EP0728897B1 - Doorleaf - Google Patents

Abstract

The adjacent leaves (10,10') hinge together via profiled portions (20,20') on them which fit together. Each such portion comprises a first flange extending radially from near the hinge axis (40), and onto which a curved slide surface joins. The slide surfaces are close together when the leaves are parallel. The leaves are thrust apart at right angles to the hinge axis when they are parallel, in which position the hinge axis can be to the rear of their outer surfaces (12,12'), and typically by one or more leaf (60) or coil springs or plastic and elastic components bearing against them. The springs can be coupled between flanges (24,24') on the profiled portions, engaging in grooves (26,26') formed in them.

Description

The invention relates to a door leaf for a sectional overhead door according to the preamble of claim 1. The sections of a Such door leaf are often used as gate elements or Called panels.

Such a door leaf for garages is from the German Publication DE 41 37 040 A1 known.

It is also known to guide a door leaf in running tracks, that from a floor of the garage initially vertically after run upstairs and then point into the garage in a curve, where they are arranged horizontally along a garage ceiling are. When the door leaf is opened, the sections when they pass the track curve, pivoted to each other. It is opened either manually by lifting one Handle, which is located relatively far down on the closed gate or automatically by a tension member of a door operator, that is usually attached to the upper edge of the door leaf is. Furthermore, a pulling device is provided which on the lower edge of the door leaf an upward Exerts traction. This traction is almost as great as that for Opening the door leaf requires force, so that both the manual as well as the automatic opening is facilitated.

With such an arrangement, the problem arises that Often open with unpleasant squeaking and creaking noises is connected and the sections only with a relatively high Allow the force to pivot against each other.

The object of the invention is accordingly to provide a door leaf, where the hinges last for the lifetime work away silently and where the swiveling of the Sections with little effort is possible.

To achieve this object, the invention proposes a door leaf of the type mentioned at the beginning according to the characteristic Develop part of claim 1. The parting the sections apart Power does not need only in the specified Direction, but only a vector component have, which is directed in this direction.

When opening the door leaf, both manual and even with automatic actuation, the individual sections are pressed together. In the former case, this happens because the opening force on a ground level, i.e. far below section attacks. In the second case causes the pulling device acting on the lower edge of the door leaf, that at least part of the weight of the door leaf weighs on the lower sections and compresses them. With the sections are also arranged close together Sliding areas pressed together so that they are flat against each other apply and acted upon by a force pressing them together become. When the sections so compressed the track curve are pivoted to each other, act high frictional forces on the sliding areas.

The arrangement according to the invention acts to press the sections together Opposing force when opening. Depending on the amount the opposite, pushing the sections apart The force with which these are applied becomes the sliding areas partially or completely relieved. This will the friction between the sliding areas is reduced or entirely avoided, the latter when the sliding areas are pushed as far apart that they are no longer in each other Are in contact. The force pushing the sections apart can be chosen so that between the sliding areas There is a distance of 0.5 mm to 1 mm.

In the arrangement according to the invention, the contact pressure is Edge area of the first section to the support area of the second section increased. The higher caused by it However, friction is less troublesome because of the absolute displacement distance between the edge area and the support area is much smaller than that between the sliding areas. The edge area and the support area partially surrounding it are arranged near the pivot axis, while the Sliding areas about the length of the radial legs of the pivot axis are removed. The edge area can be bulbous be thickened. But it can also be rounded or knife-like be shaped.

The solution according to the invention is inexpensive. Compared to Known hinges can be used with extremely little additional effort be realized. Even gates that are already in use are can be retrofitted according to the invention become.

Surprisingly, there is the further advantage that hinges less susceptible to light on door leaves according to the invention Deformations of the door leaf are, for example caused by wind pressure. Clamp known hinges become lighter during pivoting Deformation of the hinge profiles because of a geometrically complex Interaction of the two sliding areas and the edge and the support area is required. especially the The shape of the sliding areas must be very accurate to the exact circular arc shape correspond. In contrast, the hinges of the invention Door leaf more robust because of a larger distance is maintained between the sliding areas and therefore a slight deformation of the sliding areas less disadvantageous works. Also the interaction of the edge and the support area is less critical because of the area on which this Areas in contact with each other is relatively small.

