Dynamic vibration absorber and dynamic vibration absorbing apparatus using the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16F-007/10
F16F-001/18
출원번호
US-0563446
(2004-04-20)
등록번호
US-8714324
(2014-05-06)
우선권정보
JP-2003-273759 (2003-07-11)
국제출원번호
PCT/JP2004/005594
(2004-04-20)
§371/§102 date
20060104
(20060104)
국제공개번호
WO2005/005857
(2005-01-20)
발명자
/ 주소
Shimoda, Ikuo
Matsumoto, Yukito
Hasegawa, Osamu
출원인 / 주소
Oiles Corporation
대리인 / 주소
Nixon & Vanderhye, P.C.
인용정보
피인용 횟수 :
1인용 특허 :
8
초록▼
A dynamic vibration absorber (1) includes: a weight (2); a frame body (3) which surrounds the weight (2); a total of four pairs of vertically mounted U-shaped leaf springs (4, 5, 6 and 7) which are interposed between the frame body (3) and the weight (2) so as to hold the weight (2) with respect to
A dynamic vibration absorber (1) includes: a weight (2); a frame body (3) which surrounds the weight (2); a total of four pairs of vertically mounted U-shaped leaf springs (4, 5, 6 and 7) which are interposed between the frame body (3) and the weight (2) so as to hold the weight (2) with respect to the frame body (3) movably with respect to all directions in a horizontal plane and immovably in a vertical direction (V); and a damping mechanism 8 for damping the vibration of the weight (2) in the horizontal plane.
대표청구항▼
1. A dynamic vibration absorber comprising: a weight; a frame body which is fixed to a floor portion of a structure and which surrounds said weight; a plurality of vertically mounted U-shaped leaf springs which are interposed between said frame body and said weight in a direction perpendicular to a
1. A dynamic vibration absorber comprising: a weight; a frame body which is fixed to a floor portion of a structure and which surrounds said weight; a plurality of vertically mounted U-shaped leaf springs which are interposed between said frame body and said weight in a direction perpendicular to a vertical direction so as to hold said weight with respect to said frame body movably with respect to all the directions in a plane and substantially immovably in the vertical direction perpendicular to the plane and so as to determine a natural frequency for the weight; and a damping mechanism configured to substantially diminish progressively the vibration of said weight in the plane, said plurality of leaf springs each having a concave surface, wherein said frame body consists of a pair of X-direction vertical wall plates opposed to each other in an X direction in the plane with said weight disposed therebetween and a pair of Y-direction vertical wall plates opposed to each other in a Y direction which is perpendicular to the X direction in the plane with said weight disposed therebetween, said X-direction vertical wall plates and said Y-direction vertical wall plates each extending in vertical direction,wherein at least a first two of said leaf springs are interposed between one of said pair of X-direction vertical wall plates and said weight in the X direction, and are opposed to each other in the Y direction, such that edge portions thereof extending in the vertical direction are secured to said one X-direction vertical wall plate, respectively, other edge portions thereof extending in the vertical direction are secured to said weight, respectively, and said concave surface of one of said at least first two of said leaf springs faces said concave surface of another one of said at least first two of said leaf springs,wherein said pair of X-direction vertical wall plates are united with said pair of Y-direction vertical wall plates, respectively,wherein at least a second two of said leaf springs are interposed between another one of said pair of X-direction vertical wall plates and said weight in the X direction, and are opposed to each other in the Y direction, such that edge portions thereof extending in the vertical direction are secured to said other X-direction vertical wall plate, respectively, other edge portions thereof extending in the vertical direction are secured to said weight, respectively, and said concave surface of one of said at least second two of said leaf springs faces said concave surface of another one of said at least second two of said leaf springs,wherein at least a third two of said leaf springs are interposed between one of said pair of Y-direction vertical wall plates and said weight in the Y direction, and are opposed to each other in the X direction, such that edge portions thereof extending in the vertical direction are secured to said one Y-direction vertical wall plates, respectively, other edge portions thereof extending in the vertical direction are secured to said weight, respectively, and said concave surface of one of said at least third two of said leaf springs faces said concave surface of another one of said at least third two of said leaf springs,wherein at least a fourth two of said leaf springs are interposed between another one of said pair of Y-direction vertical wall plates and said weight in the Y direction, and are opposed to each other in the X direction, such that edge portions thereof extending in the vertical direction are secured to said other Y-direction vertical wall plates, respectively, other edge portions thereof extending in the vertical direction are secured to said weight, respectively, and said concave surface of one of said at least fourth two of said leaf springs faces said concave surface of another one of said at least fourth two of said leaf springs,wherein said weight is held movably with respect