NL8300390A - MOVABLE SUPPORT FOR PIPELINES, GEARS E.D. - Google Patents

Description

/ * '% Δ t VO 4538

Movable support for pipelines, appliances, etc.

The invention relates to a movable support for pipelines, appliances, etc., provided with a housing, wherein at least one rotatable part between two walls, optionally via at least a sleeve with sliding bearing properties, for instance a sleeve of poly-tetrafluoroethylene, is alloyed on a stainless steel shaft or with a stainless coating, and the shaft with the ends is locked against axial displacement by means of means co-acting with bores of the walls.

In connection with such known shaft locks in roller-10 bearings for pipelines, appliances, etc., with resilient suspensions with equal supporting force, with suspensions in the form of pendulums, etc., the shaft is in the wall bores of a steel housing or steel parts, against the axial sliding locked by spring rings mounted outside the wall on the shaft or split pins placed in 15 shaft bores, whereby discs still have to be arranged between the spring rings or. the split pins and the walls, so that the corrosion protection of the housing, etc., cannot be damaged by the spring rings or cotter pins. However, the known construction has numerous drawbacks. First, the alloy 20 of the shaft in the housing, etc., under aggressive external influences can lead to the formation of fit rust, which can penetrate to the sliding bearing of the shaft-alloyed part and therein influences the bearing properties or destroys the sliding bearing .

Secondly, the axial locking by spring-loaded springs, which, due to the spring properties, must consist of a material which is likewise not absolutely stainless, leads to corrosion over time and causes the axial locking of the shafts to cease with the required certainty is guaranteed. If an axial locking by split pins is chosen, corrosion-free materials could be used for the split pins 30, but would unreasonably negatively affect the production costs of the roller bearing due to the special manufacture.

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In addition, the length of the shafts consisting of corrosion-resistant or corrosion-protected and therefore expensive material must be so large that outside the housing or the walls of the housing bearing the shaft remain sufficient space to provide a suitable groove resp. for the cotter pins, make a suitable bore at the shaft ends and also leave space for the washers between the break-open ring or the. cotter pin and house wall. Furthermore, a necessary manufacturing effort is thus created for both shaft ends, which weighs particularly heavily in the known difficult machining of stainless steel.

In addition, a disadvantage arises during mounting at the shaft ends machined on both sides, because the unevenness in connection with the groove resp. the bore of the shaft ends, the bearing tube resp. the bearing sleeves of the alloy part when inserting the shaft into that part may be damaged, as well as any corrosion protection measures on the bores of the walls. It has therefore hitherto been necessary to make grooves or shafts formed at the shaft ends. drillings extremely carefully and well to get rid of burrs, which also weighs heavily in manufacturing terms.

Finally, the known shaft locking measures have the drawback that they can be easily released or released. which, on the other hand, for pipelines in district heating, for appliances, etc., there is a need to have shaft locks which operate flawlessly for decades and which cannot simply be released from wanton.

The object of the invention is to change the shaft lock in the case of a movable support for pipelines, appliances, etc. of the type mentioned in the preamble, in such a way that the formation of rust, in particular fit rust, is prevented, furthermore an operation of the shaft ends have been avoided as much as possible, and the length of the shaft can also be considerably reduced, so that in general a cheaper and maintenance-free construction is obtained, and finally the shaft locking is so durable that it cannot be removed without special measures.

This problem is solved on the basis of the subject-matter according to the invention mentioned in the preamble, in that at least one shaft end 8300 39 0 -----------------------. ------------- · - -3- A stainless steel sleeve accommodating the shaft end is arranged in the wall bore, the sleeve on the wall side facing the part having a radial, band-like widening abuts against the wall, the free end of the sleeve remote from the part is designed 5 'as a closed, circulating cylinder, and the free end is brought into positive engagement with the shaft end.

Based on the information underlying the invention, these measures ensure that fit rust can no longer occur between the shaft ends and the walls that form these alloys.

The shaft ends are thus alloyed in a shape, so that negative effects on the alloy of the rotatable or swivel-mounted part alloyed can no longer be exerted. In addition, the shaft can now be pre-manufactured in such a smooth form that when the bearing sleeve resp. the bearing sleeves of the rotatable or pivotally alloyed part can no longer be damaged or affected, which proves to be a considerable simplification of the mounting.