The pivot axis is preferably in parallel alignment the first and the second section at a distance behind the first and / or the second visible surface. The pivot axis can, for example, in a plane with rollers Sections. This leads to a particularly good adaptation to the curve shape of the running rails. The pivot axis is preferably by a distance behind the first and / or the second Visible surface arranged, but not so far back, that it would protrude beyond the rear surfaces of the sections. The first and second sections can completely between the front visible surfaces and the rear surfaces be, which results in a particularly uniform appearance of the Door leaf results and a risk of injury due to outstanding Parts is avoided. The door leaf preferably has none protruding beyond the rear surfaces of the sections Fittings on. The one facing the interior of the building This makes the page particularly smooth and visually appealing. The The risk of injury from protruding fittings is reduced.

The means for loading the first and second sections with a force pushing them apart preferably at least one on the first and the second Supporting spring section. This is a particularly inexpensive one Design. The at least one spring can be one Helical, spiral or leg spring, it is preferred however, a leaf spring. More normal for single and double garage doors Width are preferably two to six leaf springs each Hinge provided. However, it can also be a one-off divided or one-piece, running over the entire width resilient or elastic band are used, whereby a cover for the hinges and insulation at the same time is achieved. A molded piece or an insert can also be made Rubber, resilient plastic or foam to push apart of the sections.

The first hinge profile preferably has one of the first Section pointing to the first web with a first flange and the second hinge profile one from the second section groundbreaking second web with a second flange. The first and the second web can each point to the rear. Here the first and second webs can be substantially vertical to the sections coplanar (with the door leaf closed) defined level. The first and the second Flanges can run essentially parallel to this plane.

The at least one spring can be behind the first and the be arranged in the second section, preferably in essentially perpendicular to the pivot axis. The at least one The spring can be connected to the first and / or the second flange be. This connection can be a screw, weld or adhesive, the at least one spring is preferred but without any other fastening in a groove of the flange clamped. The spring can then be easily replaced become.

The first flange can have a first groove near the first web and the second flange near the second land has a second groove exhibit. The first and the second groove can each between the first or second flange and one Leg of a T-shaped approach to be formed. Between the other leg of this approach and the corresponding one Another flange is then formed in each case. As Leaf spring designed spring can be between the first and the second groove be clamped running. It means that one end of this spring is received by one of the grooves is and the respective end of the spring under tension on one Bottom of the groove (which by a short web of the T-shaped Approach is formed). In the other mentioned Grooves (between the other leg of the T-shaped Approach and the corresponding flange) can be a cover for the inside of a section. This is preferably done with insulated gates. The cover can from a plastic strip running the entire width of the door or consist of a flat or profiled sheet.

The door leaf preferably has an intermediate layer between the first and second sections. In particular, the Intermediate layer the support area on its edge area Cover the area. The liner can be a plastic profile or one applied to one or both sections suitable coating. Grips the liner and preferably the edge region of the first section then along the first leg around the curved first Sliding area on its convex surface. The Liner can have the task of friction between adjacent areas of the first and second sections to reduce. It is then preferably made of a smooth, friction reducing material. Preferably there is Liner from a clipped onto one of the hinge profiles Plastic profile.

To improve the sealing effect of the liner against drafts, To increase cold and noise, this can be at least one Have a sealing lip. The possibility of a sealing lip to be provided is only by the invention of the spring-loaded Hinge profiles have become practical because of previously known ones Hinges wear such a lip in no time or would have been demolished.

When installing a door leaf according to the invention, this is for larger gates, preferably on site from the individual sections composed. Smaller gates are completed in the factory assembled. To facilitate assembly, the first and / or second section an inclined management level to facilitate hanging the first and the second Section have one another. For sections whose hinge profiles Can have ridges, the inclined management level the first section of a beveled first surface of a be formed on the first web of the first component, and the oblique management level of the second section can be from that second leg and a tapered second surface of one be formed on the second web of the second component.

