DE102009046227A1 - Pin bearing arrangement for use in e.g. front-end loader, has bearing surface with connecting parts, where mounting of each connecting part fixes securing element to pin in rotationally fixed and/or axial manner with respect to frame part - Google Patents

Abstract

The arrangement (10) has a bearing surface located at a frame part (12) and receiving a pin (14). A securing element (20) for securing the pin is brought into engagement with the pin in an area of a groove (30) such that the pin is fixed with respect to the element. The bearing surface comprises connecting parts (16, 18) that are connectable to the frame part in a rotationally fixed manner. The element is partially introduced into a mounting of each connecting part. The mounting fixes the element to the pin in a rotationally fixed and/or axial manner with respect to the frame part.

Description

The invention relates to a pin bearing assembly having a frame part, a bolt, at least one arranged on the frame part and the bolt receiving bearing and securing means for securing the bolt, wherein the securing means comprise at least a first side of the bolt transversely to the bolt axis extending groove and at least one securing element, wherein the securing element with the bolt in the region of the groove is engageable in such a way that the bolt is fixed relative to the securing element, and wherein the securing element relative to the frame member rotatably and axially fixed to the bolt.

There are known bolt bearing assemblies comprising securing means to secure the bolt against twisting and axial displacement. Especially with extreme loads a bolt bearing, as they may occur, for example, on loader with mounted over pivot pin loader arms or loader swing, simple by circlips or shear pins trained bolt locks are often not sufficient, so that more complex and robust bolt bearing arrangements are required in which the bolt both axially as is also secured against rotation.

Such a bolt bearing arrangement is for example in the DE 100 50 143 A1 discloses, in which a pin securing a mounted on a frame member bolt is provided by a trained as a tab securing element, wherein the securing element engages in a groove formed on the bolt and thus secures against rotation and axial displacement relative to the securing element. Furthermore, the securing element is fastened with a screw on the frame part, so that the securing element itself is secured against rotation and axial displacement relative to the frame part.

A disadvantage is that the entire torsional and axial forces acting on the bolt are transmitted directly to the securing element, said forces must be taken up to a large extent by the screw. This can lead to deformation or destruction of the fuse element and / or the screw under extreme loads.

The object underlying the invention is seen to provide a pin bearing assembly of the type mentioned, by which the aforementioned problems are overcome.

The object is achieved by the teaching of claim 1. Further advantageous embodiments and modifications of the invention will become apparent from the dependent claims.

According to the invention a bolt bearing arrangement of the aforementioned type is formed such that the bearing comprises a rotatably connectable to the frame member connecting part, which has an enclosure into which the securing element at least partially, preferably positively, can be introduced, wherein the enclosure rotationally fixed the securing element relative to the frame member and / or axially fixed to the bolt. The groove formed on the bolt can be brought by its shape in such a way with the securing element into engagement that the bolt can not rotate relative to the securing element or move axially. The torsion and axial forces are thus transmitted through the groove on the fuse element. The fact that a partially positive enclosure, is provided for the fuse element, the torsional and axial forces are in turn transmitted directly to the connector, wherein the shape of the fuse element or the enclosure is selected such that the bordered in the enclosure or in the Mount introduced or inserted into the enclosure fuse element can not rotate relative to the connector. The enclosure may have an edge region which projects at least partially beyond the securing element, so that an axial displacement of the securing element relative to the connection part is no longer possible. The connection part can be detachably or permanently connected to the frame part so that the acting torsional and axial forces are transmitted directly to the frame part via the surround on the connection part. Another advantage is that the bearing of the bolt in the connection part takes place, which can be prefabricated accordingly, thereby significantly simplifying the manufacture of the bearing point, since not the entire frame part must be included in the production.

The securing means may further comprise a second groove extending laterally of the bolt transversely to the bolt axis and arranged opposite and parallel to the first groove. As a result, the resistance to rotation relative to the securing element can be increased, since in this way two straight edges are formed on the bolt, to which the securing element can engage.

The securing element may have two fork-shaped parallel aligned legs which are each engageable with one of the grooves. The legs may also have straight edges and engage or abut the straight edges of the grooves formed on the pin. The two legs can be used to secure the bolt in the grooves inserted or introduced. Preferably, the securing element is a component or a stamped part in the form of an open-end wrench head, which can be produced, for example, from sheet steel. The distance between the two legs on the inner sides corresponds substantially to the thickness of the remaining cross section of the bolt in the region of the grooves. The thickness of the material of the securing element, at least in the region of the legs, corresponds to the thickness of the groove or grooves. The width of each leg can be greater than the depth of the groove or grooves.

