161 |
JPS6231747U - |
JP12263185 |
1985-08-12 |
JPS6231747U |
1987-02-25 |
|
|
162 |
JPS6199647U - |
JP18642884 |
1984-12-07 |
JPS6199647U |
1986-06-25 |
|
|
163 |
JPS6157147U - |
JP14256584 |
1984-09-20 |
JPS6157147U |
1986-04-17 |
|
|
164 |
JPS6137064U - |
JP12361384 |
1984-08-10 |
JPS6137064U |
1986-03-07 |
|
|
165 |
JPS6057752U - |
JP15077683 |
1983-09-29 |
JPS6057752U |
1985-04-22 |
|
|
166 |
JPS59149523U - |
JP4332983 |
1983-03-28 |
JPS59149523U |
1984-10-05 |
|
|
167 |
Borden wire |
JP253083 |
1983-01-11 |
JPS59127129A |
1984-07-21 |
NOGAMI EIJI; TANAKA MASAHIRO |
PURPOSE: To prevent the deterioration of fuel cost as well as an unstable idle operation by providing a delay operation mechanism to a Borden wire which controls a valve body of a carburetor and therefore preventing the inadvertent opening of the valve body.
CONSTITUTION: When a lever 72 is set at a reset position shown by a solid line, a start valve 32 closes a starting suction path 30. Thus dense mixed air is never sucked into an engine. The curvature of a Borden wire changes with rotation of a handle, and therefore a wire 76a is pulled by the lever 72 and slid. Even in such a case, a wire main body 76b is never pulled since an end member 84 of a wire 76b moves idly within a slit 82 of a delay operation mechanism. Furthermore it is avoided that the lever 72 vibrates while moving to produce noises since the wire 76b is always pulled by a spring 86. When the lever 72 is set upright at the position of a virtual line, the slit 82 is connected to the member 84. Then the wire 76b starts moving, and the valve 32 opens the path 30.
COPYRIGHT: (C)1984,JPO&Japio |
168 |
Delay following mechanism |
JP11579781 |
1981-07-23 |
JPS5818724A |
1983-02-03 |
YAMAMOTO TAKUJI; YASHIRO YOSHINOBU |
PURPOSE:To suppress the excess supply of oil by operating the output side of a controlling mechanism of an oil pump to be used by a two-cycle engine while keeping a fixed delay even if manipulating force is applied to the input side. CONSTITUTION:One end 12 of a coil spring 10 is coupled with a throttle lever. Therefore, if the throttle lever is manipulated, the mainpulating force is applied to the coil spring 10. The other end 14 of the coil spring 10 is coupled with a rotating member 18 through a pin 16. The rotational shaft 20 of the rotating member 18 acts as an output axis and coupled with a mechanism for regulating the working stroke of a plunger type oil pump. A projection 22 is formed at the side opposed to the pin 16 on the periphery of the rotating member 18 and interlocked with a lod 26 of an air dumper 24. Consequently even if manipulating force is suddenly applied to the rotating member 18, the member 18 is slowly rotated by receiving resisting force through the dumper 24. |
169 |
JPS55157031U - |
JP5772579 |
1979-04-28 |
JPS55157031U |
1980-11-12 |
|
|
170 |
JPS54173430U - |
JP7206378 |
1978-05-26 |
JPS54173430U |
1979-12-07 |
|
|
171 |
JPS5434876U - |
JP10846677 |
1977-08-11 |
JPS5434876U |
1979-03-07 |
|
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172 |
JPS527520B2 - |
JP5361673 |
1973-05-16 |
JPS527520B2 |
1977-03-02 |
|
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173 |
JPS5070704U - |
JP12375673 |
1973-10-26 |
JPS5070704U |
1975-06-23 |
|
|
174 |
JPS5012497A - |
JP5361673 |
1973-05-16 |
JPS5012497A |
1975-02-08 |
|
|
175 |
JPS4531047Y1 - |
JP308767 |
1967-01-13 |
JPS4531047Y1 |
1970-11-28 |
|
|
176 |
Flexible crank drive |
US488235 |
1990-03-05 |
US5060536A |
1991-10-29 |
Donald R. Boys |
A bicycle crank has flexible crank arms designed to deflect elastically under the influence of force on the pedals, allowing the point of application of force to advance relative to the rotational position of the sprocket device. In a preferred embodiment the crank arms are made of glass fiber-reinforced epoxy, and have a generally rectangular cross section. |
177 |
Manually rotatable control or selector knob member |
US923374 |
1978-07-10 |
US4196691A |
1980-04-08 |
Kazuyoshi Imazeki |
Manually rotatable control or selector knob member adapted to be connected to an operating shaft for an electrical or electronic device, such as a rotary switch, a volume control, etc., said operating shaft having a forward end portion fluted in the longitudinal direction thereof, which has a locking hole formed centrally therein and an annular lining of resilient material provided inside the wall of the locking hole. With this construction, the knob member can be fastly coupled to the operating shaft, while being locked in place at any desired angular position with respect to the forward end portion of the shaft. |
178 |
Timed input-output motion transmitting device |
US3727480D |
1971-12-08 |
US3727480A |
1973-04-17 |
NEED L |
A motion transmitting mechanism having a predetermined delay between input and output motion. Movement of the input is transmitted through a lost motion device, such as a spring, to an input piston. Movement of the input piston causes the displacement of a fluid medium which flows at a controlled rate through a restriction. Movement of the input piston is transmitted to an output piston through a lost motion device. Movement of the output piston causes the displacement of the fluid medium at a controlled rate through the restriction. The output moves simultaneously with the output piston.
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179 |
Mechanical timer |
US44079365 |
1965-03-18 |
US3283591A |
1966-11-08 |
GREEN NORMAN F |
|
180 |
Time delay actuating mechanism |
US6953460 |
1960-08-12 |
US3087385A |
1963-04-30 |
OSWALD SUTER |
|