DD210330A1 - FRICTION SPRING - Google Patents

Abstract

A friction spring has outer and inner rings (3bzw.4,1) cooperating over respective conical contact surfaces (3a, 4a, 1e), wherein at least one inner ring (1) is provided with an axial slot (1b). In order to increase the closing force of the slotted inner ring (1) with respect to even better operational properties of the friction spring, within this ring (1) a ring-shaped, also axially slotted support element (2) is arranged, which over its outer peripheral surface (2a) against the inner Umfangsflaeche (1a) of the slotted inner ring (1) is applied.

Description

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friction spring

Field of application of the invention

The invention is used in general mechanical engineering and in vehicle application.

Characteristic of the known technical solutions ;

A friction spring is known which has outer and inner rings cooperating via respective conical contact surfaces, wherein at least one inner ring is provided with an axial slot,

Reihungsf-tetrahedra. have long since -also. Elements of 'mechanical engineering' and in particular in railway vehicles in spring apparatuses and side buffers spread. Over the axially slotted inner ring, which works as a spiral spring until its slot is closed, results in a force-displacement diagram bent in the sense of a softer lifting stroke? After closing the slot, this inner ring behaves approximately like the other closed inner rings of the spring. The highest possible closing force of the slotted inner ring is favorable, for example, in view of a reliable return der'Reibungsfeder after elimination of an impact force in their longitudinal play free starting position. The known · slotted inner rings own, by the permissible tensile and compressive stresses in her a. Limited _v opposite the slot ring cross section closing forces are not always as efficient enough.

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Object of the invention

The aim of the invention is to provide a friction spring of the generic type such that an increase in the service life achieved in their use and beyond in their use as a buffer spring higher Entgleisuuagicherheit the rail vehicles, especially in shunting · is achieved »

Explanation of the essence of the invention

The invention is based on the object., In a friction spring of the generic type, the operational

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To improve properties by an achievable in the simplest possible way enlargement of the closing force of the slotted inner ring.

This object is achieved in that within the slotted inner ring an annular, also axially slotted support member is arranged, which rests on its outer circumferential surface against the inner Umfangsflä.che this inner ring .. 10

In order to keep the support element free of compressive forces in the sense of unimpeded elastic deformations of the slotted inner ring, an embodiment according to the invention is that the slit width of the support element bei5 is greater when the spring is unloaded, at least by the amount of maximum deformation of the slotted inner ring present upon reaching the spring end force as the slit width of the inner ring. ,

To achieve a particularly favorable bending behavior of the active compound inner ring - support element and thus also for a more rounded shape as much as possible of the inner ring after closing its slot is after a -. ^J Ausführungs.f next to the invention provided orm that

the slotted inner ring and the support element are arranged to each other such that the respective slots have a staggered by about 180 position '.

To the slotted inner ring and. The support element in the axial direction against displacement zu-secure, provides a further embodiment according to the invention 'before that the support member is provided in the region of its two end faces, each with its outer circumferential surface outwardly superior stop collar. By the 'stop: -' bunde also increases the closing force of the support element. , "

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For a particularly 'easy assembly of the slotted inner ring and provided with the stop collars support element, it is also in the nature of the invention that at least one stop collar has a rising toward the slotted inner ring outer cone whose smallest diameter is slightly smaller than the inner diameter of this slotted inner ring.

The above-mentioned protection against axial displacement of inner ring and support member to each other is provided by an alternative feature of the invention, characterized in that the inner ring on its inner ümfangsfläche a circumferential · courage has, whose width corresponds at least to the width of the support element. -15

In a supplementary development of the invention it is provided that at least one of the two adjacent to the groove portions of the inner peripheral surface of the inner ring, as in the direction. Innenkönus is formed, whose largest diameter is slightly larger than the outer diameter of the support element.

In a particularly simple, moderate production and for the assembly ¹ way the slotted inner ring and the support element in axialer.richt direction against shifting to one-another. Embodiment of the invention to ensure that the slotted inner ring and the support element are arranged with a arranged in the transverse center, formed from a bead and a bedding support 0 are provided.

With regard to a most economical design of a friction spring, the 'has at least two slotted inner rings,' provides a 'next' embodiment of the invention 5, that the support element is formed in its width corresponding to the respective width of the slotted inner rings and their longitudinal distance from each other.

