EP3587717A1 - Pivot bearing for a leaf pivotable relative to a frame and method for assembling a pivot bearing - Google Patents

Abstract

A pivot bearing (3) for a window has a two-part securing element (7) for holding a bearing pin (8) on a bearing fork part (4). The securing element (7) has a base element (9) made of plastic and a spring element (10) held by the base element (9) with a shell (13) for the bearing pin (8). The pivot bearing (3) has a particularly high stability and can be easily adapted to the intended tasks.

Description

The invention relates to a pivot bearing for a wing of a window, a French window or the like pivotable against a frame, with a fork leg bearing fork part, with a bearing pin, and with a securing element for axially securing the bearing pin on one of the fork legs. Furthermore, the invention relates to a method for assembling such a pivot bearing for a wing pivotable against a frame.

Such pivot bearings are used in particular for rotary fittings or turn-tilt fittings and require reliable securing of the bearing pin against falling out.

The EP 2 636 831 A1 discloses a bearing for sashes of windows with a one-piece bearing fork part, in which a spring element is inserted. The spring element engages around a wedge-shaped contour in the interior of the bearing fork part and projects with a bracket into a recess in the bearing pin. This makes the warehouse very inflexible. A bearing pin with a larger diameter would require a completely new bearing fork part.

From the EP 1 180 570 B1 a bearing has become known in which two legs are angled from a mounting plate for mounting a hinge spindle. A bearing eye secures the hinge spindle on one of the legs. This storage can only be adapted to different tasks with great effort.

The invention is based on the problem of designing a rotary bearing of the type mentioned at the outset in such a way that it has high stability and can be easily adapted to various tasks. Furthermore, a method for assembling such a pivot bearing is to be created.

The first-mentioned problem is solved according to the invention in that the securing element has a base element arranged in one of the fork legs and a Has spring element and that the base element and the spring element are designed as separate components.

With this design, the components of the securing element can be easily adapted to the respective tasks of the pivot bearing. For particularly heavy sashes, the basic element can be made from a high-strength material. The base element can therefore preferably be made of plastic, for example using the injection molding process, as a result of which the pivot bearing can be designed inexpensively. Depending on the task, differently designed spring elements can also be used, thereby easily adapting the pivot bearing. In addition, an intended stability of the pivot bearing can be easily ensured by a suitable choice of the components of the securing element.

According to an advantageous development of the invention, the bearing has a high degree of stability if the fork leg is bow-shaped and extends over the basic element. The base element is thus inserted into the fork leg and is supported in the radial direction as seen from the bearing pin. Since the bearing pin is held in the axial direction by the spring element, forces are reliably supported. This contributes to increasing the stability of the pivot bearing.

According to another advantageous development of the invention, the mounting of the wing on the bearing pin is structurally particularly simple if the base element is held in a rotationally fixed manner on at least one of the components of the fork leg or the bearing pin. For this purpose, the fork leg can be non-circular. For this purpose, the bearing pin can have a flattened portion. The basic element has a contour adapted to the fork leg or the bearing pin.

According to another advantageous development of the invention, the rotary bearing can be easily adapted to the intended tasks if the basic element has a shell for the bearing pin.

According to another advantageous development of the invention, the assembly of the components of the rotary bearing is particularly simple if the spring element connects the fork leg to the base element and the bearing pin.

According to another advantageous development of the invention, the bearing has a particularly high stability if the base element has a recess for receiving the spring element. As a result, the pivot bearing is also particularly simple if the spring element protrudes from the recess in one direction in order to produce a form fit with the fork leg and projects in another direction from the recess to produce a form fit with the bearing pin.

According to another advantageous development of the invention, the positive connection of the securing element to the fork leg is structurally particularly simple if the fork leg has a recess for receiving a partial area of the spring element. The spring element thus enables the direct transmission of forces from the bearing pin to the bearing fork part.

According to another advantageous development of the invention, the rotary bearing can be manufactured particularly inexpensively if the spring element is made of spring wire or spring plate.

According to another advantageous development of the invention, the spring element fulfills its function particularly reliably when the partial area of the spring element which is received in the recess is 90 ° with respect to the rest of the spring element.

The second problem mentioned, namely the creation of a method for mounting the pivot bearing is solved according to the invention in that the base element is preassembled with the spring element to form the securing element and that the securing element is inserted into the fork leg or that the fork leg after the pre-assembly of the base element and Spring element pre-assembled securing element is connected to the rest of the bearing fork part.

This makes it easy to mount the pivot bearing. The pivot bearing is therefore very stable.

