DE372383C - Regulator - Google Patents

Description

In the controller according to the main patent, a weak statics is achieved in that the the regulating force generating amount of working fluid with every movement of the piston from a non-rotating organ that absorbs working fluid, it is either steady or controlled working fluid is supplied and that displacing working fluid for each Movement of the piston Working fluid runs over an overflow edge or through a wiper member is removed. The present subject matter provides another Simplification in that said feed member together with a receptacle is firmly connected to the regulator sleeve and moves up and down with it. Through this is with a working fluid absorbing movement of the piston through the said organ working fluid under the Piston flow and when the working fluid displaces movement of the piston the same pushed back through the overflow hole in the sleeve into the receptacle.

Furthermore, the radial surface difference generated by the inertia of the working fluid can be achieved by means of driver walls the same can be used to increase the adjustment force.

From the container f connected to the sleeve but not rotating around it, the working fluid runs through the hole in the sleeve into the space under the piston b and fills it completely. With each upward movement of the piston b , so much working fluid is automatically generated by the supply member

run so that the space under the piston remains filled. With each downward movement of the piston b, on the other hand, the displaced working fluid is forced back over the inner edge of the piston and through the bore of the sleeve into the transducer / '.

The container f carries the fixed or the lifting movement controlled scraper g, by means of which the correct distribution of the working fluid is achieved when the engine starts up and any desired, even negative degree of irregularity can be achieved during operation.

In order to utilize the effect of the inertia, a part of the amount of working fluid is arranged above the piston b with a smaller pressure surface than that of the amount of working fluid located under the piston b , which can be achieved by the appropriate position of the wiping edge of the scraper g . As a result of the centrifugal force on the piston, this amount of liquid above the piston b exerts a downward pressure, that is to say the pressure which counteracts the regulating force. It is now possible through the invention on which claim 2 is based, due to the effect of the inertia, the pressure surface of this amount of liquid lying above the piston by angular acceleration + ό to reduce or to increase by angular increase - δ , so that thereby an \ "increase in the adjusting force / of the controller both in climbing, is as well achieved while falling. This is achieved in that in the regulator housing α two horizontal partitions are arranged h u. From the thus resulting annular spaces and ν the annular space u is divided w by a number of vertical Mitnehmerwände , next to which an opening ο is provided in the lower and upper horizontal partition h . When angular acceleration occurs, denoted by + b in Figs lying annulus as well as in the annulus ν only by the friction of the liquid particles below taken each other evenly over the entire circumference. Therefore, in these spaces the surface of the liquid will remain a surface of revolution. In the annular space u, on the other hand, when angular acceleration + ff occurs, the liquid will accumulate on the driver walls w opposite to the direction of rotation. The liquid surface cannot remain a surface of revolution in this space, but rather it becomes a surface whose sections through planes perpendicular to the axis of rotation are logarithmic spirals. When angular acceleration occurs, due to the radial surface difference between the: three annulus chambers, there will be an overflow of working fluid from the annulus above the piston through the openings 0 and the annulus: u after the annulus ν . 'This, however, results in a reduction in the' pressure surface of the working fluid above the piston and thus an additional force in the sense of the upward movement of the piston b . called, which increases the adjustment force.

If the angular delay - 0 occurs, the same consideration applies to the liquid surfaces, only that in the annular space u the liquid accumulates on the driver walls w in the sense of the rotary movement. The thus resulting radial surface difference is the opposite occurring ₁ nigung at Winkelbeschleu- (section AB dot-dash curve), whereby an overflow of working liquid from the annular space ν through the openings 0 and the annulus enters u after the space above the piston. As a result, however, the pressure surface of the amount of working fluid above the piston is increased and thus an additional force is generated in the direction of the downward movement of the piston, which increases the adjusting force.

The effect of this device for exploiting the inertia can also by connecting several annular spaces one above the other as required be reinforced.

It is also possible, in a corresponding arrangement, to apply the subject of the invention to regulators to be used with a horizontal axis of rotation.

Claims (2)

Patent Claims: 1. Regulator according to Patent 369686, characterized in that the feed member for the working fluid including a receptacle fixed to the regulator sleeve connected is. 2. Regulator according to claim 1, characterized in that by means of driver walls (w) the radial surface difference generated by the inertia n _{0 of} the working fluid is used to increase the adjusting force. 1 sheet of drawings