DE1210631B - Hub attachment - Google Patents

Description

Hub attachment The invention relates to a hub attachment, especially for the hub of an angularly movable coupling with a releasable fuse against a relative axial displacement of the with one another by a longitudinal spline connected shaft and hub, in which a radially resilient locking ring in a The ring groove of the hub or shaft engages in the vicinity of its end face and is attached to a circumferential shoulder of the shaft or hub is supported, one of which is the annular groove up to the end face of the hub or shaft reaching radial space between Hub and shaft is recessed for inserting a tool with which the locking ring can be pressed into the annular groove until the shoulder of the shaft or hub is released.

With a known hub attachment this old prevents a direct The stop between the hub and the shaft does not cause an axial displacement due to the locking ring locked direction.

A disadvantage of this hub attachment is to be seen in the fact that the direct stop between the shaft and the hub and the stop between the Circlip and the circumferential shoulder of the hub a precisely defined distance must have from each other.

It is also a device for preventing axial displacement a cylindrical body in a bore known as a safeguard against axial displacement in both directions for a single locking ring in the cylindrical body and a kingnut also to be provided in the bore, one flank of which is against axial displacement in one direction securing shoulder of the tightly fitting in the annular groove of the shaft and in the annular groove of the bore is a radially movably mounted circlip and the other flank supports the locking ring from the other side, so that axial displacement in the other direction is also impossible. With this species of fuses, the circlip is loosened radially from the inside externally movable tools, which are made by bores running radially in the plane of the annular groove of the cylindrical body are performed.

The invention is based on the object of providing a hub fastening with a releasable safeguard against relative axial displacement of the shaft connected to one another by a longitudinal spline . and to create a hub in which a locking ring prevents axial displacement in both directions, the loosening of which is possible by axially inserting a loosening tool.

This object is achieved according to the invention in that as in all fuses of this type the circumferential shoulder of the shaft a flank of a the securing ring is also supported by the second ring groove on the other side, furthermore, the two ring grooves cut into the longitudinal splines of the hub and the shaft are, and finally the radial gap by a distributed over the circumference Withdrawal of at least some of the longitudinal splines of the hub is gained in the pins can be inserted as a release tool.

This hub attachment combines the advantage that simplifies assembly, that a single locking ring prevents axial displacement in both directions, with the advantage of being able to dispense with radial bores for inserting loosening tools in favor of an axially insertable pin. The necessary space can be obtained in a simple manner by appropriately turning off the teeth of the hub. The advantages of this new hub attachment with releasable securing are particularly evident when connecting a driven shaft to the hub of an angularly movable coupling that has to be replaced frequently. - Depending on the radial height of the locking ring, the depth of the annular groove of the shaft is smaller than the height of the longitudinal splines, as is known in the case of hub fastenings in angularly movable couplings, so that the release pins can attack the side of the snap ring facing away from the annular groove of the hub.

When putting together a fuse, it is known to first arrange the circlip in the annular groove of the hub and then to slide the shaft into the bore of the hub. For this Z, - # square, the shaft is equipped with a conical contact surface for pressing the locking ring * into the annular groove of the hub. In practice it has proved advantageous if the guide surface is formed on the longitudinal splines of the shaft and having a first conical, the retaining ring only slightly radially pressing portion, an almost zyhndrischen intermediate portion and a second conical portion which slide in together on the locking ring. exerts the radial force necessary to release the hole.

The invention is explained in more detail below with reference to schematic drawings of an exemplary embodiment. F i g. 1 1 shows a side view, partially in section, of the claimed hub fastening for a universal gel that works at a constant rotational speed; the section here essentially follows the line 1-1 in FIG. 2, Ü'l 9. * i zine - S4 view of the ilin6üheg-Ende'i-Aufring designed as a hub, FIG . 3 shows a larger-scale section of the hub and shaft according to FIG. 1 with a fuse and F i g. 4 the parts according to FIG. 3 in a position in which the longitudinal splines are out of engagement - In F i g. 1 is provided as an angularly movable coupling ellt `d 'ei bell-shaped universal joint dargest> as men outer ring 10 which are formed on the inner surface thereof circumferentially distributed ball guide intervals reefs 12, of which only is to detect a. To this outer component. a shaft 14 is incorporated.

Furthermore, " belongs" to your gimbal joint a ring-shaped iün & ze # - 'ball # lffd = part 16, -which is arranged within the outer ball guide part and on . its outside at circumferential spacings has ball guide reefs 18 which correspond to the reefs 12 in the outer ball guide part and approximately coincide with them. Ehens many grooves 18 such as grooves 12 ″ are present, and a ball 20 is arranged in each pair of mutually opposite grooves. Inside the outer ball guide part there is an annular cage 22 which surrounds the inner ball guide part and is provided with openings 24 for receiving the balls.

