Claims
- 1. A clutch controller for a power transmission, comprising:
- a clutch rotatably mounted to the power transmission with a perimeter of the clutch divided into N equal rotating angles where N is a positive integer, each of said N equal rotating angles being further divided into two unequal rotating angles including a large rotating angle and a small rotating angle, the sum of the large rotating angle and the small rotating angle equalling one of said equal rotating angles, the perimeter of the clutch thereby being divided into 2N unequal rotating angles;
- each of said large and small rotating angles defining a stopped position of said clutch;
- controlling means, selectively coupled to the clutch for controlling the rotation of the clutch by selective engagement and disengagement of the controlling means and the perimeter of the clutch at the 2N unequal rotating angles;
- electromagnetic control means, coupled to the controlling means, for decoupling the controlling means from the clutch, thereby allowing the clutch to rotate through an integral number of the unequal rotating angles, during an energization period and recoupling the controlling means with the clutch after the energization period, thereby preventing further rotation of the clutch; and
- output means, coupled to the clutch, having a first position and a second position; the electromagnetic control means establishing the output means in the second position when the electromagnetic control means is energized for a first period longer than the time for the clutch to rotate through the small rotating angle and shorter than the time for the clutch to rotate through the large rotating angle and the clutch is rotated from one unequal rotating angle to an adjacent unequal rotating angle when the electromagnetic control means is energized for a second period shorter than the time for the clutch to rotate through the small rotating angle.
- 2. A clutch initializer for a power transmission comprising:
- a clutch rotatably mounted to the power transmission with the perimeter of the clutch divided into N equal rotating angles, where N is a positive integer, each of said N equal rotating angles being further divided into a large rotating angle and a small rotating angle, the sum of the large rotating angle and the small rotating angle equalling one of the equal rotating angles;
- each of said large and small rotating angles defining a stopped position of said clutch;
- controlling means, selectively coupled to the clutch for controlling the rotation of the clutch by the selective engagement and disengagement of the controlling means and the perimeter of the clutch at the 2N unequal rotating angles;
- electromagnetic control means, coupled to the controlling means, for decoupling the controlling means from the clutch, thereby allowing the clutch to rotate through an integral number of the unequal rotating angles, during an energization period and recoupling the controlling means with the clutch after the energization period, thereby preventing further rotation of the clutch; and
- output means, coupled to the clutch, having a first position and a second position;
- the electromagnetic control means establishing the output means in the second position when the electromagnetic control means is energized for a period longer than the time for the clutch to rotate through the small rotating angle and shorter than the time for the clutch to rotate through the large rotating angle and the clutch is rotated from one unequal rotating angle to an adjacent unequal rotating angle when the electromagnetic control means is energized for a second period shorter than the time for the clutch to rotate through the small rotating angle.
- 3. The clutch initializer of claim 2 wherein the perimeter of the clutch is divided into three equal rotating angles.
- 4. The clutch initializer of claim 2 wherein the controlling means comprises a rotatable member having a first and a second arm, said first arm being adapted to control the movement of the clutch and said second arm being adapted to control the movement of a second clutch.
- 5. The clutch initializer of claim 4 wherein the electromagnetic control means comprises an electromagnetic member with a pivotable plate.
- 6. The clutch initializer of claim 5 wherein the plate of the electromagnetic member is coupled to the first arm of the rotatable member.
- 7. The clutch initializer of claim 2 wherein the output means comprises a printer head and coupling means for coupling the printer head to the clutch, said printer head being movable between a first position and a second position.
- 8. The clutch initializer of claim 7 wherein the first position and the second position correspond to a printing position and a non-printing position.
- 9. The clutch initializer of claim 7 wherein the controlling means comprises a rotatable member having a first and a second arm, said first arm being adapted to control the movement of the clutch and said second arm being adapted to control the movement of a second clutch.
- 10. The clutch initializer of claim 9 wherein the electromagnetic control means comprises an electromagnetic member with a pivotable plate.
- 11. The clutch initializer of claim 10 wherein the plate of the electromagnetic member is coupled to the first arm of the rotatable member.
Priority Claims (1)
Number |
Date |
Country |
Kind |
58-251589 |
Dec 1983 |
JPX |
|
Parent Case Info
This is a continuation of application Ser. No. 686,351, filed Dec. 26, 1984, now abandoned.
US Referenced Citations (4)
Foreign Referenced Citations (1)
Number |
Date |
Country |
30882 |
Mar 1981 |
JPX |
Continuations (1)
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Number |
Date |
Country |
Parent |
686351 |
Dec 1984 |
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