81 |
Location designator for wheel service machines |
US772294 |
1991-10-07 |
US5109715A |
1992-05-05 |
Donald J. Christian; Steven W. Rogers |
The disclosure herein relates to a wheel service machine, such as a wheel balancer, which provides audible output for guiding an operator to measured positions on a vehicle wheel assembly where corrective operations must be performed, such as the application of wheel assembly unbalance compensation weights. |
82 |
Apparatus for detecting and indicating the balance of a rotary body in a
machine tool |
US136516 |
1987-12-22 |
US4817003A |
1989-03-28 |
Noboru Nagase; Masao Yamaguchi; Noritake Noguchi |
The present invention relates to an apparatus for detecting and indicating the balance of a rotating body such as a grinding wheel, a spindle or the like in a machine tool such as a grinding machine. The apparatus comprises an original-point detecting means for detecting an original point on the rotating body, a vibration detecting means for detecting vibration caused by an unbalanced condition of the rotating body, an arithmetic means for computing, from the detected vibration, a deviation of said rotating body in each of a plurality of index positions on the rotating body which are angularly spaced from said original point as a reference, a deviation display means for displaying the maximum value of the deviations, and an unbalanced position indicating means for indicating one of the index positions based on the computed deviations. |
83 |
Device for balancing disks |
US301930 |
1981-09-14 |
US4380925A |
1983-04-26 |
Michael S. Martino |
A device for determining the angularity of unbalance of several disks to be assembled into a rotor construction in which a plurality of relatively pivoted members having appropriate linear and angular scales thereon are positionable with respect to one another to indicate the necessary angularity of the unbalanced points of the disks with respect to the amount of unbalance in the several disks. |
84 |
Pulse signal conditioning circuit |
US672013 |
1976-03-30 |
US4035733A |
1977-07-12 |
Robert S. Morrow; Lloyd D. Penn |
A pulse signal conditioning circuit. Repetitive pulse signals can be sharpened and freed of accompanying, unwanted noise manifestations by means of a network of steering diodes and constant current diodes feeding a comparator circuit producing sharp, uniform pulses. |
85 |
Direct readout balancing method and apparatus |
US3661016D |
1970-07-06 |
US3661016A |
1972-05-09 |
DOPP DAVID S |
A balancing method and apparatus by which a direct readout of the amount of unbalance is provided in order than an operator can determine from a meter reading how much weight to add to an unbalanced body and where to position it. Apparatus for weighing the rotatable workpiece is included as an integral part of the unbalance detecting mechanism with means for attenuating the readout meter signal in accordance with the body weight so that the meter will give an accurate indication of the amount of unbalance in weight times rotational radius units when the body is rotated at a predetermined proportion of the resonant speed of the system.
|
86 |
Wheel balancing machine |
US69979957 |
1957-11-29 |
US2968185A |
1961-01-17 |
JACOBSEN LE ROY V |
|
87 |
Computing instrument |
US16466250 |
1950-05-27 |
US2569295A |
1951-09-25 |
DE WITT WILLIAM L |
|
88 |
Apparatus to automatically determine the angular position of unbalance in rotatable bodies |
US3871035 |
1935-08-31 |
US2116221A |
1938-05-03 |
JENS SIVERTSEN |
|
89 |
Dynamic balance calculator |
US43204630 |
1930-02-28 |
US1956126A |
1934-04-24 |
JACOB LUNDGREN |
|
90 |
Dynamic balancing machine and recording amplimeter therefor |
US12923626 |
1926-08-14 |
US1800651A |
1931-04-14 |
MCDONOUGH FRANCIS T |
|
91 |
Apparatus for balancing machinery |
US20851517 |
1917-12-22 |
US1457629A |
1923-06-05 |
FRANZ LAWACZECK; HANS HEYMANN |
|
92 |
Dynamic imbalance calculation method and dynamic balance test equipment |
JP2002382751 |
2002-11-29 |
JP4140380B2 |
2008-08-27 |
克己 辻 |
|
93 |
Method of calculating dynamic imbalance and test apparatus for dynamic balance |
JP2002382751 |
2002-11-29 |
JP2004184383A |
2004-07-02 |
TSUJI KATSUMI |
PROBLEM TO BE SOLVED: To calculate the magnitude and the angular position of a dynamic imbalance of a rotating object using original oscillating vectors.
SOLUTION: Based on the original oscillating vectors (magnitude and angular position) obtained by the measurement using an oscillating sensor at bearings which support the rotating object, ratio imbalance is calculated using dynamic imbalance vectors (magnitude and angular position) of the rotating object obtained by a vector calculating method based on the ratio between the bearing-to-bearing length and the length between two corrected surfaces arbitrarily set in the rotating object.