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In this' embodiment also results over the single support element also favorable compared to a single arrangement of several support elements higher closing force for the inner rings, since the longitudinal distance zwisehen the inner rings bridging portion of this support element participates in the deformation.

Um'beim work of the friction spring wear ^on: the inne- "ren ¹ ümfangsflache of the slotted, zu.verrneiden inner ring, it is given by an inventive further development, that the supporting element in the respective area of the transition of the outer surface in- the slot limiting side surface 'has a rounding.

If a particular high closing force is desired for the slotted inner ring (s), a further embodiment of the invention consists in that the supporting element cooperates with the outer jacket surface of an additional support leme'rrte via its inner jacket surface.

The advantages attainable with the object according to the invention are in particular in the following:

By the support member, the closing force of the inner ring is increased in a simple manner by that amount which results from the bending cross section of the support element and from the friction between the inner ring and the support element. With regard to the force-displacement diagram of the friction spring (see Fig. 12), the greater closing force leads to a spring characteristic which, with the end force unchanged, has a longer path for the soft lift. This results when using the friction spring as. The support element also achieves a longer, maintenance-free service life of the friction spring itself, moreover, buffers equipped with such friction springs have less wear on the buffer plates.

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Embodiments of the invention are illustrated in the drawings and will be described in more detail below. Show it

1 shows the section .1-1 of Fig. 2,

2 is a friction spring in view,,

3 each different embodiments of one to 10 friction spring, in terms of representation according to FIG. 1,

Fig. 11 a - provided as a buffer spring for rail vehicles friction spring, in longitudinal section, wherein the upper and the lower half

different execution options to each other.

Fig. 12 is a purely qualitative to be regarded static force-displacement diagram example

way the friction spring of FIG .11.

With regard to the basic structure of all the friction springs shown here, it is noted with reference to FIG. 10 or FIG. 1 that these springs have closed outer rings 3, closed inner rings 4 (omitted in FIGS. 1 to 9) and at least one with a ¹ -axial slot 1b having provided inner ring 1. The aforementioned rings 3, 4 and 1 cooperate respectively via conical contact surfaces 3a and 4a or 3a and Ie using a suitable lubricating grease. According to 'Figures 1 to 11 - see in particular Fig. 1 and 2 - is.t. within the slotted inner ring 1 an annular, also axially slotted support member 2 is arranged. This support element 2 rests against the inner circumferential surface 1a of the slotted inner ring 1 via its outer circumferential surface 2a. As can be seen from Fig. 2, the support member 2 with unloaded spring has a slot width, the

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At least by the extent of the present when reaching the Federendkraft maximum deformation of the slotted inner ring 1 is greater than the slit width of this ring 1. Next to Fig. 2, the slotted inner ring 1 and

  5, the support element 2 arranged in such a way to each other, .daß that the respective slots Ib and 2b have a staggered by about 180 position. From Fig. 2 are also rounded 2h on the support member 2 can be seen, which are arranged in the transition region of the outer lateral surface ': 2a in the slot 2b delimiting side surfaces 2g, in FIG.

2 left as an attached radius, right as a curved section.

, For example, according to Fig. 3, the support element is 2. '' in. ' Loading.

I5 rich of its longitudinal ends, each with a stop collar, 2c provided, which projects beyond the outer surface 2a to the outside. At least one of these stop collars 2c has an outer cone 2d which rises in the direction of the slotted inner ring 1 and whose smallest diameter is slightly smaller than the inner diameter of the slotted inner ring 1.

As an alternative to the design according to FIG. 3, FIG. 4 illustrates the possibility of forming the slotted inner ring 1 on its inner circumferential surface 1a with a peripheral groove Ic whose width corresponds at least to the width of the support element 2. An inner cone Id, which is located next to the groove Ic and whose largest diameter is slightly larger than the outer diameter of the supporting element 2, simplifies the joining of the inner ring 1 and the supporting element 2.

Another option for the designs of FIG.

3 and 4 is shown in FIG. 5 therein, .daß that the slotted

5 inner ring 1 is provided in the transverse center with a bead If, which engages in a bedding 2f of the support element 2. The so 'formed holder can also be done in reverse order.

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If the closing force of the slotted inner ring 1 is to be increased beyond the enlargement achieved by the support element 2, the support element 2 can cooperate with the outer surface 2a 'of an additional support element 2' via its inner circumferential surface 2e, as shown in FIGS this - see Fig. 8 - a further support member 2 "record .. ...

