DE19712770A1 - Rotating coupling forming device - Google Patents

Abstract

The coupling includes a bolt body (12) and two radially expandable internally conical shells (16, 16'), for the externally conical sectors of the bolt. The coupling is set by wedging the shells in the intermediate space between the adjacent bolt sector (12',12") and the surrounding wall of the fixing hole. The end sector of a second part can turn about the coupling axis (12A) round the central axial sector (12B) of the bolt. Each internally conical shell has a flange (18, 18') directed radially outwards, with at least one straight flat circumferential sector (22'). The shells remain rotationally set in the use-position on a flat surface (52a,52a') on, preferably the fork arm of each fork shaped section-fixed locking piece (52,52').

Description

This invention relates to an arrangement for formation a rotatable coupling of two relatively swiveling machine / construction / construction parts their adjacent end parts, for example two Parts that are in an articulated support for one Agricultural / construction machine are included, in which one of the relatively pivotable parts mentioned fork-shaped and with two aligned mounting holes to move fixed anchoring of the arrangement is formed. The said arrangement comprises a bolt and two radially expandable, conical sleeves, each one Complementary, externally conical bolt section assigned are, to interact and thereby to radial stretch the associated inner conical sleeve, if this from an input device an axially directed Shift in the direction of the second, inside conical sleeve is exposed. During the axially one downward displacement of any conical inside The end section of the sleeve is wedge-shaped in cross section Sleeve axially into the space between the one fortress wall and the adjacent, conical outside  Batch of the bolt to wedge the adjacent Batches pressed in the fortress hole.

Once the arrangement in the mounting hole of the above fork-shaped part by wedging in the same, is firmly fixed in motion, the adjoining end of the second machine / construction / con structural part rotatable with the free, preferably circular cylindrical middle part of the bolt, by the conical sleeves are not covered, verbun the, for example by ball / slide bearings.

The driving element of each conical sleeve on the inside can several different ways formed, furnished and be arranged. One way is the bolt sections axially outside the conical par tien protrude as coaxial, threaded end zap to form on which the driving elements in form a closing nut at each end of the bolt be screwed. Alternatively, the threaded provided end pin can be omitted by the Bol body in the area of each conical part on the outside a concentric threaded hole is formed, molded together with a driving screw work whose head when screwing in the screw in the associated threaded hole in the bolt the same way as that of the above-mentioned courage ter acts, and the nearby conical sleeve inside Engagement with the pin section presses to thereby radial expansion, as before explained.

When the bolt is subjected to radial forces is added at the same time as partial rotation it has been shown that the inner conical sleeve  and the driving element, the bolt / the nut, unscrew so that the bolt is loose and slides out. This situation becomes more external reinforced that these joints (bolts) in connection with Ovality between the joint and the one fortification hole therefor, to be used. Such ovality results in looseness. The Locker is designed to retighten the conical sleeves on the inside record. This requires the bolt to be inside conical sleeves is loose at times, and thus Rota tion movements is even more exposed. For example in the waist control of a wheel loader Swivel cylinder pin through an expandable pin replaced the scope in the fortress holes in the balance fork-shaped part. Before every move the bolt is loose, and constantly reciprocating Movements when swiveling cause the inside the tapered sleeve becomes loose with the drive screw and can fall out. Experience has shown that it did shown that wheel loaders are in control as a result have lost.

If there is load in the bucket, and the wheel loader is on the way down a slope, the result be fatal.

Another problem with expanding bolt designs, the ge as a joint between relatively pivotable parts is that they are difficult to dismantle leave when they have settled, that is, when the margin is eliminated, and the inside conical sleeves have expanded to the maximum. The Problem is that there is an internally conical sleeve on each End of the bolt there, and stretch the tapered holes  towards each other in the direction. Often it is Disassembly so problematic that the bolt is out must be burned. This makes the work special heavy.

An essential object of the present invention was it, an arrangement for rotatable coupling of two relatively pivotable parts of the introduction to create the kind of relative rotation between Bolt and inside conical sleeves does not occur.

Another important object of the invention was that Disassembly of such expandable assemblies as Joints are used to simplify and lighten tern.

The tasks mentioned are according to the invention by a Arrangement solved, the characteristics of which known drawing part of claim 1 emerge.

Advantageous but subordinate features are in the the dependent subclaims below.

Each inner conical sleeve is ge with one to the outside aligned flange at the axially outer end. At You can repair / replace with a tool, for example a screwdriver, tilt the inside conical sleeves by the fact that the Screwdriver in the gap between the sleeve flange and one of the fortress-shaped parts of the fork Partly allowed to attack.

Each of these constrictions of the forked Part to which the end parts of the joint are locked  are to be welded on with a lock piece on which a locking washer is screwed is provided. The outer ring flange each inside conical sleeve is trimmed so that it is a flat Perimeter has that in the use position supporting, non-rotating on the said locking piece remains. Such an arrangement can Impossible to turn the two conical sleeves inside. The Latch tab is shaped and dimensioned so that its radially inner surface is supportive and anti-rotation on a flat part of the head of the one driving screw, for example the shape of a Hexagon nut has to remain.

