Multipurpose rotary device and generating system including same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03B-003/18
F03B-017/06
F03D-003/04
출원번호
US-0008878
(2012-03-16)
등록번호
US-9512815
(2016-12-06)
우선권정보
KR-10-2011-0040242 (2011-04-28)
국제출원번호
PCT/KR2012/001917
(2012-03-16)
§371/§102 date
20130930
(20130930)
국제공개번호
WO2012/148082
(2012-11-01)
발명자
/ 주소
Bae, Myung-soon
출원인 / 주소
Bae, Myung-soon
대리인 / 주소
Kile Park Reed & Houtterman PLLC
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A multipurpose rotary device includes a rotor configured to include a plurality of blades in a circumferential direction; and a load guide body configured to guide a flow of fluids flowing into the inside of the rotor, wherein the load guide body includes an upper support member and a lower support
A multipurpose rotary device includes a rotor configured to include a plurality of blades in a circumferential direction; and a load guide body configured to guide a flow of fluids flowing into the inside of the rotor, wherein the load guide body includes an upper support member and a lower support member configured to be disposed to face each other at the upper and lower sides thereof and connected to one another such that the rotor is rotatably installed; load guide plates configured to correspond to the blades and are rotatably installed between the upper and lower support members in a longitudinal direction; and stop pins configured to be formed on inner surfaces facing the upper and lower support members to control a rotational angle of the load guide plates.
대표청구항▼
1. A multipurpose rotary device comprising: a rotor configured to include a plurality of blades in a circumferential direction; anda load guide body configured to guide a flow of fluids flowing into the inside of the rotor,wherein the load guide body includesan upper support member and a lower suppo
1. A multipurpose rotary device comprising: a rotor configured to include a plurality of blades in a circumferential direction; anda load guide body configured to guide a flow of fluids flowing into the inside of the rotor,wherein the load guide body includesan upper support member and a lower support member configured to be disposed to face each other at the upper and lower sides thereof and connected to one another such that the rotor is rotatably installed;load guide plates configured to correspond to the blades and are rotatably installed between the upper and lower support members in a longitudinal direction; andstop pins configured to be formed on inner surfaces facing the upper and lower support members to control a rotational angle of the load guide plates, andwherein the stop pins are configured as inside stop pins and outside stop pins such that a space in which the load guide plates are rotated is defined, and are configured to be distributed equally in a circular shape in a number corresponding to the load guide plates, andwherein the load guide plates are rotatably inserted by a space between the stop pins, have guide plate hinge members having a hinge shaft insertion hole that are coupled to the upper and lower ends, and are rotatably installed at the upper and lower support members by a guide plate rotary shaft bolt fastened to the hinge shaft insertion hole. 2. The multipurpose rotary device according to claim 1, wherein the upper and lower support members include annular rings formed with the stop pins, a plurality of connection sections disposed to traverse a center of the annular rings, and a bearing insertion hole formed to penetrate through a center of the connection sections, are coupled to one another by support columns installed in a longitudinal direction, and a shaft column is installed at a side of a bearing insertion hole of the lower support member. 3. The multipurpose rotary device according to claim 1, further comprising: load adjustment opening and closing means configured to open and close selectively the load guide plates such that a loading amount of the fluids guided to the rotor is able to be adjusted or loads of the guided fluids are able to be blocked. 4. The multipurpose rotary device according to claim 3, wherein the load adjustment opening and closing means includes a plurality of rotational members configured to be formed with fastening pieces such that a rotational space in which the upper and lower sides of the load guide plates are inserted and rotated is defined, and are rotatably installed between the stop pins,rotational chain gears configured to be connected to the load guide plates and the rotational members,a rotational chain configured to rotate the rotational chain gears, andan opening and closing means driving unit configured to transmit power to rotate the rotational chain, andwherein the load guide plates are configured to be rotated between the fastening pieces and the rotational members are configured to be rotational within a rotational interval of the stop pins. 5. The multipurpose rotary device according to claim 4, wherein the opening and closing means driving unit includes a load opening and closing shaft configured to receive external power;a driving super gear configured to be coupled to the upper and lower ends of the load opening and closing shaft; andan auxiliary gear configured to have a super gear meshed with the driving super gear and a chain gear engaged with a side of the rotational chain which are formed as one body, and is rotatably installed at the upper and lower support members by a shaft. 6. The multipurpose rotary device according to claim 1, further comprising: load and weight adjustment means configured to be formed in the inside of the rotor to smooth the loads of the fluids that are flowing into the inside of the load guide body and are exerted to the rotor to an even unidirectional rotational force and adjust the weight of the multipurpose rotary device. 