RU100741U1 - DEVICE FOR LATHING OF POLYPHONES - Google Patents

Abstract

 A device for turning polyhedrons, comprising a fixed wheel with an internal gear surface, mounted on the guides of the machine bed, a face plate screwed onto the machine spindle, a disk and a cover, between which planetary gear wheels are placed on the shafts, the free ends of which carry a cutting head and a counterweight, different the fact that the counterweight is equipped with a device that balances the radial component of the cutting force, which contains a rod having the possibility of axial movement, with fixed m on it with a roller lying in the plane of the tops of the cutters, and the force acting on the workpiece is regulated by means of a bolt that compresses the spring and, in turn, the rod, and the ratio of the number of teeth of the stationary gear and the gear bearing a counterweight to the device balancing the radial component of the cutting force is equal to the number of faces of the processed polyhedron, and the roller describes such a trajectory of motion that allows it to always be at the moment of processing the face on the opposite side of the workpiece and compensate time processing the radial component of force on the part of the tool.

Description

The device relates to the mechanical processing of materials and can be used for processing polyhedra on lathes.

A device for processing polyhedra with an even number of sides is known, comprising a wheel with an internal gear surface, mounted on the guides of the machine bed, a face plate screwed onto the machine spindle, a disk and a cover, between which planetary gear wheels are placed on the shafts, the free ends of which carry a cutting head. To grind polyhedra with an even number of faces, the cutter head is mounted on the axis of the planetary gear wheel with a gear ratio to the stationary gear wheel equal to 1: 2, and with the corresponding number of cutters, so that each cutter grinds two faces, a counterweight is installed on the axis of the opposite gear wheel ( copyright certificate of the Russian Federation No. 2391184 MKI B23B 5/44 published on 06/10/2010 Bull. No. 16).

A disadvantage of the known device is the great effort on the workpiece from the side of the cutting unit, which leads to an error in the shape of the resulting part.

The technical task is to increase the accuracy of the technological system for processing polyhedra on a lathe.

The task is achieved by the fact that for grinding faces, the cutter head in the device is mounted on the shaft of the planetary gear wheel rotating relative to the stationary ring gear, and a counterweight is installed on the shaft of the planetary gear wheel, planetary gear wheel, balancing the radial component of the cutting force.

The essence of the device is illustrated by drawings, where Fig. 1 shows a drawing of a device for processing polyhedrons, a section, a front view and in Fig. 2 a drawing of a device balancing the radial component of the cutting force, Figs. 3, 4, 5, 6, 7 show instantaneous trajectories the formation of polyhedra on the example of a square.

The device comprises a stationary gear wheel 1, mounted on the lathe guides with bolts 3, 4, 5. On one side of the wheel 1 is a faceplate 8, fastened to the disk 9, bolts 2, 10. On the other side is the cover 11. Inside the disk 9, the cover 11 and wheels 1 there is a chamber closed by gaskets 12 and stuffing box 6, 7, 13, 14. In the chamber there are planetary gears 15, 16, mounted on shafts 18, 19.

At the free end of the shaft 19, respectively, a cutting head 21 with cutters 22, which is fixed by a nut 25, is installed, and a counterweight 23 is installed on the shaft 18, which is fixed by a nut 24, with a device that balances the radial component of the cutting force, which contains a shaft 17 with axial movement a roller 20 fixed on it, lying in the plane of the tops of the incisors 22. The force of the roller 20 acting on the workpiece is regulated by means of a bolt 27, which compresses the spring 26 and, in turn, the rod 17. The ratio of the number of teeth of the stationary gear thorns 1 and gears 16 bearing a counterweight with a device balancing the radial component of the cutting force is equal to the number of faces of the processed polyhedron. The roller describes such a trajectory of movement that allows it to always be at the moment of processing the face on the opposite side of the workpiece and to compensate at the time of processing the radial load from the side of the cutter.

A device for turning polyhedra works as follows. A cutter head is mounted on the shaft 19 of the planetary gear wheel 15 with the number of cutters corresponding to the number of machined faces of the part, on the shaft 18 of the other planetary gear wheel, a counterweight with a device balancing the radial component of the cutting force, and turn on the rotation of the machine spindle.

The planetary gears 15 and 16, having received rotation from the faceplate 8 and the disk 9, begin to rotate relative to their axes, since they are meshed with the fixed gear 1. The cutters of the head make a complex movement: around the shaft 19 and around the machine spindle. The roller of the device balancing the radial component of the cutting force makes a complex movement: around the shaft 18 and around the spindle of the machine. Addition of movements provides movement of the tip of the cutter and the roller 20 along the necessary path corresponding to the given shape of the polyhedron. To resize polyhedra, the cutters in the cutting head are moved in the radial direction, in the direction of decreasing or increasing the distance between them.

Claims (1)

A device for turning polyhedrons, comprising a fixed wheel with an internal gear surface, mounted on the guides of the machine bed, a face plate screwed onto the machine spindle, a disk and a cover, between which planetary gear wheels are placed on the shafts, the free ends of which carry a cutting head and a counterweight, different the fact that the counterweight is equipped with a device that balances the radial component of the cutting force, which contains a rod having the possibility of axial movement, with fixed m on it with a roller lying in the plane of the tops of the cutters, and the force acting on the workpiece is regulated by means of a bolt that compresses the spring and, in turn, the rod, and the ratio of the number of teeth of the stationary gear and the gear bearing a counterweight to the device balancing the radial component of the cutting force is equal to the number of faces of the processed polyhedron, and the roller describes such a trajectory of motion that allows it to always be at the moment of processing the face on the opposite side of the workpiece and compensate time processing of the radial component of force on the part of the tool.