IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
|
| 국제특허분류(IPC7판) |
|
| 출원번호 |
US-0769194
(2001-01-24)
|
|
발명자
/ 주소 |
- Zamora, Paul O.
- Stern, Robert A.
|
| 출원인 / 주소 |
- BioSurface Engineering Technologies, Inc.
|
| 대리인 / 주소 |
Slusher, Stephen A.Peacock, Myers & Adams
|
| 인용정보 |
피인용 횟수 :
113 인용 특허 :
30 |
초록
▼
A bioabsorbable brachytherapy device includes a tubular housing with sealed ends and an enclosed radioactive material. The radioactive material includes a radioisotope, such as palladium-103 or iodine-125. The tubular housing is made from a biocompatible and bioabsorbable polymeric material, and is
A bioabsorbable brachytherapy device includes a tubular housing with sealed ends and an enclosed radioactive material. The radioactive material includes a radioisotope, such as palladium-103 or iodine-125. The tubular housing is made from a biocompatible and bioabsorbable polymeric material, and is sealed by means such as heat welding or solvent fixing. The device may further include a radiopaque medium and one or more therapeutic drugs.
대표청구항
▼
A bioabsorbable brachytherapy device includes a tubular housing with sealed ends and an enclosed radioactive material. The radioactive material includes a radioisotope, such as palladium-103 or iodine-125. The tubular housing is made from a biocompatible and bioabsorbable polymeric material, and is
A bioabsorbable brachytherapy device includes a tubular housing with sealed ends and an enclosed radioactive material. The radioactive material includes a radioisotope, such as palladium-103 or iodine-125. The tubular housing is made from a biocompatible and bioabsorbable polymeric material, and is sealed by means such as heat welding or solvent fixing. The device may further include a radiopaque medium and one or more therapeutic drugs. ing from said engaging mechanism for selectively rotating or not rotating said propellor. 5. The drive train of claim 4, further including a third output from said transfer case driving a second set of wheels. 6. The drive train of claim 4, wherein said engagement mechanism is located aft of said transfer case. 7. A drive train for an amphibious vehicle, said amphibious vehicle having a motor, a transmission coupled with the motor, a propellor and front and rear axles, the drive train comprising: a transfer case; a transmission output drive shaft rotatably coupling said transmission with the transfer case, wherein the transmission output drive shaft provides rotational power to the transfer case from said motor and wherein the transmission output drive shaft is selectively rotatable via said transmission; a front wheel drive shaft, wherein the front wheel drive shaft rotatably couples the transfer case to said front axle, wherein the front wheel drive shaft is a rotational output from the transfer case, and wherein the front wheel drive shaft provides rotational power to said front axle to propel the amphibious vehicle when on land; a rear wheel drive shaft, wherein the rear wheel drive shaft rotatably couples the transfer case to said rear axle, wherein the rear wheel drive shaft is a rotational output from the transfer case, and wherein the rear wheel drive shaft provides rotational power to said rear axle to propel the amphibious vehicle when on land; and a propellor output drive shaft, wherein the propellor output drive shaft rotatably couples the transfer case to said propellor, wherein the propellor output drive shaft is a rotational output from the transfer case, and wherein the propellor output drive shaft provides rotational power to said propellor to propel the amphibious vehicle when in water; and wherein the front wheel drive shaft, the rear wheel drive shaft and the propellor output drive shaft are all continuously rotating at all times when the transmission output drive shaft is rotating. 8. The drive train of claim 7, further comprising: a disengaging assembly, wherein the disengaging assembly is positioned intermediate the transfer case and said propellor, wherein the disengaging assembly is rotatably coupled with the transfer case via the propellor output drive shaft, and wherein the disengaging assembly permits a user to selectively couple said propellor with the propellor output drive shaft. 9. The drive train of claim 8, further comprising: a propellor gearbox, wherein the propellor gearbox is positioned intermediate the disengaging assembly and said propellor, wherein the propellor gearbox transfers rotational power from the propellor output drive shaft to said propellor when the disengaging assembly is in an engaged position, wherein propellor gearbox has a plurality of mating gears having a gear ratio, and wherein the gear ratio is such that an output of the propellor gearbox rotates faster than the propellor output drive shaft. 10. The drive train of claim 9, wherein gear ratio is such that said propellor propels said amphibious vehicle when in water at approximately a same speed as the front and rear wheel drive shafts propel said amphibious vehicle when on land. 11. The drive train of claim 7, further comprising: a propellor gearbox, wherein the propellor gearbox is positioned intermediate the propellor output drive shaft and said propellor, wherein the propellor gearbox transfers rotational power from the propellor output drive shaft to said propellor, wherein propellor gearbox has a plurality of mating gears having a gear ratio, and wherein the gear ratio is such that an output of the propellor gearbox rotates faster than the propellor output drive shaft. 12. The drive train of claim 11, wherein gear ratio is such that said propellor propels said amphibious vehicle when in water at approximately a same speed as the front and rear wheel drive shafts propel said amphibious v ehicle when on land.
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