DE202019005187U1 - The rotation of a ring gear, which is filled with liquid and a tube segment loaded on one side and is constantly moving - Google Patents

Abstract

The rotary movement of a ring gear, which is filled with liquid and a tube segment loaded on one side and is constantly moving, characterized in that two pendulums (1) and (2) are mounted in one body with liquid (6) so that the movement sequence resulting friction can not add up, the return to the starting point with all factors takes place after each vibration, which creates a constant movement.

Description

Refers to a further design of utility model No. 202017006260 with improved storage of the pipe segment, the attachment of the stop wheel with a pawl and description of the movement sequence.

Vibrations arise when a pendulum-like body is deflected from its equilibrium position and released again. Due to friction, these vibrations decrease exponentially and lead to standstill = rest position, on which the pendulum principle is based:

"A rotatably mounted body is in equilibrium when the left-hand torque is the same as the right-hand one."

The specified in claim 1 invention addresses the problem of eliminating the causes such as friction and feedback, which lead to the stoppage of the pendulum.

In 1 there is an annular housing 1 in the profile of 3rd , firmly connected to an axis 7 protruding with ball bearings on two stands 8th rests. In the case 1 there is a pipe segment 2nd from 180 ° with two fixed ball bearings on the axle 7 introduced in such a way that there is no friction with the housing. The free space is with liquid 6 filled.

In the pipe segment 2nd there is a metallic ballast in the lower area 3rd - Iron or lead, which is at least 30% heavier than the liquid capacity in the pipe segment 2nd . The material of the pipe segment 2nd has the specific weight "1". Due to the buoyancy of the hollow tube 2nd and the weight of the ballast 3rd it takes a rest position of a 10 ° like a pendulum. This results in a torque ratio of 1: 3 between the counterclockwise and clockwise weight mass of the entire housing, calculated from the position of the respective center of gravity.

The size and dimensions of the entire body are arbitrary, apart from the weight of the ballast.

At this angular position in 1 where the pipe segment 2nd with the ballast in the rest position 10 ° from the vertical, it is like a piston in the cylinder, a water column with a three times higher torque. Therefore, a pendulum movement of the entire housing must take place, the pipe segment 2nd involuntarily shifted beyond the torque compensation, which is 30 °. The achievable turning point minus the friction loss is at 48 ° ( 2nd ).

The pawl falls in this angular position 5 from the stand to the stop wheel 4th with sawtooth catch, which on the housing 1 attached, which prevents it from swinging out ( 2nd ). The pipe segment 2nd , which has been involuntarily moved and is 38 ° away from its rest position, turns back to the rest position 10 ° due to the friction in the liquid at a damped speed. This speed difference between the left-turning pipe segment 2nd and the clockwise rotating overall housing 1 is for taking the pipe segment 2nd crucial for the pendulum movement.

With this rest position of the pipe segment 2nd at 10 ° the starting position, which led to the first vibration, was reached again independently, which answered the question of the return of a pendulum and the resulting friction was canceled.

As in 1 evidently occurs when the pipe segment is at rest 2nd of 10 °, calculated from the position of the center of gravity on both sides, an unequal torque, whereby the right-hand rotation is greater than the left-hand rotation. The entire body vibrates beyond the torque compensation 30 ° to the turning point at 48 °. The handle 5 falls into the saw toothing ( 2nd ), the water calms down and the pipe segment 2nd moves counter-clockwise at a damped speed back to the starting angle 10 °. There can be no standstill at any angular position, not even in the intermediate area, because it is not technically possible for both pendulums, the entire housing and the pipe segment to reach the rest position and the torque to be balanced at the same time.

Reference list

Part no. 1 casing 2nd Pipe segment 3rd ballast 4th Stop wheel 5 pawl 6 liquid 7 axis 8th Stand Letter a Rest position pipe segment b Torque compensation c Turning point

Claims (3)

The rotary movement of a ring gear, which is filled with liquid and a tube segment loaded on one side and is constantly moving, characterized in that two pendulums (1) and (2) are mounted in one body with liquid (6) so that the movement sequence resulting friction can not add up, the return to the starting point with all factors takes place after each vibration, which creates a constant movement. Ring gear after Claim 1 characterized in that in a circular housing (1) filled with liquid (6), which is mounted in the center, a pipe segment (2) without connection to the housing (1) but guided by the same axis (7) moves freely floating . The rest position (a) 10 ° of the tube segment (2), which is determined by the buoyancy of the hollow tube (2) and the weight of the ballast (3), results in a different torque of the two weight halves in the starting position. This inevitably causes the entire body to oscillate up to the turning point of 38 ° above the rest position. In this angular position, a pawl (5), which is rotatably mounted on the stand (8), engages in the stop wheel (4) with sawtooth catch, thus preventing the housing (1) from vibrating back. The liquid swings out and the pipe segment (2) moves, damped by the friction, back to the rest position 10 °. If the torque compensation falls below 30 °, the torque of the left-handed to the right-handed to the rest position of the pipe segment (2) is reduced, which means that the starting position of the pendulum process has been reached again. This is the return and the resulting friction could not add up. A standstill, where both pendulums, the entire body and the pipe segment reach the rest position at the same time and the torque is balanced, is technically not possible, which results in a constant movement. Ring gear after Claim 1 characterized in that a theorem for two pendulums in one body reads: "The construction of two pendulums in one body, only connected by liquid, is designed so that when the left-hand turn is at rest, there is greater torque from the right-hand turn and that when it is at rest of the clockwise rotation creates a greater torque of the counterclockwise. A standstill in the sequence of movements, where both pendulums reach the rest position and the torque is balanced on both sides, does not occur in the movement sequence, which results in a constant pendulum movement without the supply of energy. "

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