SU667340A1 - Milling cutter mandrel - Google Patents

Description

(54) MILLING FRAME

I

- The invention relates to the field of machine tools and can be used for face milling.

Known milling mandrels include a housing, a shank, a seating surface for a milling cutter, the axis of which is offset at an angle to the shank axis, and a milling cutter mounted so that the tops of its two stripping teeth are located in a plane perpendicular to the axis of the shank 1.

A disadvantage of the known mandrels is the different amount of feed to one tooth to clean the teeth and, as a result, the rapid blunting of the most loaded tooth.

The purpose of the invention is to increase the durability of the cutter and the purity of processing when milling difficult-to-work materials.

For this purpose, the axis of the mounting surface under the milling cutter in a direction opposite to the direction of rotation of the milling cutter is offset relative to the plane passing through the axis of the shank perpendicular to the straight connecting joint of the wiper teeth.

FIG. 1 shows the mandrel, a general view; in fig. 2 is a view along arrow A in FIG. one; in fig. 3 is a layout diagram.

the axes of the shank and the seating surface (section BB in Fig. 1).

The mandrel contains a tapered shank 1, mounted in the machine stem, body 2 with a seating surface 3, on which the face milling cutter 4 is attached (see Fig. 1). The milling cutter 4 is installed so that the vertices of the two grinding teeth 5 and 6 lie in a plane perpendicular to the axis of the shank O-0. The axis of the seating surface of the milling cutter X-X is located at an angle db to the axis of the shank O-0.

In this case, the axes do not intersect, but are displaced relative to each other by a value of .1 (see Fig. 2). The displacement occurs in the direction opposite to the direction of rotation of the cutter, shown by arrow B. The axis of the seating surface of cutter XX is parallel to the H-D plane passing through the axis of the shank O-O, perpendicular to the straight line connecting the grinding teeth 5 and 6 of the cutter, and It is separated from it at a distance of E. The magnitude of the displacement is based on the equality of loading of the wiper teeth. RP 5t - s 5 Kb - T where K; and Re-radii of rotation for the teeth 5 and 6 (in Fig. 3, the radii are shown in projection on the section plane A-A); $ 5 and Se - feed per tooth for one revolution of the cutter at the grinding teeth 5 and 6. The mandrel works as follows. When the mandrel rotates with a milling cutter mounted on it, each pair of milling teeth removes its own allowance layer equal in height to the distance between the top and the next pair of teeth. Teeth 7 and 8 make a preliminary removal of the allowance, then allow the removal of a pair of teeth 9-10; 11 -12 and cleanup teeth 5-6. So, as the axis of the seating surface is mixed with a magnitude, the rotational radius and the cleaning teeth 5 and 6 change. In this case, the feeds to the tooth of both the cleaning teeth equalize. The temperature loads on the teeth are evened out, which ensures their uniform wear and contributes to an increase in the durability of the mills. In this case, the thickness of the chips being removed is approximately equal to half the feed per revolution of the cutter, which considerably exceeds the depth of the peeled-off layer during the processing of materials subjected to

Claims (1)

S Figure 1: cutting process to a strong work hardening. Consequently, cutting takes place on a peeling layer, which reduces cutting forces and tool wear. Claims of the invention: a milling mandrel; comprising a housing, a shank, a seating surface for a milling cutter, the axis of which is offset at an angle to the shank axis, and a milling cutter installed so that the tips of its two wiper teeth are located in the plane perpendicular to the shank axis, so as to increase the durability of the cutter and machining cleanliness when milling difficult-to-cut materials, the axis of the seating surface under the mill in the direction opposite to the direction of rotation of the mill is offset relative to the plane passing through the axis of the shank perpendicular to a second forward connecting the vertices stripping teeth. Sources of information taken into account during the examination 1. Application No. 2183835 / 25-08, cl. at 23 from 5/26, 1975, according to which a decision was made to issue an author's certificate.