EA026626B1 - Adjustable corner bearing for a leaf of a window or door - Google Patents

Abstract

The invention relates to an adjustable corner bearing (2) for a leaf of a window, door, or the like, comprising a bearing mount (5) and a joint bolt (3) for supporting the leaf, which joint bolt is movably retained by means of a threaded pin (9) having an external thread (16), wherein the threaded pin (9), which can be rotated for adjustment, is screwed into a threaded hole (15) of the joint bolt (3) having an internal thread (14) and rotation of the joint bolt (3) in relation to the threaded pin (9) is hindered by means of a rotation-inhibiting means (23). It is provided that in order to form the rotation-inhibiting means (23), the threaded pin (9) has a non-round cross-section at least in the area of the external thread (16) of the threaded pin in such a way that at least one area (30) of the outer cross-sectional contour (28) has an excess dimension (31) of the thread crests (24) of the external thread (16) in relation to the dimensions of the thread roots (25) of the internal thread (14).

Description

(57) The invention relates to an adjustable angular support (2) for a casement window, door or the like, comprising a support bracket (5) and a hinge rod (3) mounted on it with the possibility of displacement by means of an external thread (16) of the stud (9) to maintain the flap, and the pin (9) rotated for adjustment is screwed into the hole (15) of the hinge rod (3) provided with internal thread (14), the rotation of which relative to the pin (9) is complicated by rotation-inhibiting means (23). It is envisaged that to perform the rotation-hindering means (23), the stud (9) has at least a non-circular cross section in the area of its external thread (16) so that at least one section (30) of the external contour (28) of the cross section has the oversized size (31) of the peaks (24) of the external thread (16) with respect to the dimensions of the troughs (25) of the internal thread (14).

The invention relates to an adjustable angular support for a sash of a window or door, containing a support bracket and a hinge rod mounted on it with the possibility of displacement by means of an external threaded pin to support the sash, and the pin rotated for adjustment is screwed into the hole of the hinge rod provided with an internal thread, the rotation of which relative to the stud is complicated by a rotation-obstructing agent.

From the utility model ΌΕ 29613986 I1, the swing-out accessories of the type described above containing angular support are known. The hinge rod named there by the support pin is mounted on the support body with the possibility of rotation around the tilt axis. The supporting body contains a latch in the form of a nose. The support pin has a chamfered edge, designed so that it collides with the latch in a certain angular position of the hinge rod. This makes it possible to fix the support pin in the tilted position, which enables the sash of the window to be hung, that is, to put on the support sleeve of the sash on the support pin, without the help of a second person. In addition, the support pin can rotate to a second angular position in which the latch rests on the end face of the support pin, holding it in the desired position. This well-known implementation requires very precise manufacturing and narrow tolerances in order to guarantee the operation explained above. In addition, the latch wears out very quickly after repeated use, as a result of which the fixing of the support pin no longer functions.

The basis of the invention is the task of making an adjustable angular support of the type described above in such a way that with simple and inexpensive manufacture, fault-free operation is always ensured.

This problem is solved according to the invention due to the fact that for the implementation of a tool that impedes rotation, the pin has at least a non-circular cross section in the area of its external thread so that at least one portion of the external contour of the cross section has an oversized outer thread tip with respect to the dimensions of the hollows of the internal thread. Due to this oversized size by simple means creates the difficulty of rotation of the hinge rod on the stud. This allows you to move the hinge rod to the desired angular position, which it retains, for example, when transporting the corner support to the place of use or during its installation, or when installing the sash, or during other work. When, for example, a manufactured angular support with a given position of the hinge rod is delivered to the window installer, he can fix it to the window directly using an automatic screwdriver without the need to displace the hinge rod. On the contrary, the latter has an angular position, which ensures that the automatic screwdriver gets direct access, i.e., the hinge shaft is rotated so that it does not interfere and does not close, for example, a screw hole. Also, when mounting a leaf, for example, a window, the hinge rod can be rotated to the desired angular position, and it retains this position, i.e. cannot turn spontaneously, which facilitates putting on the corresponding part of the hardware fixed on the leaf on the hinge rod and does not require the presence of a second person. Due to the oversized peaks of at least one portion of the external thread with respect to the corresponding dimensions of the hollows of the internal thread, a sufficiently high torque is created between the threaded hole of the hinge rod and the stud, which thereby prevents spontaneous displacement. In addition, the proposed implementation has, in comparison with the prior art, the advantage that the hinge rod is held in any angular position, and not only in two angular positions, as in the prior art. As mentioned above, at least one portion of the outer contour of the section has an oversized thread tip size. However, also several sections of the external contour of the cross section may have a correspondingly overestimated size. Then, along the outer contour of the section, an oversized section alternates with a section without an overestimated size, etc. The proposed measure allows you to create a fairly high and relatively constant torque between the parts involved in this process, which even after repeated rotation of the parts basically retains its value, i.e. not reduced to undesirable values (easy running).

