen Zargenschenkel quer zur Hauptebene der Schiebetürenanordnung,

Fig. 8

einen Schnitt durch diesen vertikalen Zargenschenkel entlang der Schnittlinie VIII-VIII nach Fig. 7,

Fig. 9

eine Schnittdarstellung analog Fig. 7 in einer von dieser Zeichnung abweichenden Stellung der Antriebskinematik, und

Fig. 10

eine vergrößerte, ausschnittsweise Schnittdarstellung der Einzelheit X gemäß Fig. 9.

Further features, details and advantages of the invention will become apparent from the following description of an embodiment with reference to the accompanying drawings. Show it:

Fig. 1

a view of a sliding door system with four wings in the closed state,

Fig. 2

a view of the sliding door system according to Fig. 1 in the open state,

Fig. 3

a fragmentary perspective view of a lower, horizontal Zargenschenkels with a frame profile of the wing in inactive or sealing position,

Fig. 4

a vertical section transverse to the profile longitudinal direction of the arrangement according to Fig. 3 along the section line IV-IV after Fig. 1 .

Fig. 5

a detailed perspective view of a portion of the drive kinematics for the sealing lip assemblies according to Fig. 3 and 4 .

Fig. 6

a view of the drive kinematics according to arrow VI after Fig. 5 .

Fig. 7

a vertical section through a vertical Zargenschenkel transverse to the main plane of the sliding door assembly,

Fig. 8

a section through this vertical Zargenschenkel along the section line VIII-VIII Fig. 7 .

Fig. 9

a sectional view analog Fig. 7 in a different from this drawing position of the drive kinematics, and

Fig. 10

an enlarged, fragmentary sectional view of the detail X according to Fig. 9 ,

How out Fig. 1 becomes clear, a sliding door assembly comprises a building-fixed frame part 1, which has a horizontal bottom side frame leg 2, a horizontal cover side frame leg 3 and two vertical side frame legs 4, 5. Between the floor and ceiling side Zargenschenkeln 2, 3 are in corresponding rails door 6.1 to 6.4 slidable in the sliding direction S and - as from Fig. 2 emerges - at one end of the horizontal Zargenschenkel 2, 3 by a corresponding known Ausklink construction to the side in the stacked configuration swung out. Thus, the entire door opening is essentially free throughout.

Each of the wings 6.1 to 6.4 has a disc element 7, which consists of a triple disc arrangement (see Fig. 3 ) and the edge 8 is surrounded by a peripheral frame profile 9.

How out Fig. 3 and 4 becomes clear, the frame profile 9 may be approximately H-shaped in cross-section to the profile longitudinal direction, the edge 8 of the disc member 7 is seated between two legs, whereas the other two legs facing the bottom side leg 2 and so that each forms a contact edge 10 for the below to be discussed sealing lip assemblies 11.1, 11.2.

These sealing lip arrangements 11.1, 11.2 each extend along the bottom side frame leg 2 shown on both sides of the longitudinal edges on its upper side. They are pivotally mounted about a parallel to the longitudinal direction L extending pivot axis SW in Zargenschenkel 2. For this purpose, each sealing lip arrangement 11.1, 11.2 is formed from a shaft rod 12 and an attached radially projecting sealing lip 13. The latter is used with the aid of a cross-sectionally T-shaped bar 14 at its thickened foot 15 in a groove-like undercut 16 in the shaft rod 12. With increasing radial distance from the shaft rod 12, the sealing lip 13 increasingly tapers, whereby it has the typical properties of a sealing lip in conjunction with their production of a flexible, rubber-like material.

The shaft rod 12 itself is provided in its interior with a rectangular cross-sectionally rectangular longitudinal channel 17, whose function will be explained in more detail below.

The two shaft rods 12 of the sealing lip assemblies 11.1, 11.2 are rotatably mounted in a latched in the Zargenschenkel 2, chamber-like bearing profile 18, which provides with corresponding guide webs 19, 20, 21 for a clean pivotal mounting of the shaft rod 12. Towards the frame profile 9, the bearing profile 18 has a slot-like opening 22 whose width limits the pivoting angle of the sealing lip arrangements 11.1, 11.2.

In the Fig. 3 and 4 In the case of the one sealing lip arrangement 11.1, the tilted inactive position is shown, in which the sealing lip 13 rests against the obliquely recessed bearing surface 23 on the inside of the opening 22 of the bearing profile 18. In this position, the distance gap to the frame section 9 is open, the corresponding door 6.1 to 6.4 is thus freely movable.

