DE102009004862A1 - Clamping device for traction mechanism drive, has pivot arm and guide roller device carried by pivot arm, where trunnion is immersed in bearing inner ring - Google Patents

Abstract

The clamping device has a pivot arm (1) and a guide roller device (2) carried by the pivot arm. The trunnion (7) is immersed in a bearing inner ring (4), where an abutting face formed by the trunnion and facing away from the pivot arm remains under an axial level (E) of the abutting face of the bearing inner ring. A nut element (10) is provided with an axial sleeve section (11).

Description

Field of the invention

The The invention relates to a clamping device for a Traction drive with a swivel arm and a worn by this Roller device, wherein the roller device is a rolling bearing with a bearing inner ring, a bearing outer ring and rolling elements includes those defined in a between the two bearing rings Rolling bearing interior are added.

Background of the invention

Out DE 10 2005 020 530 A1 a tensioning device of the aforementioned type is known. In this proven tensioning device, a pivot pin made integral with the pivot arm is provided on the pivot arm which passes through the inner ring of the rolling bearing. At an end portion of the journal facing away from the pivot arm, an external thread is formed. On this external thread sits a nut which, as such, clamps the inner ring of the rolling bearing against a contact section of the pivoting arm.

Object of the invention

Of the Invention has for its object to provide solutions which makes it possible, with a small space requirement a heavy-duty connection of the roller device to the swivel arm in an advantageous from a manufacturing point of view Way to accomplish.

invention solution

• – einem Schwenkarm
• – einer von dem Schwenkarm getragenen Laufrolleneinrichtung,
• – einem Wälzlager das Bestandteil der Laufrolleneinrichtung bildet, und einen Lagerinnenring, einen Lageraußenring sowie Wälzkörper umfasst die in einem zwischen den beiden Lagerringen definierten Wälzlagerinnenraum aufgenommen sind,
• – einem Tragzapfen der integral mit dem Schwenkarm gefertigt ist, und
• – einem Mutterelement das einen Radialflanschabschnitt bildet der auf einer dem Schwenkarm abgewandte Stirnfläche des Lagerinnenringes aufsitzt, zur Sicherung der Laufrolleneinrichtung an dem Schwenkarm, wobei
• – der Tragzapfen derart in den Lagerinnenring eintaucht, dass eine durch den Tragzapfen gebildete und dem Schwenkarm abgewandte Stirnfläche unter einem Axialniveau der Stirnfläche des Lagerinnenringes zurückbleibt, und
• – das Mutterelement einen Axialbuchsenabschnitt aufweist der einen in den Lagerinnenring eintauchenden Lagersitz sowie einen den Tragzapfen innerhalb des Lagerinnenringes übergreifenden Buchsenbereich bildet, wobei in dem vom Lagerinnenring umgriffenen Axialbereich des Tragzapfens jener Buchsenbereich mit dem Tragzapfen über eine Gewindestruktur in Eingriff steht.

This object is achieved by a clamping device for a traction drive with:

• - a swivel arm
• A caster device carried by the pivot arm,
• A rolling bearing which forms part of the roller device, and a bearing inner ring, a bearing outer ring and rolling elements which are received in a rolling bearing inner space defined between the two bearing rings,
• - A support pin is made integral with the pivot arm, and
• - A nut member which forms a Radialflanschabschnitt which is seated on a side remote from the pivot arm end face of the bearing inner ring, for securing the roller device to the pivot arm, wherein
• - The support pin is so immersed in the bearing inner ring that a formed by the support pin and the pivot arm facing away from the end face remains below an axial level of the end face of the bearing inner ring, and
• - The nut member has a Axialbuchsenabschnitt of a dipping into the bearing inner ring bearing seat and a support pin within the bearing inner ring cross-bushing portion forms, wherein in the encompassed by the bearing inner ring axial portion of the support pin that bushing portion is in engagement with the support pin via a threaded structure.

Thereby it is possible in an advantageous manner, the roller device over an extremely compact joint structure releasably connect to the swivel arm. About the Nut element here is the predominant interior of the Inner ring of the roller device bearing cylinder jacket surface provided and also in the area encompassed by the inner ring the trunnion threaded engagement between the nut member and realized the trunnion. By the invention Concept is in a further advantageous manner, the bending load reduced the trunnion.