Fig.1

einen Teilbereich eines Fensters mit einem Drehlager,

Fig.2

eine Explosionsdarstellung des Drehlagers aus Figur 1,

Fig.3

vergrößert eine Schnittdarstellung des Drehlagers aus Figur 1,

Fig.4

eine Seitenansicht des Drehlagers aus Figur 1,

Fig.5

einen Querschnitt durch das Drehlager aus Figur 3 entlang der Linie III - III,

Fig.6

perspektivisch ein Federelement des Drehlagers aus Figur 5 in einer vergrößerten Darstellung,

Fig.7

einen Querschnitt durch eine weitere Ausführungsform des Drehlagers,

Fig.8

perspektivisch ein Federelement des Drehlagers aus Figur 7 in einer vergrößerten Darstellung,

Fig.9

einen Querschnitt durch eine weitere Ausführungsform des Drehlagers aus Figur 8,

Fig.10

perspektivisch ein Federelement des Drehlagers aus Figur 9 in einer vergrößerten Darstellung.

The invention permits numerous embodiments. To further clarify its basic principle, several of them are shown in the drawing and are described below. This shows in

Fig.1

a partial area of a window with a pivot bearing,

Fig.2

an exploded view of the pivot bearing Figure 1 .

Figure 3

Enlarges a sectional view of the pivot bearing Figure 1 .

Figure 4

a side view of the pivot bearing Figure 1 .

Figure 5

a cross section through the pivot bearing Figure 3 along the line III - III,

Figure 6

perspective a spring element of the pivot bearing Figure 5 in an enlarged view,

Figure 7

3 shows a cross section through a further embodiment of the rotary bearing,

Figure 8

perspective a spring element of the pivot bearing Figure 7 in an enlarged view,

Figure 9

a cross section through a further embodiment of the pivot bearing Figure 8 .

Figure 10

perspective a spring element of the pivot bearing Figure 9 in an enlarged view.

Figure 1 shows a partial area of a window with a wing 2 pivotable against a frame 1 and a pivot bearing 3. The pivot bearing 3 has a bearing fork part 4 fastened to the frame 1 and a bearing belt 5 articulated on the wing 2 of a turn-tilt fitting or be part of a pure pivot bearing.

Figure 2 shows an exploded view of the rotary bearing 3 Figure 1 , To simplify the drawing, the bearing belt 5 is not shown. The pivot bearing 3 has two fork legs 6 of the bearing fork part 4 and securing elements 7 inserted into the fork legs 6 to support a bearing bolt 8. This is in the bearing bolt 8 Figure 1 bearing belt 5 shown rotatably. The securing elements 7 sit down each composed of a base element 9 and a spring element 10. The bearing pin 8 has constrictions 11 for receiving a partial area of the spring elements 10 and at its free end a chamfer 12 for insertion into the securing elements 7. The securing elements 7 have shells 13 arranged in the basic elements 9 for the bearing pin.

Figure 3 shows enlarged a longitudinal section through the rotary bearing 3, in which to simplify the drawing, the bearing band 5 Figure 1 is not shown. It can be seen here that the fork legs 6 overlap the securing elements 7 in a bow-shaped manner. The spring element 10 is arranged in a recess 14 in the base element 9 and secures the bearing pin 8 in the axial direction. Furthermore, the bearing fork part has 4 screw recesses 15 for screwing to the in Figure 1 shown frame 1.

Figure 4 shows the pivot bearing 3 Figure 3 in a side view. It can be seen here that the bow-shaped fork legs 6 penetrate into a recess 16 of a base plate 17 of the bearing fork part 4 and are held there in a form-fitting manner. Furthermore, the bearing fork part 4 each has a recess 18 on the fork legs 6 for receiving a nose 19 of the base element 9 of the securing element 7. The recesses 18 of the two fork legs 6 face each other. The securing elements 7, which are held at a distance from one another by the bearing pin 8, are thus held axially immovably in the bearing fork part 4.

Figure 5 illustrates the design of the bow-shaped fork leg 6 in a cross section through the bearing fork part 4 Figure 3 along the line V - V. The bow-shaped part of the fork leg 6 is angled from the flat base plate 17 of the bearing fork part 4 and inserted with the free end into the recess 16 of the base plate 17. In an alternative embodiment, not shown, the base plate 17 can also have two opposite recesses 16 for the positive reception of both ends of a separate bracket of the fork leg 6.

When installing the rotary bearing 3, the base element 9 and the spring element 10 are preassembled to the securing element 7 and inserted into the fork leg 6 shown. In an alternative embodiment of the assembly of the pivot bearing 3, the bow-shaped part of the fork leg 6 becomes after the assembly of the securing element 7 the base plate 17 is bent around the preassembled securing element 7 and connected to the base plate 17 of the bearing fork part 4.

Furthermore shows Figure 5 that the spring element 10 with an arc-shaped holding element 20 penetrates into a further recess 21 of the bearing fork part 4 and with a supporting edge 22 into which a constriction 11 of the bearing bolt 8 penetrates. The spring element 10 thus creates a positive connection between the bearing fork part 4 and the bearing pin 8. The bearing pin 8 has a flat 23 with which it is held in the shell 13 of the base element 9 in a rotationally fixed manner.

