61 |
Ultrasonic levitation device |
JP2003574544 |
2003-03-11 |
JP4494019B2 |
2010-06-30 |
嘉文 山下; 輝明 藤永 |
|
62 |
Noncontact conveying device |
JP2008054570 |
2008-03-05 |
JP2009208909A |
2009-09-17 |
ISOBE HIROMI |
PROBLEM TO BE SOLVED: To reduce the size of a device by reducing the number of components and to convey a conveying object in a noncontact state.
SOLUTION: This noncontact conveying device is provided with a static pressure table for making afloat a conveying object S upwardly; a pair of conveying units 10A, 10B having vibration plates 11A, 11B and actuators 12A, 12B; and a moving device for moving the conveying units 10A, 10B in the conveying direction. By exciting a deflection standing wave with respect to the vibration plates 11A, 11B by the actuators 12A, 12B, holding force is applied to a tip part Sa and a rear end part Sb of the conveying object S opposing to the vibration plates 11A, 11B. With the holding force applied to the end parts Sa, Sb of the conveying object S, by moving the conveying units 10A, 10B, the conveying object S is conveyed to the conveying direction following the movement of the conveying units 10A, 10B.
COPYRIGHT: (C)2009,JPO&INPIT |
63 |
Gripping the object to the non-contact type, a device for holding |
JP2002587313 |
2002-04-05 |
JP2004519346A |
2004-07-02 |
ヘーン ミヒャエル; ヘップナー ユルゲン |
A device is proposed for the contactless grasping and holding of an object from a direction directed at least partially in the direction of the force of gravity, using a holding element situated counter to the direction of the force of gravity, at least partially above the object and at a distance from the latter, which to the greatest extent possible avoids the carrying off or migrating of particles that are possibly present. According to the present invention this is achieved in that the holding element is designed as a vibrating holding element for generating levitation waves. |
64 |
JPH0411478B2 - |
JP15260085 |
1985-07-12 |
JPH0411478B2 |
1992-02-28 |
|
|
65 |
Fluid transport pipe |
JP576685 |
1985-01-18 |
JPS61166428A |
1986-07-28 |
MOTODA KENRO |
PURPOSE:To transmit a signal with good responsibility even if fluid has viscosity and a pipe has a small bore by mounting an ultrasonic and a pipe has a small bore by mounting an ultrasonic vibrator on the outer surface of the pipe formed by an elastic body, and driving the vibrator to generate a surface progreeive elastic wave in the inner surface of the above pipe. CONSTITUTION:Ultrasonic vibrators E are mounted on the outer periphery of a fluid transport pipe 1 formed by a pipe made of an elastic body. When the vibrators E are driven to propagate the progressive wave of the longitudinal wave and transversal wave of ultrasonic wave to the pipe 1, fluid contacting the iner wall of the pipe 1 is caused to move. Thus, though usually the velocity of flow of the fluid contacting the inner wall is slower than that of fluid in the other portions due to frictional resistance between the fluid and the pipe 1, the usual velocity of flow is increased by action of the surface progressive elastic wave. Therefore, as a whole, the fluid is reduced in resistance to increase the velocity of flow. |
66 |
熱処理装置および熱処理方法 |
JP2012524433 |
2011-09-13 |
JPWO2012063550A1 |
2014-05-12 |
修 下宮; 博史 安藤 |
本発明は、物品を熱処理する熱処理炉と、該熱処理炉の内部に少なくとも一部が配置される振動体と、該振動体を励振させる振動子とを備え、前記熱処理炉の内部において、前記振動体からの音波の放射圧によって前記振動体の上方に前記物品を浮かす熱処理装置に関する。 |
67 |
Contactless conveyance device, contactless conveyance method, and contactless conveyance system |
JP2010039018 |
2010-02-24 |
JP2011062068A |
2011-03-24 |
KOYAMA DAISUKE; NAKAMURA KENTARO |
