Patents by Inventor Borislav Tchakarov
Borislav Tchakarov has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7530407Abstract: A rotary coring device and a method for acquiring a sidewall core from an earth formation adjacent a wellbore are provided. The rotary coring device includes a coring tool having a housing with a core receptacle therein and being adapted for positioning at selected depths within the wellbore. The coring tool further includes a first gear assembly operably coupled to a rotary coring bit. The first gear assembly is configured to rotate the rotary coring bit. The rotary coring device further includes an electrical motor configured to drive the first gear assembly for rotating the rotary coring bit at one of a plurality of rotational speeds. The rotary coring device further includes a hydraulic actuator configured to move the rotary coring bit in a first direction toward the earth formation for obtaining the sidewall core and to move the rotary coring bit in a second direction away from the earth formation.Type: GrantFiled: August 30, 2005Date of Patent: May 12, 2009Assignee: Baker Hughes IncorporatedInventors: Borislav Tchakarov, Bahadur Sagoo, Quan Phan, David Ashcraft
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Patent number: 7411388Abstract: A variable reluctance position sensor and a method for determining a position of a rotating body are provided. The variable reluctance position sensor includes a rotatable member configured to be operably coupled to the rotating body. The rotatable member has a first non-magnetic body portion and a plurality of magnets disposed equidistant from one another around an exterior region of the first non-magnetic body portion. The variable reluctance position sensor further includes a stator assembly having a second non-magnetic body portion with an aperture extending therethrough for receiving the rotatable member therein. The stator assembly further includes a plurality of coils and a plurality of coil brackets. Each coil of the plurality of coils is attached to a respective coil bracket of the plurality of coil brackets. The plurality of coil brackets are fixedly attached equidistant from one another to the second non-magnetic body portion.Type: GrantFiled: August 30, 2005Date of Patent: August 12, 2008Assignee: Baker Hughes IncorporatedInventors: Bahadur Sagoo, Borislav Tchakarov, Quan Phan
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Publication number: 20070095543Abstract: An apparatus and method for protecting temperature sensitive components from the extreme temperatures a hydrocarbon producing wellbore. The apparatus comprises an inner housing encompassed by an exterior housing, where a plenum is formed between the two housings. A vacuum is formed within the plenum. The temperature sensitive components are stored within the inner housing. An aerogel composition is placed on the outer surface of the inner housing thereby providing added insulation for protecting the temperature sensitive component. Optionally the aerogel composition can be added to the inner surface of the outer housing. Yet further optionally, a reflective foil may be disposed over the aerogel composition of the inner housing.Type: ApplicationFiled: November 1, 2005Publication date: May 3, 2007Inventors: Borislav Tchakarov, Paul Junghans
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Publication number: 20070046126Abstract: A variable reluctance position sensor and a method for determining a position of a rotating body are provided. The variable reluctance position sensor includes a rotatable member configured to be operably coupled to the rotating body. The rotatable member has a first non-magnetic body portion and a plurality of magnets disposed equidistant from one another around an exterior region of the first non-magnetic body portion. The variable reluctance position sensor further includes a stator assembly having a second non-magnetic body portion with an aperture extending therethrough for receiving the rotatable member therein. The stator assembly further includes a plurality of coils and a plurality of coil brackets. Each coil of the plurality of coils is attached to a respective coil bracket of the plurality of coil brackets. The plurality of coil brackets are fixedly attached equidistant from one another to the second non-magnetic body portion.Type: ApplicationFiled: August 30, 2005Publication date: March 1, 2007Inventors: Bahadur Sagoo, Borislav Tchakarov, Quan Phan
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Publication number: 20070045005Abstract: A rotary coring device and a method for acquiring a sidewall core from an earth formation adjacent a wellbore are provided. The rotary coring device includes a coring tool having a housing with a core receptacle therein and being adapted for positioning at selected depths within the wellbore. The coring tool further includes a first gear assembly operably coupled to a rotary coring bit. The first gear assembly is configured to rotate the rotary coring bit. The rotary coring device further includes an electrical motor configured to drive the first gear assembly for rotating the rotary coring bit at one of a plurality of rotational speeds. The rotary coring device further includes a hydraulic actuator configured to move the rotary coring bit in a first direction toward the earth formation for obtaining the sidewall core and to move the rotary coring bit in a second direction away from the earth formation.Type: ApplicationFiled: August 30, 2005Publication date: March 1, 2007Inventors: Borislav Tchakarov, Bahadur Sagoo, Quan Phan, David Ashcraft
