EP0930411A1 - Door or window hinge - Google Patents

Abstract

The blind frame (10) and casement/leaf frame (11) loops are joined by a spindle (14) fitting into bearing-sleeves (12,13) in the loops. The spindle is eccentrically contained in a hole (15) in the bearing sleeve (12), whose turning angle is adjustable in the casement frame loop. The blind frame loop has an axially adjustable support part (16) supporting the casement frame loop and guided so that it does not turn in the blind frame loop. Preferred Features: The support part is adjustable by its inner thread (17) on the outer thread (18) of the spindle which is axially immovable but can turn in the bearing sleeves. The bearing sleeve of the blind frame loop has a spindle-container-hole (19) eccentrically positioned in relation to the spindle's outer periphery (13') and beneath the spindle's outer thread.

Description

The invention relates to a door or window hinge with the features of the preamble of claim 1.

A door or window hinge with the aforementioned features is known from DE 37 19 516 C2. With the rotation angle adjustment the bearing sleeve in the sash lobe can be reached be that depending on the positioning of the eccentricity of the Pin receiving bore a side adjustment and / or one Pressure adjustment takes place. The two aforementioned adjustments must always be carried out in combination. A Lateral adjustment therefore leads - except in the case of a rotation angle adjustment by 180 degrees - always for a pressure adjustment. This is fundamentally undesirable. Besides, can the eccentricity of the pin receiving bore of the bearing sleeve not be of any size. The one in the storage area required dimensions force the eccentricity comparatively small. As a result, the Adjustments can only be made insufficiently large.

In contrast, the invention is based on the object a door or window hinge with the aforementioned Features to improve so that side and / or pressure adjustments can be carried out where the inevitable Dependency of both at least relaxed can be and / or an increase in the setting range is achieved.

This task is accomplished through the characteristics of the label part of claim 1 solved.

It is important for the invention that in addition to the im Sash frame lugs provided another adjustment Adjustment possibility provided in the frame rag becomes. This additional adjustment means that Adjustments of the sash lobe can be made are composed of two adjustment components, the Size and direction can be predetermined independently of each other can. It is basically possible with a side adjustment by adjusting the angle of rotation of the bearing sleeve of the sash lobe in the sense of this side adjustment to necessarily compensate coupled pressure adjustment. For this purpose, an angle of rotation adjustment of the bearing sleeve of the Frame lobe are performed so that the of her achieved adjustment component exactly the same size and opposite is directed like the component of the pressure adjustment, which changes in the angle of rotation of the bearing sleeve in the casement lobe forcibly with a side adjustment results. Such compensation can also be carried out partially if the pressure adjustment in one tolerable range is kept. The same applies for a pressure adjustment which is to be achieved that an inevitably coupled side adjustment is avoided or partially compensated. The eccentric Arrangement of the pin receiving bore in the bearing sleeve of the Aperture flap also allows an increase in the adjustment range, for example an enlargement of the pressure area. If a particularly large adjustment range is not double adjustment is also necessary be used to keep the belt in the area of its storage locations to make it more compact by the outer dimensions of the sleeves be kept correspondingly smaller.

The band can be developed so that the bearing sleeve of the frame lobe axially parallel on its outer circumference Has guide ribs in the axially parallel guide grooves of the frame lobe. With the engagement of guide ribs The angle of rotation adjustment is in guide grooves realized. The formation or arrangement of the guide ribs and grooves will depend on the arrangement and number of desired Adjustment options of the bearing sleeve matched.

If only one adjustment option is desired by turning the bearing sleeve by 180 degrees, the band is expediently designed in such a way that the bearing sleeve and its frame lobe are diametrically opposed to each other opposite guide ribs and guide grooves in the level of maximum eccentricity of the pin receiving bore of the Have the bearing sleeve of the frame lobe.

To keep the support part in the frame lobe non-rotatable lead, the band can be designed so that the support member has at least one guide rib, each in one Guide groove is used, which is also a guide rib the bearing sleeve of the window frame tab. Consequently are the guide grooves of the frame lobe, which for Inclusion of guide ribs on the bearing sleeve of the frame lobe serve, at the same time for guiding ribs of the support part is used.

