FI70307B - ROERLIGT STOED FOER ROERLEDNINGAR APPARATER OCH LIKNANDE - Google Patents

Description

1 70307

Mobile bracket for pipelines, equipment, etc.

The invention relates to a movable support for pipelines, devices or the like, having a housing in which at least one rotating part is mounted between two walls on a stainless steel or stainless coated shaft, possibly at least one sleeve with plain bearing properties, e.g. poly-tetravinyl fluorine by means of a sleeve, and if the shaft is secured against an axial displacement by means of cooperating means with its ends by means of wall bores.

In connection with known roller bearings for roller bearings, which are intended for pipelines, devices, etc., for shaft supports for flexible suspensions with a constant support force, for suspensions with a pendulum, etc., the shaft is secured to the wall bores of the steel housing. or steel parts of the device against the axial-20 displacement with retaining rings attached to the shaft outside the wall or shocks placed in the shaft bores, in which case tiles still have to be fitted between the retaining rings or shocks and the walls to prevent damage to the corrosion protection of the housing or the like. However, the known structure has innumerable disadvantages. Sometimes, due to external aggressive influences in the housing or the like, the bearing of the shaft may lead to the formation of adapter rust, which may penetrate the plain bearing of the part bearing the shaft, and thereby lead to deterioration of the bearing properties or destruction of the plain bearing.

Secondly, axial securing with retaining rings, which, due to the required elastic properties of the tires, must consist of a material which is also not completely rust-free, results in corrosion over time and that the axial securing of the axles is not guaranteed essentially certain. If axial securing by means of shocks is chosen, then non-corrosive materials could be used for the shock 5, which, however, would have an extremely negative effect on the manufacturing cost of the roller bearing due to its special manufacture.

In addition, the length of the ak-10 shells, which are made of corrosion-resistant and corrosion-protected and thus expensive material, must be dimensioned so that there is enough space outside the bearing or shaft bearing walls to make a corresponding groove for the retaining rings or a corresponding bore at the shaft ends. for spacers 15 between the retaining ring 15 or the pin and the wall of the housing. In addition, this results in the necessary manufacturing costs for both shaft ends, which are particularly significant due to the known difficult machining of stainless steel.

20 In addition, during installation, the use of machined shaft ends on both sides has the disadvantage that due to the unevenness of the grooves or bores at the shaft ends, the bearing sleeve or bearing bushes of the bearing part as well as any corrosion protection in the wall bores may be damaged. Until now, it has been necessary to remove the casting burr from the grooves or bores made at the shaft ends with extreme precision and force, which is also a very significant drawback from a manufacturing point of view.

30 Finally, both known shaft securing measures have the disadvantage that they can be easily removed and removed, whereas for pipelines, equipment, etc. used in district heating structures, there is a need to equip them with shaft securing 35 that will operate smoothly for decades and will not be severely handled. the rest can be removed.

3 70307

The object of the invention is to modify a movable support for pipelines, devices, etc. according to the species definition mentioned at the beginning in such a way that rust, in particular fitting rust, is prevented, that machining of shaft ends is completely avoided, and shaft length can be considerably shortened. more economical and maintenance-free construction and that, finally, the shaft lock is designed to be durable enough that it cannot be removed without special measures.

This object has been solved since the object of the invention mentioned at the beginning, so that at least one end of the shaft, a stainless steel sleeve receiving the shaft end is inserted in the wall bore, the sleeve is attached to the wall by a radial, flanged expansion from the part the free end of the sleeve facing is formed as a closed rotating cylinder and that this free is made to contact the end of the shaft by means of a shape.

Since the object underlying the invention, it has been ensured by these measures according to the invention that no more rust can form between the ends of the shaft and the walls which bear the shaft. The shaft ends are thus mounted in such a way that they can no longer have a negative effect on the bearing of the rotating or pivoting bearing part. In addition, the shaft can now be made so smooth that it can no longer damage the bearing sleeve of the rotating or pivoting bearing. or bearing bushes or be detrimental to them, which proves to be a considerable relief during installation.

