초록 ▼

A cleanout system and method for removal of metal debris from a fluid flow, such a flow of re-circulated drilling mud employs one or more magnetic unit positioned in the path of the fluid for collecting metal particles from the flow. The magnetic unit has a removable magnet core positioned in a non-

A cleanout system and method for removal of metal debris from a fluid flow, such a flow of re-circulated drilling mud employs one or more magnetic unit positioned in the path of the fluid for collecting metal particles from the flow. The magnetic unit has a removable magnet core positioned in a non-magnetic sleeve. When the core is removed from the sleeve the attracted metal particles are allowed to drop from the sleeve under gravity to facilitate their collection and disposal. A fluid deflector is positioned upstream from each magnetic unit, protecting the magnetic unit from direct impact by the strong flow. The magnetic units are allowed to pivot from side-to-side and adjust their position in the flow.

대표청구항 ▼

I claim: 1. A cleanout system for removal of metal debris from a fluid flow, the system comprising at least one magnetic unit configured for positioning in a path of the fluid, said at least one magnetic unit comprising a hollow sleeve, a removable magnetic core configured for positioning in said h

I claim: 1. A cleanout system for removal of metal debris from a fluid flow, the system comprising at least one magnetic unit configured for positioning in a path of the fluid, said at least one magnetic unit comprising a hollow sleeve, a removable magnetic core configured for positioning in said hollow sleeve, at least one fluid deflector member positioned upstream of said at least one magnetic unit, said fluid deflector member modifying the fluid flow adjacent said at least one magnetic tool unit, an upright shaft and a pivot sleeve detachably pivotally mountable on said shaft, said pivot sleeve being attached to said hollow sleeve, and wherein said upright shaft carries a transverse pivot sleeve stop to allow a bottom of said pivot sleeve to rest on said stop above said base plate. 2. A cleanout system for removal of metal debris from a fluid flow, the system comprising at least one magnetic unit configured for positioning in a path of the fluid, said at least one magnetic unit comprising a hollow sleeve and a removable magnetic core configured for positioning in said sleeve, and wherein said magnetic core comprises a handle detachably secured to an end of said magnetic core to facilitate removal of said magnetic core from said sleeve upon demand. 3. A cleanout system for removal of metal debris from a fluid flow, the system comprising at least one magnetic unit configured for positioning in a path of the fluid, said at least one magnetic unit comprising a hollow sleeve and a removable magnetic core configured for positioning in said sleeve, and wherein said hollow sleeve is provided with a means for preventing an upward movement of the metal debris settled on said hollow sleeve when said magnetic core is removed from said hollow sleeve. 4. The system of claim 3, wherein said means for preventing the upward movement of the metal debris comprises a ring-shaped member secured at an upper end of the hollow sleeve, outside dimensions of said ring-shaped member being at least slightly greater than outside dimensions of said hollow sleeve. 5. A cleanout system for removal of metal debris from a fluid flow, the system comprising at least one magnetic unit configured for positioning in a path of the fluid, said at least one magnetic unit comprising a hollow sleeve and a removable magnetic core configured for positioning in said sleeve and wherein said magnetic core is provided with an internally threaded cutout at each end thereof. 6. The system of claim 5, wherein said magnetic core is provided with a detachable handle configured for threadable engagement with a selected end of the magnetic core. 7. A cleanout system for removal of metal debris from a well bore re-circulating fluid, the system comprising: a base plate; a plurality of magnetic units configured for positioning in a path of re-circulating fluid, each of said magnetic units comprising a non-magnetic hollow sleeve and a removable magnetic core configured for positioning in said sleeve wherein said hollow sleeve carries an enlarged diameter ring-shaped member secured at an upper end thereof, said ring-shaped member preventing an upward movement of the metal debris settled on the hollow sleeve when the magnetic core is being removed from said hollow sleeve; and a fluid deflector member positioned upstream of each of said magnetic units for deflecting direct impact of the re-circulating fluid on a respective magnetic unit. 8. The system of claim 7, wherein said hollow sleeve carries an enlarged diameter ring-shaped member secured at an upper end thereof, said ring-shaped member preventing an upward movement of the metal debris settled on the hollow sleeve when the magnetic core is being removed from said hollow sleeve, and wherein said magnetic core is provided with a handle detachably engageable with an end of the magnetic core to facilitate removal of said core from said hollow sleeve. 9. A method of removing metal debris from a fluid flow, the method comprising the following steps: providing at least one magnetic unit comprising a non-magnetic hollow sleeve and a magnetic core removably positionable in said hollow sleeve; positioning said at least magnetic unit in a normal path of the fluid flow; allowing the fluid to contact the hollow sleeve and settle on exterior of the hollow sleeve under the magnetic force generated by said magnetic core; removing said at least one magnetic unit from the path of the fluid flow upon detecting accumulation of the metal debris on the hollow sleeve; and removing the magnetic core from the hollow sleeve and allowing the metal debris to fall under gravity from exterior of said hollow sleeve. 10. The method of claim 9, further comprising the steps of providing a pivot shaft and a pivot sleeve attached to said hollow sleeve, and positioning the pivot sleeve on said pivot shaft, thereby facilitating pivotal movement of said at least one magnetic unit in the path of the fluid flow. 11. The method of claim 9, wherein said magnetic core is provided with a handle secured to one of its ends, said handle facilitating removal of said magnetic core from said hollow sleeve. 12. The method of claim 9, further comprising the step of providing a ring-shaped member secured at an upper end of the hollow sleeve, said ring-shaped member preventing an upward movement of the metal debris when the magnetic core is being removed from the hollow sleeve.