to all the directions in the plane and substantially immovably in the vertical direction perpendicular to the plane with respect to the floor portion by means of said pair of X-direction vertical wall plates and said pair of Y-direction vertical wall plates of said frame body and by means of said at least first two, said at least second two, said at least third two and said at least fourth two of said leaf springs, andwherein the damping mechanism consists of;a first magnetic field generating body which is fixed to one of said weight and said one of said pair of X-direction vertical wall plates, which is disposed in a first surrounded space surrounded and defined by said concave surfaces of said at least first two of said leaf springs, said weight and said one of said pair of X-direction vertical wall plates, and which generates a magnetic field, and a first plate-shaped electric conductor which is fixed to another one of said weight and said one of said pair of X-direction vertical wall plates, which is disposed in said first surrounded space, and which generates an eddy current by its relative movement with respect to said first magnetic field generating body,a second magnetic field generating body which is fixed to one of said weight and said other of said pair of X-direction vertical wall plates, which is disposed in a second surrounded space surrounded and defined by said concave surfaces of said at least second two of said leaf springs, said weight and said other of said pair of X-direction vertical wall plates, and which generates a magnetic field, and a second plate-shaped electric conductor which is fixed to another one of said weight and said other of said pair of X-direction vertical wall plates, which is disposed in said second surrounded space, and which generates an eddy current by its relative movement with respect to said second magnetic field generating body,a third magnetic field generating body which is fixed to one of said weight and said one of said pair of Y-direction vertical wall plates, which is disposed in a third surrounded space surrounded and defined by said concave surfaces of said at least third two of said leaf springs, said weight and said one of said pair of Y-direction vertical wall plates, and which generates a magnetic field, and a third plate-shaped electric conductor which is fixed to another one of said weight and said one of said pair of Y-direction vertical wall plates, which is disposed in said third surrounded space, and which generates an eddy current by its relative movement with respect to said third magnetic field generating body, and a fourth magnetic field generating body which is fixed to one of said weight and said other of said pair of Y-direction vertical wall plates, which is disposed in a fourth surrounded space surrounded and defined by said concave surfaces of said at least fourth two of said leaf springs, said weight and said other of said pair of Y-direction vertical wall plates, and which generates a magnetic field, and a fourth plate-shaped electric conductor which is fixed to another one of said weight and said other of said pair of Y-direction vertical wall plates, which is disposed in said fourth surrounded space, and which generates an eddy current by its relative movement with respect to said fourth magnetic field generating body. 2. The dynamic vibration absorber according to claim 1, wherein each of said first to fourth magnetic field generating bodies has a pair of permanent magnets which generates a pair of magnetic poles of mutually different polarities which oppose each other with a gap therebetween so as to generate a magnetic field at a central portion of said electric conductor. 3. The dynamic vibration absorber according to claim 1, wherein said dynamic vibration absorber is tuned to a natural frequency of a structure where said dynamic vibration absorber is installed. 4. A dynamic vibration absorbing apparatus comprising a plurality of dynamic vibration absorbers according to claim 1, wherein a natural frequency for said weight of at least one of said dynamic vibration absorbers is different from a natural frequency for said weight of another one of said dynamic vibration absorbers. 5. The dynamic vibration absorbing apparatus according to claim 4, wherein the mass of said weight of said at least one of said dynamic vibration absorbers is different from the mass of said weight of said other one of said dynamic vibration absorbers. 6. The dynamic vibration absorbing apparatus according to claim 4, wherein a spring constant of said at least one of said dynamic vibration absorbers is different from a spring constant of said other one of said dynamic vibration absorbers. 7. The dynamic vibration absorbing apparatus according to claim 4, wherein a damping coefficient of said at least one of said dynamic vibration absorbers is different from a damping coefficient of said other one of said dynamic vibration absorbers. 