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Publication number: 20060273799Abstract: A connector for a downhole tool includes a body with one or more conductors positioned at least partially axially adjacent to an axial bore that extends at least partially through the body. In embodiments, one or more seals surrounding the body prevent fluid from flowing from a lateral opening into the interior of the downhole tool. Additionally, the body of the connector can include a circumferential or annular recess that acts as a reservoir to contain or capture fluid that might otherwise enter the sub. Leak protection can also be protected by applying a pressure compensating material around the body.Type: ApplicationFiled: May 4, 2006Publication date: December 7, 2006Applicant: Baker Hughes IncorporatedInventors: James Hunziker, Borislav Tchakarov
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Publication number: 20060076162Abstract: A coring member useful in wellbore excavating operations comprising at least one segment disposed onto the end of a shaft, where a channel is formed between each at least one segment. The at least one segment has an impeller like arrangement that on rotation produces a pressure differential across the face of the coring member. The impeller like arrangement comprises an obliquely attached vane on one side of the face, and an obliquely attached rib on the other side. Rotation of the coring member within a fluid produces a localized high-pressure zone adjacent the face of each rib and a corresponding low-pressure zone adjacent the face of each vane. Each channel provides fluid communication between a vane and a rib, where the vane and the rib are located on different but adjacent segments. The pressure differential between the vane and the rib during rotation of the drill bit within a fluid can produce fluid flow through the channel from the rib to the vane.Type: ApplicationFiled: October 7, 2004Publication date: April 13, 2006Inventors: Borislav Tchakarov, Roderick Larson, David Ashcraft
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Publication number: 20050030036Abstract: Devices and methods for construction of a sonde or other sensing tool that includes a side-entry leak protector arrangement. The side-entry leak protector provides for improved fluid sealing against fluid that might enter a sonde sub proximate the side-mounted sensor component. The side entry leak protector connector assembly includes a metal body with glass-sealed conductive elements and pin connectors to operably engage mating electrical connections leading to the sensor element, or elements, and to the components housed within the sub. The outer radial body of the protector connector assembly provides an annular fluid chamber to permit fluid that might enter the sub to reside therewithin. The outer radial body of the protector connector assembly also includes O-ring seals that provide fluid sealing between the protector connector assembly and the interior walls of the sub.Type: ApplicationFiled: August 6, 2003Publication date: February 10, 2005Applicant: Baker Hughes IncorporatedInventors: James Hunziker, Borislav Tchakarov
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Patent number: 6484801Abstract: A universal joint between adjacent, electrically connected instrument housings for downhole well operations allow the connected housings to bend longitudinally as required to traverse an arced section of a well bore but does not permit relative elongation or twisting about the longitudinal axis of the housings. In one embodiment, a fluid impermeable open passage space at atmospheric pressure surrounds electrical signal carriers linking the instrument circuitry within the two housings. The passage is constructed as a high-pressure flexible bellows or as a braided or spiral wound high-pressure fluid hose. In another embodiment, a fluid impermeable sheath surrounds the signal carriers and encapsulates the signal carriers by a resilient solid. The articulation structure comprises a Cardan-type of universal joint wherein two fingers project longitudinally from the end of each of the housings.Type: GrantFiled: March 16, 2001Date of Patent: November 26, 2002Assignee: Baker Hughes IncorporatedInventors: James E. Brewer, Borislav Tchakarov, Paul G. Junghans, James C. Hunziker
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Publication number: 20020129945Abstract: A universal joint between adjacent, electrically connected instrument housings for downhole well operations allow the connected housings to bend longitudinally as required to traverse an arced section of a well bore but does not permit relative elongation or twisting about the longitudinal axis of the housings. I one embodiment, a fluid impermeable open passage space at atmospheric pressure surrounds electrical signal carriers linking the instrument circuitry within the two housings. The passage is constructed as a high-pressure flexible bellows or as a braided or spiral wound high-pressure fluid hose. In another embodiment, a fluid impermeable sheath surrounds the signal carriers and encapsulates the signal carriers by a resilient solid. The articulation structure comprises a Cardan-type of universal joint wherein two fingers project longitudinally from the end of each of the housings.Type: ApplicationFiled: March 16, 2001Publication date: September 19, 2002Inventors: James E. Brewer, Borislav Tchakarov, Paul G. Junghans, James C. Hunziker