7. The multipurpose rotary device according to claim 6, wherein the load and weight adjustment means includes a load and weight adjustment body configured to have flywheel spaces for receiving the fluids and buoyancy spaces for adjusting buoyancy that are formed to be divided in the inside of a body having a vertically protruded output shaft, each of the spaces has an adjustment hole; andunidirectional bearings configured to have a structure to be rotatable only in one direction, which are inserted into the upper and lower sides of the output shaft. 8. A generating system comprising: the multipurpose rotary device according to claim 1; anda rotary device installation structure configured such that the at least one multipurpose rotary device is installed. 9. The generating system according to claim 8, wherein the rotary device installation structure includes a water floating body configured to have a buoyancy chamber to be floated on water; andfixing means configured to have at least one connecting wire having one end connected to the water floating body and a weight body connected to the other end of the connecting wire to fix the water floating body such that the water floating body is not rocked or turned over on water. 10. A multipurpose rotary device comprising: a rotor configured to include a plurality of blades in a circumferential direction; anda load guide body configured to guide a flow of fluids flowing into the inside of the rotor,wherein the load guide body includesan upper support member and a lower support member configured to be disposed to face each other at the upper and lower sides thereof, and connected to one another such that the rotor is rotatably installed;an upper base plate and a lower base plate configured to be formed to be extended from the upper support member and the lower support member;load guide plates configured to be disposed to guide the loads of the fluids to a space between the upper base plate and the lower base plate that corresponds to an inflow direction of the fluids using the blades; andresistance prevention plates configured to be disposed at both edges of a flow path of the fluids in the flow direction of the fluids, and are connected and installed to the load guide plates to minimize a rotational resistance of the rotor. 11. The multipurpose rotary device according to claim 10, wherein the load guide plates are configured to be disposed at an internal space between the resistance prevention plates in one direction or both directions based on the rotor. 12. The multipurpose rotary device according to claim 11, wherein the load guide plates are configured as straight line sections that are formed in a linear form parallel with the inflow direction of the fluids and bending portions that are bent at the end of the straight line sections in the rotational direction of the rotor and are formed up to a place close to the outer circumferential edge of the blades, and are configured such that the fluids flowing into a space between the load guide plates are not escaped to the outside and are guided toward the blades. 13. The multipurpose rotary device according to claim 11, further comprising: a buoyant body configured to be installed at the upper base plate or the lower base plate to provide buoyancy for flotage. 14. The multipurpose rotary device according to claim 11, further comprising: foreign substance inflow prevention means configured to be configured such that foreign substances are not flowing into the internal space between the upper base plate and the lower base plate. 15. The multipurpose rotary device according to claim 14, wherein the foreign substance inflow prevention means includes a main roller and an auxiliary roller configured to be rotatably installed at the upper and lower base plates to surround the load guide body; vertical wires configured to be wound vertically to the main roller and the auxiliary roller; andnets configured to be fixed in the vertical wires. 16. A generating system comprising: the multipurpose rotary device according to claim 10; anda rotary device installation structure configured such that the at least one multipurpose rotary device is installed. 17. The generating system according to claim 16, wherein the rotary device installation structure includes a water floating body configured to have a buoyancy chamber to be floated on water; andfixing means configured to have at least one connecting wire having one end connected to the water floating body and a weight body connected to the other end of the connecting wire to fix the water floating body such that the water floating body is not rocked or turned over on water. 18. The multipurpose rotary device according to claim 10, further comprising: load and weight adjustment means configured to be formed in the inside of the rotor to smooth the loads of the fluids that are flowing into the inside of the load guide body and are exerted to the rotor to an even unidirectional rotational force and adjust the weight of the multipurpose rotary device. 19. The multipurpose rotary device according to claim 18, wherein the load and weight adjustment means includes a load and weight adjustment body configured to have flywheel spaces for receiving the fluids and buoyancy spaces for adjusting buoyancy that are formed to be divided in the inside of a body having a vertically protruded output shaft, each of the spaces has an adjustment hole; andunidirectional bearings configured to have a structure to be rotatable only in one direction, which are inserted into the upper and lower sides of the output shaft.
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이 특허에 인용된 특허 (7)
Brostmeyer,Joseph; Ryznic,John E, Bearing-less floating wind turbine.
Staley Frederick J. (1403 N. College Ave. ; #5 Fort Collins CO 80524) Elder Dillyn M. (1513 N. College Ave. ; #18 Fort Collins CO 80524), Wind turbine particularly suited for high-wind conditions.
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