According to one particularly preferred embodiment of the invention formed on the support pin, a male threaded portion. This male threaded portion preferably extends over nearly the entire axial area of the inner ring encompassed by the inner ring Trunnion.

According to one particular aspect of the present invention is this male threaded portion without cutting, in particular manufactured by a thread rolling process. This concept is used in particular in the manufacture of the clamping arm made of an aluminum material a particularly stable microstructure reached in the region of the male thread section.

Preferably the trunnion is further designed such that this over a radius range in a bearing ring axially supporting Bearing surface merges. This radius range forms thus still part of the lying within the inner ring area of the trunnion. Due to this concept, a particularly high structural strength of the Reached trunnion. The radius preferably corresponds to the Wall thickness of the threaded bushing area. The outlet of the threaded structures in the nut member, as well as in the foot of the trunnion is preferably designed so that here as small as possible Notching effects occur.

Preferably, the wall thickness of the threaded bushing portion is dimensioned as small as possible in order to realize a large cross-section of the trunnion. The wall thickness is preferably adjusted so that no significant deformations Ses area caused by the action of the thread reaction forces and on the other hand, a sufficient axial force transmission capability is ensured.

In Advantageously, the nut member is designed such that the axial length of the Axialbuchsenabschnittes substantially the axial length of the bearing inner ring minus corresponds to the axial length of the radius range. It is possible, to design the outlet area of the axial bush section that the internal thread on one formed on the support pin Radius range matched threaded outlet has.

Of the Axial bushing portion of the nut member is preferably such dimensioned such that its axial length is substantially the Axial length of the bearing inner ring if necessary less corresponds to the axial length of the radius range.

It is possible in the interior of the Axialbuchsenabschnittes to form a thread-free Zentrierwandungsabschnitt through which a certain radial guidance of the Axialbuchsenabschnittes is reached on the trunnion.

The Nut element is preferably designed such that this one, to the inner axis of the Axialbuchsenabschnitts concentric, as a through hole having trained key insertion. This key insertion opening can with regard to their cross-section in particular be designed so that these too common inner star attack keys is compatible. It is possible via this key insertion opening to realize an anti-rotation, as such, the mother element secures the trunnion. On the support pin can this purpose a ring land be formed by the plastic deformation from the inside pressed into the contour of the Schlüsseleinstecköffnung can be. Otherwise, the trunnion and the nut member Preferably matched to one another such that in built, d. H. completely screwed state of the nut element the front side of the Tragzap fens from the inside to the nut member pending while the key insertion essentially completes the entire surface.

The Nut element is preferably made of a high-strength material, in particular made of a steel material. It is also possible the nut element from a sheet metal material, in particular by a deep-drawing and press-forming process to manufacture.

alternative to the aforementioned embodiment of the external thread on the relatively short trunnion than manufactured by rolling thread it is also possible in the interior of the Axialbuchsenabschnittes to form a self-tapping thread structure.

Especially in a relatively thin-walled design of the Axialbuchsenabschnitts the nut member, it is possible in the trunnions a bring central bore and insert a pin element in this. This pin element can be used as a rivet or screw-like component be executed. About this pin element can increases the tensile load capacity of the trunnion, especially the trunnions are biased to pressure. It is also possible, via this pin element an additional Secure the nut element on the swivel arm. The Pin element may for this purpose have a head portion in the Key opening of the nut element sits. The Pin element can also be used as an insert in the manner of an insert molding part be formed in the trunnions and the swivel arm.

Of the Swivel arm is preferably manufactured as an aluminum die-cast component. The threaded portion can advantageously already in the frame the die casting process made by a corresponding mold become. The thread geometry can be designed as a special thread geometry as such, the different strengths of the material the trunnion and the nut element takes into account.

Brief description of the figures

Further Details and features of the invention will become apparent from the following Description in connection with the drawing. It shows:

1 an axial sectional view for illustrating the inventive connection of a roller device to the pivot arm of a clamping device,

2a and 2 B Sketches to illustrate the structure of the thread formed on the support pin.

