DE3922194C1 - - Google Patents

Description

The invention relates to a method and a device to measure the bearing play of the journal bearings of a four having pegs at right angles to one another Cone cross, the pairs of which have a common axis having pins each in the bearing bores Joint fork with the interposition of rolling elements, especially needles or rollers, and a bearing bush are stored.

The play in the joint is an essential measure for the Qua lity of the function of the cardan shaft and in particular its Concentricity. For this reason, the Bearing bushes in the bearing holes of the articulated forks below different sized snap rings used to the game between the pin end surfaces and the bottom surface of the Adjust bearing bush. The setting will change after Feeling determined by the person performing the assembly. It is essentially a measure based on the skill of the worker is turned off. If the worker has the feeling that one is too tight or too loose position, he has a correspondingly thinner one or choose a thicker circlip.

From this procedure it follows that it depends on the People and their experience arrives, enough  To achieve leadership behavior of the joint. Measurable size eats are not available and beyond that it is only depending on the experience of the assembly person whether they by choosing the right circlip Assembly speeds up.

Proceeding from this, the object of the invention is to provide a method and an apparatus with which measurable sizes for game setting and beyond considering the measured values a simple one Determining the strength of the circlips is achieved.

This object is achieved in that the the deflection of one joint fork from the other articulated fork held stationary under a certain Diffraction angle in each case by the two pairs of pins counteracting bending moments formed joint axes be measured.

By measuring the direction opposite to the deflection Bending moments becomes an objectifiable measure regarding the Difficulty or ease of movement and therefore a measure achieved for the playing conditions. So it can Now design the required games exactly be placed. The selection of the circlips is made by the respectively measured bending moment for the two pins couples determined. Overall, a great repeatability and also one of Constancy independent of persons with faster execution assembly.

In a further embodiment it is provided that the moving Liche joint fork during the measurement process on the the radius given by a rotation angle of 90 ° around the axis of rotation of the stationary Ge steering fork is moved. By guiding on the radius you get a steady movement of the bearings of the  Universal joint, which would like a continuous measurement is worthwhile. The 90 ° range of motion is over sufficient to clearly record the value, since the measuring signal would recur periodically.

According to the invention, a method for performing the method direction suggested by a recording for the to keep the position of the fixed position the joint fork, by one on the movable joint fork bending rod that can be firmly connected at one end, the is connected at the other end with a ball joint, the of a hinge part the bending rod and its bendable another joint part is assigned to a power drive and is displaceable in a radial guide by on the Outer surface of the bending rod, which is round in cross section, in each case perpendicular to the axis of the joint, its longitudinal extension and Longitudinal compression strain gauges and by a Circuit for voltage measurement is marked.

DE 25 20 672 A1 is itself a force transducer in Form of a bending rod known, which for measuring Forces on rollers with a rod end or self-aligning bearing can be equipped and the bending rod with Strain gauge is provided via a circuit the longitudinal expansion and compression of the Detect bending member.

The flange fork is preferred Articulated fork used as a movable articulated fork to which the bending rod via a corresponding connector body can be connected.

To achieve the exact measurement, there is a device proposed by consisting of a measuring arrangement a bridge circuit for the strain gauges, one  downstream measuring signal amplifier with a measuring computer and an additional recording device for recording the voltage curve over the rotation angle, and a display unit for correction specification is.

The recording device records the courses for the the joint axes separately. If necessary, by an extended evaluation circuit also equal to the worker be specified which circlip thickness to choose is. To the necessary size for the change in length on the To reach the surface of the bending rod is proposed to design the bending rod as a tube.

In order to be able to achieve an exact movement, is also suggested that the radial guide and the power drive for the radial and the rotary movement by one known robot is shown. Through this robo Repeatability is always the same conditions reached.

A preferred embodiment of the invention is in the drawing is shown schematically.

It shows

FIG. 1 a propeller shaft, the United drive on their joints is applicable,

Fig. 2 shows a section AA to Fig. 1 and

Fig. 3 is a schematic representation of the device in conjunction with a universal joint,

Fig. 4 is a block diagram of the measuring arrangement.