The connecting part may have a survey which is positively received by a recess formed on the frame part. The frame part may for example be made of support plates, in which a cut or punched-out recess or depression is introduced, which corresponds to the survey on the connection part, or has a contour which is adapted to the survey. As a result of the elevation on the connection part, a rim or flange or flange, which serves as a bearing surface which rests on the frame part, can be formed on the connection part, the elevation being fitted or inserted into the recess. Survey and recess can be coordinated so that a press fit or a backlash according to need fit between the frame part and connection part is created. It is also conceivable to realize the arrangement of elevation and recess vice versa, so that the elevation is formed on the frame part and the recess or depression on the connection part.

For example, the survey and the recess with a substantially oval-shaped contour. formed so that after insertion or placement of the connection part to the frame part of the connecting part rotatably relative to the frame part is arranged. A deviating from a circular shape contour is advantageous because so the connection part rotatably and correctly positioned can be positioned. It is also possible to select other contour shapes, for example an elliptical or polygonal contour.

The securing element and the connecting part have mutually aligned bores through which the securing element can be fixed in the enclosure. Due to the fact that, as a result of the enclosure of the securing element in the connecting part, both torsional and axial forces of the bolt are largely transmitted directly to the connecting part and thus to the frame part, only small forces occur which must be absorbed by the securing element. As a result, the fixing of the securing element in the enclosure at the connection part is also considerably simplified. Essentially, the securing element must only be secured against displacement in the radial direction to the bolt longitudinal axis, which can be done by a simple screw in the holes provided by means of a threaded bolt or a screw. Alternatively, the gluing or press fitting a bolt or pin in the holes is also possible here.

The connection part can be welded to the frame part without great positioning effort. Other connection options are conceivable, for example, the bonding, soldering or screwing the parts.

Furthermore, it is possible and customary for a second bearing seat to receive the bolt to be provided, such that the bolt is received at its respective end regions on both sides of the frame part. As a result, the forces acting on the bearing point are reduced. It may be sufficient in this case that the bolt is secured only on one side with a corresponding securing element, even if the same connection part is used for the bearing point on both sides of the frame part or the bolt. The connection parts are identical, so that a small variety of parts for the bolt bearing assembly can be achieved.

With reference to the drawings, which show an embodiment of the invention, the invention and further advantages and advantageous developments and refinements of the invention are described and explained in more detail below.

It shows:

1 a schematic exploded view of a bolt bearing assembly according to the invention,

2 a schematic assembly view of the bolt bearing assembly 1 .

3 a schematic exploded view of a part of the bolt bearing assembly 1 and 2 with connector, bolt and fuse element,

4 a schematic assembly view of the part of the bolt bearing assembly 3 from a first page and

5 a schematic assembly view of the part of the bolt bearing assembly 3 and 4 from a second page.

1 (Exploded view) and 2 (Assembled view) show a bolt bearing arrangement according to the invention 10 For example, on a front loader or other charger as well as on construction vehicles, such as wheel loaders, cranes, telescopic loaders, etc., may find application. There is also an application to other devices having a pivotal connection with a pin bearing assembly 10 have conceivable.

The bolt storage 10 comprises a frame part 12 , which is exemplified here in the form of a mast assembly of a front loader, a bolt fourteen , a first and a second connector part 16 . 18 , as well as a security element 20 for securing the bolt fourteen ,

The frame part 12 includes a first and a second frame plate 22 . 24 which are provided by spacers (not shown), for example spacer bushes or webs, between the frame plates 22 . 24 be arranged, to a supporting frame part 12 be assembled so that the frame plates 22 . 24 spaced form a supporting component.

The frame part 12 points to the frame plates 22 . 24 trained recesses 26 . 28 on, which have a preferably oval-shaped contour. In this case, also different contours are conceivable, which are different from a purely circular contour, for example an elliptical or polygonal contour.

