DE102006057022A1 - Sleeve fastening method for torque sensor, involves forming stamped indentation as part of negative contour on input and output shafts, and pressing sleeve into negative contour for locking - Google Patents

Abstract

The method involves connecting input and output shafts (12, 14) to a sleeve (28, 30) by plastic deformation. A stamped indentation (36a, 36b) is formed as a part of a negative contour (32, 34) on the input and output shafts. The sleeve is pressed into the negative contour for locking. The stamped indentation is attached at a base of the contour, which includes diagonal or rounded off edges. The sleeve is plastically deformed by a punch.

Description

State of the art

The invention is based on a method for fastening a sleeve on a shaft, in particular for securing each sleeve on the input shaft and the output shaft of a torque sensor, according to the preamble of the independent claim. Such a method is known from EP 1 510 284 A1 Both shaft stumps of a torque sensor operating with a torsion bar have at least one tooth-shaped or trapezoidal projecting profile on their circumference, onto each of which a coding sleeve is pressed. These sleeves are sitting after sliding on the teeth substantially non-rotatably on the stub shaft and are provided to identify the rotation of the two stub shafts against each other subsequently with a coding. For the attachment of prefabricated Codierringe this method is unsuitable because the Kodierringe after pushing already sit rotationally fixed on the teeth and a fine adjustment of the coding of the two rings to each other is no longer possible. The subsequently performed in this method pressing the coding rings between each two sprockets on each stub shaft is used to secure the coding against displacement in the axial direction.

From the DE 101 26 791 A1 Another method for mounting a measuring device for detecting a relative moment between an input shaft and an output shaft of a steering system is known in which a cylindrical sheet metal ring is pressed by deformation elements in a plurality of discrete, spatially separate, preferably designed as holes depressions, to secure the sheet metal ring on the wave. In this case, a very precise positioning and adjustment of the deformation elements relative to the holes is required because otherwise by axial deviations between the holes and the punch increased wear on the Verformwerkzeugen occurs and in addition cracking can occur in the sleeve. Moreover, wells of this type, for example, bores, can not be produced in a continuous turning process, which results in additional manufacturing costs.

Disclosure of the invention

The inventive method with the characteristics of the independent Claim has opposite The described prior art has the advantage that by the Training an imprint created as part of a negative contour on the shaft the possibility will, the sleeve before the final Still to move the attachment on the shaft and to adjust it exactly before the associated one Section of the sleeve is pressed into the contour. Preferably, in this case, the embossing in a circumferential grooved groove mounted in the shaft, so that on the one hand the basic shape of the contour is made using a standard turning process can be and the subsequent embossing, preferably as a tooth-shaped knurling done in the groove. The embossing outwardly displaced material does not protrude over it the surface out of the shaft, leaving the sleeve on the wave until the final Pressing into the contour remains displaceable and remains adjustable. If In this case, the pressing in to the bottom of the contour takes place, so is the preferably tooth-shaped Embossing expediently attached to the bottom of the contour. An advantageous alternative the configuration of the contour is a negative contour Provide groove, which expands outward and in the area the beveled or to the outside curved margins a preferably tooth-shaped embossing having, whereby the necessary Einpresstiefe of the sleeve in the Contour can be reduced. The pressing of the sleeve takes place this expediently by a plastic deformation by rolling or by pressing with one or more stamps

Especially in an embodiment of the shaft as a hollow shaft, as in a Torque sensor used with a torsion element between two stub shafts it has proven to be appropriate when the contour for pressing the sleeve into one on the shaft attached bead is formed. This will ensure that a sufficient wall thickness for the negative contour available stands without weakening the strength of the shaft in this area.

Short description of the drawing

One embodiment The invention is illustrated in the drawing and in the following description explained in more detail.

The Figure shows a section through a for forming a torque sensor split hollow shaft, each with one on an input shaft and an output shaft attached sleeve.

Embodiment of the invention

In the figure is with 10 a torque sensor, as it is integrated, for example, for detecting the steering torque in the steering column of a motor vehicle. For this purpose, the shaft is in an input shaft 12 and an output shaft 14 divided, between which a sensor arrangement 16 with a magnetic encoder unit 18 and a flux ring Ness 20 is arranged to detect the change in the magnetic flux through a sensor 19 at a rotation of the two shaft parts against each other. Furthermore, between the input shaft 12 and the output shaft 14 a warehouse 22 inserted as well as a dog clutch 24 , which limits the angle of rotation between the two shaft parts. That at the input shaft 12 applied torque is thereby reaching the through the dog clutch 24 limited angle of rotation of, for example, +/- 6 ° by a torsion bar 26 transferred, which with both shaft parts 12 and 14 is firmly connected. Such an arrangement is basically known and, for example, in the patent application DE 10 2005 011 196 described in detail, which is referred to in the embodiment of the subject of the application.