Door leaves from overhead sectional doors are usually included Castors equipped on both sides of the gate in each one or two tracks run. Typically points four sections on each section, one on each corner. The exact guidance of the sections is in an inventive Door leaf, i.e. a door leaf whose sections are spring-loaded are particularly important so that the hinge profiles or do not move the springs against each other, tilt or jam. Therefore, preferably one according to the invention For each roller, the door leaf has a bearing block for mounting an axis of the roller in a variety of each other parallel alignments. This makes it possible to Axes of the rollers for perfect door function to adjust. The bearing blocks are preferably after loosening a fixation can be moved parallel to the axis. This has the Advantage that when installing or repairing the door leaf Bearing blocks simply in the hinge profile by about 10 cm to the center of the door can be moved so that the roller is free becomes.

In a preferred embodiment, the bearing block has at least a groove running parallel to the axis into which a rib, a bend or some other projection of the Hinge profile engages. This makes the slidability ensured in the direction of the axis and at the same time the bearing block fixed across this direction. It is then possible that The bracket is fixed by a single one across the direction the axis through a hole in the hinge profile in the bearing block protruding screw to form. With the word "quer" is denotes any non-parallel arrangement, in particular a surface normal or oblique angle. The assembly of such a bearing block is done simply by the bearing block is inserted into the hinge profile and with the only one Fixing screw is attached. In contrast to known pillow blocks are fastened with three to six screws, which obviously increases the assembly effort a lot.

A rough adjustment of the axis position is with a bearing block possible of several on a flat outer surface in parallel has mutually arranged grooves. The bearing block can then pushed onto the hinge profile in different positions be in any position in which the rib of the hinge profile engages in one of the grooves mentioned.

The bearing block is preferred not only because of the engagement a single rib of the hinge profile in a groove of the Bearing block held, but there are several ribs provided which engage in corresponding grooves. Ribs are preferably formed on surfaces of the hinge profile, that face each other and face each other. she can also be used on surfaces that are at an angle to each other be trained. By such an arrangement with several Ribs become a particularly stable bracket for the bearing block reached.

The (fine) adjustment of the axis position is preferably done in a way that is neither a move nor a disassembly the pillow block requires. To this end, in a preferred embodiment each bearing block has a bearing hole in the one cylindrical rotating body is rotatably mounted, and the Axis is received in an eccentric bore of the rotating body. The bearing axis is then aligned by a Rotation of the rotating body. This is preferably a cross to Adjustment screw protruding into the bearing block is provided, which affects the rotating body so that by the adjusting screw and the rotating body for a worm gear Rotary setting of the rotating body is formed. The sections a door leaf equipped with such pedestals can be easily adjusted by turning the adjusting screws be without disassembly or even a loosening of Fastening screws are required.

Preferably the above is first and / or second Component designed as a bearing block, so that without additional effort (only a bevel has to be provided) the advantage the easy hooking of the sections into each other becomes.

For gates with sections covered with special coverings (for example vertically corrugated sheets or vertically placed ones Boards with a profile height of 15 mm to 20 mm), can the door leaf one before the first and / or the second Have visible frieze arranged, one of which is the first gap separating the second section. The frieze improves the appearance of the door leaf from the front and serves as Finger protection. The width of the joint pointing forward between the sections changes when the sections are pivoted to each other. Therefore, for example, when closing a door or other part of the body of the door leaf inattentive user in the open joint and there pinched or even severed when the joint closes again. The appropriately arranged frieze covers the joint off, making them inaccessible during normal use. Such a frieze is particularly useful for thickly applied coverings that are sharp-edged and vertically profiled are. In these cases, the center can also be about of the closed door leaf horizontally running frieze also at the top and bottom of the closed door leaf one cross frieze each be placed so that the visible surface of the gate results in a kind of rustico covering that used to be usual simple gates (for example for half-timbered gates).