The universal joint shaft 1 shown in Figs. 1 and 2 has two universal joints 2, which dung wave by a Verbin rotationally fixed to each other, but a position allowing Relativver are connected. The universal joints 2 be made up of an inner joint fork 3 and an outer joint fork 4th The two articulated forks 3 , 4 are hingedly connected to one another by an articulated cross 8 . The outer joint fork 4 has a flange 7 , which is used for connection to a driving or driven machine part or vehicle part. The two inner joint forks 3 are connected to components belonging to the connecting shaft. For example, one of the inner articulated forks 3 can be part of an outer sliding part 5 , which has a splined bore into which an inner sliding part 6 with corresponding outer teeth is inserted, which is connected to the other inner fork 3 . The joint cross 8 has four pins 9 a , 9 b , 9 c and 9 d which are at right angles to one another. Two pairs of pins 9 a and 9 c or 9 b and 9 d form pin pairs. The pair of pins 9 a , 9 c has a hinge axis 26 and the pair of pins 9 b , 9 d the hinge axis 27 . The pair of pins 9 a , 9 c is received via bearings in the bearing bores 12 of the joint yoke 3 and the pair of pin crosses 9 b , 9 d is also pivotally mounted about bearings in the bearing bores 12 of the joint yoke 4 about the two joint axes 26 and 27 , respectively.

The bearing comprises on the outer surface of the associated pin 9 a - d arranged rolling elements 10 , for example bearing needles, which on the other hand are guided on the inner surface of a bearing bush 11 . The bearing bush 11 is added with its outer surface in the Lagerboh tion 12 of the associated joint fork 3 or 4 . If necessary, a thrust washer is arranged between the end surface of the pins 9 a - d and the bottom surface of the bearing bush 11 . The play between the two opposing pins 9 a , 9 c and 9 b , 9 d associated bearing bushes and the pin surfaces between the bottom surface is determined by locking rings 13 inserted into the bearing bore 12 . The strength of the locking rings 13 is determined according to the required play and thus the deflection about the articulation axes 26 , 27 counteracting moments. The bearing bushes 11 are also sealed by means of intermediate sealing rings 14 with respect to the cross 8 .

In Fig. 3 finally, the measuring apparatus is shown for practicing the method according to the invention. Furthermore, a joint in which the measurement is to be carried out can be seen. For example, one of the two joints 2 , for example the outer sliding part 5 , has the joint 2 with the outer sliding part and the associated articulated fork 3 in the holder 28 in a stationary but rotationally positioned manner. The articulated fork 4 belonging to this joint 2 is connected via its flange 7 to a connecting plate 26 , which has receiving pins which serve for connection to the flange 7 , in a rotationally fixed and axially fixed manner. A bending rod 17 is firmly connected to the plate 16 . The other end of the bending rod 17 is firmly connected to the inner part 22 of a ball joint 21 . The inner joint part 22 of the ball joint 21 is pivotally received in the outer joint part 23 . The outer part 23 is in turn attached to a radial guide 24 , which is additionally movable on an arc about an axis 29 of the receptacle 28 , which represents the axis of rotation of the fixed joint fork 3 , over a pivoting angle of 90 ° in the direction of rotation. For this purpose, a power drive 25 is provided. This also serves to deflect the bending rod 17 and thus the joint fork 4 relative to the joint fork 3 by the intended measuring angle A of preferably 35 °. The function of the radial guidance and also of the rotary drive can be taken over by a robot.

