DE19651234C2 - Notched shaft for encoders - Google Patents

Description

The invention relates to rotary encoders with a housing, with a GE rotatable in the housing mounted encoder shaft, with an angle information driven by the encoder shaft carrying disc, with a scan for the angle information, with a device for the rotationally fixed connection of the encoder shaft to a measuring shaft, whose angular position is closed is capture.

Various couplings are known for driving measuring devices and encoders, that have their origin in mechanical engineering. EP 0 682 229 A1 describes non-rotatable Coupling the encoder shaft to a measuring shaft to be detected, a collet, whereby a Outer cone is pulled into an inner cone so as to clamp the measuring shaft. The one The required clamping screw runs through the encoder shaft in the axial direction.

EP 0 066 636 A1 also describes a coupling by means of a collet with a Clamping nut described for the clamping.

The execution of a clamping device (similar to a very simplified collet with Tensioning screw) is described in EP 0 270 768 A2. For the clamp, one is two split encoder shaft required. The sliding surface between the two parts of the encoder shaft requires a corresponding quality of the surface. Using a clamping screw, the two parts of the encoder shaft diametrically in the required, very precisely machined blind hole Drive shaft clamped.

There are also couplings for smooth, relatively accurate angle transmission between a drive and an output part known in which the connection between An drive and output part via two spring parallel guides, each at a distance from one another other parallel, stretched springs, the ends of which are each rigid with each other are connected and in which one end of the springs with a parallel guide the drive part and those of the other ends of the springs of both parallel guides, are rigidly connected. Such a coupling is in the Swiss patent CH 381 028.

DE PS 30 38 072 contains a further development of CH 381 028. This clutch contains a connecting ring made of plastic, on which two pairs of parallel Spring arms are formed, the ends of which are provided with eyes and in pairs in pegs be attached to one disc each, one disc on the drive and the other Washer is attached to the output shaft.

DE 44 31 453 A1 is unique by means of a knurled shaft section Usable (factory-made) non-rotatable connection for setting a torque mentes described within a sensor. It is not a non-rotatable and in If necessary, detachable connection between a measuring shaft for detecting an angular position on and one drive (with any angle of rotation).  

DE 87 13 664 U1 describes a connection by means of a flattened or polygonal wel lendes described, but inevitably a fitting form lock not described heard hole in the drive shaft. The form fit must be so pronounced be that there is no radial play.

All of these known couplings have the disadvantages that they are expensive to manufacture are and take up a lot of space. Depending on the space available, assembly is also difficult.

The invention has for its object a coupling with a connection between to create the driving machine part and the rotary encoder to be driven, which the does not have the aforementioned disadvantages.

This object is achieved according to the invention by the features of the characterizing part of claim 1 solved that the encoder shaft on the drive side notches on its circumference has, the measuring shaft has a bore into which the notches encoders shaft is pressed in to the aligned and non-rotatable connection, and the encoder shaft the side facing away from the drive side has a thread into or onto one Mounting aid for pushing in and pulling out the encoder shaft is screwable.

When the notches are rolled in, ridges are formed on both sides of the notches, which are present when the notches are turned on press the notched shaft elastically into the cylindrical bore of the driving shaft men. This connection has the advantages that the notched shaft tensions in the bore, centered, axially aligned, free of play and vibration-proof. Other advantages of this connection are that they are space-saving, inexpensive to manufacture and can be used repeatedly.

Further features of the invention result from the following description, in conjunction with the claims and drawings.

In the following the invention is based on an embodiment shown in the drawings Example explained approximately. Show it:

Fig. 1: the notched shaft, partly in section

Fig. 2: a section through the notched shaft, along the line AB

Fig. 3: Notched shaft installed in an encoder, partly in section with a driving shaft and assembly aid

Fig. 3 shows the basic structure of a rotary encoder ( 1 ) in which the notched shaft ( 2 ) is rotatably mounted bar.

Fig. 2 shows a section through the notched shaft ( 2 ) with the three 120 ° offset ben ben ( 3 ), with the raised beads ( 4 ). The number of notches can be increased as required.

The shaft end opposite the notches ( 3 ) contains a bore ( 5 ) with an internal thread ( 6 ). The assembly aid ( 7 ) is screwed into the thread ( 6 ) in order to press the shaft ( 2 ) into the bore ( 8 ) from the shaft end ( 9 ) without damaging the device ( 1 ).

The opening ( 11 ) in the cover ( 10 ) is then closed with a plug, not shown. To remove the encoder ( 1 ), the assembly aid ( 7 ) is screwed back into the thread ( 6 ) and the encoder ( 1 ) is pulled out of the drive shaft via the shaft ( 2 ).

The bore ( 12 ) and / or the collar ( 13 ) are attached to a drawing tool. Depending on the design and circumstances, the encoder shaft can be run with an external thread instead of the internal thread of ( 6 ) and the assembly aid ( 7 ) with an internal thread. In order to fix the fixed part ( 14 ) of the encoder ( 1 ), a holding plate ( 15 ) is attached to the part ( 14 ), which is detachably connected to a machine part ( 16 ). The bearing connection between the encoder ( 1 ) and the shaft end ( 9 ) is realized by the notches ( 4 ).

Claims (5)

1. Encoder with a housing, with a rotatably mounted in the housing Ge shaft, with a disk driven by the encoder shaft carrying angle information, with a scan for the angle information, with a device for rotating connection of the encoder shaft with a measuring shaft, the angular position of is detected, characterized in that the encoder shaft ( 2 ) has notches ( 3 ) on its circumference on the drive side, the measuring shaft ( 9 ) has a bore ( 8 ) into which the notches ( 3 ) having the encoder shaft ( 2 ) are aligned and rotationally fixed connection is pressed in, and the encoder shaft ( 2 ) on the side facing away from the drive side has a thread ( 6 ) into or onto which an assembly aid ( 7 ) for pushing in and pulling out the Ge shaft ( 2 ) can be screwed. 2. Encoder according to claim 1, characterized in that the encoder shaft ( 2 ) on the side facing away from the measuring shaft ( 9 ) has a bore ( 5 ) with an internal thread ( 6 ) into which the mounting aid ( 7 ) can be screwed. 3. Encoder according to claim 1, characterized in that the encoder shaft ( 2 ) on the side facing away from the measuring shaft has an external thread onto which the mounting aid ( 7 ) can be screwed. 4. Encoder according to claim 1, characterized in that the assembly aid ( 7 ) has a collar ( 13 ) and / or a bore ( 12 ). 5. Encoder according to claim 1, characterized in that as an assembly aid for Pulling out a DIN screw with a support part can be used.