Furthermore, it is useful if the internal thread in Support part is arranged eccentrically, as is the pin receiving bore the bearing sleeve of the frame lobe. In In this case, the eccentric axes of the support part and the Bearing sleeve of the frame lobe always coaxial and it it is therefore possible to use the frame lugs accordingly form coaxial bore sections in which the Support part and the bearing sleeve are stored. Both hole sections can then the support member and the bearing sleeve each support around its outer circumference, what is advantageous for the stability of the tape.

If the tape is designed so that the axially parallel Guide grooves of the frame tab vertically to one Fastening surface of the frame tab are arranged, the further adjustment option on the frame side becomes Pressure adjustment used. An influence of the bearing sleeve the frame lobe is on a side adjustment then excluded.

In the door or window hinge of DE 37 19 516 C2 a support part is used, which is a ring body made of low-friction Contains material with which the support part is radial is stored in the frame rag. This storage can be because of the play of movement of the thread of the support part on the The external thread of the axle pin is not free of play. The radial support the axle pin is therefore subject to play and accordingly not suitable for larger loads on the belt.

Accordingly, the door or window hinge, which also the features of the prescribed embodiments of Can have door or window hinges, thereby improved be that above the support part a the bearing sleeve of There is a pressure piece for the wing frame lobe, that the axle pin radially independent of the support part in the frame lobe stores.

In the above-described design of the door or Window hinge remains that required for the support part Thread play except for the radial support of the axle pin Consideration. This is essentially done exclusively by the thrust piece is supported radially, which meets the high load requirements trained and dimensioned accordingly can be. An adaptation of the shape of the pressure piece to the support part is only negligible Scope necessary, as far as it supports the pressure piece concerns, but not its function for radial storage of the axle pin. Dimensions of the pressure piece need just to be tuned to this radial bearing what it enables the belt to be designed for high loads, to achieve the required deformation stability or the required security against burglary.

The band can be designed so that the pressure piece at all constructively predetermined axial positions of the support part from a bearing hole in the frame lobe protrudes axially. This ensures that the The sash not directly on the frame rag can support, but only on the designated support surface of the pressure piece.

It is advantageous if the pressure piece made of plastic consists. A plastic can be selected that is both the specific pressure loads, as well has a low coefficient of friction, so that the required durability and ease of movement of the tape can be guaranteed.

The band can be developed so that the pressure piece and the support part in a rotationally locking manner with one another are coupled. As a result of their positive coupling the pressure piece and the support part in a predetermined Position each other so that assembly errors are avoided become. In addition, such a torsionally positive Coupling achieves that the pressure piece easier can be trained, namely without anti-rotation the frame lugs, if such a fuse by Support part is guaranteed.

Another specialization of the tape can be that the pressure piece and the support part in the sense of a unchangeable in all rotational positions of the support part Relative rotation position are coupled. As a result, is only a single assembly position possible. Faulty assembly from the pressure piece and support part are safely excluded.

An improved radial support of the pressure piece results itself when the thrust piece is radial with its entire outer circumference is stored in the frame rag. The improvement is there in that in any angular position of the pressure piece relative to the frame rag and with every load the sash lugs always the same in every direction radial support surfaces are available. The support is uniform all around the outside.

In addition, it is possible to form the band in such a way that the pressure piece in a bearing recess of the frame tab is mounted radially, the diameter of which is at least equal to that measured over the guide ribs of the support part Diameter is. The result is a large diameter of the pressure piece with low specific surface pressures for window frame rag. In addition, the load-bearing surface of the Thrust piece for the frame lobe enlarged, depending on the size of the diameter measured over the guide ribs the bearing recess for the pressure piece.

In the sense of the compact radial structure of the band it to form this so that a receiving hole for the Axis pin in the pressure piece is also arranged eccentrically, like the internal thread of the support part. As a result, can the pressure piece, the support part and the bearing sleeve inside of the frame lobe with the same level of their maximum Eccentricity can be arranged. The burden of the particular plastic pressure piece is in all radial Directions the same.

The band can advantageously be designed that the length of the mounting hole for the axle pin is the largest Thickness of the pressure piece is. This will ensure optimal radial support of the axle pin by the pressure piece on Axle pin worried. The surface pressure of the pressure piece is in in this case minimal.

