CS199015B1 - Mechanism for motion of tapered rolls at measurement of diameter - Google Patents

Description

The invention relates to a mechanism for shifting bearing cones for measuring diameter.

The diameter of the bearing cones ea must be measured at exactly the same distance from the functional face by inserting between the two contacting margins, with the aa functionally moving the face on the fixed base. When the proximal push of the cone with the β chamfer is made with a ground horse, it happens in Sak that the axis of the moved cone is not perpendicular to the base due to the sphericality of the functional forehead, causing the measurement to be inaccurate.

The proposed mechanism eliminates this drawback, since the tapered rod is transported between the measuring tines clamped in a precisely sharpened prismatic fit, which guarantees accurate and stable perpendicularity of the cone to the base during the entire movement path. At the same time, the mechanism is so solved that aa gripping of the cone without additional movements releases both at the front dead center in order to fall into the drainage channels and at the rear dead center so that the cone can be loaded into the bearing.

An exemplary construction of a bearing cone feed mechanism according to the invention is shown in the attached drawings, in which FIG. 1 is a perspective view of a measurement; FIG. 2 is a plan view of the measurement; FIG. 3 is a plan view of the mechanism in a rearward position; FIG. 4 is a front view.

199 015

199 01S

The main advantage of the meohanism of the present invention lies in the etabilnom and preanom of the conifer and the base of the early marania. In doing so, the acquisition, measurement and retrieval of the tapered pins are performed by a nuclear return rectilinear deflection.

A protrusion 2 is formed on the front side of the aaniaoh 2 inserted in the rectilinear guide with a prismatic fit 2Zi having a taper identical to the taper angle on the vertical walls. On the rear side of the slide 21, a second recess 15 and an aperture 18 in the direction of movement of the slide 2, in which the sliding bearing pusher on the rear side is selected in a split manner. Yo the fork is the head of the jack J and the transverse pin 6. For this, the groove 10 formed in the slide 1 and the oval bore 12 · Y the groove 22 ^{and the} oval bore 11 and can be moved freely in the direction of the slide 2 by means of the transverse pin 11. anti-slip bearing YJ carriage 2 · The tapered cones a and in the vertical direction oriented by the functional head down into the aperture in the body 12 The base 12 of the body 2 forms the base for the maranio.

During the movement of the slide 2, the slide 2 before the dead center of the connecting rod j on the front ethane of the body 2, continues to move the slide 2 by the pin 2 on the rear side of the groove 10 towards the rear. And by prismatic placement of 2Z ^{on the} sow 1 ^to freely drop the cone to the bottom 1g.

After reversing the movement of the jjnlee J, the first tensile force of the spring g is clamped between the pusher face 22 and prismatic locating bearings 21 ^and P ¹ * ^1. direction to the bottom 12.

Fred reaches the front dead center ojlee J by pushing the pusher 6 by its shoulder 21 ^{to the} rear ethane of the body 2t ^8a and, while continuing to move the ojlee J and with the pivot pin 6 to the front drive of the slide 22 slide. so that it can fall into the drain troughs with a flying weight.

Claims (1)

A bearing displacement mechanism for measuring the diameter, characterized in that it consists of a carriage (1) provided on the left side with a projection (8) with a prismatic recess (17) and on the right side with a second projection (15) with a pin groove ( 6) and 8 an opening (18) into which the pusher (4) is inserted, having a groove (11) and a pin (13) to which the spring (2) is attached, the pusher (4) being hinged at one end on the connecting rod (3); the other end in the body (5), the bottom (12) of which is the base for the measurement.