9, 10 and 11, a friction spring is assumed to have more than a slotted inner ring 1. In this case, it is advisable - as a further development of a single arrangement of supporting elements 2 - shown in FIGS Inner rings 1, as shown in Fig. 9 and 11 lower half of the picture, by a common support element 2 to grasp, which 'is formed in its length corresponding to the respective width · the slotted inner rings 1 and their longitudinal distance from each other shown in FIGS. 10 and 11 designed to-be same manner. Incidentally ', the friction spring ¹ in FIG. 11 by conventional Zugtöpfe ^ 5 and a tension screw 5a to a ready for assembly pretensioned unit.

In the spring diagram of FIG. 12, A is the characteristic of a friction spring without ^; Support member 2 indicates that should be biased with a force F = 10 kN.

The closing force F or the slotted inner rings 1 of this spring is 1.5 kN at a closing S ₃ .

B is the characteristic of the friction spring according to the invention with support element 2, in which case the support element 2, the closing force F _{c of} the characteristic A auf.etwa increased to twice the value F ^, _. This results in an increased biasing force F ", which has an advantageous effect on the provision of the relieved spring in the starting position. Further, by the greater closing force F _or ,, even at the higher biasing force F _v ",. stay soft for a longer time

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bender lifting path s "over the characteristic curve A, where the derailment safety of the rail vehicles increases.

Claims (11)

invention claim 1. Friction spring which has cooperating via respective conical contact surfaces outer and inner rings, wherein at least one inner ring is provided with an axial slot ', characterized in that within the slotted inner ring (1) an annular, also axially slotted support member (2) is that on its outer circumferential surface (2 a) against the inner Umfangsf laugh, / (1 a of this inner ring (1) is applied. 2. Friction spring according to item 1, characterized in that the slit width of the support element (2) at unloaded spring at least by the extent of the present upon reaching the Federendkraft maximum deformation of the slotted inner ring (1) is greater than the Schlitzbr-side of the inner ring, (1). 3. Friction spring according to one of the items 1 or 2, characterized in that the slotted inner ring (1) and the support element (2) are arranged to each other such that the respective. Slits (1 b or 2 b) have a position offset by about 180 °, 4 friction spring according to one of the points 1 to 3, characterized in that the support element (2) in the region of its two end faces, each with its outer peripheral surface (2 a) outwardly projecting stop collar (2 c) is provided, 0/1 ΊΟ. - ^S "61 022/26 WP F. 16 F / 5. friction spring according to item 4, characterized in that at least one stop collar (2 c) in the direction of the slotted inner ring (1) rising outer cone / (2 d) whose smallest diameter is slightly smaller than the inner diameter of the slotted inner ring ( 1). 6. Friction spring according to one of the items 1 to 3, characterized in that the inner ring '(V) on its inner ümfangsflache (T a) has a circumferential Uut (1 c) whose width corresponds at least to the width of the support element (2) . 7. / Friction spring according to item 6, characterized in that at least one of the two Uut (1 c) adjacent portions of the inner Ümfangsflache (1 a) of the inner ring (V) as in the direction of the support element. (2) rising inner cone (1 d) is formed whose largest diameter is slightly larger than the outer diameter ^; -des> ^: 'support' element (2). , 8. Friction spring according to one of the items 1 to. 3, characterized in that - that the slotted inner ring (1). and 'the supporting element' (2) with a arranged in the transverse center, from a bead (1 f) and a bedding (2 f) formed bracket are provided. 9. Friction spring having at least two slotted inner rings, according to one of the points 1 to 8, - characterized in that the support element (.2) in its width corresponding to the respective width of the slotted inner rings (1) and their longitudinal spacing is formed. · 241 -S- 61 022/26 WP F 16 F 10. Reibüngsfeder according to one of the points 1 to 9, characterized in that the support element (2) in the respective region of the transition of the outer lateral surface (2 a) in the slot (2 b) delimiting side surface (2g) a rounding (2h) having. 11. Friction spring according to one of the items 1 to 10, characterized in that the support element (2) via its inner circumferential surface, (2 e) with the outer shell surface (2 a ") of an additional support element (2 *) cooperates. For this. 4, pages drawings