Fig.1

eine perspektivische schematische Darstellung eines Türbandes,

Fig.2

einen Längsschnitt durch einen Blendrahmenlappen vertikal durch einen zugehörigen Achsstift,

Fig.3

einen Längsschnitt durch den Flügellappen quer zum Achsstift,

Fig.4

eine auseinandergezogene perspektivische Darstellung des Achsstifts und der mit diesem im Blendrahmenlappen zusammenwirkenden Bauteile, und

Fig.5a,5b

Aufsichten auf den Blendrahmenlappen von oben in Richtung des Achsstifts ohne Druckstück und ohne Abstützteil.

The invention is explained with reference to an embodiment shown in the drawing. It shows:

Fig. 1

2 shows a perspective schematic illustration of a door hinge,

Fig. 2

a longitudinal section through a frame lobe vertically through an associated axle pin,

Fig. 3

a longitudinal section through the wing flap across the axis pin,

Fig. 4

an exploded perspective view of the axle pin and the components interacting with it in the frame lobe, and

Fig.5a, 5b

Top views of the frame lugs from above in the direction of the axle pin without pressure piece and without support part.

The door hinge shown in Fig.1 has as main components a frame flap 10 and a casement flap 11. The frame tab 10 is with a mounting surface 26 on the fixed frame of the not shown Door knocked. The sash 11 is with a Mounting surface 27 on the sash frame, not shown Door knocked. The two lobes 10, 11 are with one Axle pin 16 coupled form-fitting horizontally, so that the Wing hinge flap 11 with a pivoting wing around one in 2 shown pivot axis 16 'of the axis pin 16 pivotable is.

The sash 11 has a bottom 28 which according to Fig.1 has two interconnected webs 29,30. The Bars 29,30 jump perpendicular to the mounting surface 27 of the Floor 28 in front and delimit a space in which one Clamping plate 31 is arranged with fastening screws 32 pulled towards the sash frame, not shown and presses on the floor 28. The bottom 28 will thereby clamped on the casement.

The arrows 33 mean that the sash 11 in the adjustment directions corresponding to them are adjusted can. The adjustment is shown in FIG. 3 Adjustment means 34 causes. The adjustment means 34 exist essentially from an adjusting screw 35 which with its head 35 'is rotatably adjustable in a recess 36 in the base 28, but engages axially immovable. Another is an essential part of the screw adjustment means 34 a nut 37 attached to the clamp plate 31. A Twist the screw 35 with a wrench into a polygonal recess of the head, not shown 35 'engages, leads with loosened fastening screws 32 to a lateral adjustment of the clamping plate 31 and thus a corresponding adjustment of the wing because of the floor 38 due to its coupling with the frame tab 10 with respect the frame is stationary, insofar as any Swinging movements of the wing is disregarded. The adjustment takes place depending on the direction of rotation of the screw 35 in the directions arrows 33. So that the fastening screws 32 do not can be easily loosened and the clamping plate 31st is covered, a cap 38 is present, which between the webs 29, 30 and on the axis eye 28 'of the base 28 is locked. A plug 39 closes a passage for a wrench of the screw 35 engage in the sash frame and ensure the exact fit of the bottom 28 on the wing, even if the fastening screws 32 are loosened.

The axis eye 28 'of the sash 11 is with a bearing bore 41 for a bearing sleeve 12, the a pin receiving bore 15 for mounting the axle pin 14 Has. The pin receiving bore 15 of the bearing sleeve 12 is to the Outer periphery 12 'arranged eccentrically. 2, 3 show that the axis 14 'of the axle pin 14 eccentric to the axis 41 'of the bearing bore 41 is arranged. In the bearing bore 41 are opposing locking cross sections 42 arranged with respect to the bearing sleeve 12 to be arranged with positioning notches 43 so as to be adjustable in rotation angle is. There are three positioning notches 43 so that the bearing sleeve 12 in three different rotational angle positions can be adjusted in which the cross sections of the Positioning notches with the locking cross sections 42 form a common cross-section in which a not locking pin shown can be used, so that an unintentional rotation of the bearing sleeve 12 is not is possible. With an adjustment of the bearing sleeve 12 in the Bearing bore 41 is a displacement of the axis 14 'of Axle pin 14 on a circle around the axis 41 ', so that as a result, any adjustment of the bearing sleeve 12 to one corresponding side adjustment leads, but also at the same time a corresponding pressure adjustment. The bearing bore 41 is above the bearing sleeve 12 with a latched cap 44 locked.

