1 |
High speed counters |
US70061357 |
1957-12-04 |
US3017086A |
1962-01-16 |
HARKER THOMAS B; NUTT JR EVAN B |
|
2 |
Angle counter |
US74472647 |
1947-04-29 |
US2463594A |
1949-03-08 |
BRIGHAM CHARLES W |
|
3 |
Shock absorbing coupling |
US42782765 |
1965-01-25 |
US3283538A |
1966-11-08 |
TREFNY THOMAS F |
|
4 |
Registering mechanism |
US46346042 |
1942-10-27 |
US2420808A |
1947-05-20 |
BLISS HARVEY N |
|
5 |
Futatsunochokudokushikikaitenkeisukikikono kumiawase |
JP10555875 |
1975-08-30 |
JPS5191746A |
1976-08-11 |
|
|
6 |
Aggregate motion mechanism |
US3637995D |
1970-10-19 |
US3637995A |
1972-01-25 |
SEGAWA KAORU |
An aggregate motion mechanism capable of receiving information, preferably in binary form, presented in either serial or parallel fashion for accumulating or adding the information and converting the information into a visually observable output. In a multibit binary form of the aggregate motion device, each bit position is comprised of a pair of gear members mounted in freewheeling fashion upon a common shaft. A third radially aligned satellite gear is secured to a collar mounted in a freewheeling fashion upon the common shaft, and is adapted to mesh with the pair of cooperating gears. The next adjacent bit position has one of its bevel gears secured to the collar to which the aforementioned satellite gear is secured so as to couple the binary input information from each stage to the next succeeding stage in accordance with its binary ''''weight.'''' The final output stage may be provided with a print drum or other indicia-bearing drum for the purpose of either printing out or visually displaying a character or other symbol representative of the binary information impressed upon the aggregate motion mechanism, enabling its use as either a converter or selector device for converting binary information into alpha-numeric form or for selecting a particular symbol for display or printout or may, alternatively, be employed as an adder or accumulator device in which binary data may be accumulated.
|
7 |
Fuel pump register with expanded readout |
US3618852D |
1969-11-10 |
US3618852A |
1971-11-09 |
KES WILLIAM; HOUGH LAWRENCE E |
Register conversion means for modifying the volume and/or cost counters of a fuel pump register for expanding the available readout of the volume counter from 99 9/10 gallons to 149 9/10 gallons and the available readout of the cost counter from $9.99 to $14.99 and which comprises a substitute highest order number wheel bearing the sequence of indicia of 0-14 and having a 30tooth drive gear, a substitute compound transfer gear with relatively large and small eight-tooth gears respectively engageable with the drive gear of the substitute number wheel and the combination locking ring and two-tooth transfer segment of the adjacent lower order number wheel for indexing the substitute wheel one count for each revolution of the adjacent lower order number wheel, and an auxiliary window mask for the substitute wheel.
|
8 |
Sequential circuit control device |
US40843654 |
1954-02-05 |
US2774063A |
1956-12-11 |
GRINSTEAD CARL E; PRICHARD RENO W |
|
9 |
High speed counter with spaced numerals |
US30311952 |
1952-08-07 |
US2719004A |
1955-09-27 |
BLISS HARVEY N |
|
10 |
Mechanical counter limiting device |
US25284551 |
1951-10-24 |
US2715998A |
1955-08-23 |
STANLEY LAMONT C |
|
11 |
Cyclometer indicator mechanism for twenty-four hour cyclometer clocks |
US7918349 |
1949-03-02 |
US2636339A |
1953-04-28 |
ADOLF HOLZNER |
|
12 |
계수기의 인입간격 조절장치 |
KR1020030015069 |
2003-03-11 |
KR1020040080181A |
2004-09-18 |
원형희 |
PURPOSE: A device for adjusting an input gap of a counter is provided to precisely set the input gap by precisely setting a position of a feeding roller, prevent the change of the input gap caused by the vibration of machines, and finely adjust the position of the feeding roller. CONSTITUTION: A roller(30) guides the input of note. A bracket(281) fixes the roller. An adjusting bar(280) fixes the bracket and rotates around a shaft. A position adjusting block(260) is installed to one side of the adjusting bar and forms an inclined surface at the back. A block transferring part(240) is transferred to an inclined direction by facing the inclined surface of the position adjusting block. A transferring part transfers the block transferring part. A position fixing groove(222) fixes the transferring part. A spring supports the adjusting bar by offering an elastic rotational force to the adjusting bar. |