At the other, in Fig. 3 and 4 11, the swung-out sealing position is shown, in which the sealing lip 13 bears against the corresponding abutment edge 10 of the frame profile 9 of one of the door wings 6.1 to 6.4 and thus seals the gap between the frame profile 9 and the frame leg 2.

It should be emphasized that the in Fig. 3 and 4 shown configuration with different positions of the two sealing lip assemblies 11.1, 11.2 is not present in practice. Both sealing lip arrangements 11.1, 11.2 are positioned either in the inactive position shown on the left or together in the sealing position shown on the right. Due to the position of the two sealing lip assemblies 11.1, 11.2 below the longitudinal, inner and outer contact edge 10 is in the sealing position, the gap between the frame profile 9 and Zargenschenkel 2 on its full width and over the entire length of the frame or the wings 6.1 to 6.4 locked.

The pivoting movement of the two sealing lip assemblies 11.1, 11.2 takes place synchronously and in opposite directions, by the transition in the transition between the inactive position in the sealing position in Fig. 3 and 4 On the left side shown sealing lip assembly 11.1 counterclockwise, the sealing lip assembly shown on the right 11.2 are pivoted clockwise.

When pivoting back the two sealing lip assemblies 11.1, 11.2 they are pivoted back accordingly in the reverse direction of rotation.

The pivotal movement of the two sealing lip assemblies 11.1, 11.2 is generated by a drive kinematics, which is provided as a whole by the reference numeral 24. This drive kinematics 24 is of the in FIGS. 7 and 8 shown operating handle 25, at the same time for the locking of the sliding door assembly in the in Fig. 1 shown closed position and the pressing of sealing bars not shown in the drawings between the vertical frame leg 4 and the vertical frame profile 9 of the door 6.4 provides. The rotary movement of the actuating handle 25 is transmitted via a short crank 26 to a linearly displaceable in the vertical Zargenschenkel 4 drive slide 27 which extends to just before the lower and upper end of the vertical Zargenschenkels 4. There is provided in each case as a whole by the reference numeral 28u or 28o designated lower and upper slide crank assembly, as shown in the Fig. 5, 6 and 10 is shown in detail and enlarged. These thrust crank assemblies will be explained in more detail below using the example of the lower thrust crank assembly 28u. Thus, a designated as a whole with 29 push rod element is provided, which is divided into a first push rod 30 and a second push rod 31. For coupling these two push rods 30, 31, a coupling rocker 32 is provided. The first push rod 30 is hinged to the lower end of the drive slide 27 and the one lever arm 33 of the two-armed coupling rocker 32.

The second push rod 31 is attached to the second lever arm 34 of the coupling rocker 32, wherein the distance from the pivot bearing 35 is chosen to be much smaller than the distance of the first push rod 30. Thus, a clear Reduction of the thrust movement of the first push rod 30 caused.

The second push rod 31 is coupled with its end facing away from the coupling rocker 32 with the crank member 36 of the crank assembly 28u, which is designed roughly sector-shaped. At its peripheral arc, the crank member 36 is provided with a row of teeth 37 which engages with a corresponding row of teeth 38 on the Einarmhebel 39 corresponding to the crank member 36 and thus forms a gear coupling 40. Crank member 36 and Einarmhebel 39 are synchronously, opposite to each other pivoted.

The coupling rocker 32, the crank member 36 and the Einarmhebel 39 are pivotally mounted together with their pivot bearings 35, 42 and 43 on a roughly triangular in plan view bearing plate 44. The latter is installed in the overlapping area at the lower end between the vertical frame leg 4 and the bottom side frame leg 2 such that the pivot bearings 42, 43 are aligned with the pivot axis SW of the two sealing lip arrangements 11.1, 11.2. Crank member 36 and Einarmhebel 39 carry in their pivot bearings 42, 43 in the direction of the pivot axis SW projecting driver 45.1, 45.2, which is rectangular in cross-section square bars. The outer cross section substantially corresponds to the inner cross section of the longitudinal channels 17 in the shaft rods 12. The drivers 45.1, 45.2 are inserted into these longitudinal channels 17, whereby the shaft rods 12 of the sealing lip assemblies 11.1, 11.2 are rotatably coupled to the crank member 36 and the Einarmhebel 39.

