DE3305419A1 - Self-locking toothed ring - Google Patents

Abstract

The invention relates to a self-locking toothed ring for holes, shafts or the like, which has retaining tongues which point in the same direction as the expanding flaps and are axially sprung. In consequence, extremely thin-walled machine parts can be mounted or positioned with axial pretensioning. Alternatively, radially directed guide projections are provided which centre the toothed ring during pressing in or pressing on.

Description

Self-locking serrated ring

The invention relates to a self-locking serrated ring after Preamble to the main claim.

Sin self-locking serrated ring of this type is described in DE-OS 1,946 340 known. The expansion tabs are, for example, radial from the support body outwards, while the retaining tongues are directed radially inwards. This execution is for mounting in a smooth cylindrical housing bore on a smooth cylindrical one Shaft or the like. Provided. The retaining tongues are used for axially resilient fastening or placement of a machine part.

The fact that in the known design, the retaining tabs always in the opposite direction of the expansion tabs is therefore only the attachment of machine parts with a relatively wide side surface possible or there must be corresponding ring-shaped recesses in the housing or

Purer Ourcnesserabstllflngen provided for receiving the serrated ring will. This requires additional work and restricts the use of the well-known serrated ring.

The object of the invention is to provide a serrated ring of the type mentioned at the beginning Create type that is suitable for fastening thin-walled machine parts, without special precautions having to be taken on the mounting surfaces.

The object is achieved in that the retaining tongues are each in the pointing in the same direction as the expansion flaps and slightly to the central axis of the Serrated ring are arranged inclined.

The retaining tongues thus run in the same radial direction like the expansion flaps and therefore do not require any additional radial height. That radial ring size of the entire serrated ring can thereby advantageously extreme can be kept small. Furthermore, the contact surface of the retaining tongues is depending on dimensional execution on a diameter that is almost the diameter of the housing bore or the wave can reach. This makes it possible to have extremely thin-walled, sleeve-shaped To fasten machine parts with the serrated ring according to the invention without changes to have to do on the housing or on the shaft. This version is special Advantageously to use with bearings, whose outer rings, for example, with pre-tensioning must be employed, and where there is particularly little axial and radial installation space is available.

In another embodiment of the invention, at least three evenly distributed around the circumference, each between retaining tongues and / or expanding tabs arranged, radially extending guide projections are provided, which are attached to the end face are arranged adjacent to the mounting surface or at a small distance therefrom.

The guide projections are particularly effective when inserted into the bore or pressing onto the shaft does their job and center the serrated ring. Through this it is achieved that all spreading flaps distributed around the circumference have to do with the task of holding are equally involved. In addition, they also have a uniform effect at the same time central position of the retaining tabs, which is important for certain applications exact distribution of the axial spring action on the machine part to be employed is achieved will. The number and division of the guide projections in relation to the retaining tongues or expansion flaps can be adapted to the respective requirements. A functional one Execution could, for example, three guide projections and distributed around the circumference alternately have holding tongues and expanding tabs in between.

The invention is illustrated below on the basis of the drawings Examples described.

Show it; Fig. 1 is a side view of a self-locking serrated ring for bores with retaining tongues and guide projections, Fig. 2 the partial longitudinal section along the line A-A of the serrated ring shown in Fig. 1, Fig. 3 the partial Longitudinal section along the line B-B of the Zackearinges shown in Fig. 1, Fig. 4 the side view of a self-locking serrated ring for cells with retaining tongues una Fig. 5 shows the partial longitudinal section of one in a housing Serrated rings attached bearing unit.

The self-locking serrated ring shown in Fig. 1 is for the Suitable for use in bores and z. B.

made from a resilient sheet steel. It consists of a ring-shaped Support body 1 with each molded thereon, distributed around the circumference and essentially radially extending expansion tabs 2, retaining tongues 3 and guide projections 4. In the intermediate rails between two adjacent expansion tabs 2 are in the circumferential direction the holding tongues 3 and guide projections 4 are arranged alternately. The splay flaps 2, as can best be seen from FIG. 2, have the greatest radial extent all slightly inclined in one direction to the central axis of the serrated ring and form in this position with its jacket edge 5 the largest diameter of the serrated ring. The expansion tabs 2 give in their inclination to the support body 1 resiliently. The retaining tongues 3 are opposite to the expansion tabs 2 in the other direction the central axis of the serrated ring is inclined.