According to an embodiment of the invention, it is provided that the oversized dimension is such that it provides substantially elastic retraction of the internal and external threads. This, even after repeated rotation of the respective parts, achieves a torque of an especially long-lasting action of a substantially constant value. Due to the aforementioned measure, plastic deformation is essentially prevented, since it would lead to the fact that after several rotations the torque would decrease to too low values, as a result of which the angular position of the hinge rod could no longer be guaranteed.

In a preferred embodiment of the invention, it is provided that the outer contour of the section has a polygonal or approximately polygonal shape. Therefore, the outer contour of the section is polygonal, and this should also mean rounded corners and indirect lines between them. Each corner forms a section of the outer contour of the section with an overestimated size of the thread vertices there.

According to a particularly preferred embodiment of the invention, it is provided that

- 1 026626 the outer contour of the section has a trilobumeric or approximately trilobumeric form. Therefore, the cross section is made similar to a triangle, in particular with rounded corners and indirect lines between them, and the vertices of the triangle have an oversized vertex size of the external thread. Thus, in the case of trilobumeric form, we are talking about a special polygonal shape. This trilobumeric form provides a certain retention of the hinge rod on the stud.

In an embodiment of the invention, it is provided that the internal thread has a circular cross section. Thus, the internal thread, when viewed in cross section, is made circular. In accordance with this, the external thread has not this circular contour of the section, but said non-circular shape.

Further, for simple manufacturing with narrow tolerances, it is preferable if the external thread is in the form of a knurled thread. In the manufacture of the thread of the stud is, therefore, not by cutting, but by rolling.

In an embodiment of the invention, it is provided that the support bracket has two support flanges between which at least one portion of the hinge rod is located. The hairpin is held in both support flanges, in particular with the possibility of rotation.

According to a preferred embodiment of the invention, the pin is mounted on the support bracket with the possibility of tight rotation, i.e., it rotates with respect to it with increased torque. This can be achieved through a tight stroke with a frictional and / or geometric closure, and a tight stroke with a geometric closure, like a tight stroke with a frictional closure, can be overcome only by applying increased torque to the stud.

It is further preferred that the torque for rotation of the stud on the support arm is higher than the torque for rotation of the hinge rod on the stud. This prevents the rotation of the studs relative to the support bracket when the hinge rod is rotated on it.

The invention further relates to an adjustable angular support for a sash of a window, door or the like, in particular in accordance with the described or the following embodiment, comprising a support bracket and a hinge rod mounted on it with the possibility of displacement by means of an external threaded pin to support the sash, and rotatable for adjustment, the stud is screwed into the threaded hole of the hinge rod provided with an internal thread, the rotation of which relative to the stud is complicated by the rotation-inhibiting means m, moreover, to perform obstructing the rotation of the tool or to additionally obstruct the rotation of the tool, the depth of the internal thread in at least one portion of its inner contour of the cross section or throughout the inner contour of the cross section is less than the depth of the external thread. Additionally or as an alternative to achieving an oversized outer thread apex with respect to the dimensions of the hollows of the inner thread in at least one portion of the inner contour of the cross section or throughout the inner contour of the cross section, the inner thread has a depth that is less than the depth of the outer thread, resulting which achieves increased torque or creates increased torque in addition to the execution with oversized tops of the external thread.

