SU579106A1 - Milling cutter - Google Patents

Description

From the 6th decree relates to metalworking. Known for which the cutting elements are installed with the possibility of adjustment in the axial and radial directions using the adjusting elements jl. Such a milling cutter has an insufficiently high precision of adjustment. The purpose of the invention is to improve the accuracy of adjustment of the cutting elements. This is achieved by the fact that the adjusting elements of the proposed cutter are cam-shaped with at least two supporting surfaces having a uniform rise. and FIG. 1 shows (partly) the described cutter; HB FIG. 2 - section A - A of FIG. one; In FIG. 3 - section B - B FIG. 2; ka fig. 4 — adjusting element with three bearing surfaces in the initial and final positions; in fig. 5 is the same, with two supporting surfaces. In the tool body 1, grooves 2 are made to install rotary peretachivaemyh 3 and 4 supporting plates. In the supporting plates 4 there are notches 5. serving also for the exact basing of rotary-molded company 3. Plastics 4 are flattened parallel to each other. The V-shaped grooves 6 are made on the lower side of the support plate 4, the lateral sides 7 and 8 of which form a certain angle. In the grooves 6 between the plates 4 and the support surface 9 of the housing 1, radial adjustment elements 10 are located, which are connected to the support plates 4 by means of springs I and 12. Due to this, the adjustment elements 10 cannot exit the support plates 4. The springs I 1 and 12 are made ring-shaped in such a way that the adjusting element 10 can be rotated if a torque is applied to it through the hole 13 intended for the key. The force of the springs 11 and 12 is chosen such that the adjustment element 10 does not change its position if there are small external forces acting on it in the dismantled state. The support plate 4, as well as the rotatable pivot plate 3, is secured with wedges 14, 15 by means of clamping screws 16, 17. To determine the position of the rotary pivot plates 3 in axial direction, a ring 18 is made on the housing 1, which covers on one side 2 outside the windows 19, and forms a thrust surface 20 for the axial adjusting elements 21. In certain forms of milling cutters, the ring 8 may be absent and be changed by other stop elements.

The adjusting element 2 is connected to the support plate 4 through the springs 22. In the support plate 4 along the tool body axis, a V-shaped groove is also processed similarly to that used to base the adjusting element 10. The depth of the specified V-shaped groove 6 must be at least O Mm is less than the internal diameter of the circle 23 inscribed in the cross section of the adjusting element 10 or 21. The adjusting elements 10 and 21 have two or three adjustment curves 24, 25 described about the circle 23, the pitch of which is defined t travel length.

The adjustment element 10 has three identical curves 24 with an adjustment length of 3 X h, while the adjustment element 21 has two curves 25 with an adjustment length of 2 X h.

The angle h between the adjacent bearing surfaces 26, 27, and 28 of the adjusting elements U or 2 is 60 ° and corresponds to the angle ft between the side surfaces of the V-syraz groove 6, machined in the support plate 4. The change in the radius of rotation or face beat of the pivotal plate 3 carried out after releasing the clamping screws 16, 17 by turning the adjusting elements 10 or 21 around their axes, for which the Allen keys are inserted into the holes 13. The curves 24, 25 of the adjusting elements 10 and 21 move the The orifice plates 4 until the rotatable turntable plates 3, based in the plates 4, have reached the desired position.

It is most expedient to position the longitudinal axis of the adjusting element parallel to the main cutting edge of the rotatable peelable plate in order to be able to independently regulate the radial and face beats. In addition, the radial forces are perceived directly by the horn by the lining element and ensured that the adjusting eHement is properly located in the groove.

Due to the fact that an angle of 90 ° is chosen between the longitudinal axes of both adjustment elements, it is achieved that the axial forces are perceived by the adjustment element and at the same time the adjustment element is reliably located in the groove. Expediently, the cross sections of the adjusting elements and the shape of the adjusting

make the curves for the radial and axial movement of the plates the same and only bring the length into correspondence; design requirements.

The described design provides for the adjustment of the cutting plates in the radial and

axial directions with great precision, and the starting position for adjustment is determined precisely without auxiliary means.

Claims (1)

1. Copyright certificate № 74546, CL 23 C 5/06, 1947. , -W 3 cpui.1