In one embodiment, the frieze is resilient on the lower one Section attached. It is preferably in a parallel orientation of the sections directly on the visible surfaces or with Distance in front of these visible surfaces. In both cases the frieze covers the joint separating the sections. Optional the frieze can also be rigidly attached to the lower section be. It is then preferably at a distance from the first and second sections arranged, the distance is chosen so large that in no pivot position Sections a finger between the frieze and one of the sections can be pinched. The fact that the frieze is not is arranged directly adjacent to the sections Visible from a short distance. The frieze is preferably optical and / or in terms of the material (Plastic, wood, metal) on the front visible surfaces of the Gate sections adjusted.

Fig. 1

einen senkrechten Querschnitt durch einen Bereich einer ersten Ausführungsform eines erfindungsgemäßen Torblattes,

Fig. 2

eine zweite Ausführungsform eines erfindungsgemäßen Torblattes in der Darstellung von Fig. 1,

Fig. 3

eine dritte Ausführungsform eines erfindungsgemäßen Torblattes in der Darstellung von Fig. 1,

Fig. 4

eine perspektivische Darstellung eines Bereichs einer vierten Ausführungsform eines erfindungsgemäßen Torblattes mit zueinander verschwenkten Sektionen,

Fig. 5

die Darstellung von Fig. 4 mit parallel ausgerichteten Sektionen,

Fig. 6

einen senkrechten Querschnitt durch zwei ineinander eingehängte Scharnierprofile,

Fig. 7

die Darstellung von Fig. 6 mit für das Einhängen vorbereiteten Scharnierprofilen,

Fig. 8

den vergrößerten Ausschnitt VIII der Fig. 6, und

Fig. 9

eine perspektivische Darstellung eines Bereichs einer fünften Ausführungsform eines erfindungsgemäßen Torblattes.

An embodiment of the invention will now be described with reference to the drawing. Show it:

Fig. 1

2 shows a vertical cross section through a region of a first embodiment of a door leaf according to the invention,

Fig. 2

2 shows a second embodiment of a door leaf according to the invention in the representation of FIG. 1,

Fig. 3

2 shows a third embodiment of a door leaf according to the invention in the representation of FIG. 1,

Fig. 4

1 shows a perspective illustration of a region of a fourth embodiment of a door leaf according to the invention with sections pivoted to one another

Fig. 5

4 with sections aligned in parallel,

Fig. 6

a vertical cross section through two hinged hinge profiles,

Fig. 7

6 with hinge profiles prepared for hanging,

Fig. 8

the enlarged section VIII of Fig. 6, and

Fig. 9

a perspective view of a portion of a fifth embodiment of a door leaf according to the invention.

A first section 10 is shown in FIGS. 1 to 5 and in FIG. 9 with a front first visible surface 12 of a first section body 14 and a first hinge profile 20, and a second section 10 'with a front second visible surface 12 'of a second section body 14' and a second hinge profile 20 '. The first hinge profile 20, the extruded profile is made of light metal, has a first Section 30, followed by a straight line parallel to first visible surface 12 extending first section 28, and at right angles thereafter a first web 22 to which a first flange 24 with a right angle first groove 26 connects. The groove 26 is close to the transition between the first web 22 and the first flange 24 between a region of the first flange 24 and one leg of one first T-shaped projection 27 formed. A short walkway of the Approach 27 forms a bottom of the groove 26 and a bottom another groove facing away from the groove 26 and the Side walls of the other leg of the approach 27 and the Flange 24 are formed.

Likewise, the second hinge profile 20 'has a second one Section 30 ', a straight line, parallel to the second visible surface 12 'extending second section 28', a second web 22 ' and a second flange 24 'with a second T-shaped Approach 27 'and a second groove 26'.

A leaf spring 60 has a first end in the first groove 26 and clamped with a second end in the second groove 26 '. It runs at right angles to the pivot axis 40 and behind the first and second sections 30 and 30 'between the first and second grooves 26 and 26 ', being a forward curvature to sections 10 and 10 'respectively towards the hinge.