The frame hinge is attached with the fastening screws shown in Fig.2 45 on the frame, not shown attached and dowel pins 46 ensure a snug fit, regardless of tightening the fastening screws 45. At the level of the dowel pins 46, the frame tab 10 has one Bearing bushing 47 with a bearing recess 25 which is longitudinally continuous is, but narrows at the bottom. It will be a Support base 47 'formed for a bearing sleeve 13, which with one end 13 '' into the narrowed recess of the support base 47 'engages. The bearing sleeve 13 has a pin receiving bore 19 for the axle pin 14. This engages with its lower End 14 '' 'to near the bottom 47' in the pin receiving hole 19 a. He supports himself with a collar 48 on top of the bearing sleeve 13. The axle pin 14 is so supported vertically so that its upper end 14 '' in predetermined Extent engages in the bearing sleeve 12.

The pin receiving bore 19 of the bearing sleeve 12 is in relation arranged eccentrically on its outer circumference 13 '. This 5a and 5b, in which the eccentric Arrangement of the pin axis 14 'with respect to the axis 25 'of the bearing recess 25 is shown. So that eccentricity the pin receiving bore 19 for positioning the axle pin 14 can be used is the bearing sleeve 13 according to FIG. 4 on its outer circumference with guide ribs 20 provided which engage in guide grooves 21 of the bearing recess 25. The guide grooves 21 extend from the bottom 47 ' down to the lowest position of a pressure piece 23. The guide ribs 20 are diametrically opposite one another arranged and extend only over part of the height or length of the bearing sleeve 13. The left guide rib in Fig. 4 20 is provided with a mark 20 'for easy Positioning instructions for the bearing sleeve 13 admit can. The guide grooves 21 are as shown in Fig.5a and 5b arranged that they are in a plane perpendicular to the mounting surface 26 of the frame tab 10 lie, that is, transversely to the frame level. The bearing sleeve 13 is accordingly in two to bring different positions, namely in a first according to Fig.5a, in which the axis 14 'on the mounting surface 26 facing away from the axis 25 ', and a second position shown in Figure 5b, in which the Axis 14 ′ of the axle pin 14 on that of the fastening surface 26 adjacent side of the axis 25 'is arranged. By adjustment the bearing sleeve 13 can thus a pressure adjustment can be achieved through which the with the pin 14th coupled wing frame lobes 11 more or less against the Frame of the door is pressed. The practical adjustment path is, for example, 1 mm. It is of course also possible that Arrange guide grooves 21 so that they are in the display level 5a, 5b are arranged horizontally. Hereby a side adjustment would result. In both of the above Cases can be reached through the bearing sleeve 13 Adjustment of the axle pin 14 through the bearing sleeve 12 to be achieved adjustment of the axis pin 14 superimposed or vice versa. It can be used for side and Depending on the individual case, increase the pressure adjustment or compensate so that the basic disadvantage of a combined Side and pressure adjustment eliminated or reduced can be, depending on the relation of the adjustment path sizes.

The hinge is also designed with a height adjustment. It can therefore work in all three coordinate directions be adjusted. The axle pin 14 is for height adjustment provided with an external thread 18 shown in Figure 4. On this external thread 18, a support member 16 with a Internal thread 17 screwed on. The support member 16 is on his Outer circumference with diametrically opposed Provide guide ribs 22, which are also in the guide grooves 21 of the bearing recess 25 fit. It is as a result possible to support part 16 in this way on external thread 18 screw on that the guide ribs 22 with the guide ribs 20 of the bearing sleeve 13 are aligned. This case is in the Cross section of Figure 2 shown. An adjustment of the Support part 16 on the thread 18 is then possible that the support member 16 is positioned at different heights can be caused by the pitch of the external thread 18 on the one hand and a turning of the support part 16 the external thread 18 are determined on the other hand. The total height adjustment to be achieved is determined by the Thread 18 provided axle pin length and for load reasons minimum required length of engagement between the Internal thread 17 and the external thread 18. The height adjustments according to arrows 49 in FIG. 1, several Millimeters. The same applies to the area of Pressure adjustment according to arrows 50.

