DE3305419C2 - Self-locking serrated ring - Google Patents

Abstract

The invention relates to a self-locking serrated ring for bores, shafts or the like. Which has axially resilient retaining tongues pointing in the same direction as the expansion tabs. This means that extremely thin-walled machine parts can be fastened or adjusted under axial preload. Alternatively, radially directed guide projections are provided which center the serrated ring when it is pressed in or pressed on.

Description

radially extending expansion tabs 2, retaining tongues 3 and Guide projections 4. In the spaces between each two adjacent expansion tabs 2 are in The retaining tongues 3 and guide projections 4 are arranged alternately in the circumferential direction have, as best seen from Fig. 2 can be seen, the largest radial extent, are all slightly in one direction inclined to the central axis of the serrated ring and in this position form the largest with their jacket edge 5 Diameter of the serrated ring. The inclination of the expansion tabs 2 in relation to the support body 1 resiliently after. The retaining tongues 3 are opposite the expansion tabs 2 in the other direction against the central axis of the serrated ring inclined They have a smaller radial extent and "form with their jacket edges 6 has a smaller diameter than the expansion tabs 2. The holding tongues 3 also give in their inclination relative to the support body 1 resiliently, so that a total of between the expansion tabs 2 and the retaining tongues 3 results in an axial resilience. The guide projections 4 run as shown in FIG is, in a radial plane and form with their outer surfaces 7 guide sections for centering the Zakken ring in the hole in which it is to be inserted. The lateral surfaces 7 lie on the outer diameter of the serrated ring, which is adapted to the bore

The in F i g. 4 zigzag ring is for the attachment or the adjustment of machine parts on a Shaft suitable and therefore has expanding tabs 2 directed radially inward. Between the spreading flaps 2 holding tongues 3 are arranged in each case Principle as shown in FIG. 2 is shown for the serrated ring for bores described above, so that at this embodiment also results in an axial resilience between the retaining tongues 3 and 2 expansion tabs Guide projections are not provided in this example, but these could, as described above, be arranged in addition.

In Fig.5 the attachment of a storage unit is shown in a housing 9 by means of the Zakkenringe according to the invention The bearing unit consists of a shaft 10 with two machined at a distance from one another Raceways 11 each for a row of balls 12, over the dia shaft It) 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 Zig-zag ring fixed therein axially and in the circumferential direction. The zig-zag rings according to the invention with resilient retaining tongues 2 are necessary because axial forces act on the outer ring 13 via the shaft 10 can, with a shift of the entire bearing unit in the bore 8 to be expected got to. The serrated ring shown on the left is initially loosely attached to the shaft 10 and in a position in front of the Pressing into the hole 8. The serrated ring shown on the right is already pressed in. When pressing in with a not shown, for example sleeve-shaped Tool applied to the support body 1, an axial force. The ones on the edge of the hole lean 8 adjacent expansion tabs 2 with respect to the support body 1 increasingly towards the central axis of the serrated ring. This reduces the outside diameter on which the manf. 'Edges 5 of the expansion tabs 2 until it reaches the diameter of the bore 8. Under these conditions the serrated

ring axially into the bore 8 until the retaining tongues 3 are on Side surfaces 14 of the outer ring 13 rest. With stronger axial pressure on the support body 1, the retaining tongues give 3 with respect to the support body 1 resiliently and reduce their inclination to the central axis of the Zakkenringes. In this position they practice, as can be seen better from the serrated ring shown on the right against the Side surface 14 of the outer ring 13 from a bias. If the axial pressure on the support body 1 is released, the already spread by their own resilience at the avenge of the hole 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 is pressed against the holding tongues 3 by external axial forces, these can yield axially resiliently, whereby the movement is strongly damped. The serrated ring retains its axial one Position in the hole 8 because there are cf »e jacket edges 5 the expansion flap 2 at a pressure against the direction of press-in even more intensely against the surface of the bore 8 create.