They have a smaller radial extent and form with their jacket edges 6 have a smaller diameter than the expansion tabs 2. Also give the holding tongues 3 in their inclination with respect to the support body 1 resiliently, so that a total of between the expansion tabs 2 and the holding tongues 3 results in an axial resilience. The guide projections 4 run, as shown in FIG. 3, in a radial manner Level and form with their lateral surfaces 7 guide sections for centering the Serrated ring in the hole in which it is to be used. The outer surfaces 7 lie on the inner diameter of the serrated ring, which is adapted to the bore.

The serrated ring shown in Fig. 4 is for fastening or the adjustment of machine parts on a shaft suitable and therefore has radial inwardly directed expansion flaps 2. Between the expansion tabs 2 are each Holding tongues 3 arranged. Expanding flaps 2 and retaining tongues run in the longitudinal section 3 in principle as in FIG. 2 for the serrated ring for bores described above is shown, so that there is also an axial resilience in this embodiment between the retaining tongues 3 and 2 expansion tabs results. Leadership advantages are with this-n example is not provided, but these could, as described above, additionally be arranged.

In Fig. 5 is the attachment of a bearing unit in a housing 9 shown by means of the serrated rings according to the invention. The storage unit exists from a shaft 10 with two raceways 11 machined at a distance from one another for a row of balls 12, over which the shaft 10 in a thin-walled Outer ring 13 is rotatably mounted with corresponding raceways. The outer ring 13 sits with a loose fit in a smooth cylindrical bore 8 of the housing 9 and is in each case on the side surfaces 14 via a self-locking serrated ring therein axially and in the circumferential direction. The serrated rings according to the invention with Resilient retaining tongues 2 are necessary because on the shaft 10 on the outer ring 13 Asial Forces can act, with a shift of the entire bearing unit must be expected in hole 8. The serrated ring shown on the left is initially loosely attached to the shaft 10 and in a position in front of the Heinpressen in the Hole 8. The serrated ring shown on the right is already pressed in. When pressing is with a not shown, for example wise sleeve-shaped Tool applied to the support body 1, an axial force. The lean at the edge of the bore 8 adjacent expansion tabs 2 with respect to the support body 1 increasingly to the central axis of the serrated ring. This reduces the outer diameter, on which the jacket edges 5 of the expansion tabs 2 lie until this has the diameter the bore 8 reached. Under these conditions, the serrated ring slides axially in the bore 8 until the retaining tongues 3 rest on the side surface 14 of the outer ring 13. With stronger axial pressure on the support body 1, the holding tongues 3 give opposite the support body 1 resiliently and reduce their inclination to the central axis of the serrated ring. In this position they practice, as can be seen from the serrated ring shown on the right is, against the side surface 14 of the outer ring 13 from a bias. If there the axial pressure on the support body 1 is released, they are already spreading by their own resilience on the surface of the bore 8 adjacent expansion tabs 2 reinforced by the resilience of the retaining tongues 3 increasingly against the surface the bore 8. The jacket edges 5 of the expansion tabs 2 claw in the material of the housing 9. When the outer ring 13 by external axial forces against the retaining tongues 3 is pressed, these can yield axially resiliently, whereby the movement is strong is dampened. The serrated ring retains its axial position in the bore 8, because the jacket edges 5 of the expansion tabs 2 are opposite to the pressing direction when a pressure is applied Apply even more forcefully against the surface of the hole 8.

Claims (3)

Self-locking serrated ring B Patent Claims Self-locking serrated ring For smooth mounting surfaces of bores (8), shafts or the like, consisting of a ring-shaped or disk-shaped base body (1) with molded thereon, distributed on the circumference, essentially radially extending expansion tabs (2) and with also molded on them, axially resilient retaining tongues (3) distributed around the circumference, characterized in that the holding tongues (3) each pointing in the same direction as the expansion tabs (2) and are arranged slightly inclined to the central axis of the serrated ring. 2. Self-locking serrated ring according to claim 1, characterized in that that at least three evenly distributed around the circumference, each between folds tongues (3) and / or expanding tabs (2) arranged, radially extending guide projections (4) are provided. 3. tSelf-locking Zackerlrillg according to claims 1 or 2, thereby characterized in that the guide projections (4) on the front side on the mounting surface are in contact or at a short distance from it.