The support member 16 supports a pressure piece 23, which in turn a bearing surface 23 'for an annular collar 12' ' Has bearing sleeve 12.

The internal thread 17 is also eccentric in the support part 16 arranged as the pin receiving bore 19 in the Bearing sleeve 13. As a result, the longitudinal axis of the internal thread 17 or the support piece 16 coaxial with the Axis of the pin receiving bore 19 are arranged and that is also required if the threads 17, 18 are concentric to the axis 14 'of the pin 14 are arranged. Without special Otherwise, measures would be taken to position the support part 16, in which an assembly with the frame tab 10th would not be possible.

The pressure piece 23 is made of plastic and has a low Friction coefficient with respect to the bearing sleeve 12 so that the between the sash lobe 11 'as a result of pivoting movements of the sash and the frame lobe 10 occurring relative movements not excessively inhibited and excessive wear can be eliminated can. The pressure piece 23 has a cylindrical all around Outer circumference 23 'without guide ribs and seated radially in a section 25 '' of the bearing recess 25, which also is cylindrical all around. The diameter of this Section 25 '' is the same size as that over the guide ribs 22 of the support part measured diameter. The diameter the section 25 '' of the bearing recess 25 is therefore over twice the depth of the grooves 21 compared to the Diameter of the bearing recess 25 outside of this section 25 '' enlarged. This will install the bearing sleeve 13 and the support part 16 not hindered, on the other hand but ensures that the pressure piece 23 with its all around cylindrical outer circumference 23 'radially optimal in the bearing bush 47 is supported. This serves a high resilience of the pressure piece 23 in the radial direction with low specific Surface pressures.

The pressure piece 23 encloses the axle pin 14 with a Location hole 24, the axial length of which is as large as possible is, namely equal to the thickness or the greatest thickness of the Pressure piece 23. In this respect is also in the area of the axle pin 14 for optimal power transmission from the axle pin 14 in radial direction, namely at low specific Surface pressures. Above all, the radial described above ensures Bearing of the axle pin 14 so that it is independent is held by a game that between the support member 16th and the axis pin 14 required in the area of the thread engagement is sufficient for the purpose of adjustment is smooth. It will be a very good radial clearance free Support by the pressure piece 23 is reached.

The receiving bore 24 is with respect to the outer circumference 23 'of the pressure piece 23 arranged eccentrically, namely in the same dimensions as described for the bearing sleeve 12. As a result, the pressure piece 23 can be coaxial the support part 16 and the bearing sleeve 12 are arranged and hinders the assembly of the axle pin with the frame lug 10 with a common, coaxial bearing recess 25 not. For more precise and simplified relative positioning are the pressure piece 23 and the support part 16 coupled with each other in a torsionally positive manner, in one only constant relative rotation position. That makes it easier the assembly of the pressure piece 23 with the support part 16 and the required accuracy of the Assembly can be achieved. This accuracy is relative the circumferential direction is very large and only due to tolerance. The positive fit can be designed in the radial direction be that necessary for the thread engagement Game is tolerated. For the practical design of this Positive engagement engages a pin 51 of the support member 16th into a depression 52 of the pressure piece 23 open at the bottom Well 52 goes from the bottom of the pressure piece 23 and is located vertically above the pin 51 in FIG shown.

Height adjustment is done by using an adjustment key through a recess 53 of the bearing sleeve 13 into a polygonal recess 54 in the lower end 14 '' 'of the axle pin 14 used and rotated. The thread 18 is a right-hand thread shown so that a rotation of the pin 14th clockwise to lower the support member 16 leads. Such a turn of the key clockwise for a vertical adjustment of the support part 16 lead upwards, the thread 18 is to be designed as a left-hand thread.

