DE560408C - Adjustable fluid brake - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
!. OCTOBER 1932

REICH PATENT OFFICE

PATENT LETTERING

JVi 560408 CLASS 47c GROUP

Patented in the German Empire on June 5, 1929

The invention relates to a controllable fluid brake for machines, regulators, Control relays or the like, in particular electrical regulators, with a helically wound Flow resistance path for the brake fluid.

Fluid brakes with a helically wound flow path are known per se. A fluid brake with a helical flow path which changes its braking force automatically is also known become, in which the change of the braking force has the purpose of the braking shock Avoid at the beginning of braking, so that the brake is set in motion gently and comes to a gentle stop. In this known liquid brake is the Cross-section of the flow path formed between the turns of a coil spring reduced by compressing this spring.

The idea of the invention is to regulate the braking force the effective To change thread height 'of the flow path. This way it becomes a delicate one Adjustment of the braking force achieved within wide limits, as required for the particular application is required. In particular, you can apply the invention for the damping of a fast regulator for electrical machines the fast regulator in the most precise way the electrical and mechanical ones Adapt the inertia conditions of the electrical machine to be controlled.

The invention is based on the knowledge that with the previously used for the control the braking force of fluid brakes common change in the flow cross-section always a non-uniform change of the throttle resistance connected 4 » is. The flow velocity changes very strongly with the throttle cross-section. Of the However, resistance changes with the flow velocity in a quadratic ratio. Therefore, with this type of regulation, a strong non-uniformity always had to be accepted. With the length In contrast, the throttle resistance changes in a linear relationship with the throttle path. In addition, there is only a small change in speed with the change in the throttle travel tied together. Hence in this way one arrives at the goal and attains a uniform one Change in resistance.

The regulation by changing the length of the throttle path presents a difficulty insofar as a small regulating path is usually made a condition and a small regulating path becomes uniform Change of the resistance value within wide limits can not easily be achieved. With a helical design of the

*) The patent seeker stated as the inventor:

Dipl.-Itig. Friedrich Kassau in Berlin-Spandau.

560 4OS

Resistance path and choice of a small pitch of the helix with a large one The diameter of the screw cylinder can However, a large change in the throttle path can be achieved with small regulators. Since the throttle path can be made very long, it is with this arrangement possible to make the throttle cross-section relatively large, which has the advantage »Ο that the damping resistance increases steadily and almost uniformly down to its smallest value can change.

Liquid brakes according to the invention are advantageous for aperiodic damping vibrating systems can be used if this damping should be able to be adjusted sensitively. They are also used as a delay device can be used to pass on a motion impulse with a finely adjustable delay.

In the figure, a throttle device is shown as an embodiment of the invention as a damping pump for a controller, io is a screwed to the controller Mounting ring, 11 the vessel of the damping pump, which is connected to the mounting ring 10 is connected by the thread 12. A cylindrical insert is seated in the vessel 13. The upper part of this insert is provided with openings 14 through which the Damping fluid overflows into the interior of the cylinder. The lower part of the The cylinder insert is provided with a helical throttle channel 15. Within of the cylinder moves the piston 16, its piston rod 17 with the oscillating Is connected to the system of the controller that is to be damped.

The damping pump acts on the following Way.

The piston 16 is moved up and down by the vibrations of the regulator system walking movement offset. Every time

The damping liquid 45 located below the piston becomes the downward movement through the helical throttle channel 15 into the space 18 between the jacket of the vessel and the cylindrical insert, rises up here and flows through the Overflow openings 14 into the interior of the cylinder 13 over. When the piston goes up on the other hand, the damping fluid from the space ΐθ through the helical Transfer channel sucked under the piston. In both directions of movement 55 occurs therefore a damping which is regulated easily variable by the length of the throttle channel 15 can be. This regulation takes place by unscrewing the vessel 11 the thread of the socket 12, the 60 vessel descending, so that a larger or smaller Part of the throttle channel made ineffective will.

Claims (2)

Patent claims: 1. Adjustable fluid brake for machines, regulators, control relays or the like., especially for electrical regulators with a helically wound flow resistance path for the brake fluid, characterized in that the effective thread height for the purpose of regulating the braking force the flow path is changed. 2. Adjustable fluid brake according to claim 1, characterized in that the helically wound flow path between the inner shell of a cylindrical vessel and the outer jacket of one arranged within this vessel axially adjustable insert cylinder is formed, the one jacket being provided with a screw thread and the other is offset in such a way that the effective thread length changes due to the mutual displacement. 1 sheet of drawings