The invention is illustrated by the example of its implementation with reference to the drawings, which depict FIG. 1 is a perspective view of an adjustable angular support;

FIG. 2 is a sectional view of the corner support of FIG. one;

FIG. 3 is a sectional view of the corner support portion of FIG. 2;

FIG. 4 - section of a pin of an angular support;

FIG. 5 is a longitudinal section of the threads of an angular support.

In FIG. 1 shows the hardware 1, made in the form of an adjustable angular support 2 and used in the sash (not shown) of a window or door. Corner support 2 is mounted, for example, on a frame (not shown) of a window or door. The corresponding sash covers the hinge rod 3 interacting with the sleeve 2 from the top. The sash is therefore held on the frame with the possibility of rotation and / or folding. In order to bring the sash, for example, into a tilted open position, the hinge rod 3 is mounted on the support bracket 5 with the possibility of rotation around the horizontal axis 4.

The support bracket 5 includes a base 6, from which two support flanges 7, 8 are bent at a distance from each other. The horizontal axis 4 forms the axis of rotation of the hinge rod 3 and is itself formed by a pin 9 mounted by the ends to rotate in the mounting holes 10, 11 of the support shelves 7, 8. The rotation of the stud 9 around the horizontal axis 4 requires a relatively high torque, that is, means are provided that cause an overcome frictional and / or geometric short circuit between the stud 9 and at least one of ornyh shelves 7, 8 for the creation of high torque. For example, the pin 9 is riveted with at least one of the support shelves 7, 8 in such a way that a high friction force must be overcome for rotation. The rotation is carried out mainly by the corresponding tool inserted into the socket of the pin 9. This socket is made in at least one of the end faces 12, 13 of the pin 9.

The hinge rod 3 preferably has an opening 15 provided with an internal thread 146 in the region of one of its ends. A stud 9 is provided with an external thread 16 screwed therein. For the sake of simplicity, the external thread 16 in FIG. 1 is not shown in detail.

The base 6 has mounting holes 17 spaced apart from each other, into which corresponding fastening elements, for example screws, can be screwed in for fixing, for example, on the frame. In addition, the base 6 may have several pin-shaped guide protrusions 18 (Fig. 2), which guarantee reliable fastening.

The distance between the two support flanges 7, 8 is greater than the thickness of the hinge rod 3 in the area between them, so that when the pin 9 rotates, depending on the direction of rotation, the hinge rod 3 can move in the double arrow 19. This offset occurs due to the engagement of the external thread 16 of the pin 9 for the internal thread 14 of the hinge rod 3, which ensures the regulation of the sash, for example, relative to the corresponding frame. Further, by engaging the external 16 and internal 14 threads, the hinge rod 3 can rotate around the horizontal axis 4 in FIG. 2 along the double arrow 20. For example, in FIG. 2, the hinge rod 3 can be rotated from the vertical position indicated by the solid line to the position rotated relative to it by 90 °. This 90 ° rotated position is indicated by the dash-dotted line 21. For example, you can then rotate the hinge rod 3 to the inclined position indicated by the dash-dotted line 22. This rotation occurs because the user grabs the hinge rod 3 and rotates it to the desired position. The displacement of the hinge rod 3 in the double arrow 19 occurs, on the contrary, due to the fact that the user rotates the pin 9 relative to the support bracket 5, for example, by the aforementioned tool.

In order for the hinge rod 3 to maintain its pivot position occupied on the pin 9, for example, as indicated in FIG. 2 by solid or dash-dotted lines 21, 22, between which rotation-preventing means 23 are provided between the pin and the pin 3, i.e. To rotate the hinge rod 3 on the stud 9, it is necessary to apply increased torque. Since, as already mentioned, the pin 9 is rotatably mounted in the support flanges 7, 8, the device is designed so that the rotation of the pin 9 in the mounting holes 10, 11 of the support flanges 7, 8 requires a higher torque than the rotation of the hinge rod 3 by hairpin 9.