Due to the use according to the invention of the said sleeve, it has remained possible to manufacture the housing or walls from normal and therefore inexpensive steel. In addition, the band-shaped widening of the sleeves replaces the hitherto required discs of fine steel relative to the walls, so that simplification and a decrease in price have also been achieved in this respect.

Finally, the design of the end of the sleeve as a closed, comprising cylinder and its engagement with the shaft end in a form-fitting engagement, leads to a locking which cannot simply be influenced. Instead, force must be used to release the shaft lock thus given.

If the shaft lock is configured such that the free end of the sleeve is flanged radially inward over the end of the shaft, the length of the shaft can be practically limited to the size given by the distance between the walls with including the material thickness thereof, whereby machining of the shaft is no longer necessary, and in the case of a corresponding material saving compared to the known shortened construction of the shaft.

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In another case, the free end of the axial locking sleeve may be flanged inwardly into a circumferential end groove of the shaft which is permanently present at the end, thus making it possible to carry out this measure at only one shaft end, so that the machining necessity of the shaft has in any case been reduced by half compared to the known, and in addition there is again a possibility of a shortened version of the shaft, because on the other, unprocessed side, it only needs to be of such a length that it alloy found in the house.

In addition, in all cases, the result is that the shaft, in so far as it has to be pushed through the part to be alloyed and its bearing tubes, is designed with a smooth wall, so that the bearing cannot be damaged. Moreover, it has been found that the present shaft alloy and mounting, despite the sleeves provided, is cheaper and simpler than the measures associated with the known axial locking.

For all the cases described above, it may be expedient that between the alloyed part and the adjacent wall or wall. wall-shaped widening of the sleeve, a starting disc is made of poly-20-tetrafluoroethylene. It is advantageous here if the starting disc is formed in one piece with the sleeve with slide bearing properties, via which the alloyed part is rotatably mounted on the shaft.

Finally, it may be expedient for the band-shaped widening of the sleeve to have an extension extending cylindrically from the periphery thereof, comprising the starting disc. This trouble-free extension is intended to protect the alloy in the area of the start-up disk against contamination from the outside.

Further features and details of the invention appear from the following description of embodiments shown in the drawing. For the sake of simplicity and clarity, reference is now only made to the constructions of roller bearings of pipelines, appliances, etc., without the invention being limited thereby to what has been stated in the preamble of the description as an area of application of the invention.

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The invention is further elucidated with reference to the drawing, in which: Fig. 1 is a cross-section of a first embodiment with a roller bearing with cylindrical bearing roller? Fig. 2 is a cross section of a second embodiment; and Fig. 3 is a sectional view of a third embodiment.

Pig. 1 shows in cross section a roller bearing housing 1 with walls 2, 3, in the bores of which a shaft 4 is received, on which a roller 6 is rotatably mounted via bearing tubes 5, on which an unhealed load, for example in the form of a tube, supports. The roller is presented here and also in the following examples as a cylindrical roller. Of course, the roller can also be, for example, a cone roller, as is known per se with roller bearings for certain application purposes.

The shaft 4 rests in the bores of the housing walls 2 and 3 via sleeves 15, 7 and 8 of stainless steel, which abut against the wall on the wall side facing the roller 6 with a radial, wall-shaped widening 9 and 10. The ends of the sleeves 7, 8 lying on the side of the walls 2, 3 facing away from the roller are flanged around the ends of the shaft 4, which is shown in fig. 1 in ready condition on the left, while on the right the condition can be seen before flanging. The flange of the free ends of the sleeves 7, 8 makes the shaft 4 relative to the housing 1 and 10 respectively. the walls 2, 3 are locked in axial direction and retained. Because the sleeves 7, 8 consist of fine steel, the housing 1 can be made of normal steel without fitting rust occurring between the housing 1 and the shaft 4. In addition, the shaft 4 can be practically matched in length to the distance between the walls 2, 3, because a protruding end is no longer required for the attachment of fasteners.

Because the sleeves 7, 8 have band-shaped widenings 9, 10, 30, a flat starting surface is provided for the roller 6, against which it can rest via starting discs 11, 12 of polytetrafluoroethylene.

Under the sectional view in Fig. 1, one of the sleeves 7, 8 is shown separately in the built-in condition together with the one-piece band 9, 10.

