SU1035191A1 - Magnetic trap - Google Patents

Abstract

A MAGNETIC CATCHER containing a ferromagnetic body inside which magnetic cores of opposite polarity are installed, one of which includes a central unit, and permanent magnets placed between them, connected in a magnetic circuit in parallel, characterized in that, in order to increase the device carrying capacity polarity is made in the form of an annular disk, and the magnetic circuit of opposite polarity is formed by a central unit and a ferromagnetic body, while the safety device is equipped with a nonmagnetic magnetic core. parator for fixing permanent magnets in it with the possibility of their lower ends contacting with the magnetic conductor in the form of an annular disk, and the upper ends with contact with another magnetic circuit. (L

Description

z: l The invention relates to the drilling and repair of wells, namely, magnetic catchers for removing small metal objects from the bottom of a well. A magnetic catcher is known, comprising a housing with a milling crown and fixed permanent magnets in a diamagnetic separator with a pole tip 1. The closest one to the proposed one is a magnetic catcher containing a ferromagnetic housing inside which magnetic conductors of opposite polarity are installed, one of which includes a central block, and permanent magnets placed between them, connected in a magnetic circuit in parallel 2. The disadvantage of these catchers is a small carrying capacity, This is due to the scattering of the magnetic flux due to the irrational layout of the magnetic systems. The purpose of the invention is to increase the load capacity of the catcher. The goal is achieved by the fact that in a magnetic catcher containing a ferromagnetic body, inside which magnetic cores are installed, of opposite polarity, one of which includes a central unit, and permanent magnets placed between them, connected in a magnetic circuit in parallel, the magnetic circuit of one polarity It is made in the form of an annular disk, and the magic of the opposite polarity is formed by the central unit and the ferromagnetic body, while the catcher is equipped with a non-magnetic separator to fix permanent elements in it nits with the possibility of contacting their lower ends with a magnet in the form of an annular disk and the top end - with another magnetic circuit. Fig, 1 shows a magnetic safety device in section, a general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 2. The safety device contains a sub 1 and a ferromagnetic body 2, which is made integral with the crown. Inside the case 2, a central unit 3 is installed, which together form the magnetic circuit of simultaneous polarity. Between the housing 2 and the central unit is placed a separator 4 made of a non-magnetic material. Separator 4 is used to install permanent magnets 5 in it cylindrical, with the upper end in contact with the magnetic circuit formed by the housing 2 and block 3, and the lower end with the magnetic conductor of the opposite polarity made in the form of an annular disk b. Thus, the magnets 5 are included in the magnetic circuit in parallel. Between the magnetic core b and the central unit 3, there is a main interpolar gap L, and an additional interpolar gap AZ is formed between the magnetic core 6 and the housing 2. The magnetic system of the catcher, including the central unit 3j separator 4, permanent magnets 5 and magnetic core 6, is assembled by means of industrial sleeves 7. The safety device is assembled magnetized in a special installation, after which the magnetic flux distribution appears along the lines shown by the dotted lines in FIG. 1. The safety device works as follows. The magnetized safety device is connected to the drill string by means of the sub 1 and is lowered to the bottom of the squash. The presence of an additional gap D2 between the poles of the opposite polarity increases the reliability of the capture of metal objects with an uneven contact surface. If there are interpolar gaps D and., Magnetic flux, closing through the object to be caught and through the poles (of opposite polarity, creates the greatest lifting force. This safety device, in which the magnetic field is concentrated inside the housing 2, allows all metal objects to be removed located at the bottom of a well.

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6 6 turned

Fig.Z

Claims (1)

A MAGNETIC CATCHER containing a ferromagnetic casing, inside of which there are magnetic cores of opposite polarity, one of which includes a central unit, and permanent magnets placed between them, connected in parallel to the magnetic circuit, characterized in that, in order to increase the load-carrying capacity of the device, the magnetic circuit of one polarity is made in in the form of an annular disk, and a magnetic circuit of opposite polarity is formed by a central unit and a ferromagnetic casing, while the trap is equipped with a non-magnetic separator th to consolidate it with permanent magnets The possibility of contacting their lower ends with a magnet in the form of an annular disk and the top end - with § other magnetic circuit.