The following describes in detail the implementation of the rotation-obstructing means 23. For this, reference should first be made to FIG. 5, in which a longitudinal section shows a portion of the internal thread 14 of the hole 15 of the hinge rod 3 and a corresponding portion of the external thread 16 of the pin 9. The inner 14 and outer 16 threads are engaged with each other, and their corresponding depth 1 is indicated by a zigzag line. The thread pitch is indicated by the letter I. The pin 9 has, if measured from the axis 4, a nominal radius K. It extends to the flattened peaks 24 of the external thread 16. In this case, the internal thread 14 of the hinge rod 3 has concave hollows 25. The flattened grooves 25 are always flattened the top 26 of the internal thread 14 and the corresponding concave cavity 27 of the external thread 16.

To implement the aforementioned rotation-obstructing means 23 according to the invention, it is provided that the outer contour 28 of the cross-section of the stud 9 has a non-circular cross-section 29 (Fig. 4). The device is designed in such a way that at least one section 30 of the outer contour 28 of the cross section has an overestimated size 31 of the peaks 24 of the external thread 16 with respect to the corresponding dimensions of the troughs 25 of the internal thread 14 of the hinge rod 3.

The oversized dimension 31 extends in the radial and / or axial direction with respect to the longitudinal extent of the axis 4. To explain the non-circularity in FIG. 4 around axis 4, the dashed-dotted line indicates the circumscribed circle Ish, and the dashed line indicates the inscribed circle Ιη. It can be seen that the outer contour 28 of the section differs from the circular contours of the described Ish and the inscribed Ιη circles, and this deviation occurs, in particular, in three sections 30 displaced relative to each other mainly at 120 °, and, therefore, the outer contour 28 section has a trilobumeric form 32.

Moreover, the device can be advantageously designed in such a way that the diameter ящий passing through the axis 4 is the same in any angular position. For clarity, in FIG. 4 shows only four diameters Ό.

Thus, the outer contour 28 of the cross section has a polygonal shape 33, which in the illustrated example has three angles, so that a trilobumeric shape 32 is specifically implemented. Due to the mentioned oversized size 31, a corresponding tight movement occurs when turning the hinge rod 3 on the stud 9 so that it stores, for example, those explained with reference to FIG. 2 different turning positions and does not shift to an undesirable position. Thus, for example, it is possible to turn it at the manufacturer to that indicated in FIG. 2 by a dash-dot line 21 position, and then transport the angular support 2 to the user in this position. The user removes the angular support 2 from the transport package without changing this position and can therefore immediately install the angular support 2, for example, screw the fixing screws into the mounting holes 17 by means of an automatic screwdriver, since the hinge rod 3 occupies a position in which it does not close the mounting holes 17 When the corner support 2 is mounted, for example, on said frame,

- 3,026,626 a user, such as a window installer, can rotate the hinge rod 3 to the position indicated by the dot-dash line 22 (FIG. 2), which facilitates putting on the casement cover. No assistant is required to hold the hinge rod 3 in the named position, since it spontaneously maintains its rotation position due to the rotation-hindering means 23.

The trilobumeric form 32 of the external thread 16 causes a tight stroke in the threaded hole 15 of the hinge rod 3 arising from the size of a certain oversized size 31. The trilobomeric form 32 can be obtained, in particular, by rolling the external thread 16, i.e. it is not cut, but rolled. In addition to the tight stroke obtained in this way, when the internal 14 and external 16 threads are rotated with respect to each other, a self-braking effect occurs. Even after several rotations of the hinge rod 3 and the pin 9 with respect to each other, the correspondingly increased torque does not weaken, but has a substantially long-lasting effect. This is achieved, in particular, due to the fact that the oversized size 31 is selected so that it does not occur or only slightly insignificant plastic arises, but essentially or only elastic tension of the internal 14 and external 16 threads. This leads to a relatively constant torque of both parts over a long operating time and even when they are repeatedly rotated with respect to each other.

