Electromagnetic boat speedometer having boundary layer velocity compensation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01P-003/50
G01P-005/08
출원번호
US-0469067
(2014-08-26)
등록번호
US-9983223
(2018-05-29)
발명자
/ 주소
Marsh, Lawrence B.
출원인 / 주소
Brickhouse Innovations, LLC
대리인 / 주소
Laubscher, Spendlove & Laubscher, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
9
초록▼
An electromagnetic boat speedometer includes a boundary layer velocity compensating arrangement comprising a primary coil for producing a primary electromagnetic field within a relatively large first volume of water, a secondary coil for producing a secondary electromagnetic field within a relativel
An electromagnetic boat speedometer includes a boundary layer velocity compensating arrangement comprising a primary coil for producing a primary electromagnetic field within a relatively large first volume of water, a secondary coil for producing a secondary electromagnetic field within a relatively small portion of the first volume of water immediately adjacent the hull of the boat, and a set of first electrodes removably mounted in one or more openings in the hull of the boat, such that the tips of the first electrodes extending into the relatively small water portion. In one embodiment, the coils are simultaneously energized in opposition, so that the primary and secondary electromagnetic fields are in opposition. In a second embodiment, the coils are energized alternately, and the signals produced by the electrodes are modified to achieve the desired boundary layer compensation. A second set of second electrodes may be included in the second embodiment.
대표청구항▼
1. An electromagnetic boat speedometer for measuring the velocity of a boat having a longitudinal axis travelling in a body of water, comprising (a) a velocity signal generating assembly removably mounted in an opening in a hull of the boat and having an axis extending normal to a plane containing t
1. An electromagnetic boat speedometer for measuring the velocity of a boat having a longitudinal axis travelling in a body of water, comprising (a) a velocity signal generating assembly removably mounted in an opening in a hull of the boat and having an axis extending normal to a plane containing the hull, said assembly including first and second pairs of spaced electrodes in contact with the body of water when said electrodes are in an operating position, said electrode pairs being arranged transversely relative to each other, one of said pairs being arranged parallel to the longitudinal axis of the boat;(b) a primary electromagnetic coil arranged in the boat and coaxial with said velocity signal generating assembly;(c) a first energizing device connected with said primary electromagnetic coil to establish a primary electromagnetic field having an axis that extends perpendicular to the hull plane within a first volume of water adjacent to the velocity signal generating assembly, said first and second pairs of electrodes generating a water velocity signal that is a function of the longitudinal and transverse velocity components of the hull travelling in the body of water within said first volume of water;(d) a secondary electromagnetic coil separate from said primary electromagnetic coil arranged in the boat and coaxial with said velocity signal generating assembly;(e) a second energizing device separate from said first energizing device connected with said secondary electromagnetic coil to establish a secondary electromagnetic field having an axis that extends perpendicular to the hull plane within a second volume of water which is within and less than said first volume of water to compensate for variations in water velocity in a boundary layer of water within said second volume of water immediately adjacent the hull; and(f) a signal processing device connected with said first and second energizing devices to control the activation thereof for velocity signal detection and for boundary layer compensation and with said pairs of electrodes to process said water velocity signal and generate an output indicative of the speed of the boat. 2. An electromagnetic boat speedometer as defined in claim 1, wherein said primary and secondary coils are energized simultaneously in opposition, such that the secondary electromagnetic field produced by said secondary coil opposes the primary electromagnetic field produced by said primary coil and creates an area of destructive interference where an electromagnetic field contained within said second volume of water is substantially null. 3. An electromagnetic boat speedometer as defined in claim 1, wherein said primary coil is annular and arranged coaxially in concentrically spaced relation about said secondary coil. 4. An electromagnetic boat speedometer as defined in claim 1, wherein said primary and secondary coils are alternately energized, thereby to produce velocity resultant signals that are a function of said primary and secondary electromagnetic fields, respectively; and further comprising a boundary layer modifying device connected with said signal processing device for modifying said primary electromagnetic field resultant signals by said secondary field resultant signals, thereby to produce boundary layer modified resultant water velocity signals. 5. An electromagnetic boat speedometer as defined in claim 1, wherein said signal processing device includes a Hall effect device mounted on the hull adjacent said secondary coil, said Hall effect device being connected to supply to said signal processing device a signal that is a function of the strength of said secondary field. 6. An electromagnetic boat speedometer as defined in claim 1, wherein said velocity signal generating assembly includes a tubular hull penetrator and a cylindrical support member mounted for sliding movement within said penetrator, said first and second pairs of electrodes being mounted on a lower end of said support member. 7. An electromagnetic boat speedometer as defined in claim 1, wherein said secondary electromagnetic coil is smaller than said primary electromagnetic coil in at least one of diameter and number of turns to establish said secondary electromagnetic field in said second volume of water less than said first volume of water. 8. An electromagnetic boat speedometer as defined in claim 4, and further including an adjusting arrangement for supplying to said boundary layer modifying device an adjusting signal responsive to factory set values. 