IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0444534
(2003-05-23)
|
§371/§102 date |
19981207
(19981207)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
16 인용 특허 :
8 |
초록
▼
The linear synchronous motor consists of a specific primary and secondary part. The secondary portion is a ferromagnetic back plate. An array of permanent magnets are attached to the back plate so that a fixed or variable pole pitch occurs in a precise manner between at least two magnets of alternat
The linear synchronous motor consists of a specific primary and secondary part. The secondary portion is a ferromagnetic back plate. An array of permanent magnets are attached to the back plate so that a fixed or variable pole pitch occurs in a precise manner between at least two magnets of alternating polarity which improves existing methods for attaching, guiding, protecting and enhancing the overall flux array produced and emitted by the permanent magnets. A one-piece electrically synchronous linear secondary stator member accompanies a primary member, the synchronous linear permanent magnet motor. The stator electrical frequency is customizeable to allow for a wide variety of braking applications.
대표청구항
▼
1. A synchronous linear electrical machine operable as a motor or an electrodynamic brake, comprisingan array of at least two permanent magnets arrange in alternating polarity; a ferromagnetic back plate having machined pockets to accept the permanent magnets in such a manner that will allow for hig
1. A synchronous linear electrical machine operable as a motor or an electrodynamic brake, comprisingan array of at least two permanent magnets arrange in alternating polarity; a ferromagnetic back plate having machined pockets to accept the permanent magnets in such a manner that will allow for highly accurate pole pitch spacing along the magnetic array, wherein said pockets surround and keep respective magnets in place; a one-piece ladder-type frame made of a non-ferromagnetic material; and one piece ladder-type frame made of a conductive material laminated to said one-piece ladder type frame made of a non-ferromagnetic material; a non-magnetic case in which said frames are welded, wherein said frames are blind drilled and tapped to create a bolt pattern that matches a bolt pattern of the ferromagnetic back plate. 2. The synchronous linear motor of claim 1, wherein the ferromagnetic back plate is made of material selected from the group consisting of structural type steel and electrical type steel.3. The synchronous linear motor of claim 1 wherein said combination of ladder type frames further comprises ladder spacers parallel to the permanent magnet array providing precise pole-pitch alignment and secondary protection between each permanent magnet.4. The synchronous linear motor of claim 1, wherein said combination of said ladder type frames acts as a spatial harmonic dampening device reducing spatial harmonics, leakage flux and flux fringing by at least 5%.5. A synchronous linear electrical machine operable as an electrodynamic brake comprising a primary member, said primary member comprising:an array of at lest two permanent magnets, said magnets arranged in alternating polarity; and a secondary stator member, wherein said stator member is a one-piece non-layered or multi-layered conductive rail, and wherein said rail is slotted at a 90 degree angle, and said slots are spaced at a pre-determined pole pitch spacing. 6. A synchronous linear electrical machine operable as an electrodynamic brake comprising a primary member, said primary member comprising:an array of at least two permanent magnets, said magnets arranged in alternating polarity; and a secondary stator member, wherein said stator member is a one-piece non-layered or multi-layered conductive rail slotted to at least a 1 degree angle, and said slots are spaced at a pre-determined pole pitch spacing. 7. The system of claim 5 wherein the slots comprise a non-conductive insulating barrier around an inside edge of said slot and wherein the center of said slot comprises a highly permeable steel or ferrite core.8. The system of claim 5 wherein the pole pitch spacing of the slots along the synchronous linear secondary stator member matches a negative and positive alternating magnet pole pitch spacing of the primary member.9. A primary member comprising:a. a ferromagnetic back plate having pockets formed therein, said pockets spaced apart at a predetermined pole pitch spacing; b. an array of permanent magnets, said magnets respective to said pockets and arranged in alternating polarity, and said magnets magnetically secured to said back plate and positioned within said pockets; and c. a frame attached to said back plate, said frame having spaces therein corresponding to said magnets. 10. The primary member of claim 9 in combination with a secondary member made of at least one conductive material having slots defined therein such that the slots provide a pole pitch spacing substantially the same as the pole pitch spacing of the primary member, said combination comprising a synchronous linear motor.11. The apparatus of claim 10, wherein said slots are disposed at a discrete angle relative to the orientation of the secondary member.12. The apparatus of claim 10 wherein said apparatus comprises a linear machine.13. The apparatus of claim 10 wherein said apparatus comprises a rotary machine.14. The apparatus of claim 12 or 13 wherein said machine is synchronous.15. The primary member of claim 9 wherein said frame is made of a conductive material.16. The primary member of claim 9 wherein said frame is made of a non-conductive material.17. The primary member of claim 9 wherein the frame comprise a frame assembly of a first frame member made of a non-ferromagnetic material, and a second frame member made of a conductive material, said second member laminated to said first member.18. The primary member of claim 9 wherein said back plate is made of a material selected from the group consisting of structural type steel and electrical type steel.19. The primary member of claim 9 wherein said frame is blind and drill tapped to create a bolt pattern to match a bolt pattern of the back plate.20. The primary member of claim 9 wherein said back plate further comprises an o-ring groove machined into a surface of the back plate, said surface of the back plate facing a surface of the frame.21. The primary member of claim 9 wherein said back plate further comprises an o-ring groove machined into a surface of the frame, said surface of the frame facing a surface of the back plate.22. The primary member of claim 9 wherein said frame acts as a damper circuit, and wherein said frame in combination with said back plate surrounds and shades an outside and an upper portion of each magnet, thereby reducing spatial harmonics, leakage flux and flux fringe by at least 5%.23. The primary member of claim 9 wherein said back plate comprises a bolt pattern, said bolt pattern comprising countersunk bolds surrounding each of said magnets.24. A synchronous linear motor comprising:a. a primary member comprising an array of permanent magnets; and b. a secondary member, said secondary member comprising i. a rail made of a conductive material; ii. slots defined in said rail, said slots spaced apart wherein the distance between each slot corresponds to a pole pitch spacing of said permanent magnets. 25. The synchronous linear motor of claim 24 wherein said primary member further comprises:a. a ferromagnetic back plate having pockets formed therein, said pockets spaced apart at a predetermined pole pitch spacing; b. a frame attached to said back plate, said frame having spaces therein corresponding to said magnets, wherein said magnets are respective to said pockets and arranged in alternating polarity; wherein said magnets are magnetically secured to said back plate and positioned within said pockets. 26. The synchronous linear motor of claim 24 or 25 wherein said slots are disposed at an angle relative to an axis of the secondary member.27. The synchronous linear motor of claim 26 wherein said angle is 90 degrees.28. The synchronous linear motor of claim 26 wherein said angle is from about 1 to 10 degrees.29. The synchronous linear motor of claim 24 or 25 wherein said rail further comprises at least two conductive materials, wherein said conductive materials are layered, wherein each layer comprises a respective conductive material.30. The synchronous linear motor of claim 24 or 25 further comprising a ferrite core having dimension slightly smaller than that of said slot, said core placed inside of said slot.31. The synchronous linear motor of claim 30 wherein a nonconductive barrier material is placed between core and the slot.32. A synchronous linear motor comprising:a. a primary member comprising an array of permanent magnets; and b. a secondary member, said secondary member comprising i. a disc shaped stator made of a conductive material; ii. slots defined in said stator, said slots spaced apart wherein the distance between each slot corresponds to a pole pitch spacing of said permanent magnets. 33. The primary member of claim 24 or 32 wherein said back plate is disc shaped and said magnets are arranged in an arcuate orientation.
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