SU984694A2 - Apparatus for working spherical surfaces - Google Patents

Description

(54) DEVICE FOR PROCESSING SPHERICAL SURFACES

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The invention relates to mechanical processing.

According to the main autorum No. 694286., A device for processing spherical surfaces is known, comprising a spindle with a faceplate for securing the product, a transverse feed drive and a sphere reproducing mechanism which is made in the form of a gear wheel mounted by an axis on the transverse feed drive housing and connected with a fixed rail, and a tool holder mounted for movement in guides parallel to the axis of the spindle, and pivotally connected to an eccentric disposed on the gear wheel 1...

A disadvantage of the known device is that in it the eccentric is equipped with a slider that can move into the groove of the gear, therefore the device does not allow processing spherical surfaces with a large range of radii of curvature, since the lateral movement of the tool holder is limited by the length of the groove.

The purpose of the invention is to expand the technological capabilities of the device.

To achieve this goal, the housing is associated with a cross feed drive through additional guides.

In the drawing the layout of the proposed device.

The workpiece 1 is mounted on the spindle 2, rotated about axis 3. Along the movable rei-i not 4, the gear wheel 5 rolls with an adjustable eccentric 6 equipped with a scale calibrated in terms of the radius of curvature of the processed sphere or the focal distance of the aspherical surface processed paraboloid.

.. The eccentric 6 is hingedly fixed to the body of the toolholder in the form of a rod 7, at the end of which a JV tool 8. is mounted. The rod 7 can be moved in the plane of the drawing in two directions that are perpendicular to each other. In the transverse direction relative to the device 9 of the device, it moves along the guide 10 with the help of the output link 11 of the machine’s cross feed mechanism, and relative to the link 11 together with the housing 9 moves along the additional guide 12. Needle

in providing two components of the transverse movement of the stem 7, it is imposed by the fact that during the cycloidal movement of the eccentric 6 its coordinate in the transverse direction (ta t consists of two components: the first Xjirrt is the movement of the axis of the gear wheel 5 relative to the rail 4, and the second Xj asiirt- this movement of the eccentric 6 relative to the axis of the gear wheel 5 or relative to the Link 11 where 1 is the radius of the gear wheel 5, d is the eccentricity value of the eccentric b, t is the angle of rotation of the gear wheel 5.

In the longitudinal direction, the rod has the ability to move due to the guide 13 located on the housing 9.

By adjusting the machine so that at the extreme lowest point of the eccentric 6, the straight line connecting its axis and the cutting edge of the tool 8 coincides with the axis 3 of the rotation of the spindle 2, i.e. machine centering), include spindle and cross feed drives with constant speeds, COOT not selected to obtain optimal cutting conditions, and begin the part machining process. The resulting surface is concave spherical.

To obtain, for example, a convex paraboloid, the same operations must be performed with the extreme upper position of the eccentric 6.

If the rail 4 is positioned between the axis of the wheel 5 and the spindle 2, as indicated by the dotted line in the drawing, you can get by adjusting the machine for the extreme lower position of the eccentric b Super Sphere, and for the extreme upper position a concave paraboloid.

With a constant radius of the gear wheel 5, by changing the value of the eccentricity 9, it is possible to obtain spheres of different radii and azpheric surfaces with different focal distances.

The application of the proposed device allows machining on tokan or rotary machines of concave and convex surfaces of complex shape without copiers or software devices.

Claims (1)

1. USSR author's certificate No. 694286, cl. B 23 B 5/40, 1978. //////// -)