Detailed description the figures

In the 1 only partially shown tensioning device serves as such in a conventional manner to maintain the traction means within a traction drive. The tensioning device according to the invention comprises a pivoting arm 1 and one of the swing arm 1 worn caster device 2 ,

The roller device 2 includes a rolling bearing 3 that has a bearing inner ring 4 , a bearing outer ring 5 and rolling elements 6 which in egg between the two bearing rings 4 . 5 trained rolling bearing interior are added. The rolling bearing shown here is designed as a sealed and permanently lubricated bearings.

On the swivel arm 1 is a trunnion 7 formed in the bearing inner ring 4 dips. The clamping device shown here is characterized in that the trunnion 7 an end face 8th forms, which are below an axial level (plane E) of the end face 9 of the bearing inner ring 4 remains.

In the tensioning device according to the invention is further a nut member 10 provided, this mother element 10 an axial bushing section 11 and a radial flange portion 12 forms. The axial bushing section 11 This forms one in the bearing inner ring 4 immersed, cylindrical bearing seat. The axial bushing section 11 also stands in one, from the bearing inner ring 4 encompassed axial region of the trunnion 7 with these trunnions 7 via a thread structure 13 engaged.

In the embodiment shown here comprises that thread structure 13 one on the trunnion 7 trained male threaded portion whose axial length almost the entire axial length of the bearing inner ring 4 equivalent. This external thread section is according to the invention without cutting, in particular manufactured by a thread rolling method. By this measure, it is possible, the structurally relatively short pin 7 nevertheless for transmission relatively high to the nut element according to the invention 10 attacking system forces.

The trunnion 7 is formed such that this over a radius range 14 in a bearing inner ring axially supporting bearing surface 15 expires. The radius range 14 of the trunnion 7 thus forms part of the inside of the inner ring 4 lying region of the trunnion 7 ,

In the embodiment shown here is the Axialbuchsenabschnitt 11 dimensioned such that its axial length substantially the axial length of the bearing inner ring 4 minus the axial length of the aforementioned radius range 14 equivalent.

On the nut element 10 is a key insertion opening 16 formed, which may have, for example, a hexagonal or inner star attack cross-section. It is possible, the axial length of the trunnion according to the invention 7 to vote such that in obstructed, ie completely screwed state of the nut member 10 the front of the trunnion 7 from the inside to the mother element 6 pending while the key insertion 16 concludes.

In the embodiment shown here, the nut element 10 designed such that through the Radialflanschabschnitt 12 the same an extensive sealing or foreclosure of the bearing is achieved with respect to the environment.

On the rolling bearing device sits a, preferably made of a plastic material Zugmittollaufrolle 17 in the embodiment shown here as radial webs 17b exhibiting skeleton structure is executed and on the outer ring 5 of the rolling bearing is held. This Zugmittelroll 17 is in the installed state positive and possibly also frictionally engaged on the bearing outer ring 5 secured. The Zugmittelroll 17 is preferably formed on the outer ring by the rolling bearing, or at least the outer ring thereof inserted in a plastic injection molding machine and molded with glass fiber reinforced plastic (eg., PA-66-GF25, 1 component) and thus secured substantially insoluble. The compound can also be accomplished by means of a Rändelnut, and lateral Borden and a special encapsulation such that in this case positive and frictional locking effects come to bear and no relative movement between the roller body and bearing race occur. As an alternative to the embodiment of the roller body made of a plastic material, it is also possible to manufacture it from other materials, in particular from deep-drawn steel. Such high-strength roller body can be securely held on the outer ring of the bearing in particular via a joint press fit. It is also possible to leave the roller bearing outer ring seated directly on the traction means.

The nut element 10 is designed so that this does not protrude beyond a plane E, as such by the end face 17a the Zugmittelroll 17 is defined. The concept according to the invention makes it possible to provide a structure-mechanically advantageous connection of the roller device 2 to the tension arm 1 to achieve without this, the trunnion 7 or also protrude on this seated nut member on the aforementioned level E. By the on the mother element 10 trained Axialbuchsenabschnitt 11 is a particularly advantageous positioning and leadership of the bearing inner ring 4 reached. The orientation of the bearing will continue by pressing the bearing inner ring 4 to the support surface 15 supporting the swivel arm.