In the outer conical end parts of the bolt and in the inner conical openings of the sleeves are axial aligned grooves with intermediate back or the like shaped. The axially directed back between the grooves in the inner conical sleeves are shaped to axially displaceable in the grooves of the conical bolt par intervention, and vice versa. This together Menus acting backs / grooves prevent mutual rotation and that the conical sleeves on the inside Bolts slide at the same time as they are relative axial Allow shift below. The expandable type order, the joint, is now against rotation and Slid out locked. When dismantling the joint, the latch tabs are released first, the on driving screws are unscrewed, after which the inside conical sleeves using a screwdriver or other simple tools can. Then the bolt can be pulled out.  

The outer ring flange of the conical sleeves on the inside can with advantage of a circular shape Oblique edge on the axially innermost part be limited. The axially outermost part of the outer sleeve flange can be perpendicular to the Stand the longitudinal axis of the bolt / joint.

External purposes, advantages and characteristics of the he Arrangement according to the invention are from the following Detail description in connection with not limited end examples of possible designs with reference to attached drawings emerge. Show it

Fig. 1 a spread division and longitudinal axial section;

Fig. 2 is a view of the right inner conical sleeve in the direction of arrows II-II of Figure 1, seen from the end.

Figure 3 is a similar view of the right tapered patie of the bolt as seen from the end;

Fig. 4 a joint in the assembled state and mounted between two parts with relative pivotability about the longitudinal axis of the joint.

In Fig. 1, a joint-forming arrangement 10 is partially spread and partially shown in the assembled state.

This joint-forming arrangement 10 is built on a zentra len bolt 12 with narrowing towards the respective end portions 12 'and 12 ''. In the area of each conical end portion 12 'and 12 ''of the bolt body 12 is formed with a concentric threaded blind bore 14 , 14 '.

Inside conically shaped sleeves 16 , 16 ', which are well-known at Ge steer with expandable anchoring end portions, are provided at the axially outer end with a radially outward flange 18 , 18 ', which is delimited by a circular bevel edge 20 , 20 ' . A shorter circumferential portion of the flanges 18 , 18 'is cut away by a straight cut, so that there is a flattened circumferential portion 22 , 22 ' on each flange 18 , 18 ', which is a feature of the present invention, and which later in connection with Fig. 4 will be explained in more detail. 18 '' denotes a continuous groove in the conical sleeve 16 '.

The conicity in the conical sleeves 16 , 16 'and the conical end portions 12 ', 12 '' of the bolt ens 12 are preferably mutually complementary.

Axially outside each conical sleeve 16 , 16 'follows a disc 24 with a central bore 24 ' for a driving screw 26 , 26 'with a hexagon head 28 , 28 '.

The drive screws 26 , 28 , 26 ', 28 ' have the task to pull obvious internal conical sleeve 16 , 16 'to move axially inwards, the Ver anchorage parts ( 16 , 16 ') of the joint are radially expanded.

In the longitudinal axis direction 12 A of the joint aligned mounting holes 30 , 30 'in a fork-shaped part 32 (see. Fig. 4, position of use) make up one of the parts to be coupled together with relative pivotability. In the radial expansion of the inner conical sleeves 16 , 16 ', these are wedged in the space between the respective conical bolt parts 12 ', 12 '' and the jam hole wall 30 , 30 '.

The assembly of the joint-forming arrangement is shown in Fig. 4: The right inner conical sleeve 16 'is inserted into the right, complementary conical end portion 12 ''of the bolt 12 , and the driving member 28 ', in the intermediate clutch disc 24 , is in the abutting , screwed blind bore of the bolt body 12 provided with an internal thread. The nut head of a driving screw 28 'thereby presses on the opposite surface of the washer, and the washer 24 presses on the opposite end face of the inner conical sleeve 16 ', which slides with its inner conical surface upwards of the associated conical bolt end part 12 '' until a wedge and a movable fixed anchoring in the aforementioned mounting holes 30 , 30 'arise.

The inner conical sleeves 16 , 16 'have inner, axially directed grooves 34 with intermediate back 36th The conical bolt end portions 12 ', 12 ''have opposing, complementary grooves 38 with back 40 lying between them. The back 36 of the sleeves 16 , 16 'are controlled in the grooves 38 of the bolt end parts, and vice versa, so that relative rotation of the bolt body 12 and the inner conical sleeves 16 , 16 ' is prevented ver. This represents a feature of the prior invention.

The left-hand drive screw is assigned to a grease nipple 42 which is fastened in a coaxial bore in the drive screw 28 , which bore passes into an axial channel 44 in the bolt body 12 , which axial channel 44 through a radial channel 46 on the surface of the circular cylindrical, axial seen middle part 12 B of the bolt body 12 opens, on which the second part 48 , Fig. 4, is rotatably supported by bearings 50 which is lubricated by the described lubricating device.

