RU160360U1 - INSTALLATION FOR MAGNETIC-ABRASIVE TREATMENT OF INTERNAL SURFACE OF NON-MAGNETIC PIPES - Google Patents

Abstract

1. Installation for magnetic abrasive treatment of the inner surfaces of non-magnetic pipes, comprising a housing in which an inductor is installed, characterized in that the inductor is mounted on an axis in the upper part of the housing and is made in the form of a disk with at least three permanent axial magnetization magnets fixed to it, and in the lower part of the casing there is an electric motor connected to the inductor by means of a mechanical transmission. 2. Installation for magnetic abrasive processing of the internal surfaces of non-magnetic pipes according to claim 1, characterized in that the mechanical transmission is made V-belt. 3. Installation for magnetic abrasive treatment of the internal surfaces of non-magnetic pipes according to claim 1, characterized in that the mechanical transmission is made in the form of a single-stage gearbox. 4. Installation for magnetic abrasive treatment of the internal surfaces of non-magnetic pipes according to claim 1, characterized in that the electric motor is made asynchronous. 5. Installation for magnetic abrasive processing of the internal surfaces of non-magnetic pipes according to claim 1, characterized in that the electric motor is made stepwise.

Description

The utility model relates to the field of finishing of the internal surfaces of long non-magnetic pipes of various diameters with ferrimagnetic powders in a magnetic field.

The prior art installation for processing, removing and cleaning the inner cylindrical surface of products (RU 91919, IPC B24B 5/00, B05D 3/12, publ. 10.03.2010) using an abrasive wheel. The installation comprises a lathe type machine, including a bed, a front headstock with a chuck placed on it for securing and rotating the workpiece, a lunette for supporting it, an installation and longitudinal feeding mechanism for the working tool, made in the form of a hollow rod carrying the working head, in the spindle unit which is fixed, for example, an abrasive wheel.

The disadvantage of this device is its low manufacturability, due to the fact that due to the design features using the installation it is impossible to process pipes of small diameters.

A known installation for magnetic abrasive surface treatment of non-magnetic pipes (RU 142468, IPC B24B 31/112, publ. 06/27/2014), adopted as a prototype of the claimed technical solution. The installation comprises a carriage with a transverse support mounted on it, on which a drive of reciprocating movements of the inductor is mounted for magnetically abrasive machining of the surfaces of non-magnetic pipes. The inductor, in turn, consists of a housing in which a magnetic system is installed, consisting of circular magnets of radial or axial magnetization.

The disadvantage of the prototype is the low adaptability and low processing efficiency of the inner surfaces of long non-magnetic pipes of various diameters. This is due to the fact that the magnetic installation system is designed in such a way that allows you to process pipes of a fixed diameter. When processing pipes of a diameter different from that for which the magnetic system of the installation is designed, the latter must be completely re-set.

The task to which the claimed utility model is directed is to expand the functionality of the installation for magnetically abrasive machining the inner surface of non-magnetic pipes and increase its manufacturability by designing the device as a universal device.

This problem is solved in that the installation for magnetic abrasive treatment of the inner surfaces of non-magnetic pipes, contains a housing in the upper part of which an inductor is mounted on the axis, made in the form of a disk with at least three permanent axial magnetization magnets fixed to it. In the lower part of the housing there is an electric motor connected to the inductor by means of a mechanical transmission, made, for example, V-belt or in the form of a single-stage gearbox. The electric motor in this case can be either asynchronous or stepping.

A positive technical result provided by the given set of design features consists in a significant increase in the manufacturability of the device due to its quick readjustment for processing pipes of various diameters, as well as the possibility of its installation on a support of almost any lathe cutting machine.

The utility model is illustrated by illustrations, where in FIG. 1 shows a general view of the installation; in FIG. 2 - 3D-model of the inductor; in FIG. 3, 4 - a method of mounting the installation on a support of a lathe cutting machine; in FIG. 5 is a diagram of processing an inner surface of a non-magnetic pipe with a ferromagnetic powder at the time of magnetization; in FIG. 6 is a diagram of processing an inner surface of a non-magnetic pipe with a ferromagnetic powder at a time when the powder is not magnetized.

Installation for magnetic abrasive treatment of the internal surfaces of non-magnetic pipes consists of a housing 1 (Fig. 1) in the upper part of which an inductor 2 is mounted in the form of a disk 3 on the axis, with at least three axial magnetization permanent magnets 4 mounted on it. In the lower part of the casing, an electric motor 5 is mounted, connected to the inductor 2 by means of a mechanical transmission 6, for example, as shown in FIG. 1 - V-belt. The transmission can also be made in the form of a single-stage gearbox, and the electric motor 5 can be either asynchronous or stepping.

As mentioned above, the installation can be mounted on almost any lathe cutting machine. One possible mounting method is shown in FIG. 3. In the above example, the installation is mounted on the rotary plate of the machine 7 with the possibility of longitudinal and transverse movements using, respectively, longitudinal 8 and transverse 9 calipers.

The machine controls are responsible for moving the unit, both in the longitudinal and transverse directions, while the longitudinal feed can be carried out using both the manual feed handwheel 15 and the automatic feed enable lever 16. The transverse movement of the installation is carried out using the cross feed handle 17 .

Installation for magnetic abrasive treatment of the internal surfaces of non-magnetic pipes works as follows.

The processed pipe 10 is fixed in the cartridge 11 of the headstock 12. A portion of ferromagnetic powder 18 is placed inside the pipe 10. In the case when the pipe length is significantly greater than its diameter, it is additionally fixed in the cartridge 13 of the tailstock 14. Using the transverse feed handle 17, the required clearance is set between the inductor 2 and the pipe 10. Then turn on the machine spindle, ensuring the rotation of the pipe 10. Together with this, turn on the electric motor 5, which, through a mechanical transmission 6 transmits the rotation to the inductor 2. When the disk 3 is constantly rotated e magnets 4 begin to alternately magnetize the ferromagnetic powder 18. In this case, the maximum magnetizing force at the time when the center of one of said magnets coincide with the longitudinal axis of the pipe being treated and is minimum when the centers of all three magnets maximally removed from this axis. Such a magnetization reversal cycle provides constant mixing of the powder 18 and the implementation of effective abrasive processing of the inner surface of the pipe 10. The movement of the ferromagnetic powder 18 along the longitudinal axis of the pipe is provided by the movement of the longitudinal support 8 by rotating the handwheel 15 or by turning on the automatic feed lever 16.

Claims (5)

1. Installation for magnetic abrasive treatment of the inner surfaces of non-magnetic pipes, comprising a housing in which an inductor is installed, characterized in that the inductor is mounted on an axis in the upper part of the housing and is made in the form of a disk with at least three permanent axial magnetization magnets fixed to it, and in the lower part of the housing there is an electric motor connected to the inductor by means of a mechanical transmission. 2. Installation for magnetic abrasive treatment of the internal surfaces of non-magnetic pipes according to claim 1, characterized in that the mechanical transmission is made V-belt. 3. Installation for magnetic abrasive treatment of the internal surfaces of non-magnetic pipes according to claim 1, characterized in that the mechanical transmission is made in the form of a single-stage gearbox. 4. Installation for magnetic abrasive processing of the internal surfaces of non-magnetic pipes according to claim 1, characterized in that the electric motor is made asynchronous. 5. Installation for magnetic abrasive processing of the internal surfaces of non-magnetic pipes according to claim 1, characterized in that the electric motor is made stepwise.

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