The two sections 10 and 10 'are through on the front a joint 70 separated by a first edge 29 at the transition between the first section 28 and the first section 30 and a second edge 29 'at the transition between the second Section 28 'and the second section 30' is limited. There is one on each of the first and second edges 29 and 29 ' Pick-up groove for picking up an edge of a visible surface covering arranged for the sections 10 and 10 '.

As is shown enlarged in FIG. 8, the first section has 30 first a bead-like thickened edge area 32, the circular arc with a small radius around one Pivot axis 40 is arranged. The edge area 32 goes into a radial, straight first leg 34 over that to the vertical is inclined slightly by about 10 ° clockwise. A first sliding region 36 adjoins the first leg 34 which corresponds to an arc in profile, the center of which lies on the pivot axis 40 and its radius essentially corresponds to the length of the first leg 34 and considerably is larger than the radius of the edge region 32.

The second section 30 'has a support area 32', which is arranged around the edge area 32 and approximately Encloses 180 °. The support area 32 'is circular in profile with a center point lying on the pivot axis 40 and a radius that is slightly larger than that of the edge area 32 is. A radial one adjoins the support area 32 ' second leg 34 '. The first and second legs 34 and 34 'run in parallel alignment of the sections 10 and 10 'substantially parallel to one another, the second Leg 34 'opposite a radius of a circle with on the Pivot axis 40 lying center is slightly offset. On the second leg 34 'is closed by a second sliding region 36' which corresponds to an arc in profile, the center of which lies on the pivot axis 40. The radius of this arc is slightly larger than that of the first sliding area 36 defined circular arc, so that a convex surface of the first sliding portion 36 and a concave surface of the second sliding area 36 'are facing each other and at parallel alignment of the sections 10 and 10 'with little and arranged substantially constant distance from each other are.

An intermediate layer 50 designed as a plastic profile is shown in FIG clipped the first section 30. The intermediate layer 50 is led to about 270 ° around the edge area 32 and runs from there over a rear-facing surface of the first leg 34 and the convex surface of the first sliding region 36 to shortly before the first edge 29. At the intermediate layer 50 is in A first sealing lip 52 in the region of the first leg 34 formed, the parallel alignment of the sections 10 and 10 'is in contact with the second leg 34'. Further the intermediate layer 50 has a shortly before the first edge 29 second sealing lip 54 on the parallel alignment the sections 10 and 10 'with the second sliding area 36' short before the second edge 29 'is in contact. The liner 50 has two elongated ribs 56 and 58 which correspond to each other Engage grooves of the first section 30.

In the door leaf shown in Fig. 1 are the front visible surfaces 12 and 12 'each of two metal coverings with beads educated. The second section body 14 'has a rear one Cover 16 'on, between the visible surface 12' and rear cover 16 'a heat insulating and sound absorbing Insulation 18 'made of plastic is provided.

2 shows a door leaf with section bodies 14 and 14 ', which are composed of relatively thick (15 mm to 20 mm) wooden profiles are. The hinge profiles 20 and 20 'are with the Section bodies 14 and 14 'screwed. The joint 70 adjacent side faces of the wooden profiles are towards the front wedge-shaped to prevent pinching a finger.

The door leaf shown in Fig. 3 is largely like that of Fig. 2 constructed. It also has one as a wooden strip designed frieze 80, the joint 70 between the sections 10 and 10 'covered. Since those adjacent to joint 70 Side faces of the relatively thick (15 mm to 20 mm) wooden profiles run parallel to each other, there is a risk here that a careless user could pinch a finger. This is prevented by the frieze 80. The frieze 80 is with Spacers 82 made of wood with the first section body 14 rigidly screwed, the one determined by the spacers 82 free space between the frieze 80 and the visible surface 12 'of the section body 14' in each pivot position the sections 10 and 10 'is so large that no finger can be pinched. The spacers 82 are in the Direction along the frieze 80 spaced from each other, to release passages for rainwater drainage.