9. An electromagnetic boat speedometer as defined in claim 4, and further including a second modifying arrangement for modifying the output signals of said boundary layer modifying device in accordance with control signals based on a user-generated field calibration look-up table. 10. An electromagnetic boat speedometer as defined in claim 6, wherein said secondary coil is mounted concentrically about said penetrator; and further wherein said primary coil is annular and is arranged in concentrically spaced relation about said secondary coil. 11. An electromagnetic boat speedometer as defined in claim 6, wherein said secondary coil is mounted on said support member for removal relative to said penetrator. 12. An electromagnetic boat speedometer as defined in claim 10, wherein said primary coil has a diameter of about 7 inches and is formed from 700 turns of #32 wire; and further wherein said secondary coil has a diameter of about 2.5 inches and is formed from 700 turns of #34 wire. 13. An electromagnetic boat speedometer as defined in claim 11, wherein said primary coil is annular and is secured to an upper interior surface of the boat hull concentrically about said penetrator. 14. An electromagnetic boat speedometer as defined in claim 11, wherein said primary coil comprises a helical winding provided with a ferromagnetic core, said primary winding being mounted on said support member on the opposite side of said secondary coil from the water. 15. An electromagnetic boat speedometer as defined in claim 11, wherein said primary coil has a diameter of about 7 inches and is formed from 700 turns of #32 wire; and further wherein said secondary coil has a diameter of about one inch, and is formed from 380 turns of #34 wire. 16. An electromagnetic boat speedometer as defined in claim 14, and further including a non-ferromagnetic spacer member arranged in said penetrator between said primary coil and said secondary coil. 17. An electromagnetic boat speedometer as defined in claim 14, wherein the helical winding of said primary coil has a diameter of about 1 inch, a length of about 3 inches, and is formed from 3000 turns of #31 wire; and further wherein said secondary coil has a diameter of about 1 inch, and is formed from 1000 turns of #34 wire. 18. An electromagnetic boat speedometer as defined in claim 16, wherein said electrodes, said primary coil, said secondary coil, and said spacer member are removable as a unit from said penetrator. 19. An electromagnetic boat speedometer as defined in claim 18, wherein said primary coil has a diameter of about 1 inch, a length of about 3 inches, and is formed from 3000 turns of #31 wire; and further wherein said secondary coil has a diameter of about 1 inch and a length of about 0.5 inches, and is formed from about 1000 turns of #34 wire. 20. An electromagnetic boat speedometer for measuring the velocity of a boat having a longitudinal axis travelling in a body of water, comprising (a) a velocity signal generating assembly removably mounted in an opening in a hull of the boat and having an axis extending normal to a plane containing the hull, said assembly including first and second pairs of spaced electrodes in contact with the body of water when said electrodes are in an operating position, said electrode pairs being arranged transversely relative to each other, one of said pairs being arranged parallel to the longitudinal axis of the boat;(b) a primary electromagnetic coil arranged in the boat and coaxial with said velocity signal generating assembly;(c) a first energizing device connected with said primary electromagnetic coil to establish a primary electromagnetic field having an axis that extends perpendicular to the hull plane within a first volume of water adjacent to the velocity signal generating assembly, said first and second pairs of electrodes generating a water velocity signal that is a function of the longitudinal and transverse velocity components of the hull travelling in the body of water within said first volume of water;(d) a secondary electromagnetic coil arranged in the boat and coaxial with said velocity signal generating assembly;(e) a second energizing device connected with said secondary electromagnetic coil to establish a secondary electromagnetic field having an axis that extends perpendicular to the hull plane within a second volume of water which is within said first volume of water to compensate for variations in water velocity in a boundary layer of water within said second volume of water immediately adjacent the hull;(f) a signal processing device connected with said first and second energizing devices to control the activation thereof for velocity signal detection and for boundary layer compensation and with said pairs of electrodes to process said water velocity signal and generate an output indicative of the speed of the boat; and(g) a second set of second electrodes removably mounted in at least one opening contained in the hull, respectively, the tips of said second electrodes extending into said first volume of water in concentrically spaced relation around said second volatile of water, a first pair of said second electrodes being arranged in transversely spaced relation relative to the longitudinal axis of the boat, and a second pair of said second electrodes being arranged in longitudinally spaced relation relative to the longitudinal axis of the boat. 21. An electromagnetic boat speedometer as defined in claim 20, wherein said primary coil is annular, said secondary coil being annular, smaller than, and concentrically arranged within, said primary coil; and further wherein said second set of electrodes is arranged between said primary coil and said secondary coil. 22. An electromagnetic boat speedometer as defined in claim 21, wherein said primary coil has a diameter of about 7 inches and is formed by 700 turns of #32 wire; and further wherein said secondary coil has a diameter of about 2.5 inches and is formed from 700 turns of #34 wire.
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이 특허에 인용된 특허 (9)
Batey Robert H. (Apollo Beach FL), Apparatus for sensing liquid flow in a conduit or open channel and associated method.
Bruno Anthony B. (34 Wayne Dr. East Lyme CT 06333) Kasper Rolf G. (35 Oakridge Dr. Old Lyme CT 06371), Underwater electromagnetic tubulent velocimeter.
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