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In an apparatus for detecting tip-over of a rammer equipped with a crankcase accommodating an output shaft rotatably connected to an engine, a movable unit accommodating a converter mechanism for converting rotation of the output shaft to vertical motion of a movable member, a tamping shoe connected

In an apparatus for detecting tip-over of a rammer equipped with a crankcase accommodating an output shaft rotatably connected to an engine, a movable unit accommodating a converter mechanism for converting rotation of the output shaft to vertical motion of a movable member, a tamping shoe connected to the movable unit, and a handle operable by an user, and adapted to thrust upward in the gravitational direction by the vertical motion of the movable member and go into a free fall to compact a ground surface, it is determined whether a detected engine speed becomes equal to or smaller than a threshold value set lower than an engine idling speed when the engine has been operated at a rammer working speed set greater than the engine idling speed, and if it does, it is discriminated that the rammer has tipped over.

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1. An apparatus for detecting tip-over of a rammer equipped with an internal combustion engine, a crankcase accommodating an output shaft rotatably connected to the engine, a movable unit accommodating a converter mechanism for converting rotation of the output shaft to a linear motion of a movable

1. An apparatus for detecting tip-over of a rammer equipped with an internal combustion engine, a crankcase accommodating an output shaft rotatably connected to the engine, a movable unit accommodating a converter mechanism for converting rotation of the output shaft to a linear motion of a movable member in a direction of the gravitational force, a tamping shoe connected to the movable unit, and a handle operable by an user, and adapted to thrust against the gravitational force by the linear motion of the movable member and go into a free fall to compact a ground surface with resulting impact force acting on the tamping shoe, comprising: an engine speed detection unit that detects a rotational speed of the engine;a rammer tip-over discrimination unit that determines whether the detected engine speed becomes equal to or smaller than a threshold value set lower than an engine idling speed when the engine has been operated at a rammer working speed set greater than the engine idling speed, and discriminates that the rammer has tipped over if the detected engine speed becomes equal to or smaller than the threshold value;andan engine shutdown unit that shuts down the engine when it is discriminated that the rammer has tipped over,wherein, when the detected engine speed becomes equal to or smaller than the threshold value and the rammer tip-over discrimination unit discriminates that the rammer has tipped over, the detected engine speed repeats a behavior of rising toward the rammer working speed and reversing to fall toward the threshold value again until the engine shutdown unit shuts down the engine. 2. The apparatus according to claim 1, wherein the rammer tip-over discrimination unit determines whether the detected engine speed becomes equal to or smaller than the threshold value by a predetermined value when the detected engine speed becomes equal to or smaller than the threshold value, and discriminates that the rammer has tipped over if the detected engine speed becomes equal to or smaller than the threshold value by the predetermined value. 3. The apparatus according to claim 2, wherein the rammer tip-over discrimination unit determines whether a difference of the engine speeds detected at a time and detected at a time earlier than the time becomes equal to or greater than the predetermined value when the detected engine speed becomes equal to or smaller than the threshold value, and discriminates that the rammer has tipped over if the difference of the detected engine speeds becomes equal to or greater than the predetermined value. 4. An apparatus for detecting tip-over of a rammer equipped with an internal combustion engine, a crankcase accommodating an output shaft rotatably connected to the engine, a movable unit accommodating a converter mechanism for converting rotation of the output shaft to a linear motion of a movable member in a direction of the gravitational force, a tamping shoe connected to the movable unit, and a handle operable by an user, and adapted to thrust against the gravitational force by the linear motion of the movable member and go into a free fall to compact a ground surface with resulting impact force acting on the tamping shoe, comprising a pulsar coil and a microcomputer, the pulsar coil producing an output indicating a rotational speed of the engine and sending the output to the microcomputer, the microcomputer being programmed to:calculate the rotational speed of the engine based on the output sent by the pulsar coil;determine whether the calculated engine speed becomes equal to or smaller than a threshold value set lower than an engine idling speed when the engine has been operated at a rammer working speed set greater than the engine idling speed;discriminate that the rammer has tipped over if the calculated engine speed becomes equals to or smaller than the threshold value; and shut down the engine when it is discriminated that the rammer has tipped over,wherein, when the detected engine speed becomes equal to or smaller than the threshold value and the microcomputer discriminates that the rammer has tipped over, the detected engine speed repeats a behavior of rising toward the rammer working speed and reversing to fall toward the threshold value again until the engine shutdown unit shuts down the engine. 5. The apparatus according to claim 4, wherein the microcomputer is programmed to determine whether the detected engine speed becomes equal to or smaller than the threshold value by a predetermined value when the detected engine speed becomes equal to or smaller than the threshold value, and discriminate that the rammer has tipped over if the detected engine speed becomes equal to or smaller than the threshold value by the predetermined value. 6. The apparatus according to claim 5, wherein the microcomputer is programmed to determine whether a difference of the engine speeds detected at a time and detected at a time earlier than the time becomes equal to or greater than the predetermined value when the detected engine speed becomes equal to or smaller than the threshold value, and discriminate that the rammer has tipped over if the difference of the detected engine speeds becomes equal to or greater than the predetermined value. 7. A method for detecting tip-over of a rammer equipped with an internal combustion engine, a crankcase accommodating an output shaft rotatably connected to the engine, a movable unit accommodating a converter mechanism for converting rotation of the output shaft to a linear motion of a movable member in a direction of the gravitational force, a tamping shoe connected to the movable unit, and a handle operable by an user, and adapted to thrust against the gravitational force by the linear motion of the movable member and go into a free fall to compact a ground surface with resulting impact force acting on the tamping shoe, comprising the steps of: detecting a rotational speed of the engine;determining whether the detected engine speed becomes equal to or smaller than a threshold value set lower than an engine idling speed when the engine has been operated at a rammer working speed set greater than the engine idling speed;discriminating that the rammer has tipped over if the detected engine speed becomes equal to or smaller than the threshold value; andshutting down the engine when it is discriminated that the rammer has tipped over,wherein, when the detected engine speed becomes equal to or smaller than the threshold value and it is discriminated that the rammer has tipped over, the detected engine speed repeats a behavior of rising toward the rammer working speed and reversing to fall toward the threshold value again until the engine shutdown unit shuts down the engine. 8. The method according to claim 7, wherein the step of determining determines whether the detected engine speed becomes equal to or smaller than the threshold value by a predetermined value when the detected engine speed becomes equal to or smaller than the threshold value, and the step of discriminating discriminates that the rammer has tipped over if the detected engine speed becomes equal to or smaller than the threshold value by the predetermined value. 9. The method according to claim 8, wherein the step of determining determines whether a difference of the engine speeds detected at a time and detected at a time earlier than the time becomes equal to or greater than the predetermined value when the detected engine speed becomes equal to or smaller than the threshold value, and the steps of discriminating discriminates that the rammer has tipped over if the difference of the detected engine speeds becomes equal to or greater than the predetermined value.