Only very slightly increased torque will decrease with very frequent rotation of both parts. Additionally, it is predominantly provided that the hinge rod 3 in the area of its internal thread 14, i.e. in the area of its threaded hole 15, is relatively thin-walled, i.e. there it is predominantly flattened and has a wall 34, the thickness of which is less than the diameter ά of the hinge rod 3, in particular substantially less, mainly approximately half. The wall thickness 34 is indicated in FIG. 1 letter \ ν. those. ν <ά.

The internal thread 14 of the hinge rod 3 has a circular cross section, i.e. made in a circular cross-section.

In FIG. 5, the overestimated size of the peaks 24 of the external thread 16 with respect to the corresponding dimensions of the troughs 25 of the internal thread 14 is not visible, since it is not shown. In addition, the depth 1 of the internal thread 14 is shown to be equal to the depth 1 of the external thread 16. The depth I is an idealized depth, because the corresponding thread, as usual, is shown triangular elongated. Additionally or as an alternative to oversized size 3, in the angular support 2 it can be provided that the depth 1 of the internal thread 14 is less than the depth 1 of the external thread 16, so that an additional tight move is achieved when the hinge rod 3 is turned on the stud 9. Also this different depth 1 in FIG. . 5 is not shown, but leads to a predominantly elastic retraction of the internal 14 and external 16 threads. This contraction leads to an additional complication of rotation, i.e. to an additional, rotation-hindering means 23, or to difficulty of rotation, and, thereby, to a rotation-hindering means 23, available respectively in at least one portion of the inner contour of the cross section of the internal thread 14 or throughout its entire inner contour of the cross section.

In FIG. 3 shows the corresponding FIG. 4 is a view, however, with an angular support 2. The trilobumeric shape 32 of the outer contour 28 of the cross-section of the pin 9 in the circular threaded hole 15 of the hinge rod 3 is clearly visible. Arrows 35 offset by 120 ° from each other from axis 4 indicate each, the highest point trilobumeric form 32, i.e. points at which oversized 31 are the largest. Between the points there are sections that are not oversized or even underestimated.

Claims (10)

CLAIM 1. An adjustable angular support for a sash of a window or door, comprising a support bracket and a hinge rod mounted on the support bracket with the possibility of displacement by means of an external threaded pin to support the sash, the pin being rotated for adjustment is screwed into the hinge rod hole provided with an internal thread and rotates the hinge rod relative to the stud is complicated by a rotation-obstructing means, characterized in that for performing the rotation-obstructing means (23), the stud (9) at least in the area of its external thread (16) has a non-circular cross-section so that at least one section (30) of the external contour (28) of the cross-section has an oversized size (31) of the ends (24) of the external thread (16) relative to the size of the hollows (25) of the internal thread (14). 2. Adjustable angular support according to claim 1, characterized in that the oversized size (31) is made such that it provides essentially elastic retraction of the internal thread (14) and the external thread (16). 3. An adjustable angular support according to one of the preceding paragraphs, characterized in that the outer contour (28) of the section has a polygonal or approximately polygonal shape (33). 4. Adjustable angular support according to one of the preceding paragraphs, characterized in that the outer contour (28) of the section has a trilobumeric or approximately trilobumeric shape (32). - 4,026,626 5. Adjustable angular support according to one of the preceding paragraphs, characterized in that the internal thread (14) has a circular cross-section. 6. Adjustable angular support according to one of the preceding paragraphs, characterized in that the external thread (16) is made in the form of a knurled thread. 7. Adjustable angular support according to one of the preceding paragraphs, characterized in that the support bracket (5) has two support shelves (7, 8), between which at least one section of the hinge rod (3) is located. 8. Adjustable angular support according to one of the preceding paragraphs, characterized in that the stud (9) is mounted on the support bracket (5) with the possibility of tight rotation. 9. Adjustable angular support according to one of the preceding paragraphs, characterized in that it is designed so that the torque for rotation of the stud (9) on the support bracket (5) is higher than the torque for rotation of the hinge rod (3) on the stud (9). 10. An adjustable angular support for the sash of a window or door according to claims 1 to 9, characterized in that the rotation-obstructing means (23) are made with a depth (1) of the internal thread (14) in at least one section of its internal section contour or the entire inner contour of the cross section is less than the depth (1) of the external thread (16).