<P>PROBLEM TO BE SOLVED: To catch a micro-object such as a micro component and a droplet by an ultrasonic standing wave and convey the caught micro object without contacting over a long distance. <P>SOLUTION: A flexurally vibrating plate 10 which is formed in a long flat plate-like shape is ultrasonically vibrated at two positions in the longitudinal direction thereof by exciting a pair of ultrasonic vibrators 30A and 30B by means of an electric signal. A micro-object 50 to be conveyed is caught at a node of an ultrasonic standing wave which is generated in the space sandwiched between the flexurally vibrating plate 10 and a reflection plate 20. The phase of the electric signal for exciting the pair of ultrasonic vibrators 30A and 30B is controlled to vibrate the flexurally vibrating plate 10 so that a traveling wave is produced in the flexurally vibrating plate, and the micro-object 50 to be conveyed which is caught at the node of the ultrasonic standing wave is conveyed in the longitudinal direction of the flexurally vibrating plate 10. <P>COPYRIGHT: (C)2011,JPO&INPIT |
68 |
Transport and holding the device on which the object or material in a non-contact |
JP2010502412 |
2008-04-09 |
JP2010523436A |
2010-07-15 |
アドルフ ジッツマン; ヨセフ ジメルマン; ミカエル シルプ |
The present invention relates to a device for transporting and holding of touch-sensitive structural elements or materials, the device comprising the following features: At least an oscillatory plate-like take-up 2 for receiving the object to be transported or held, on which at least an oscillation generator 3 is fixed, and at least two supporting members 4, wherein the oscillation generator 3 is arranged on the plate-like take-up 2 at a predetermined position thereof to set the plate-like take-up into flexural vibrations, and the supporting members 4 are arranged at positions where the amplitude of the flexural vibration is lower than the maximum amplitude by at least 50%, and the oscillation generator 3 is operated with a frequency setting the plate-like take-up 2 into vibrations so that the structural elements or the material are (is) levitating in a contact-free way. |
69 |
Gripping the object to the non-contact type, a device for holding |
JP2002587313 |
2002-04-05 |
JP4072065B2 |
2008-04-02 |
ヘーン ミヒャエル; ヘップナー ユルゲン |
A device is proposed for the contactless grasping and holding of an object from a direction directed at least partially in the direction of the force of gravity, using a holding element situated counter to the direction of the force of gravity, at least partially above the object and at a distance from the latter, which to the greatest extent possible avoids the carrying off or migrating of particles that are possibly present. According to the present invention this is achieved in that the holding element is designed as a vibrating holding element for generating levitation waves. |
70 |
Object levitation conveying device |
JP2000339104 |
2000-11-07 |
JP3931552B2 |
2007-06-20 |
貞行 上羽; 義和 小池; 正己 高三 |
|
71 |
超音波浮上装置 |
JP2003574544 |
2003-03-11 |
JPWO2003076313A1 |
2005-07-07 |
藤永 輝明; 輝明 藤永; 嘉文 山下 |
固定部(1)と、該固定部に対して移動可能に設置された可動部(7)とを具備し、固定部側または可動部側が超音波振動することにより上記可動部が浮上面を介して浮上するように構成された超音波振動装置において、上記固定部または可動部に薄型の超音波振動装置(9,11,13)を設けたものである。その際、例えば、浮上面を傾斜面(3a,5a,9a,9c)としたり、圧電素子を積層させてなる超音波振動装置を上記固定部または可動部に取り付けたり、面状発振装置を柱部材を介して上記固定部または可動部に取り付けたり、上記固定部または可動部における超音波振動を振動方向変換手段を介して方向変換するように構成したものである。 |
72 |
Object flotation device |
JP34781793 |
1993-12-24 |
JP3300145B2 |
2002-07-08 |
芳樹 橋本 |
|
73 |
Object flotation-carrying device |
JP2000339104 |
2000-11-07 |
JP2002137817A |
2002-05-14 |
TAKASABU MASAMI; UEHA SADAYUKI; KOIKE YOSHIKAZU |
PROBLEM TO BE SOLVED: To carry an object in a stably floating state by restricting flexure of a vibration plate in a simple constitution in carrying the object in the floating state using the long vibration plate.