The door leaf shown in FIGS. 4 and 5 has a frieze 80, which is resiliently attached to the first section 10, by a hinge 84 between the first section body 14 and the frieze 80 and by a coil spring 86, which runs through a hole in the first section body 14 and with a first end on frieze 80 and a second end is attached to the first section 28. As shown in Fig. 4 the frieze pivots 80 when a finger between it and the second section body 14 ', forward and prevented thus pinching the finger. Because the frieze 80 the Groove 70 covered relatively far, the user can not into the joint 70 or between the adjoining side surfaces of the sections of the section bodies designed as wooden profiles 14 and 14 'grab and injure themselves there.

In Fig. 6, a door leaf is shown on the first Hinge profile 20 between the first web 22, the first Section 28 and a further web 23 a first component 90 is arranged with a beveled first surface 92. The The first component 90 is a prismatic bracket 91 for Picking up an axis 94 of a roller 96. The bearing block 91 has several on two parallel peripheral surfaces parallel grooves 93, into the two ribs 25 (Fig. 7) intervention. One of the two ribs 25 is on each other parallel webs 22 and 23 formed, on each other facing surfaces of the webs 22 and 23. These surfaces the webs 22 and 23 and one between the webs 22 and 23 located area of the second section 28 form a 3-sided limited channel, the inner cross-section essentially the outer cross section of the pedestal 91 perpendicular to corresponds to axis 94. After loosening a single screw 99 (FIG. 9), the bearing block 91 is displaceable along the ribs 25. The bearing block 91 can also be made in several different ways Distances from the straight section 28 are arranged by using a suitable pair of its parallel Grooves 93 is pushed onto the ribs 25. The alignment the axis 94 in the bracket 91 is continuously adjustable, whereby all possible alignments are mutually parallel. For this purpose, the axis 94 is eccentric in a cylindrical rotating body 95 held, which in turn by a corresponding shaped bearing bore is added. A screw 98 engages in a peripheral surface of the rotating body 95 and serves to adjust this in its angular position, whereby because of the eccentric arrangement of the axis 94 in the rotating body 95 also the axis 94 correspondingly along a cylindrical Area shifts. In summary, the rough adjustment is the roller 96 by a suitable insertion of the Bearing bracket made between the webs 22 and 23 and the Fine adjustment by turning the screw 98 as by the in Fig. 9 indicated with this screw arrow.

The second hinge profile 20 'has a second component 90' with a bevelled second surface 92 'between the second web 22 'and the second section 28' is. The tapered second surface 92 'of the second component 90 'lies with a rear-facing surface of the second Leg 34 'essentially in one plane. Together form the tapered second surface 92 'and the rear facing surface of the second leg 34 'an oblique Management level.

As is apparent from Fig. 7, the beveled first facilitate Surface 92 and the inclined management level of the second section 10 'the hooking of the first and second sections 30 and 30 'into each other. The section 10 'to be attached needs in Fig. 7 just slanted to the top left and then swung up to the first and second sections 30 and 30 'to interlock.

Claims (10)

1. A doorleaf for an overhead sectional door, especially for garages or halls,

   comprising a first section (10) having a first visible surface (12) arranged in front and a first hinge profile (20), and a second section (10') having a second visible surface (12') arranged in front and a second hinge profile (20'), wherein

   a first section (30) of the first hinge profile (20) and a second section (30') of the second hinge profile (20') hingedly connect the first and second sections (10, 10') with each other;

   starting from a marginal area (32) close to a swivel axis (40), the first section (30) includes a radial first leg (34) followed by a circular arc-shaped first sliding area (36);

   starting from a rest area (32') partially encircling the marginal area (23), the second section (30') includes a radial second leg (34') followed by a circular second sliding area (36'), and

   with the first and second sections (10, 10') being aligned in parallel, the first and second sliding areas (36, 36') are arranged near each other