When using said sleeve according to the invention, it has become possible to make the housing from ordinary steel and thus 70307 at a lower cost. In addition, the flanged expansion of the slender replaces the stainless steel spacers hitherto required against the walls, so that simplification 5 and cost reduction have also been achieved.

Finally, the formation of the end of the sleeve into a closed, circumferential cylinder and the contact with the end of the shaft by means of this shape results in a safety which cannot be weakened without a doubt. Rather, 10 should be used to remove the shaft lock thus obtained.

If the shaft securing is formed so that the free end of the sleeve is flanged radially inwards over the shaft end, then the length of the shaft can be practically limited to the length obtained from the distance between the walls by adding the thickness of their material, machining operations are no longer necessary and result in a shortened shape of the shaft 20 compared to the known method and a corresponding material saving.

Alternatively, the free end of the sleeve may be radially inwardly flanged in a circumferential groove at the end of the shaft to provide axial securing, whereby it is possible to perform this operation only at one end of the shaft, so that the need for machining the shaft is still reduced by half and except again, there is the possibility of forming the shaft shortened, because on the other, unmachined side it has to be formed only just long enough to fit in the bearing housing.

In all cases, the result is, moreover, that the shaft, as far as it has to be pushed through the part to be bearing and the sleeves of this bearing, is made smooth so that the bearing cannot be damaged. In addition, it has been found that the mounting and mounting of the shaft medicament 70307 according to the invention, despite the required sleeves, is more cost-effective and simpler than the measures associated with the known axial securing.

5 For all the cases described, it may be expedient for a spacer plate of polytetravinyl fluorine to be arranged between the bearing part and the flanged expansion of the adjacent wall or sleeve.

In this case, it is advantageous if the intermediate plate is connected in nine pieces with a sleeve having sliding bearing properties, by means of which the bearing part is rotatably mounted on the shaft.

Finally, it may be expedient for the flange-like expansion of the sleeve to have a cylindrical extension 15 surrounding the spacer plate emanating from its circumference. The purpose of this easily extended extension is to protect the bearing in the area of the spacer plate from dirt penetrating from the outside.

Other features and details of the invention will become apparent from the following description of exemplary embodiments, which are set forth in the drawing. In this case, for the sake of simplicity and clarity, only the structures of the roller bearings of pipelines, devices or the like are taken into account, without, however, limiting the invention to what is mentioned at the beginning of the description as the scope of the invention. In the drawing: Fig. 1 shows a first embodiment of the invention with a roller bearing having a roller in a cylindrical section taken through the bearing shaft, Fig. 2 shows a second embodiment as shown in Fig. 1 and Fig. 3 a third embodiment as shown in Fig. 1.

Fig. 1 shows a sectional view of a roller bearing housing 1, 35 with walls 2 and 3, in the bores of which a shaft 4 is raised, into which a roller 6 bearing a load, e.g. a pipe, not shown in the drawing, is rotatably mounted via bearing bushes 5. The roller is shown in this and also in the following examples as cylindrical. Of course, the roller can be e.g.

5 tapered roller, known per se for roller bearings for certain applications.

The shaft 4 is located in the bores of the housing walls 2 and 3 by means of stainless steel sleeves 7 and 8 which, from the wall side 10 facing the roller 6, are fixed to the wall by a radial, flange-like extension 9 and 10. The ends of the sleeves 7, 8 on the opposite side, is flanged around the ends of the shaft 4, which is shown ready on the left side, while on the right side 15 the situation before flanging is still visible.

By flanging the free ends of the sleeves 7, 8, the shaft 4 becomes closed and retained axially with respect to the housing, i.e. the walls 2, 3. Since the sleeves 7, 8 are made of stainless steel, the housing 1 can be made of ordinary steel without fitting rust between the housing 1 and the shaft 4.

In addition, the length of the shaft 4 can be practically adapted to the length of the gap between the walls 2, 3, since the protruding end is no longer needed for mounting the fastening means.

Since the sleeves 7, 8 have flange-like extensions 9, 10, a flat running surface is thus created on the roller 6, against which it can be supported by means of intermediate plates 11, 12 of polytetravinyl fluorine.

In Fig. 1, below the sectional view, 30 one of the sleeves 7, 8 is shown separately in the state in which it is together with the flange 9, 10 formed in one piece with it before installation.