The inventive method is used for permanent and spatially accurate attachment of a sleeve 28 on the input shaft 12 , or a sleeve 30 on the output shaft 14 , The waves 12 and 14 each in the area of the sleeves 28 and 30 a negative contour in the form of circumferential Einpressnuten 32 . 34 on, in addition to each a coinage 36 , is preferably incorporated in the form of a tooth-shaped knurling. An embossing may possibly also subsequently in the grooves 32 . 34 or in another negative contour are formed by increased pressure of a punch 38 , where the contour 32 and or 34 especially on the ground when pressing the sleeve 28 . 30 is deformed.

The embossing may optionally be in the form of a sawtooth, rib-shaped or differently shaped deformation at the bottom of the press-in groove, as in the reference numeral 36a at the input shaft 12 is shown. However, it may additionally or alternatively also an embossing 36b be provided in the region of the lateral groove edges, as exemplified on the output shaft 14 is shown. The imprint 36b at the groove edges requires a lower press-in depth of the sleeves 28 or 30 as the coinage 36a at the bottom of the groove. The edges of the press-in grooves 32 and 34 may be trapezoidal or spherical. Gallic groove edges are in the press-in groove 32 at the reference number 33 shown in dashed lines.

The pressing in of the sleeves 28 . 30 into the grooves 32 . 34 takes place in the embodiment by plastic deformation of the sleeves in the groove direction by means of a roller-like punch 38 , which in a continuous operation, the sleeves 28 . 30 along the circumference of the waves 12 and 14 into the grooves 32 and 34 pressed in and thereby permanently deformed. Alternatively, one or more radial punches may be used 38 for pressing in the sleeves 28 . 30 be used.

To weaken the input shaft 12 and the output shaft 14 in the area of the press-in grooves 32 and 34 to avoid is the waves 12 and 14 in the area of the grooves 32 and 34 one bead each 40 . 42 applied, which is integral with the waves 12 and 14 is trained. The negative design of the contours with the grooves 32 and 34 as well as the imprints 36 allows the sleeves 28 and 30 after pushing on the waves 12 and 14 can still be aligned exactly in a predetermined position as a zero position to each other before the final fixation of the sleeves 28 and 30 on the shaft parts 12 and 14 he follows. In this way, an adjustment of the sleeves after pre-assembly is still possible on the one hand and on the other hand by the design of the Einpressnuten 32 and 34 with the imprints 36 a secure locking of the sleeves 28 and 30 ensured both in the circumferential direction and in the axial direction of the arrangement.

Claims (8)

Method for fixing a sleeve ( 28 . 30 ) on a wave ( 12 . 14 ), in particular for attachment of a sleeve ( 12 . 14 ) on the input shaft ( 12 ) and the output shaft ( 14 ) of a torque sensor ( 10 ), wherein the shaft has a contour for connection to the sleeve by plastic deformation, characterized in that an embossing ( 36a , b) as part of a negative contour ( 32 . 34 ; 36 ) on the shaft ( 12 . 14 ) is formed and the sleeve ( 28 . 30 ) for locking in the contour ( 32 . 34 ; 36 ) is pressed. Method according to claim 1, characterized in that the embossing ( 36a , b) in a circumferential press-in groove ( 32 . 34 ) in the wave ( 12 . 14 ) is attached. Method according to claim 1 or 2, characterized in that the embossing ( 36a ) at the bottom of the contour ( 32 ) and the sleeve ( 28 ) into the contour ( 32 . 36a ) is pressed. Method according to claim 1 or 2, characterized in that the contour ( 32 ) oblique or rounded edges with an embossing ( 36b ) in the region of the edges and the sleeve ( 30 ) at least in the region of the edges in the contour ( 32 . 36b ) is pressed. Method according to one of the preceding claims, characterized in that the sleeve ( 28 . 30 ) by at least one stamp ( 38 ) plastically deformed and thereby an embossing in the contour ( 32 . 34 ; 36 ) is produced. Method according to one of the preceding claims, characterized in that the sleeve ( 28 . 30 ) by rolling ( 38 ) plastically deformed and there into the contour ( 32 . 34 ; 36 ) is pressed. Method according to one of the preceding claims, characterized in that the contour ( 32 . 34 ; 36 ) in a bead ( 40 . 42 ) on the shaft ( 12 . 14 ) is formed. Method according to one of the preceding claims, characterized in that the embossing ( 36a , b) is formed as a tooth-shaped knurling.