The bore of the inner ball guide part 16 is provided with internal splines 26 which extend over the entire length of this component. Furthermore, the inner X ugelffiftrungteil in the bore a circumferential "inwardly opening annular groove 28 (Fig . 4) of rectangular cross-section ae in a standard, -related to-the bore lies. The inside diameter This nat has a larger radius than the root diameter of the longitudinal flute 26. As can be seen in Fig . 3 at 33 , upper sections of the teeth 26 between the groove 28 and the end face 32 of the inner ball guide stiffener are wrggeschdtten.

The WeRv 34, which receives the ball guide part from the bucket, is provided with external toothing, whose longitudinal splines 35 can be inserted into the back 30 of the longitudinal spline teeth 26 of the inner ball guide part and form a non-rotatable connection between the two components. The splined section of the shaft 34 has a circumferential annular groove 36 which lies in a normal plane of the shaft. The depth of this groove is smaller than the height of the longitudinal spline teeth 35, so that the groove consists only of the groove sections formed in the individual longitudinal spline teeth. The longitudinal spline teeth 35 are beveled at one end, so that a conical guide surface (FIG . 4) is created. The conical guide surface has a main section 40 with a bevel running under 301 , which is preceded by an almost cylindrical intermediate section 38 and a conical section 42.

- In order to establish a connection between the inner ball guide part as the hub and the shaft, a slotted resilient locking ring 44 is provided.

To connect the inner ball filler to the shaft, insert the snap ring 44 into the groove 28 of the hub bore. In Fig. 4, the snap ring is in the untensioned state and extends only partially into the groove 28. Now the conical guide surface of the shaft is inserted into the snap ring, this being slightly expanded and widened. Then directs the Längskeilzähn # of the shaft to the tooth gaps of the bore of the inner spherical guide member as a hub and pushes the shaft - into the bore, 'so that the snap ring by less than 30' further widened extending conical section 40 wii # d. The snap ring will thus slide over the longitudinal spline teeth of the shaft, which have the greatest diameter, when the shaft is pushed further into the inner ball guide part until. the snap ring engages in the 1; Ungnut 36 of the shaft. In the case of the in FIG. 3 , the position of the components illustrated, the snap ring protrudes partially into the groove 28 of the inner Kugeffi & -rungsteffs and partially into the groove 36 of the shaft, around the shaft within this. To hold the component securely and to secure it against - axial movements.

In order to detach the hub from the shaft, three or more pins 46, cm Fi g, which serve as tools. 3 indicated with dashed lines), along the shaft between the longitudinal spline teeth into the bore. All pins are rounded at their ends to be inserted into the bore, and their diameter is approximately equal to the height of the longitudinal splines of the shaft. These pins reach into the bore of the snap ring and spread it open until its bore is larger than the head diameter of the longitudinal spline teeth * of the shaft. The groove 29, of the inner ball guide part has a depth at which it has the SprengL expanded in this way. ring can accommodate without additional. It is now possible to pull the shaft out of the hub.

Claims (3)

Claims: 1. Hub fastening, in particular for the hub. an angularly movable coupling, - with a detachable safeguard against a. relative axial displacement of the shaft and hub, which are connected to one another by longitudinal splines, in which the radially resilient locking ring engages in an annular groove of the hub, or W, 11 near one end face. at 'a circumferential shoulder of the shaft or hub, with a radial gap between the hub and the shaft extending from the annular groove to the end face of the hub or shaft being cut out for inserting a tool with which the locking ring is inserted into the annular groove until the release of the The shoulder of the shaft or hub can be pressed in, characterized in that the shoulder of the shaft (34) is a flank of a second annular groove (36) which in a known manner also braces the securing ring (44) from the other side, the two annular grooves ( 28, 36) are cut into the longitudinal spline teeth (26, 35) of the hub and the shaft (16, 34) and the radial gap is formed by a recess (at 33) of at least some of the longitudinal spline teeth (26) of the hub (16 ) is obtained, in the pins (46) can be inserted as a release tool. 2. Hub fastening according to claim 1, characterized in that the depth of the annular groove (36) of the shaft (34) is smaller than the height of the longitudinal spline teeth (35) in a manner known per se. 3. Hub attachment according to claim 1 or 2, wherein the shaft has a tapered guide surface for pressing the locking ring into the annular groove of the hub when the shaft is pushed into the hub, in whose annular groove the locking ring is already inserted, characterized in that the The guide surface is formed on the longitudinal spline teeth (35) of the shaft (34) and has a first conical section (42) which only slightly radially urges the circlip (44), an almost cylindrical intermediate section (38) and a second conical section (40), which, when pushed together, exerts the radial force required to release the hole on the locking ring. Considered publications: German Patent Specifications Nos. 853 227, 944 461; German utility model No. 1 742 247; Swiss Patent No. 275 904; French Patent No. 1135 349; U.S. Patent Nos. 1,188,606, 2,752,765.