Gear-less transmission arrangement introduced used for bias shafts. In this transmission system no. The pins or links used must be odd ... 3, 5, 7, 9 ... .. and the centers of any hole with two holes or holes should not be on that line representing the diameter of the shaft. If more pins or links used movement will be smoother, but not increase. Of pins or links not at the expense of the resistance of the shaft. The pins or links are fixed (they may be temporary permanent) in the holes drilled at both ends of the shaft because the movement is transferred. The dimensions of the pegs or the links and the angle of the pegs are given with very precision, very precise perforations. Proposed arrangement used for tilting axes at any angle and if there is a need we can change the angle between axes during the movement or during intermittent movement with any profile of trees that have rotation movement along their own axis. The work of this arrangement is very smooth and very effective use with a minimum amount of energy losses.
This system demonstrates efficient gear-less transmission of power at right angles. This saves time and costs of making gears along with pairing and pairing problems. The elbow mechanism is an efficient design of the gear-less transmission technique and the kinematic system that allows efficient power / motion transmission at right angles. This mechanism allows the transmission of movement at 90 degree angles between the driver and the driven shafts.
We use mounts to mount a dc motor with shaft attached to it. Then we use 90 degree bent rods to join the impeller shaft with the driven shaft. We use precise perforations with relatively spaced holes and diameter to connect the connecting rods accurately. Next, we use mounts to keep the driven rod in the precise position. Now the motor can be powered using the 12V supply and can be used to power the other shaft using the elbow mechanism.