In the following, the mode of operation of the two sealing lip arrangements 11.1, 11.2 will now be explained in summary. When the sliding door arrangement is open, both sealing lip arrangements 11.1, 11.2 in the in Fig. 3 and 4 pivoted inward position shown on the left in the sealing lip assembly 11.1, ie folded down. After sliding all the leaves 6.1 to 6.4 in its closed position, the sliding door system can be locked by turning the operating handle 25. This rotational movement is transmitted via the crank mechanism consists of crank 26.1 and the push rod 26.2 on the displaceably mounted in the longitudinal direction of the vertical Zargenschenkels 4 drive slide 27 so that it from the in Fig. 9 and 10 shown, shifted upward position in the FIGS. 7 and 8 shown, shifted down position is transferred. Through the lower crank assembly 28u, the push rod 30 is thereby pushed down and the coupling rocker 32 is pivoted counterclockwise. As a result, the second push rod 31, which is articulated relative to the push rod 30 on the other side of the pivot bearing 35 of the coupling rocker 32, pushed upwards. Thereby, the crank member 36 is pivoted counterclockwise by an angle of for example 60 ° in the clockwise direction and over the gear coupling 40 of the Einarmhebel 39. The rotational movement of crank member 36 and Einarmhebel 39 is transmitted via the driver 45.1, 45.2 on the two sealing lip assemblies 11.1, 11.2, so that they are folded up in the sealing position, as in Fig. 3 and 4 can be seen in the illustrated on the right sealing lip assembly 11.2. The two sealing lips 13 then abut against the abutment edges 10 of the frame profile 9 of the door 6.1 to 6.4.

To the linear movement of the drive slide 27 upon actuation of the handle 25 equally on a in the cover-side Zargenschenkel. 3 arranged pairing of sealing lip assemblies (not shown) to transmit, there is a corresponding drive kinematics 24 'is provided, which corresponds in structure to the drive kinematics 24 below. The only difference is the fact that the two push rods 30 ', 31' on the same lever arm 33 'of the coupling rocker 32' are hinged, so that by the movement of the drive slide 27 in a direction in the sealing lip assemblies 11.1, 11.2 below and above the necessary Aufschwenkbewegung can be generated up or down.

A coupling of the two shaft rods 12 by a drive kinematics 24 corresponding arrangement with a crank member 36 and a toothed Einarmhebel 39 to a bearing plate 44 are provided at the other vertical Zargenschenkel 5 to support the synchronization of the two shaft rods 12. This is particularly important in the case of the above-lying sealing lip arrangement, in which the shaft rod 12 in the region of the opening 49 for the so-called wing exit for transferring the door 6.1 - 6.4 from the in Fig. 1 in the in Fig. 2 shown position is interrupted.

How out Fig. 8 Furthermore, it is clear that the drive slide 27 is provided in the region of the vertical Zargenschenkels 4 with a pair of toggle lever assembly 48, where together a (not shown) vertical sealing bar according to the aforementioned utility model DE 20 2012 011 998 U1 is articulated. By the rotation of the actuating handle 25 when closing the door of this sealing bar is delivered accordingly against the vertical frame profile 9 of the door 6.1 and pressed it.

Finally, it should be noted that the two drivers 45.1, 45.2 at its free end a longitudinally loaded and displaceable with a helical compression spring 46 displaceable length compensation member 47, with which the driver 45.1, 45.2 engage in corresponding square recesses in the shaft rods 12. Thus, the driver 45.1, 45.2 respectively in the direction of arrow VI according to Fig. 5 spring-loaded and pressed in the direction of the crank member 36 and the Einarmhebels 39. Thus, the engagement of at the T-shaped ends 50 of the driver 45.1, 45.2 arranged projections (not shown) in corresponding receptacles 51 of the crank member 36 and the Einarmhebels 39 -siehe Fig. 6 and 10 - For the rotational drive of the shaft rod 12 and a total of the mounting position of the driver 45.1, 45.2 secured. Also, the drivers 45.1, 45.2 by a compression of the length compensation elements 47 against the spring 46 in a simple manner (de-) are mounted.