For this purpose 2 sheets of drawings

Claims (3)

1 2 to create the type mentioned at the outset, which is suitable for the fastening claims: supply of thin-walled machine parts without taking special precautions on the mounting surfaces 1. Self-locking serrated ring must be taken off axially. Support of a component on smooth mounting surfaces 5 The object is achieved in that the retaining fasteners of bores, shafts or the like, consisting of their own each in the same direction as the expansion tabs Nem ring-shaped or disc-shaped support body are arranged with pointing, the free ends of the integrally formed thereon, distributed on the circumference, the free ends of the retaining tonguej radially in the we-expanding flap substantial radially extending, slightly to protrude with. central axis of the serrated ring inclined expansion tabs io Since the retaining tongues in the same radial direction to rest on the smooth mounting surface and run axially like the expansion tabs, they do not require any spring-loaded Retaining tongues to rest on the component, additional radial height. The radial ring gauge of the gedie in the other direction against the central axis of the entire serrated ring can thereby advantageously The serrated ring are inclined, thereby being kept extremely small. Furthermore, the marking is that the holding tongues (3) each in the grip surface of the holding tongues, depending on the dimensional design radial direction as the expansion flap (2) tion on a diameter that is almost the Durchweisend are arranged, the free ends of the knife reaching the housing bore or the shaft Spreading tabs (2) can the free ends of the retaining fasteners. This makes it possible to produce extremely thin-walled, sleeve (3) protrude radially. sensor-shaped machine parts with the inventive 2. Self-locking serrated ring according to claim 1, to attach 20 ßen serrated ring without changes to the characterized in that at least three housings or must be made on the shaft. The evenly distributed on the circumference, each between se execution is particularly advantageous for storage Retaining tongues (3) and / or expanding tabs (2) to be used, the outer rings of which, for example, have a front net, on the supporting body (!) molded, radial bracing must be made and where running Guide projections (4) are provided. 25 very little axial and radial installation space is available 3. Self-locking serrated ring according to the claim. Chen 1 or 2, characterized in that the guide In another embodiment of the Erfinrungsvorsprünge (4) At the front of the mounting surface, at least three are evenly lined up around the circumference adjacent or at a short distance from it, each arranged between holding tongues and / or spreading are. 30 lobes arranged, radially extending guide projections are provided, which are attached to the front of the mounting surface. before lying close to or at a short distance from it are. The guide projections are particularly effective in The invention relates to a self-locking serrated inserting into the bore or pressing onto the shaft ring according to the preamble of the main claim. their task and center the serrated ring. Through this A self-locking serrated ring of this type is achieved by the fact that all spreading laps distributed around the circumference the DE-OS 19 46 340 known Here, the expansion flaps are evenly involved in the task of holding pen from the support body, for example, radially outwards. In addition, they also have an effect at the same time ßen, while the hook tongues are aligned radially inwards. are tet. Both the expansion flaps and the retaining fasteners are an important ex- The distribution of the axial spring action on the ring arranged inclined. This execution is achieved for the subordinate machine part. The number and Fastening in a smooth cylindrical housing boom division of the guide projections opposite the tion, on a smooth cylindrical shaft or the like. Holding tongues or expanding tabs can be the respective see. The retaining tongues are used to adapt the axially resilient loading requirements. A functional one consolidate or adjust a machine part. As a result, the execution could, for example, three on the circumference that in the known design, the retaining tongues divided guide projections and alternate between always have holding tongues and expanding flaps in the opposite direction of the expansion flaps, point, so that only the attachment of machine parts is 50 The invention is in the following to the in the drawing len with a relatively wide side surface possible, or it must be described the examples shown. It shows sen corresponding annular recesses in FIG. 1 the side view of a self-locking Zak- housing or smaller diameter increments for the locking ring for bores with retaining tongues, expansion lap acquisition of the serrated ring are provided. The erpen and leadership lead, calls for additional work or restricts 55 F i g. 2 shows the partial longitudinal section along the line Use of the well-known serrated ring. AA of the in FIG. 1 illustrated serrated ring, Through the CH-PS 2 28 259 a serrated ring is usual F i g. 3 shows the partial longitudinal section along the line Execution known to the BB comparable only with expansion tabs g of F in i. 1 illustrated serrated ring, see is. In order to ensure the stability in particular in the FIG. 4 the side view of a self-locking Zak- Spreader flap facing away from the area of the serrated ring 60 kenringes for shafts with retaining tongues and expanding flaps to increase is a separately manufactured, ring-shaped ge, and closed frame crimped around the serrated ring. Da- F i g. 5 shows the partial longitudinal section of a Gebei is a continuous disk-shaped portion housing with Z? R kenringen fixed storage unit,
provided, which in addition to the reinforcing property of the in F i g. 1 illustrated self-locking serrated ring has the task of holding bores as a holding 65 is suitable for use in bores and z. B. made of a resilient sheet steel element for a tool for releasing the serrated ring. It consists of serving. A guided tour is not intended. an annular support body 1, each with an