초록 ▼

A perforation gun which provides a means to create perforations required for the hydraulic fracturing of rock formations for the production of natural gas, oil, and other oil well fluids and further comprises a gun body assembly having an inserted carrier tube to nest shaped charge canisters with bu

A perforation gun which provides a means to create perforations required for the hydraulic fracturing of rock formations for the production of natural gas, oil, and other oil well fluids and further comprises a gun body assembly having an inserted carrier tube to nest shaped charge canisters with built in primers, conical liner, and explosive material. The charges are positioned in various angular patterns along various phase angles to create specifically directed perforation tunnels which puncture scalloped areas of the aforementioned gun body and subsequently penetrate through the wellbore, well casing, well cement, and into the rock formations for the release and removal of natural gas, oil, and other oil well fluids after hydraulic fracturing.

대표청구항 ▼

1. A perforation gun, comprising: an outer gun body assembly having a first straight steel pipe with internal female threads at each end, a plurality of external recessed areas, and an orientation slot extending inward from one end of said first straight steel pipe;a carrier tube assembly having a l

1. A perforation gun, comprising: an outer gun body assembly having a first straight steel pipe with internal female threads at each end, a plurality of external recessed areas, and an orientation slot extending inward from one end of said first straight steel pipe;a carrier tube assembly having a linear charge tube which has an external surface, a first collar having an external alignment pin dimensioned to slide into said orientation slot, said first collar fits over one end of said charge tube into an installed position radially outward of said external surface, a second collar that fits over the opposite end of said charge tube, a plurality of shaped charge saddle slots through said charge tube, and a plurality of shaped charge body apertures through said charge tube, wherein said plurality of shaped charge saddle slots and said plurality of shaped charge body apertures form a plurality of shaped charge holders, and wherein said charge tube is a length of a second straight steel pipe slightly shorter than said outer gun body assembly; anda plurality of shaped charges, each having a shaped charge saddle, each having a charge base, and each of which is located in an associated shaped charge holder of said plurality of shaped charge holders;wherein said carrier tube assembly is inserted into said outer gun body assembly such that said alignment pin slides into said orientation slot so as to control the orientation of said plurality of shaped charges with respect to said external recessed areas; andwherein said first collar is locked into position relative to said charge tube. 2. The perforation gun according to claim 1, wherein said internal female threads are machined. 3. The perforation gun according to claim 1, wherein said external recessed areas are machined approximately half way through said first straight steel pipe. 4. The perforation gun according to claim 1, further including a male coupling having threaded male members on each end, wherein said male coupling is attached to one end of said first straight steel pipe by threading into said internal female threads, and wherein said male coupling enables attachment of a second perforation gun. 5. The perforation gun according to claim 4, comprising two individual perforation guns joined together by male coupling. 6. The perforation gun according to claim 1, wherein said first collar is locked to said charge tube by a set screw. 7. The perforation gun according to claim 6, wherein said position of said first collar can be adjusted on said charge tube such that said alignment pin engages said orientation slot to controllably orientate the position of said shaped charges with respect to said recessed areas. 8. The perforation gun according to claim 1, wherein each shaped charge saddle slot is machined through said charge tube to allow insertion of a shaped charge saddle. 9. The perforation gun according to claim 8, wherein each shaped charge body aperture is machined through said charge tube to allow insertion of a charge base. 10. The perforation gun according to claim 9, wherein each shaped charge is secured in position by a malleable appendage that extends from said carrier tube to contact that shaped charge's charge base. 11. The perforation gun according to claim 1, wherein said plurality of shaped charges are orientated with respect to said recessed areas by said orientation slot so as to produce a desired geological fracturing effect. 12. The perforation gun according to claim 11, wherein said plurality of shaped charges are orientated with respect to said recessed area to produce a fan shot pattern. 13. The perforation gun according to claim 12, wherein said fan shot pattern is produced by arranging groups of shaped charges at phase angles that progressively increase along said carrier tube assembly so as to produce monotonically decreasing perforation tunnel vectors. 14. The perforation gun according to claim 11, wherein said plurality of shaped charges are orientated with respect to said recessed area to produce a down-shot pattern. 15. The perforation gun according to claim 14, wherein said down-shot pattern is produced by arranging groups of shaped charges at fixed angles along said carrier tube assembly. 16. The perforation gun according to claim 11, wherein said plurality of shaped charges are orientated with respect to said recessed area to produce a limited-entry pattern. 17. The perforation gun according to claim 16, wherein said limited-entry pattern is produced by arranging groups of shaped charges to produce perforation tunnel vectors having angles that monotonically vary from each end of said carrier tube assembly toward 90° at the middle of said carrier tube assembly. 18. The perforation gun according to claim 11, wherein said plurality of shaped charges are orientated with respect to said recessed area to produce a limited-entry-fan-shot pattern. 19. The perforation gun according to claim 18, wherein said limited-entry-fan-shot pattern is produced by arranging groups of shaped charges to produce perforation tunnel vectors having angles that spread out in a wide angle across said carrier tube assembly from each end to the middle of said carrier tube, with the middle perforation tunnel vector perpendicular to said carrier tube assembly.