RU2077416C1 - Tool for surface plastic deforming - Google Patents

Abstract

FIELD: surface plastic deforming of small-diameter openings of low-rigid machine parts. SUBSTANCE: tool includes body, rotor arranged in said body with possibility of rotation, jaws made of magnetic material and defining annular chamber; deforming members mounted in said annular chamber with possibility of three-dimensions motion; device for speeding up deforming members in the form of annular magnet, coupling and electric motor. Tool also has flange made of non-magnetic material. Rotor of tool is building one; its one part is made of magnetic material, another - of non-magnetic material. Said jaws are arranged on magnetic part of rotor. Annular magnet is pressed-in opening of flange secured to tool body. Said annular magnet embraces cantilever of magnetic part of rotor. Magnet opening and rotor surface are joined by clearance fit. EFFECT: improved design. 1 dwg

Description

 The invention relates to the field of surface plastic deformation and can be used for finishing and hardening processing of surfaces of holes of small diameter of non-rigid parts of machines.

 The purpose of the invention is the expansion of the technological capabilities of the tool by machining holes of small diameter and increasing the durability of the tool by preventing the destruction of the source of the magnetic field.

 The tool for surface plastic deformation contains a housing, cheeks of non-magnetic material forming an annular chamber, deforming elements placed in the annular chamber with the possibility of spatial movement, a rotor mounted in the housing with the possibility of rotation, and a device for accelerating the deforming elements in the form of a magnetic field source enveloping the rotor , couplings and electric motor. According to the invention, the tool is equipped with a flange made of non-magnetic material fixed to the body, the rotor of the tool is made of two parts, one of which is non-magnetic material and the other is of magnetic material, while the magnetic field source is in the form of an annular magnet pressed into the hole of the flange mounted with the gap on the magnetic part of the rotor, and the cheeks are mounted on the end, opposite the flange section of the magnetic part of the rotor.

 This embodiment of the tool allows you to remove the source of the magnetic field from the zone of the annular chamber of the tool and reduce the size of the deforming node. In this regard, processing of holes of small diameter (5-35 mm) is provided. In addition, during the operation of the tool, dynamic forces do not act on the magnetic field source, which prevents the destruction of the magnetic field source. The durability of the tool is increased.

 The invention is illustrated in the drawing.

 The tool includes a housing 1, a prefabricated rotor, consisting of two parts 2, 3, mounted in the housing 1 with the possibility of rotation, cheeks 4, 5 made of magnetic material and forming an annular chamber 6, deforming elements 7 installed in the annular chamber 6 with the possibility spatial displacement, the acceleration device of the deforming elements 7, made in the form of an annular magnet 8, clutch 9, electric motor 10.

 The tool is equipped with a flange 11 made of non-magnetic material. Part 2 of the rotor is made of magnetic material, and part 3 of the rotor is made of non-magnetic material. Cheeks 4, 5 are mounted on part 2 of the rotor made of magnetic material. The ring magnet 8 is pressed into the hole 12 of the flange 11. The flange 11 is mounted on the tool body 1. The ring magnet 8 covers the console 13 of the magnetic part 2 of the rotor. The hole 14 of the magnet 8 and the surface of the rotor 2 are mated to fit with a gap.

 The tool works as follows. Part 15 is fixed in the chuck, and the tool body 1 in the holder 16 of the machine. The plane of symmetry of the annular chamber of the tool is combined with the plane of the end face of the workpiece 15. The magnetic flux (magnetic field lines, conventionally shown in the drawing by thin lines) closes on the magnetic part 2 of the rotor, cheeks 4, 5 and deforming elements 7. In this regard, in the region annular chamber 6 on the deforming elements 7 is a magnetic field. By means of the electric motor 10 and the coupling 9, the rotor (consisting of parts 2, 3) is informed of the rotational movement and the tool is moved along the work surface. Under the influence of a magnetic field, the deforming elements 7 are accelerated in the circumferential direction of the annular chamber 6. The resulting centrifugal force presses the deforming elements 7 to the surface to be treated, which results in its surface plastic deformation. Since the magnet 8 is fixedly mounted on the housing 1 (by means of the flange 11), centrifugal and dynamic forces do not act on it. The destruction of the magnet 8 is prevented, which increases the durability of the tool.

 The deforming unit (cheeks 2, 3 and deforming elements 7) has minimum dimensions, since the magnet 8 is moved outside the annular chamber 6. This allows you to process holes with small diametric dimensions, which extends the technological capabilities of the tool.

As an example of a specific implementation, we can cite the hole bushing on the machine model 16K20F1. Material of the workpiece D16T. The diameter of the machined holes is 5-30 mm, the processing length is 50 mm. As the deformation elements used balls 2-10 mm in diameter made of steel SH 15 (HRC 62 _Oe). An annular magnet with dimensions (D xdxh) of 80x20x40 mm was used as a magnetic field source. SmCo ₅ magnet material. The magnitude of the magnetic induction in the region of the annular chamber of the instrument was 0.2-0.5 T. The magnetic part of the rotor is made of steel 10, and the non-magnetic part of the rotor is made of titanium alloy. The gap between the surface of the rotor and the hole of the annular magnet ranged from 30 μm to 10 mm.

 Processing modes: rotor speed of 0.5-5 m / s; axial feed of the tool 100-800 mm / min. Cooling industrial oil.

The roughness of the treated surface R _a 0.63-0.32 microns; hardening depth 0.1-0.4 mm.

 The proposed tool provides an increase in durability by 2-3 times and has wide technological capabilities, as it allows you to process holes of small diameters.

Claims (1)

 1 A tool for surface plastic deformation, comprising a housing, cheeks made of magnetic material forming an annular chamber, deforming elements placed in an annular chamber with the possibility of spatial movement, a rotor mounted in the housing with the possibility of rotation, and a device for accelerating the deforming elements in the form of a source covering the rotor magnetic field, coupling and electric motor, characterized in that, in order to expand technological capabilities by processing holes of small diameter increase durability by preventing the destruction of the source of the magnetic field, the tool is equipped with a flange made of non-magnetic material fixed to the body, the rotor of the tool is made of two parts, one of which is non-magnetic material and the other is of magnetic material, while the magnetic field source is made in the form of a pressed into the hole of the ring magnet flange mounted with a gap on the magnetic part of the rotor, and the cheeks are mounted on the end section opposite the flange of the magnetic part of the rotor.