The bolt fourteen is with a first and a second groove 30 . 30 ' provided at one end 32 of the bolt are introduced. In the selected perspective representations of 1 to 5 is only one groove at a time 30 to recognize, in 3 the arrangement of the second (hidden) groove 30 ' by means of one with the item number 30 ' indicated arrow should be clarified. The grooves 30 . 30 ' extend transversely to a rotational symmetry axis 34 of the bolt fourteen and have a depth that is less than half the diameter of the bolt fourteen (Preferably about one quarter of the diameter of the bolt fourteen ), with the grooves 30 . 30 ' aligned parallel to each other and axially at the same height, so opposite, at the end 32 of the bolt fourteen are introduced. The grooves 30 . 30 ' are formed such that a through the grooves 30 . 30 ' formed cross section of the bolt fourteen has two parallel straight edges.

The first and second connection part 16 . 18 the bolt bearing assembly 10 are identical in the present embodiment, but this does not necessarily have to be done. The connection part 16 . 18 is formed by a disc-shaped or plate-shaped or flat cast or forged part, which has a substantially oval-shaped outer contour. The connection part 16 . 18 has a through hole 36 on, as a bearing, here as a plain bearing, for the bolt to be stored fourteen serves. The connecting part is thus part of a bearing point of the bolt bearing assembly 10 , Further, on the connection part 16 . 18 on a first flat side a first survey 38 and on an opposite second flat side, a second elevation 40 educated.

The fuse element 20 is designed as a flat U-shaped component, for example made of sheet metal or flat steel. The fuse element 20 has a first and a second leg 42 . 44 on, the fork-shaped arranged to each other, so that a wrench-head-like contour is formed, wherein the two legs 42 . 44 one each the other leg 42 . 44 facing straight edge 46 depict. The between the two edges 46 through the thighs 42 . 44 formed gap corresponds approximately to the dimensions of the above, through the grooves 30 . 30 ' formed, cross section of the bolt fourteen , The material thickness of the flat formed fuse element corresponds to the width of the grooves 30 . 30 ' , Further, on the securing element 20 a hole 48 intended.

The first survey 38 of the connection part 16 . 18 includes a border 50 in which the fuse element 20 can be enclosed or inserted, introduced or used. The mount 50 extends over half the circumference of the through hole 36 and forms there a semicircular (the through hole 36 half enclosing) wreath 52 which is in an opposite opening 54 of the mount 50 passes. The wreath 52 of the mount 50 is designed to be the fuse element 20 , preferably in the region of the legs 42 , at least partially positively surrounding, when this in the enclosure 50 bordered or inserted, inserted or inserted, wherein the securing element 20 preferably with the exposed ends of the legs 42 . 44 ahead in the opening 54 the enclosure is led.

The second on the opposite side of the connector 16 . 18 trained survey 40 has a contour or shape that is substantially the contour or shape of the recess 26 . 28 on the frame plates 22 . 24 equivalent. The assessment 40 takes only part of the second page, so that the survey 40 surrounding border area 56 is trained.

Furthermore, in the area of the enclosure 50 another hole 58 trained with the bore 48 of the fuse element 20 Aligns when this was introduced into the enclosure. The hole 58 is preferably provided with a thread.

The assembly of the bolt bearing assembly 10 done by placing the connection parts 16 . 18 on the frame part 12 or on the frame plates 22 . 24 , wherein in the present embodiment of a two-sided mounting of the bolt fourteen with two connection parts 16 . 18 for storage of the bolt fourteen is assumed. The connecting parts 16 . 18 be on both sides of the frame part 12 attached, whereby the respective surveys 40 in the recesses 26 . 28 insert positively and the connecting parts 16 . 18 with their edge areas 56 Plan on the surfaces of the frame sheets 22 . 24 rest. The connecting parts 16 . 18 are preferably at the periphery of their edge areas 56 with the surface of the frame part 12 welded or glued, wherein the positive connection of the surveys 40 with the recesses 26 . 28 serve the positioning, alignment and / or fit of the assembly.

