DE119056C - - Google Patents

Description

There are controllers known for which roles by centrifugal force to lift a load weight » to be used. With this arrangement, however, there is still a considerable one sliding friction. Even with regulators in which a number of balls are used, there is still considerable sliding friction present because the balls are guided in pockets, so they are not free on a track can roll off. Rather, they are forced to move in these radial pockets and must necessarily slide on the lower contact surface. Through this there is sliding friction on one of the two discs under high specitischen Pressure, because this friction is directly vanishing under the influence of centrifugal force on one small contact area takes place.

The present invention now relates to a ball regulator in which the change Adjustment force resulting from centrifugal force almost exclusively with rolling friction is transferred to the regulator adjustment lever. This is achieved by d »> the balls between the individual arms of a special rotating, star-shaped driver so that they can roll freely on an annular path.

An embodiment of the invention is shown in the accompanying drawing in

Fig. 1 in vertical section and in

Fig. 2 in a view from above, half with the upper disk removed shown.

Bezw on a fixed, flat disc. Track α b roll any number of balls k of the same diameter, which are carried along by a star-shaped driver im, which is wedged onto a rotating spindle w. On the other hand, a spring /, which is supported against a fixed arm e, is pressed onto these balls by means of a disk g displaceable in the direction of the axis. At its edge, before it comes into contact with the balls, this disk has a conical surface c d of any angle of inclination. The disk g is connected to the lever Λ in the middle of two pins jj , which has its pivot point in the pin w of the fixed arm e and serves to transmit the actuating force of the regulator to the controller. Pin ^ '/ and lever Λ also prevent the disc from turning.

The pressure of the spring f can be made variable by adjusting the support point of the spring by means of a screw jt relative to the fixed arm c . As long as the spindle u> or. the driver moves with constant angular velocity, the balls describe k circles, the center of which lies in the spindle axis. If the angular velocity changes, the spheres describe expanding or narrowing spiral lines until the state of inertia has returned. Takes z. B. the angular velocity, the vertical component of the centrifugal force of the balls k overcomes the increased by the weight of the disk g spring tension by # lifted ^

and the spring is tightened. the Balls reach by describing a gradually expanding spiral Orbit the equilibrium on a larger orbit circle, if then at a certain one greater speed - steady state again entry. The opposite occurs when the angular velocity decreases.

By changing the tension of the spring f , the number of revolutions of the machine can also be influenced while the gear is in motion.

The transfer of the main forces which act in the controller, namely the centrifugal force and the spring tension causes only rolling, no sliding friction and takes place immediately without transferring links.

The number of balls and the orbit diameter can be assumed to be as large as desired this puts considerable energy into the controller.

Claims (1)

Patent claim: Ball regulator with any number of balls of the same diameter, which between one fixed flat and one conical, axially displaceable, due to its weight and one The spring against the balls rotate, characterized in that the Balls are exposed in the cutouts of a rotating star-shaped drive plate, so that they can roll on an annular path. For this purpose ι sheet of drawings.