Claims (12)

1. Sliding door or window assembly, comprising

   - a frame part (1) mounted to a building, the frame part (1) having frame legs (2, 3, 4, 5) that are horizontal and situated at the bottom and the top, respectively, as well as two vertical, lateral frame legs,

   - at least one door or window wing (6.1 to 6.4) displaceable in the frame part between an open and a closed position, the wing (6.1 to 6.4) in each case having a pane element (7) with a frame profile (9) encompassing the edges (8) of the pane elements (7), and

   - a pivotable sealing lip assembly (11.1, 11.2) along at least one of the frame legs (4), said sealing lip assembly

   = being pivotally mounted in the frame leg (2) about a pivot axis (SW) extending parallel to the longitudinal direction (L) of the frame leg (2), and

   = being movable from a retracted inactive position into a sealing position abutting against the adjacent frame profile (9) of the wing (6.1) at least in the closed position of the wing (6.1 to 6.4),

   characterized in that

   - a drive kinematics system (24, 24') is provided for the at least one sealing lip assembly (11.1, 11.2), said drive kinematics system (24, 24') being driven by means of an actuation handle, preferably a locking turning handle (25) of the sliding door or window assembly, and

   - the drive kinematics system (24, 24') having a crank assembly (28u, 28o) comprising a connecting rod element (29) and a crank element (36), the crank assembly (28u, 28o) converting a linear driving movement of a driving slider (27), said movement being derived from the actuation handle (25), into the pivoting movement of the at least one sealing lip assembly (11.1, 11.2).
2. Sliding door or window assembly according to claim 1, characterized in that the sealing lip assembly (11.1, 11.2) has a pivotally mounted shaft rod (12) and a radially extending sealing lip (13) mounted thereto.
3. Sliding door or window assembly according to claim 2, characterized in that the shaft rod (12) is pivotally mounted in a chamber-like bearing profile (18) inserted in the frame leg (2).
4. Sliding door or window assembly according to any one of the preceding claims, characterized in that the sealing lip assembly (11.1, 11.2) is positioned in the horizontal frame leg (2, 3) situated at the bottom and/or the top.
5. Sliding door or window assembly according to any one of the preceding claims, characterized in that a pair of parallel sealing lip assemblies (11.1, 11.2) running in parallel next to one another is provided in the frame leg (2, 3), said sealing lip assemblies (11.1, 11.2) preferably being pivotable outwards in opposite directions from the inwardly retracted inactive position into the sealing position abutting against the frame profile (9).
6. Sliding door or window assembly according to claim 5, characterized in that the two sealing lip assemblies (11.1, 11.2) extend below the inner and outer edge (10) at the long sides of the frame profile (2, 3).
7. Sliding door or window assembly according to any one of the preceding claims, characterized in that one (11.2) of the two sealing lip assemblies (11.1, 11.2) is actuated directly via the crank element (36) actuated upon by the connecting bar element (29) while the other (11.1) is actuated by a lever arm (39) pivotally coupled with said crank element (36) via a gear coupling (40).
8. Sliding door or window assembly according to any one of the preceding claims, characterized in that the shaft rod (12) of the sealing lip assemblies (11.1, 11.2) is non-rotationally coupled with the crank element (36) or the lever arm (39) via in each case a driving pin (45.1, 45.2) on the crank element (36) or lever arm (39), said driving pin (45.1, 45.2) engaging a longitudinal channel (17) in the shaft rod (12) in a non-rotational manner.
9. Sliding door or window assembly according to any one of the preceding claims, characterized in that the connecting rod element (29) is divided into two connecting rods (30, 30'; 31, 31') coupled by means of a coupling rocker (32, 32'), the first (30, 30') of which being articulated to the driving slider (27) and the coupling rocker (32, 32') while the second (31, 31') is articulated to the coupling rocker (32, 32') and the crank element (36).
10. Sliding door or window assembly according to any one of the preceding claims, characterized in that the coupling rocker (32, 32') is configured as a double-arm lever, with the connecting rods (30, 30'; 31, 31') articulated thereto engaging the same or the opposite lever arms (33, 33'; 34) depending on the direction of rotation of the sealing lip assemblies (11.1, 11.2) to be generated.
11. Sliding door or window assembly according to claim 10, characterized in that the second connecting rod (31,31') arranged between coupling rocker (32, 32') and crank element (36) is articulated to the coupling rocker (32, 32') with a shorter lever arm length than the first connecting rod (30, 30') arranged between driving slider (27) and coupling rocker (32, 32').
12. Sliding door or window assembly according to any one of claims 9 to 11, characterized in that the coupling rocker (32, 32'), the crank element (36), and the lever arm (39) of the crank assembly (28u, 28o) are pivotally mounted on a common bearing plate (44).

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