SOLUTION: In this object flotation carrying device, the long vibration plates 2a and 2b are vibrated by a vibrating means, and the object 3 is carried in the floating state by radiation pressure of sound waves from the vibration plates 2a and 2b. Under each vibration plate 2a, 2b, a flexure preventing device 12 is disposed at a position roughly facing a center part of the vibration plates 2a, 2b. The flexure preventing device 12 is provided with a cylindrical support member 13, a suction nozzle 14 installed on an upper part of it, and a flexure restricting member 15 disposed inside the suction nozzle 14. The support member 13 is connected through a pipe 16 to a negative pressure source, and when dust is generated by friction between the flexure restricting member 15 and the vibration plates 2a, 2b, it is sucked to be eliminated. As the flexure restricting member 15 is applied to a lower surface of the vibration plates 2a, 2b, flexure of the vibration plates 2a and 2b is restricted.
COPYRIGHT: (C)2002,JPO |
74 |
Conveying device for linear driving device operated by pressure medium |
JP10155598 |
1998-04-13 |
JPH115614A |
1999-01-12 |
ROETHEMEYER FRITZ DR; KRANZ HARALD; KLEINER WOLFGANG |
PROBLEM TO BE SOLVED: To securely adjust a crushing force so that the unevenness in the rolling of a conveying device has no effect on the crushing force for compressing a driving hose, and instead, predetermined optimum forward driving can be assured by separating the support of a conveying device or the guide roller support part from the support part of a pair of crushing rollers. SOLUTION: A conveying device is provided with a vehicle chassis 3, and support or guide rollers 4, 5 and 4', 5' are supported by the vehicle chassis 3, and the support or guide rollers 4, 5 and 4', 5' roll on a guide rail. Crushing rollers 6, 6' for crushing a driving hose are supported by a crushing roller frame 7, and the crushing roller frame 7 is fitted to the slit-shaped guide of the vehicle chassis 3 so as to be vertical and freely movable to the guide rail and driving hose. Thus, in the crushing roller frame 7 the optimum distance of the crushing rollers 6, 6' can be securely adjusted. |
75 |
JPH0521806B2 - |
JP576685 |
1985-01-18 |
JPH0521806B2 |
1993-03-25 |
MOTODA KENRO |
|
76 |
Transporter |
JP15260085 |
1985-07-12 |
JPS6133420A |
1986-02-17 |
KURUTO SHIYUTOORU |
|
77 |
Transport and holding the device on which the object or material in a non-contact |
JP2010502412 |
2008-04-09 |
JP5583004B2 |
2014-09-03 |
ミカエル シルプ; ヨセフ ジメルマン; アドルフ ジッツマン |
|
78 |
Non-contact transport apparatus, a non-contact transfer method and the non-contact transport system |
JP2011513274 |
2010-02-24 |
JP5483239B2 |
2014-05-07 |
大介 小山; 中村 健太郎 |
|
79 |
非接触搬送装置、非接触搬送方法及び非接触搬送システム |
JP2011513274 |
2010-02-24 |
JPWO2010131509A1 |
2012-11-01 |
小山 大介; 大介 小山; 中村 健太郎; 中村 健太郎 |
本発明は、1対の超音波振動子(30A),(30B)を電気信号により励振して、長尺な平板状に形成されたたわみ振動板(10)を長手方向の2箇所において加振することにより超音波振動させ、上記たわみ振動板(10)と反射板(20)により挟まれた空間に発生される超音波定在波の節部に被搬送微小物体(50)を捕捉し、上記1対の超音波振動子(30A),(30B)を励振させる電気信号の位相を制御することにより、上記たわみ振動板(10)を進行波超音波振動させ、上記超音波定在波の節部に捕捉した被搬送微小物体(50)を上記たわみ振動板(10)の長手方向に搬送する。 |
80 |
Transport of non-contact of parts and materials, equipment for handling and storage |
JP2006538652 |
2004-11-11 |
JP4871133B2 |
2012-02-08 |
シルプ,ミハエル; チッツマン,アドルフ; ツィマーマン,ヨセフ; ボリッグ,トビアス |
|