8. A dynamic vibration absorber comprising: a weight; a frame body which is fixed to a floor portion of a structure and which surrounds said weight; a plurality of vertically mounted U-shaped leaf springs which are interposed between said frame body and said weight so as to hold said weight with respect to said frame body movably with respect to all directions in a plane and substantially immovably in a vertical direction perpendicular to the plane and so as to determine a natural frequency for the weight; and a damping mechanism configured to substantially diminish progressively the vibration of said weight in the plane, said plurality of leaf springs each having a concave surface, at least a first two of said leaf springs are interposed between said frame body and said weight in X direction, said concave surface of one of said at least first two of said leaf springs facing said concave surface of another one of said at least first two of said leaf springs, and at least a second two of said leaf springs are interposed between said frame body and said weight in Y direction which is perpendicular to the X direction in the plane, said concave surface of one of said at least second two of said leaf springs facing said concave surface of another one of said at least second two of said leaf springs, the damping mechanism consisting of a first magnetic damping device which is disposed in a first surrounded space surrounded and defined by said concave surfaces of said at least first two of said leaf springs, said weight and said frame body, and a second magnetic damping device which is disposed in a second surrounded space surrounded and defined by said concave surfaces of said at least second two of said leaf springs, said weight and said frame body, said weight being held movably with respect to all the directions in the plane and substantially immovably in the vertical direction perpendicular to the plane with respect to the floor portion by means of said frame body and by means of said plurality of springs. 9. A dynamic vibration absorber comprising: a weight; a frame body which surrounds said weight; a plurality of vertically mounted U-shaped leaf springs which are interposed between said frame body and said weight in a direction perpendicular to a vertical direction so as to hold said weight with respect to said frame body movably with respect to all the directions in a plane and substantially immovably in the vertical direction perpendicular to the plane and so as to determine a natural frequency for the weight; and a damping mechanism configured to substantially diminish progressively the vibration of said weight in the plane, said plurality of leaf springs each having a concave surface, wherein said frame body consists of a pair of X-direction vertical wall plates opposed to each other in an X direction in the plane with said weight disposed therebetween and a pair of Y-direction vertical wall plates opposed to each other in a Y direction which is perpendicular to the X direction in the plane with said weight disposed therebetween, said X-direction vertical wall plates and said Y-direction vertical wall plates each extending in vertical direction,wherein said pair of X-direction vertical wall plates are united with said pair of Y-direction vertical wall plates, respectively,wherein at least a first two of said leaf springs are interposed between one of said pair of X-direction vertical wall plates and said weight in the X direction, and are opposed to each other in the Y direction, such that edge portions thereof extending in the vertical direction are secured to said one X-direction vertical wall plate, respectively, other edge portions thereof extending in the vertical direction are secured to said weight, respectively, and said concave surface of one of said at least first two of said leaf springs faces said concave surface of another one of said at least first two of said leaf springs,wherein at least a second two of said leaf springs are interposed between another one of said pair of X-direction vertical wall plates and said weight in the X direction, and are opposed to each other in the Y direction, such that edge portions thereof extending in the vertical direction are secured to said other X-direction vertical wall plate, respectively, other edge portions thereof extending in the vertical direction are secured to said weight, respectively, and said concave surface of one of said at least second two of said leaf springs faces said concave surface of another one of said at least second two of said leaf springs,wherein at least a third two of said leaf springs are interposed between one of said pair of Y-direction vertical wall plates and said weight in the Y direction, and are opposed to each other in the X direction, such that edge portions thereof extending in the vertical direction are secured to said one Y-direction vertical wall plates, respectively, other edge portions thereof extending in the vertical direction are secured to said weight, respectively, and said concave surface of one of said at least third two of said leaf springs faces said concave surface of another one of said at least third two of said leaf springs,wherein at least a fourth two of said leaf springs are interposed between another one of said pair of Y-direction vertical wall plates and said weight in the Y direction, and are opposed to each other in the X direction, such that edge portions thereof extending in the vertical direction are secured to said other Y-direction vertical wall plates, respectively, other edge portions thereof extending in the vertical direction are secured to said weight, respectively, and said concave surface of one of said at least fourth two of said leaf springs faces said concave surface of another one of said at least fourth two of said leaf springs,wherein said weight is held movably with respect to all the directions in the plane and substantially immovably in the vertical direction perpendicular to the plane with respect to said pair of X-direction vertical wall plates and said pair of Y-direction vertical