In the embodiment shown here, the individual components are designed such that via a radial inner surface of the radial flange 12 of the nut member of the inner ring 4 of the rolling bearing against the on the clamping lever 1 trained face 15 is tense. By this arrangement are any, on the roller device 2 attacking Tilting moments structurally advantageous added and in the swing arm 1 initiated.

As in connection with the representations after the 2a and 2 B illustrated, that is on the trunnion 7 trained external thread preferably made by a thread rolling process. By this measure, the in 2 B Simplified structure shown in the region of the male thread section can be achieved. In particular, by the combination of the formation of the male threaded portion 13 by a rolling process with the special design of the Axialbuchsenabschnittes 11 of the nut element 10 as essentially the inner ring 4 completely penetrating Axialbuchsenabschnitt it becomes possible, a heavy-duty connection of the roller device 2 to the swivel arm 1 to accomplish on manufacturing technology cost feasible way.

In the tensioning device according to the invention, the attachment of the roller takes place via a special fastening thread. Notwithstanding conventional constructions, the attachment is made by a nut-like screw on an integrally formed with the pivot arm pin. The thread of the threaded pin is preferably formed according to a particular aspect of the invention without cutting. It is possible, the invention designed trunnion 7 to be provided with a through hole and to pass through this bore through another fastener, via which, for example, the nut element 10 in addition to the swivel arm 1 can be secured. This fastener may be formed in particular as a cylindrical pin, which is provided in the region of its axial ends by plastic deformation with rivet-like heads.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102005020530 A1 [0002]

Claims (9)

Tensioning device for a traction drive with: - a pivoting arm ( 1 ) - one of the swivel arm ( 1 ) carried caster device ( 2 ), - a rolling bearing ( 3 ) the part of the roller device ( 2 ), and a bearing inner ring ( 4 ), a bearing outer ring ( 5 ) as well as rolling elements ( 6 ) comprises in one between the two bearing rings ( 4 . 5 ) are accommodated, - a trunnion ( 7 ) integral with the pivoting arm ( 1 ), and - a nut element ( 10 ) which has a radial flange section ( 12 ) forms on a the swivel arm ( 1 ) facing away from the end face of the bearing inner ring ( 4 ), to secure the roller device ( 2 ) on the swivel arm ( 1 ), characterized in that - the trunnion ( 7 ) in the bearing inner ring ( 4 ), that one through the trunnion ( 7 ) formed and the swivel arm ( 1 ) facing away from the end face under an axial level (E) of the end face of the bearing inner ring ( 4 ), and - the mother element ( 10 ) an axial bushing section ( 11 ) has the one in the bearing inner ring ( 4 ) immersed bearing seat and a trunnion ( 7 ) within the bearing inner ring ( 4 ) cross-section bushing area, wherein in the from the bearing inner ring ( 4 ) surround the axial region of the trunnion ( 7 ) that bushing area with the trunnion ( 7 ) via a thread structure ( 13 ) is engaged. Clamping device according to claim 1, characterized in that on the trunnion ( 7 ) an external thread section ( 13 ) is trained. Clamping device according to claim 2, characterized in that this external thread section ( 13 ) is made by a thread rolling method. Clamping device according to at least one of claims 1 to 3, characterized in that the trunnion ( 7 ) over a radius range ( 14 ) in a bearing inner ring ( 4 ) axially supporting bearing surface ( 15 ) and this radius range ( 14 ) Part of the inside of the inner ring lying portion of the trunnion ( 7 ). Clamping device according to at least one of claims 1 to 4, characterized in that the axial length of the Axialbuchsenabschnittes ( 11 ) substantially the axial length of the bearing inner ring ( 4 ) minus the axial length of the radius range ( 14 ) corresponds. Clamping device according to at least one of claims 1 to 5, characterized in that in the inner region of the Axialbuchsenabschnittes ( 11 ) is formed a Zentrierringwandungsabschnitt. Clamping device according to at least one of claims 1 to 6, characterized in that the nut element ( 10 ) one to the inner axis of the Axialbuchsenabschnitts ( 11 ) concentric key insertion opening ( 16 ). Clamping device according to claim 7, characterized in that the key insertion opening ( 16 ) has an inner star attack cross-section. Clamping device according to claim 8, characterized in that in the installed state of the nut member ( 10 ) the end face of the trunnion ( 7 ) from the inside on the nut element ( 10 ) is present while the key insertion closes.