COPYRIGHT: (C)2004,JPO&NCIPI |
94 |
Balance testing machine for rotary body, especially wheel of automobile |
JP2003321837 |
2003-09-12 |
JP2004132975A |
2004-04-30 |
CORGHI REMO |
<P>PROBLEM TO BE SOLVED: To automatically support a position for adding each balancing mass. <P>SOLUTION: An apparatus measures a position in the axial direction of at least one of balancing planes P1, P2 and positions in the radial direction of a plurality of points on an application surface 11a corresponding to the balancing planes P1, P2 by a first measuring sensor means 30. The apparatus monitors the angle position of a body 10 and rotates the body 10. By an appropriate means, an unbalancing means is measured, and the position of the point is measured. A plurality of images generated from the application surface 11a in the body 10 are obtained by an image acquisition means. The plurality of images are seen on a screen and the position for adding the balancing mass is also indicated. By adding the balancing mass, the body 10 is moved to an angle position, where the point for adding a plurality of mass is included within an either range of visual fields on the screen. <P>COPYRIGHT: (C)2004,JPO |
95 |
Wheel balancer |
JP51243198 |
1997-09-08 |
JP2000517432A |
2000-12-26 |
リチャード ジェイムス クレン; パドレイグ フォガーティ; ダンカン ウィリアム マシネス; ポール パトリック ミーニー |
(57)【要約】 合金製車輪(2)を釣り合わせる車輪バランサ(1)は支持ハウジング(30)と、車輪(2)を取り付ける主軸(36)とを具える。 副ハウジング(35)は主軸(36)を回転自在に支持する。 選択された釣合い平面(17、18)内で車輪(2)内の不釣合力を修正するために必要な釣合い錘の大きさと、角度位置とを決定するため、主軸内の不釣合力と、そのそれぞれの方向とを監視する。 選択された希望する釣合い平面(17、18)における車輪(2)の車輪ボス(4)の内面(10)上の釣合い錘収容位置を検出するため、支持ハウジング(30)に、垂直枢着軸線の周りに回動するよう抜き差し伸長し得るセンサアーム(54)を枢着する。 それぞれの釣合い平面(17、18)内で車輪ボス(4)の内面(10)に修正釣合い錘(20)を取り付けるべき位置である釣合い錘位置(22)をレーザ光源(70)によって表示するが、このレーザ光源(70)は釣合い錘位置(22)がレーザ光源(70)に一線になった時、車輪ボス(4)の下部前部の1/4の部分(23)内の内面(10)にペンシルレーザビーム(72)を指向させる。 内面(10)上に形成されたレーザ光の光点は釣合い錘位置(22)と、この釣合い錘位置の内側側端縁(25)との角度中心線(21)を示し、これにより修正釣合い錘(20)を車輪ボスに取り付けるべき正確な位置を操作者に示す。 |
96 |
JPH0513251B2 - |
JP1073584 |
1984-01-23 |
JPH0513251B2 |
1993-02-22 |
NAKAYAMA YOSHIMITSU |
|
97 |
JPH0473539B2 - |
JP26126684 |
1984-12-11 |
JPH0473539B2 |
1992-11-24 |
|
|
98 |
Device for detecting and displaying vibration |
JP3126885 |
1985-02-19 |
JPS61189423A |
1986-08-23 |
NAGASE NOBORU; YAMAGUCHI MASAO; NOGUCHI NORITAKA |
PURPOSE:To detect and display the vibration of the whole working machine and the vibration of only a rotary body selectively by providing the titled device with a detecting mode selecting device. CONSTITUTION:Whether a rotary body vibration detecting mode is selected or not is discriminated by depressing a detecting mode selecting switch 36. When a whole vibration detecting mode is selected and set up as the discriminated result, the action of an LPF in a filtering circuit 29 is invalidated. Then, plural vibration value data due to the whole vibration are detected on the basis of a detecting signal from an acceleration pickup 7 and the maximum vibration value data out of plural ones is calculated. The data value is displayed on a display device 16 as the vibration value. When a rotary body vibration detecting mode is set up, the frequency selecting function of a BPF is validated. When the original point position of a grindstone is detected by an original point sensor 7, the vibration value data are detected by an A/D converter as much as possible and stored in a RAM26. The primary and secondary average vibration values are obtained from the stored contents and then stored in the RAM26. |
99 |
Device for displaying balance of rotating working body of machine tool |
JP26126584 |
1984-12-11 |
JPS61138137A |
1986-06-25 |
NAGASE NOBORU; NOGUCHI NORITAKA |
PURPOSE:To recognize the balancing state of a rotating working body (grindstone) at a look by controlling two display bodies displaying the deviation quantity of the dividing position and the state when the deviation quantity becomes under a prescribed value respectively by a control device. CONSTITUTION:A display device 10 having a dividing position display body 13 incorporating a control circuit, an origin display body 14, the first display body 15 displaying the runout quantity of the grindstone numerically and the 2nd display body 16 lighting when the runout quantity is in the stable balancing state is fixed to the frame of a grinder. Then, the control circuit controls the display device 10 based on a signal of a piezoelectric acceleration pickup and the runout quantity every set number of rotations with the stability of rotation of the grindstone is lighted on the display body 15 and the display body 13 turns on and off a light emitting diode at the position of the maximum angle of deviation. Further, in case the balance is taken under a reference value of the runout quantity, the light emitting diode of the display body 16 is lighted. |
100 |
Dynamic balance testing machine |
JP1073584 |
1984-01-23 |
JPS60154133A |
1985-08-13 |
NAKAYAMA YOSHIMITSU |
PURPOSE:To retrieve the correction position of a body to be tested easily and accurately by starting detecting the rotary phase of a drivng motor on detecting the reference mark of the body to be tested after unbalance is measured and displayed, and driving an unbalance angle display meter with the output of a comparing circuit which compares the output of an encoder output correcting circuit with the measurement result of an unbalance angle. CONSTITUTION:The unbalance angle theta0 of the body W to be tested is displayed on the unbalance angle indication meter 11 when a test is completed. Then, when the body W to be tested is rotated by a hand or motor, the indication meter 11 is driven with the output of the comparing circuit 15 once a photocell 6 detects the reference mark M, so theta0-theta obtained by subtracting an angle theta of rotation from the reference mark M of the body W to be tested from said point of time is displayed on the indication meter 11. Therefore, the body W to be tested is rotated after the unbalance measured and displayed and then stopped where the unbalance indication meter 11 indicates 0; the unbalance position of the body W to be tested, i.e. place where a correction is made is set, for example, right above. |