wall plates of said frame body by means of said at least first two, said at least second two, said at least third two and said at least fourth two of said leaf springs, andwherein the damping mechanism consists ofa first magnetic field generating body which is fixed to one of said weight and said one of said pair of X-direction vertical wall plates, which is disposed in a first surrounded space surrounded and defined by said concave surfaces of said at least first two of said leaf springs, said weight and said one of said pair of X-direction vertical wall plates, and which generates a magnetic field, and a first plate-shaped electric conductor which is fixed to another one of said weight and said one of said pair of X-direction vertical wall plates, which is disposed in said first surrounded space, and which generates an eddy current by its relative movement with respect to said first magnetic field generating body,a second magnetic field generating body which is fixed to one of said weight and said other of said pair of X-direction vertical wall plates, which is disposed in a second surrounded space surrounded and defined by said concave surfaces of said at least second two of said leaf springs, said weight and said other of said pair of X-direction vertical wall plates, and which generates a magnetic field, and a second plate-shaped electric conductor which is fixed to another one of said weight and said other of said pair of X-direction vertical wall plates, which is disposed in said second surrounded space, and which generates an eddy current by its relative movement with respect to said second magnetic field generating body,a third magnetic field generating body which is fixed to one of said weight and said one of said pair of Y-direction vertical wall plates, which is disposed in a third surrounded space surrounded and defined by said concave surfaces of said at least third two of said leaf springs, said weight and said one of said pair of Y-direction vertical wall plates, and which generates a magnetic field, and a third plate-shaped electric conductor which is fixed to another one of said weight and said one of said pair of Y-direction vertical wall plates, which is disposed in said third surrounded space, and which generates an eddy current by its relative movement with respect to said third magnetic field generating body, anda fourth magnetic field generating body which is fixed to one of said weight and said other of said pair of Y-direction vertical wall plates, which is disposed in a fourth surrounded space surrounded and defined by said concave surfaces of said at least fourth two of said leaf springs, said weight and said other of said pair of Y-direction vertical wall plates, and which generates a magnetic field, and a fourth plate-shaped electric conductor which is fixed to another one of said weight and said other of said pair of Y-direction vertical wall plates, which is disposed in said fourth surrounded space, and which generates an eddy current by its relative movement with respect to said fourth magnetic field generating body. 10. A dynamic vibration absorber comprising: a weight; a frame body which surrounds said weight; a plurality of vertically mounted U-shaped leaf springs which are interposed between said frame body and said weight so as to hold said weight with respect to said frame body movably with respect to all directions in a plane and substantially immovably in a vertical direction perpendicular to the plane and so as to determine a natural frequency for the weight; and a damping mechanism configured to substantially diminish progressively the vibration of said weight in the plane, said plurality of leaf springs each having a concave surface, at least a first two of said leaf springs are interposed between said frame body and said weight in X direction, said concave surface of one of said at least first two of said leaf springs facing said concave surface of another one of said at least first two of said leaf springs, and at least a second two of said leaf springs are interposed between said frame body and said weight in Y direction which is perpendicular to the X direction in the plane, said concave surface of one of said at least second two of said leaf springs facing said concave surface of another one of said at least second two of said leaf springs, the damping mechanism consisting of a first magnetic damping device which is disposed in a first surrounded space surrounded and defined by said concave surfaces of said at least first two of said leaf springs, said weight and said frame body, and a second magnetic damping device which is disposed in a second surrounded space surrounded and defined by said concave surfaces of said at least second two of said leaf springs, said weight and said frame body, said weight being held movably with respect to all the directions in the plane and substantially immovably in the vertical direction perpendicular to the plane with respect to said frame body by means of said plurality of springs.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Sutcliffe Sean G. C. (London GB2) Eatwell Graham P. (Caldecote GB2) Hutchins Stephen M. (Earith GB2), Active control of vibration.
Besson Raymond (Besancon FRX) Delaite Richard (Belfort FRX) Genestier Grard (Besancon FRX) Maitre Pierre (Besancon FRX) Renard Georges (Pouilley-Francais FRX) Thiebaud Daniel (Besancon FRX) Valentin , Device for supporting a piezoelectric resonator inside a casing.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.