Claims (15)

Door or window hinge, with a frame flap (10) and with a sash flap (11), which are articulated with a pin (14) engaging in bearing sleeves (12, 13) of these flaps (10, 11), with an eccentric to it The outer circumference (12 ') of the pin receiving bore (15) of the bearing sleeve (12) assigned to the sash frame tab (11), which is arranged in the sash frame tab (11) so as to be adjustable in angle of rotation, and with an axially adjustable, non-rotatably guided in the sash frame tab (10) and the sash frame tab ( 11) supporting support part (16) which is adjustable with an internal thread (17) on an external thread (18) of the axle pin (14), which is rotatable in the bearing sleeves (12, 13) but is axially immovable, characterized in that the Bearing sleeve (13) of the frame lug (10) below the external thread (18) of the axle pin (14) has an eccentric to its outer periphery (13 ') arranged pin receiving bore (19) and in the glare frame tab (10) is arranged adjustable in rotation angle. Door or window hinge according to claim 1, characterized in that the bearing sleeve (13) of the frame lug (10) has on its outer circumference (13 ') axially parallel guide ribs (20) which engage in axially parallel guide grooves (21) of the frame lobe (10). Door or window hinge according to claim 1 or 2, characterized in that the bearing sleeve (13) and its frame flap (10) diametrically opposite guide ribs (20) and guide grooves (21) in the plane of greatest eccentricity of the pin receiving bore (19) of the bearing sleeve ( 13) of the frame tab (10). Door or window hinge according to one of claims 1 to 3, characterized in that the support part (16) has at least one guide rib (22) which is inserted in each case in a guide groove (21) which also has a guide rib (20) of the bearing sleeve ( 13) of the frame tab (10). Door or window hinge according to one of claims 1 to 4, characterized in that the internal thread (17) in the support part (16) is arranged eccentrically, as is the pin receiving bore (19) of the bearing sleeve (13) of the frame tab (10). Door or window hinge according to one of claims 1 to 5, characterized in that the axially parallel guide grooves (21) of the frame tab (10) are arranged vertically to a fastening surface (26) of the frame tab (10). Door or window hinge, with a frame flap (10) and with a sash flap (11), which are articulated with a pin (14) engaging in bearing sleeves (12, 13) of these flaps (10, 11), with an eccentric to it The outer circumference (12 ') of the pin receiving bore (15) of the bearing sleeve (12) assigned to the sash frame tab (11), which is arranged in the sash frame tab (11) so as to be adjustable in angle of rotation, and with an axially adjustable, non-rotatably guided in the sash frame tab (10) and the sash frame tab ( 11) supporting support part (16), which is adjustable with an internal thread (17) on an external thread (18) of the axle pin (14), which is rotatable in the bearing sleeves (12, 13) but axially immovable, in particular according to one of the claims 1 to 6, characterized in that above the supporting part (16) there is a pressure piece (23) supporting the bearing sleeve (12) of the sash frame tab (11), which pressure element (14) ) radially independent of the support part (16) in the frame tab (10). Door or window hinge according to one of claims 1 to 7, characterized in that the pressure piece (23) protrudes axially at all structurally predetermined axial positions of the support part (16) from a bearing recess (25) of the frame tab (10). Door or window hinge according to one of claims 1 to 8, characterized in that the pressure piece (22) consists of plastic. Door or window hinge according to one of claims 1 to 9, characterized in that the pressure piece (23) and the support part (16) are coupled to one another in a rotationally positive manner. Door or window hinge according to one of Claims 1 to 10, characterized in that the pressure piece (23) and the support part (16) are coupled in the sense of a relative rotational position which cannot be changed in all the rotational positions of the support part (16). Door or window hinge according to one of claims 1 to 11, characterized in that the pressure piece (23) is mounted radially with its entire outer circumference (23 ') in the window frame tab (10). Door or window hinge according to one of claims 1 to 12, characterized in that the pressure piece (23) is mounted radially in a bearing recess (25) of the frame lug (10), the diameter of which is at least equal to that of the guide ribs (22) of the support part ( 16) measured diameter. Door or window hinge according to one of claims 1 to 13, characterized in that a receiving bore (24) for the axle pin (14) is arranged eccentrically in the pressure piece (23), as is the internal thread (17) of the support part (16). Door or window hinge according to one of claims 1 to 14, characterized in that the length of the receiving bore (24) for the axle pin (14) is the greatest thickness of the pressure piece (23).

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