In Fig. 4 it is shown that a locking piece 52 , 52 'with a straight, flat upper surface 52 a, 52 a' on each fork branch 32 'is welded by a locking tab 54 , 54 ' equally with a straight, flat upper Surface 54 a, 54 a 'is screwed onto the respective locking piece 52 , 52 '.

Assuming the locking tabs 54 , 54 'after tightening the drive screws 28 , 28 ' screwed on, and their flat surface 54 a, 54 a 'is supported against the downward-facing surface of the solid, hexagonal nut head of a drive screw 28 , 28 ' , and prevents rotation of the drive screws 28 , 28 ', while said surfaces 52 a, 52 a' of the locking piece 52 , 52 'for supporting, rotation-preventing system on the straight, flat peripheral portion 22 ' of the outer flange 18 'of the sleeve 16 ' brought are.

If the conical sleeves 16 , 16 'have wedges so festge that they cannot be axially pulled out when dismantling the ge steering-forming arrangement, the radially outward flange 18 , 18 ' of the sleeves 16 , 16 'will break out of the respective ones Enable sleeve by means of a simple tool, for example a screwdriver, which is caused to attack in the space between the sleeve flange 18 , 18 'and the adjacent wall surface 32 a, 32 a', Fig. 4, the fork-shaped part 32 .

Claims (5)

1. An arrangement for forming a joint (10) for hinged together coupling of two relatively pivotable machine / building / construction parts (32, 48) at angrenz forming end sections, wherein the one (32) of said relatively pivotable parts (32, 48) fork-shaped and is formed with two aligned mounting holes ( 30 , 30 ') for the fixed clamping of the joint ( 10 ) at the end parts, comprising a bolt body ( 12 ) and two radially expandable, internally conical sleeves ( 16 , 16 '), each one externally conical bolt section ( 12 ', 12 '') are assigned, which for the radial expansion of the adjacent, internally conical sleeve ( 16 , 16 ') during the axial displacement of the latter against the axial center of the bolt body ( 12 ) by means of an input member ( 26 , 28 ; 26 ', 28 ') contributes by the said fixed clamping of the joint ( 10 ) by the fact that the inner conical sleeves ( 16 , 16 ') in the space z between the conical bolt section ( 12 ′, 12 ′ ′) and the surrounding mounting hole wall ( 30 , 30 ′) are wedged, and where the second part ( 48 ) rotates about the hinge axis ( 12 A) around the axially central bolt section ( 12 B) is stored, characterized in that each internally conical, radially expandable sleeve ( 16 , 16 ') has a radially outward direction th flange ( 18 , 18 ') which has at least one straight, flat circumferential portion ( 22 '), which in the position of use rotatably on a flat surface ( 52 a, 52 a ') of a preferably on the fork branches of each fork-shaped part ( 32 ) fixed locking piece ( 52 , 52 ') o. 2. Arrangement according to claim 1, characterized in that each of said radially outward sleeve Senflansche ( 18 , 18 ') on the side facing inward in the use position in the direction against the second sleeve flange, from an oblique peripheral edge portion ( 20th , 20 ') is delimited. 3. Arrangement according to claim 1 or 2, characterized in that each conical sleeve ( 16 , 16 ') is formed on the inside with axial grooves ( 34 ) which are delimited between the intermediate back ( 36 ), and that the conical end portions ( 12 ', 12 '') of the bolt ( 12 ) are complementary shaped so that the back ( 40 ) of a conical bolt end part ( 12 ') axially displaceable, non-rotatably engage in the axial grooves of the associated inner conical sleeve ( 16 '), while the Back of the sleeve ( 16 ') equally axially displaceable, non-rotatably engage in the grooves ( 38 ) of the corresponding conical bolt end section ( 12 ''). 4. Arrangement according to claim 1, characterized in that each driving element consists of a screw bolt ( 26 , 26 ') with a fixed head ( 28 , 28 '), which head ( 28 , 28 ') has at least one straight, flat circumferential section, the in the position of use is caused to lie non-rotatably on a straight, flat surface ( 54 a, 54 a ') of a latch plate or the like ( 54 , 54 '), which on the locking piece ( 52 , 52 ') or directly on the branches of the fork-shaped part ( 32 ) can be screwed. 5. Arrangement according to claims 1 to 4, characterized in that the fixed head ( 28 ) of at least one screw bolt ( 26 ) with an externally accessible Lubricating nipple ( 42 ) is provided with a first axial channel through the bolt stem ( 26th ) is in United connection, which first channel is coaxially in connection with a second axial channel ( 44 ) in the bolt body ( 12 ), which second axial channel ( 44 ) merges into a substantially radial channel ( 46 ) which at the Surface of the bolt body ( 12 ) opens, and lubricates a bearing ( 50 ) which is coupled to the machine / construction / construction part ( 48 ) which is mounted on the axially central, circular cylindrical outer surface ( 12 B) of the bolt body ( 12 ) .