Once the connection parts 16 . 18 attached are the assembly of the bolt fourteen take place, on which a component can be articulated pivoted or stored. For example, loader arms, guide rods or actuating cylinders are articulated or mounted on such bolt bearing arrangements. Assembly of a bolt fourteen done by inserting the bolt fourteen in the through holes 36 the respective connection parts 16 . 18 , The bolt fourteen can now by means of the fuse element 20 on the one with the grooves 30 . 30 ' Afflicted side of the bolt fourteen be secured. This is the security element 20 with the thighs 42 . 44 pushed ahead into the enclosure, with the bolt fourteen by appropriate positioning in its axial and circumferential direction in such a way to the securing element 20 aligned, that the edges (or the bottom) of the grooves 30 . 30 ' with the edges 46 the thigh 42 . 44 aligned. In this connection it should be mentioned that the alignment of the grooves 30 . 30 ' at the bolt fourteen to the thighs 42 . 44 of the fuse element 20 is simplified in that both the grooves 30 . 30 ' as well as the thighs 42 . 44 are visible. As a result, compared to conventional security precautions easier handling is possible. The securing of the bolt 20 takes place in that the legs 42 . 44 into the grooves 30 . 30 ' extend and thus form a lock by positive locking, the twisting and axial displacement of the bolt fourteen opposite the securing element 20 prevented. At the same time a positive connection of the outer contour of the legs 42 . 44 with the at the mount 50 trained wreath 52 formed, whereby a twisting and axial displacement of the securing element 20 opposite the connection part 16 . 18 is prevented. To secure the fuse element 20 against moving out of his in the mount 50 enclosed position is a screw 60 provided through the aligned bores 48 and 58 extends. The screw 60 is only very light forces (against displacement of the fuse element 20 ), since any torsional and axial forces as well as acting on the bearing radial forces generated by the bolt 20 on the pin bearing assembly 10 be transferred to the connector 16 . 18 transmitted and ultimately absorbed by it. Thus, a bolt bearing assembly 10 created by appropriate securing means, namely the bolt fourteen trained grooves 30 . 30 ' in conjunction with the fuse element 20 or the trained there and in the grooves 30 . 30 ' engaging thigh 42 . 44 , to allow a compact and extremely robust design.

Although the invention has been described by way of example only, in light of the foregoing description and the drawings, those skilled in the art will recognize many different alternatives, modifications and variations which are within the scope of the present invention.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10050143 A1 [0003]

Claims (8)

Bolt bearing arrangement ( 10 ) with a frame part ( 12 ), a bolt ( fourteen ), at least one on the frame part ( 12 ) and the bolt ( fourteen ) receiving bearing and securing means for securing the bolt ( fourteen ), wherein the securing means at least a first side of the bolt ( fourteen ) transverse to the axis of rotation ( 34 ) of the bolt ( fourteen ) running groove ( 30 . 30 ' ) as well as at least one security element ( 20 ), wherein the securing element ( 20 ) with the bolt ( fourteen ) in the region of the groove ( 30 . 30 ' ) is engageable such that the bolt ( fourteen ) opposite the fuse element ( 20 ), and wherein the security element ( 20 ) relative to the frame part ( 12 ) rotatably and axially to the bolt ( fourteen ) is fixable, characterized in that the bearing a with the frame part ( 12 ) rotatably connectable connector ( 16 . 18 ) comprising an enclosure ( 50 ) into which the securing element ( 20 ) is at least partially insertable, wherein the enclosure ( 50 ) the fuse element ( 20 ) relative to the frame part ( 12 ) rotatably and / or axially to the bolt ( fourteen ) fixed. Bolt bearing arrangement ( 10 ) according to claim 1, characterized in that the securing means one side of the bolt ( fourteen ) transverse to the axis of rotation ( 34 ) and opposite and parallel to the first groove ( 30 . 30 ' ) arranged second groove ( 30 . 30 ' ). Bolt bearing arrangement ( 10 ) according to claim 2, characterized in that the securing element ( 20 ) two fork-shaped parallel to each other aligned legs ( 42 . 44 ), each with one of the grooves ( 30 . 30 ' ) are engageable. Bolt bearing arrangement ( 10 ) according to one of claims 1 to 3, characterized in that the connecting part ( 16 . 18 ) a survey ( 40 ), which by a on the frame part ( 12 ) formed recess ( 26 . 28 ) is positively accommodated. Bolt bearing arrangement ( 10 ) according to claim 4, characterized in that the survey ( 40 ) and the recess ( 26 . 28 ) are formed substantially oval-shaped. Pin securing arrangement ( 10 ) according to one of the preceding claims, characterized in that the securing element ( 20 ) and the connection part ( 16 . 18 ) aligned bores ( 48 . 58 ), by which the securing element ( 20 ) in the enclosure ( 50 ) is fixable. Pin securing arrangement ( 10 ) according to one of the preceding claims, characterized in that the connecting part ( 16 . 18 ) with the frame part ( 12 ) is welded. Pin securing arrangement ( 10 ) according to one of the preceding claims, characterized in that a second bolt ( fourteen ) receiving bearing is provided, such that the bolt ( fourteen ) at its respective end regions on both sides of the frame part ( 12 ) is recorded.

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