The mounting of the roller 6 in the example according to Fig. 1 takes place in a simple manner because, after the sleeves 7, 8, ..... have been inserted, 83 0 0 39 0 ---------- ------------------------ · ------------------------- The shaft 4 is pushed through the roller 6, after which the sleeves 7, 8 are flanged inwards with respect to the free ends. Thus, the corrosion-free axial locking for the roller 6 and the shaft 4 is effected, without the danger of damage to the shaft 4 when the shaft 4 is inserted through the bearing bore of the roller 6 and the bearing sleeves 5. scratching etc. Finally, the flange of the sleeves 7, 8 provides a shaft lock which is not reversible by simple means, so that a deliberate or reckless lifting of the shaft lock is prevented.

In the example according to Fig. 2, the shaft 20 is provided on only one side with a circumferential groove 21, in which a sleeve 22 placed in the wall 23 is flanged for thus locking or locking in axial direction. retaining the shaft 20. The sleeve 22 again has a radial band 24 on the inner side of the wall 23. For the ultimate axial fixing, the sleeve 22 is pinched in the axial direction, as in Fig. 2 on the underside of the axis can be seen.

In this way, the shaft with the right smooth end 25 can be pushed through the alloy of the roller 26 during mounting without the risk of damage associated therewith. The smooth end 20 is then alloyed in the outwardly fully open sleeve 41, which rests again in the associated wall without additional measures for axial locking being required there.

In the present case, the bearing sleeves 27, 28 for the roller 26 are formed in one piece with start-up discs 29, 30, the start-up disc 29 going against the belt 24 of the sleeve 22, while with respect to the start-up disc 30 a disc 31 of stainless steel is interposed relative to the housing wall 42.

Fig. 3 shows an addition to the embodiments described with reference to FIGS. 1 and 2, so that details will no longer be discussed in this regard. The addition is that, starting from the radial tire 34, 35, the sleeve 32, 33 has a cylindrical extension 38, 39 comprising the starting disc 36, 37, whereby the starting discs 36, 37 and thus the alloy of the roller 40 are protected against pollution from the outside.

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Claims (7)

1. Movable support for pipelines, appliances, e. d., provided with a housing, in which at least one rotatable part between two walls, optionally via at least a sleeve with sliding bearing properties, for instance a sleeve of polytetrafluoroethylene, is alloyed on a 5 axis of stainless steel or with a stainless coating, and the axis with the ends is locked against axial displacement via means coacting with bores of the wall, characterized in that a sleeve (7, 8; 22; 32, 33) of the shaft end (7, 8; 22; 32, 33) is provided at least on one shaft end in the wall bore, sleeve on the side of the wall (2, 3; 23, 26) facing the part with a radial, band-like extension (9, 10; 24; 34, 35) abutting against it, the free end of which faces away from the part the sleeve is in the form of a closed, comprising cylinder, and is brought into a form-engaging engagement with the shaft end. ; 15 Support according to claim 1, characterized in that the free end of the sleeve (7, 8; 32, 33) is flanged radially inwardly over the end of the shaft (4) for the axial locking. Support according to claim 1, characterized in that the free end of the sleeve (22) for the axial locking is flanged radially inwards into a circumferential groove (21) permanently present in the end of the shaft (20). Support according to claim 3, characterized in that the cylindrical part of the sleeve (22) protruding outside the wall (23) is swaged in the direction towards the wall after it is flanged inwards. Support according to any one of the preceding claims, characterized in that between the part (6, 26, 40) and the adjacent wall (2, 3; 23, 26), respectively. the band-like widening (9, 10; 24; 34, 35) of the sleeve (7, 8; 22, 26; 32, 33) is provided with a starting disc (11, 12; 29, 30, 36, 37) of polytetrafluoroethylene. Support according to claim 5, characterized in that the starting disc (29, 30) is connected in one piece to the sleeve (27, 28) with sliding bearing properties. 'PRIVATE' ”---------------------------'--------“: è -8- Support according to any one of the preceding claims, characterized in that the band-like widening (34, 35) of the sleeves (32, 33) has an extension (cylindrical, starting discs) extending from the periphery thereof (36, 37). 38, 39). c 83 0 0 39 0 ............................................ .................... ....................