Figure 6 shows the spring element 10 enlarged in a perspective view. It can be seen here that the spring element 10 is bent from a spring wire. According to an embodiment of the invention, but not shown, the holding element 20 of the spring element 10, which is received by the recess 21, can be rotated by 90 ° with respect to the rest of the spring element 10.

Figure 7 shows a further embodiment of the rotary bearing 3 in a cross section analogous to that of FIG Figure 5 , A fork leg 106 has a recess 121 for receiving a holding element 120 of a spring element 110 of a securing element 107. A support edge 122 of the spring element 110 penetrates as in the embodiment Figure 5 into the constriction 11 of the bearing pin 8. A base element 109 of the securing element 107 has a recess 114 for receiving the spring element 110.

Figure 8 shows the spring element 110 Figure 7 in a perspective view. The spring element 110 is made of spring plate.

The in the Figures 6 and 8 Spring elements 10, 110 shown have in common that the supporting edge 22, 122 can spring in the direction of the holding element 20, 120. This design is advantageous if the fork bearing part 4 with the two securing elements 7, 107 is preassembled and the bearing axis 8 is inserted as the last working step for mounting the pivot bearing 3. The support edges 22, 122 are pushed away from the chamfer 12 of the bearing axis 8 and snap into the constrictions 11.

Figure 9 shows a further embodiment of the rotary bearing 3 in a cross section analogous to that of FIG Figure 5 , This embodiment differs from that Figure 5 above all in that a fork leg 206 has two recesses 221 for receiving holding elements 220 of a spring element 210 of a securing element 207. A base element 209 of the securing element 207 has a recess 214 for receiving the spring element 210.

Figure 10 shows the spring element 210 of FIG Figure 9 illustrated embodiment. The spring element 210 is made of spring sheet metal and has two holding elements 220 designed as holding clamps for holding in the recesses 221 of the fork leg 206 and a web-like support edge 222 with which it fits into the constriction 11 of FIG Figure 9 illustrated bearing pin 8 penetrates.

At the in Figure 10 The illustrated spring element 210 cannot spring back the support edge 222 when inserted into the fork leg 206, as in the other embodiments. To mount the rotary bearing 3, the bearing pin 8 with the two securing elements 207 are therefore preassembled and placed on the fork bearing part 4. The fork legs 206 are then bent around the securing elements 207.

Claims (10)

Rotary bearing (3) for a wing (2) of a window, window door or the like which can be pivoted against a frame (1), with a fork leg (6, 106, 206) having a bearing fork part (4), with a bearing pin (8), and with A securing element (7, 107, 207) for axially securing the bearing pin (8) to one of the fork legs (6, 106, 206), characterized in that the securing element (7, 107, 207) is inserted in one of the fork legs (6, 106, 206) arranged base element (9, 109, 209) and a spring element (10, 110, 210) and that the base element (9, 109, 209) and the spring element (10, 110, 210) are designed as separate components , Rotary bearing according to claim 1, characterized in that the fork leg (6, 106, 206) is bow-shaped, the base element (9, 109, 209) is designed to span. Rotary bearing according to claim 1 or 2, characterized in that the base element (9, 109, 209) is held in a rotationally fixed manner on at least one of the components of the fork leg (6, 106, 206) or of the bearing pin (8). Rotary bearing according to at least one of claims 1 to 3, characterized in that the base element (9, 109, 209) has a shell (13) for the bearing pin (8). Rotary bearing according to at least one of claims 1 to 4, characterized in that the spring element (10, 110, 210) connects the fork leg (6, 106, 206) with the base element (9, 109, 209) and the bearing pin (8). Rotary bearing according to at least one of claims 1 to 5, characterized in that the base element (9, 109, 209) has a recess (14, 114, 214) for receiving the spring element (10, 110, 210). Rotary bearing according to at least one of claims 1 to 6, characterized in that the fork leg (6, 106, 206) has a recess (21, 121, 221) for receiving a partial area of the spring element (10, 110, 210). Rotary bearing according to at least one of claims 1 to 7, characterized in that the spring element (10, 110, 210) is made of spring wire or spring plate. Rotary bearing according to claim 8, characterized in that the partial area of the spring element (10, 110, 210), which is received in the recess (21, 121, 221), by 90 ° with respect to the rest of the spring element. Method for assembling a rotary bearing for a wing (2) pivotable against a frame (1) according to one of the preceding claims, characterized in that the base element (9, 109, 209) with the spring element (10, 110, 210) to the securing element (7, 107, 207) is preassembled and that the securing element (7, 107, 207) is inserted into the fork leg (6, 106, 206) or that the fork leg (6, 106, 206) after the preassembly of the base element ( 9, 109, 209) and spring element (10, 110, 210) pre-assembled securing element (7, 107, 207) is connected to the rest of the bearing fork part (4).

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