On the outer surface 30 of the bending bar, strain gauges 18 a - d are each offset by 90 ° to the joint axes 26 , 27 of the joint 2 to be measured on the pressure and tension side. Two strain gauges 18 a and 18 c and 18 b , 18 d each form a pair which are used to measure the elongation or compression. Connected measuring amplifiers and a current source supplying the circuit can be used to measure the bending moments that counteract the deflection about the two articulation axes 26 , 27 and act as voltage quantities that are proportional to the bending moment. Conclusions about the play conditions in the joint 2 can be drawn from the bending moment, from which the thicknesses of the locking rings 13 can be determined in comparison to the required nominal torques. For this purpose, for example, an evaluation circuit of FIG. 4 can be provided, which as a measuring bridge circuit 31 of the strain gauges 18 a , b and 18 c , d , a measuring signal amplifier 32 and a measuring computer 33 connected thereto with additional control over a voltage measuring device 20 , and as Input variables include the initially used circlips with their strength and the bending moment specified as the target torque around the two respective joint axes 26 , 27 and the respective locking ring strengths are calculated from the measured bending moments in order to achieve the target torques. The measured variables are either displayed via an additional recording device 34 or the calculated measured variables are communicated directly to the operating personnel via a display unit 35 for outputting information about the correction to be made.

To eliminate measurement errors resulting from the  The joint's own weight is only low Deflection that is on the order of 5 to 10 °.  

Reference symbol list

1 universal joint shaft
2 joint
3, 4 joint fork
5 sliding outer part
6 inner sliding part
7 flange
8 articulated cross
9 a-d cones
10 rolling elements
11 bearing bush
12 bearing bore
13 circlip
14 seal
15 measuring device
16 connection plate
17 bending rod
18 a strain gauge
19 power source
20 voltmeter / bending moment indicator
21 ball joint
22 inner part
23 outer part
24 radial guidance
25 rotary drive
26 hinge axis
27 joint axis
28 recording
29 axis of rotation
30 outer surface of the bending rod
31 Measuring bridge circuit
32 measuring signal amplifier
33 measuring computer
34 recorder
35 display unit
A diffraction angle
R radius

Claims (6)

1. A method for measuring the bearing play of the journal bearing of a four mutually perpendicular pins having journal cross whose pairs have a common axis having pins respectively, characterized in the bearing bores of a clevis with the interposition TIC of rolling elements, in particular needles or rollers, and a bearing bush are mounted characterized that the flexion of a joint yoke (4) to the other held stationary yoke (3) under a specific bending angle (a) respectively around the through the two pairs of fingers (9 a, 9 c, 9 b, 9 d) hinge axes formed (26 , 27 ) counteracting bending moments are measured. 2. The method according to claim 1, characterized in that the movable joint fork ( 4 ) during the measurement on the by the bending angle ( A ) predetermined radius ( R ) by a rotation angle of 90 ° around the axis of rotation ( 29 ) of the fixed joint fork ( 3rd ) is moved. 3. Device for performing the method according to claim 1, characterized
by a receptacle ( 28 ) for the fixed and positioned fixing of the articulated fork to be held in place ( 3 ),
by means of a bending rod ( 17 ) which can be firmly connected at one end to the movable joint fork ( 4 ) and which is connected at the other ends to a ball joint ( 21 ), one joint part ( 22 ) of which is the bending rod ( 17 ) and its other joint part ( 23 ) which can be bent to prevent this a power drive ( 25 ) is assigned and is displaceable in a radial guide ( 24 ),
by on the outer surface ( 30 ) of the round cross-section bending rod ( 17 ), each at right angles to the hinge axes ( 26 , 27 ), its longitudinal expansion and longitudinal compression strain gauges ( 18 a - d ) and
by a circuit for voltage measurement ( 20 ). 4. Apparatus according to claim 3 for carrying out the method according to claims 1 and 2, characterized by a measuring arrangement consisting of a bridge circuit ( 31 ) for the strain gauges ( 18 a , b ) and ( 18 c , d ), a downstream measuring signal amplifier ( 32 ) with a measuring computer ( 33 ) and an additional recording device ( 34 ) for recording the voltage curve over the angle of rotation and a display unit ( 35 ) for the correction. 5. The device according to claim 3, characterized in that the bending rod ( 17 ) is designed as a tube. 6. The device according to claim 3, characterized in that the radial guide ( 24 ) and the power drive ( 25 ) for the radial and the rotational movement are represented by a robot known per se.