The installation of the roller in the example of Fig. 1 is carried out simply by pushing the shaft 4, after the sleeves 7, 8 35 are in place, through the roller 6, after which the sleeves 7, 8 are flanged inwards from their free ends 7 70307. atelial securing to the roller 6 and its shaft 4 without the risk that when the shaft 4 is inserted through the diameter of the bearing hole 5 of the roller 6 and its bearing sleeves, these could be damaged by scratching or the like. Finally, by flanging around the shaft of the slender 7, 8, a shaft lock has been provided, which has been made irreversible by simple means, so that a sharp or careless reversal of the shaft lock has been successfully resisted.

In the example of Figure 2, the shaft 20 is on one side provided with a circumferential groove 21 in which disposed in the wall 23 of the sleeve 22 is flanged to the Ki-15 Ni and thus ensuring that the axis 20 is the axis of the mouth-specific and holds it in place. The sleeve 22 again has a radial flange 24 inside the wall 23. For final axial attachment, the sleeve 22 is axially bulged.

20 In this way, when installed, the shaft can be pushed from its right smooth end 25 through the bearing 26 of the roller 26 without any risk of damage. The smooth end 25 is then mounted outwardly on a smooth open sleeve 41, which is again attached to the wall into which it is fitted 25 without the need for any additional measures to provide axial securing.

In the present case, the bearing sleeves 27, 28 are connected in one piece for the roller 26 to the intermediate plates 29, 30, the intermediate plate 29 moving 30 against the flange 24 of the sleeve 22, while the intermediate plate 30 is still placed between it and the housing wall 42. stainless steel plate 31.

Figure 3 shows a supplement to the embodiments described by means of Figures 1 and 2, so that it is no longer necessary to go into detail in this respect. The addition is that the sleeve 32, 33, starting from its radial flange 34, 35, has a cylindrical extension 38, 39 surrounding the spacer plate 36, 37, with which the bearings 36, 37 and thus the bearing of the roller 40 are protected from external dirt.

Claims (7)

8 70307 A movable bracket for pipelines, devices, etc., having a housing in which at least one rotating part 5 (6, 26, 40) is mounted between two walls (2, 3; 23, 42) for a stainless steel or stainless steel coating optionally at least one sleeve (15, 27, 28) having sliding bearing properties, e.g. via a sleeve of polytetravinyl fluorine, and wherein the shaft (4, 20) is secured against axial displacement with its ends by walls (2, 3, 23, 42) by means of co-operating means, characterized in that a stainless steel sleeve (7, 8; 22; 32, 33) receiving the shaft end is inserted in the wall bore 15 at least at one end of the shaft, so that the sleeve from the wall side it is attached to the wall (2, 3; 23, 42) by a radial, flange-like expansion (9, 10; 24; 34, 35) that the free end of the sleeve facing away from the part is formed as a closed rotating cylinder, and that this free end is brought into contact with the shaft end by means of a shape. Bracket according to Claim 1, characterized in that the free end 25 of the sleeve (7, 8; 32, 33) is radially inwards flanged over the end of the shaft (4) in order to provide axial securing. Bracket according to Claim 1, characterized in that the free end of the sleeve (22) is flanged radially inwards in a groove (21) at the end of the shaft (20) in order to provide axial securing. Bracket according to Claim 3, characterized in that the cylindrical part of the sleeve (22) which crosses the outside of the wall (23) after the flange is protruded 35 in the direction of the wall. Bracket according to one of the preceding claims, characterized in that the part (6, 26, 40) and the adjacent wall (2, 3, 23, 42) or sleeve (7, 8; 22, 41; 32, 33) a flange of polytetravinyl fluorine (11, 12; 29, 30; 36, 37) is arranged between the flange-like expansion (9, 10; 24; 34, 35). Support according to Claim 5, characterized in that the spacer plate (29, 39) is connected in one piece to a sleeve (27, 28) having sliding bearing properties. Bracket according to one of the preceding claims, characterized in that the flange-like extension (34, 35) of the sleeve (32, 33) has a cylindrical extension (38, 39) extending from its circumference and surrounding the spacer plate (36, 37).