   characterized in that

   means are provided applying a force directed to the first and second sections (10, 10') urging them aparat and, with the first and second sections (10, 10') being aligned in parallel, applying a force directed substantially parallel to the first and second sections (10, 10') as well as normal to the swivel axis (40).
2. The doorleaf according to claim 1,
   characterized in that the swivel axis (40) is arranged at a distance from and behind the first and/or second visible surface(s) (12, 12') with the first and second sections (10, 10') being aligned in parallel.
3. The doorleaf according to claim 1 or 2,
   characterized in that the means for applying a force to the first and second sections (10, 10') urging them apart comprise at least one spring (66), especially a leaf, spiral or leg spring or a resilient plastic element, bearing against the first and second sections (10, 10').
4. The doorleaf according to claim 3,
   characterized in that the first hinge profile (20) includes a first web (22) pointing away from the first section (10) and having a first flange (24), and the second hinge profile (20') includes a second web (22') pointing away from the second section (10') and having a second flange (24'), and in that the at least one spring (60) is arranged rearwards of the first and second sections (30, 30') and connected with the first and second flanges (24, 24'), wherein preferably the first flange includes a first groove (26) close to the first web (22) and the second flange (24') includes a second groove (26') close to the second web (22') and the spring (60) designed as a leaf spring is clamped so as to extend between the first and second grooves (26, 26'), and wherein, further, preferably the first groove (26) is formed between an area of the first flange (24) and a leg of a first T-shaped projection (27) and/or the second groove (26') is formed between an area of the second flange (24') and a leg of a second T-shaped projection (27').
5. The doorleaf according to one of claims 1 to 4,
   characterized in that an intermediate layer (50) is arranged between the first and second sections (30, 30'), especially in the rest area (32'), preferably said intermediate layer (50) having at least one sealing lip (52, 54).
6. The doorleaf according to one of claims 1 to 5,
   characterized in that the first and/or the second section (10, 10') include(s) a slanting guide plane to assist in hanging the first and second sections (30, 30') into each other, with preferably the slanting guide plane of the first section (10) being constituted by a chamfered first surface (92) of a first structural member (90) abutting on the first web (22), and the slanting guide plane of the second section (10') being constituted by the second leg (34') and a chamfered second surface (92) of a second structural member (90) abutting on the second web (22').
7. The doorleaf according to one of claims 1 to 6,
   characterized by at least one bearing block (91) for receiving an axle (94) of a roller (96) in a plurality of orientations parallel to each other, which bearing block (91) is held at one of the hinge profiles (20, 20') in such a manner that it is movable in parallel with the axle (94) once a fixation is unlocked, preferably said bearing block (91) being provided with at least one groove (93) extending parallelly to the axle (94) and being in engagement with a rib (25) of the hinge profile (20, 20').
8. The doorleaf according to claim 7,
   characterized in that the fixation of the bearing block (91) against movements in the direction of the axle (94) is comprised of one single screw (99) extending transversely relative to the direction of the axle (94) through a bore in the hinge profile (20, 20') into the bearing block (91), wherein preferably the bearing block (91) has a bore in which a cylindrical rotating body (95) is accommodated so as to be angularly adjustable, and wherein, further, preferably the axle (94) is received in an eccentric bore in the rotating body (95), and, still further, preferably an adjusting screw (98) extending into the bearing block (91) transverely with respect to the bore is tangent to the rotating body (95) such that a worm gear for the angular adjustment of the rotary body (95) is formed by the adjusting screw (98) and the rotary body (95).
9. The doorleaf according to one of claims 1 to 8,
   characterized in that the doorleaf is free of armatures projecting rearwardly beyond the first or second section (10, 10') with said first and second sections (10, 10') being aligned in parallel.
10. The doorleaf according to one of claims 1 to 9,
    characterized in that a frieze (80) is arranged in front of the first and/or second visible surface(s) (12, 12') which, preferably spaced therefrom, covers a gap (70) separating the first and second sections (10, 10'), wherein the frieze (80) is preferably resiliently fixed to the first or second section (10, 10') or is, spaced from the first and second sections (10, 10'), rigidly mounted to one of said sections (10, 10'), and wherein, further, preferably the frieze (80) is adapted optically and/or as regards the material to the first visible surface (12) of the first section (10) and/or to the second visible surface (12') of the second section (10').

Images