RU1808485C - Device for chamfering holes in cylindrical workpieces - Google Patents

Abstract

Usage: machine tool industry, namely, devices for removing internal chamfers in the holes of cylindrical parts. The inventive cylindrical part 14, having two coaxial radial holes, in one of which it is necessary to remove the inner chamfer, is installed in a prism 16 placed on the housing 1. In this case, the mandrel is a lever 3, resting against the second adjustment screw 18, under the action of a spring 11 provides the necessary clearance for the part 14 to pass between the countersink 5 and the prism 16. Then the spindle 16 with the pointed plate 12 mounted therein is moved down. The plate 12 passes through the upper hole and enters the slot of the countersink 5. When the rotation of the spindle 13 is communicated and its further movement, the conical part of the countersink 5 is centered and removes the inner chamfer in the hole until the lever 3 rests against the end of the screw 19 by the action of the spring 11, by adjusting which determines the size of the chamfer. 7 ill. Chazhaz

Description

The invention relates to machine tool industry and can be used in the processing of cylindrical parts, mainly bushings, in optical instrumentation, in particular in the manufacture of endoscopes

The purpose of the invention is to expand technological capabilities by providing machining of parts with an inner diameter of less than f 12 mm.

This goal is achieved in that in the device for removing the inner chamfers in the holes of the cylindrical parts, comprising a spring-loaded mandrel carrying a cutting tool, which is a countersink with end slots, mounted in the housing with the possibility of rotation on the axis, the spring-loaded mandrel is made in the form of a two-shouldered lever, and the drive element is a pointed plate designed to interact with countersink slots.

Fig. 1 is a perspective view of a device 1 for removing internal chamfers in cylindrical parts with radially coaxial holes; figure 2 is a view of the device 1 on the left; in Fig.3 - node I in Fig.1; Fig. 4 shows a device 2 for removing internal chamfers in cylindrical parts with misaligned radial holes; on Fig, 5 is a view of the device 2 on the left; on figb - node II in figure 4; Fig.7 is a view along arrow A in Fig.4.

The device comprises a housing 1, a spring-loaded mandrel-lever 3 mounted on it by means of a stand 2, with the possibility of its rotation on the axis 4 of the stand 2. A cutting tool — a countersink 5 is mounted for rotation on the left end of the mandrel-lever 3 and consists of a conical cutting part b and a cylindrical shank 7, on which an annular groove is made 8. Slots are formed at the ends of the countersink 9. A screw 10 installed in the mandrel-lever 3 enters into the groove 8 with a tapered or radius end, restricting the axial displacement of the countersink 5.

The mandrel-lever 3 is pressed by the spring 11. The pointed plate 12 fixed in the spindle 13 interacts with the slot 9 of the countersink 5 and serves as its drive element. The machined cylindrical part 14 or 15 is based on the prism 16 or 17, respectively, depending on the design features of the part.

The adjusting screws 18, 19, 20 and the drive screw 21 are used to determine the angular position of the mandrel-arm 3 and the associated countersink 5.

At the end of the drive screw 21, the risks of scale 22 are applied, and the elbow 23 carries an index 24 for counting the axial displacement of the screw 21 and in contact with it

lever 3 with countersink 5.

The device operates as follows.

. A cylindrical part 14 having two coaxial radial holes in one

0 of which it is necessary to remove the inner chamfer (FIG. 1), it is mounted on the prism 16. In this case, the mandrel-lever 3, resting against the end of the adjusting screw 18 under the action of the spring 11, provides the necessary clearance for the part 14 to pass between the countersink 5 and the prism 16. Then the spindle 13 with the plate 12 fixed therein is moved downward, while the plate 12 passes through the upper one. The hole enters the slot 9

0 countersink 5.

When the rotation of the spindle 13 is communicated and its further movement, the working conical part 6 of the countersink 5 is centered on the lower hole of the part 14 and removes

5, the inner chamfer in the hole until the lever 3 rests against the end of the screw 19, the adjustment of which determines the size of the chamfer to be removed. Then the spindle 1.3 moves. In the upper position, the lever 3 under the action

0 of the spring 11 is set to its original position against the stop in the screw 18, the part 14 is removed

In cases where the execution of two coaxial radial holes is unacceptable in

5 by structural considerations, a modification of the apparatus described above is possible (Fig. 4). The operation of such a device consists in the fact that the part 15 having a one-sided radial hole is mounted by this hole on the conical part 6 of the countersink 5 when the left shoulder of the lever 3 is retracted to the lower position. Then, the drive screw 3 rotates the lever 3 fully clockwise

5 parts 15 into an inverted prism 17.

The spindle 13 is moved down to insert the plate 12 into the slot 9 of the countersink 5. The spindle 13 is informed of the rotation, and the screw 21 continues to turn the lever 3 until it stops

0 into the adjusting screw 20. In this case, the rotary countersink 5 removes the chamfer, the depth of which is determined by the setting of the screw 20, Then the lever 3 is turned into the initial position by the screw 21, and the part 15 is removed.

Claims (1)

5 Claims A device for removing inner chamfers in the openings of cylindrical parts, in the housing of which a spindle and a spring-loaded mandrel carrying a cutting tool are placed, the mandrel being mounted to swing in a plane perpendicular to the axis of the tool, characterized in that, in order to expand the technological capabilities of due to the processing of parts with an inner diameter of less than 12 mm, the device is equipped with a rod located in the spindle and fixed in it the plate, and the mandrel is made in the form of a double arm, on one shoulder of which the cutting tool is placed with the possibility of angular movement, while the countersink is chosen as the latter, at the ends of which there are slots designed to interact with the plate. five. 2 P & g4 (rmg. 6