SU692977A1 - Hydromagnetic catching tool - Google Patents

Description

(54) HYDROMAGNETIC CATCHER

Claims (2)

The invention relates to a fishing tool used in the oil and gas industry, and can be used to clean up drilling wells or production wells from metal and sludge. Known hydromagnetic safety device, comprising a housing, a milling crown and a magnet ij. A disadvantage of the known catcher is the incomplete cleaning of the bottom wells due to the deposition of trapped metal particles and sludge through the lobe grabs and the restriction of its use with high-density flushing fluids. The closest solution to the invention is a hydromagnetic safety device containing a housing with channels connected to the sub and milling crown, a funnel with a ball and a permanent magnet made in the form of a cylinder with a through channel 2 are placed on the floor. The disadvantage of this catcher is that it does not provide reliable operation due to sticking of ferromagnetic particles on the working pole of the magnet. The aim of the invention is to increase the reliability of the catcher by preventing sticking of ferromagnetic particles on the working pole of the magnet. The goal is achieved by the fact that the safety device is equipped with a breakable protective sleeve placed in the housing between the working pole of the permanent magnet and the milling crown. In this case, the protective sleeve is made of material, specific gravity. which is less than the density of the washing liquid. FIG. 1 shows a safety device, a longitudinal section; in fig. 2 shows section A-A in FIG. 1. The hydro-magnetic safety device contains the sub 1, body 2, funnel 3, which serves as a seat for ball 4, circulating sleeves 5, sludge pipe 6, permanent magnet 7 with top 8 and working 9 poles. The permanent magnet 7 is made in the form of a cylinder with a through channel 10 and is placed in a non-magnetic sleeve 11. The housing is connected to a milling crown 12. Between the working pole 9 and the milling crown 12 there is a breakable protective sleeve 13 having a small and deep notch. Grooves 14 are made on the outer surface of the milling crown 12. Channels 15 are made in the corus. The hydromagnetic safety device operates as follows. The catcher is lowered into the well on the drill pipe. Before going to the bottom of the well, begin intensive flushing of the well. after which the safety device is lowered to the bottom. Then a ball 4 is thrown into the cavity of the drill pipe, which, falling into the funnel 3, creates a local backwash. The flush fluid exiting the channels 15, swirls in the grooves 14 of the milling crown 12, cleans the metal at the bottom of the cuttings and scrap, passes through the hole in the stand-up magnet 7, the slurry pipe 6 and through the circulation bushings 5 rises to the wellhead. The trapped fine metal and sludge are separated. in the cavity between the body 2 of the catcher and the pipe 6. After that, the safety device is discharged to the bottom with a force of 0.5-1 tons. Sleeve 13 is destroyed by the notching with large metal at the bottom. Moreover, small pieces of the destroyed sleeve are destroyed the flow of washing fluid into the internal cavity of the catcher and through the sleeve 5 to the wellhead. After that, the safety device is again brought to the bottom and the magnet catches large metal. The safety device rises to the surface. The use of the device provides the following advantages in comparison with existing devices: a protective non-magnetic sleeve prevents the working pole of the permanent magnet from clogging with small metal objects and chips before starting work; making the sleeve of a material with a specific gravity lower than the density of the drilling fluid ensures the removal of its particles after destruction to the wellhead. Thus, in the proposed invention, a greater effect of bottom hole cleaning is achieved: by the combined action of hydraulic and magnetic forces, which allows one to clear the bottom hole of the entire bottom hole sediment in one run. Claims 1. A magnetic-type safety device comprising a housing with channels connected to a sub and a milling crown, inside which is placed a funnel with a ball and a permanent magnet made in the form of a cylinder with a through channel, which is improving the reliability of the catcher by preventing the ferromagnetic particles from sticking to the working pole of the magnet; it is equipped with a breakable protective sleeve placed in the housing between the working pole of the permanent magnet and the milling crown. 2. The safety device according to claim 1, wherein the protective sleeve is made of a material whose specific weight is less than the density of the washing liquid. Sources of information taken into account during the examination 1. USSR author's certificate No. 141116, cl. E 21 May 31, 06, 1961. 2. Serenko I. A. Milling cutters and tools for removing foreign objects from the bottom of wells, M., VNIIENG, 1967, p. 76-79 (prototype). Have t - -  - -l one ;; . „.,. ; € 19-2977 -BUT FIG. 2