DE870950C - Float-controlled compressed air fluid lifter - Google Patents

Description

Float-controlled compressed air liquid siphon For float-controlled Compressed air fluid siphons, it is known, the switching movement of the control member to delay in the area of the upper float path to an intermediate position of the control member to prevent during reversing. These critical intermediate positions result With suction pumps of this type, during the reversal to the pressure stroke (closing of the Ejector outlet) and for inlet pumps for the same reversal process (opening the inlet valve, closing the outlet valve). To during this control process to delay the switching movements of the float or the control element and suddenly to shape, one has already put the most diverse means in proposal For example, reversing with the help of impact weights, tilting weights or Spring tilting tensioning works completed. All such reversing devices have themselves especially for the difficult conditions of mining as too complicated, proved to be unreliable and sensitive, as they easily gave rise to disturbances and the requirements of such maintenance-free pump systems, in particular with regard to the insensitivity to changing operating conditions, changes in the situation of the entire conveyor system, risk of silting and the like.

The invention relates to a float-controlled compressed air liquid lifter with delayed switching movement of the control element and has set itself the goal of a particularly simple and reliable training of such conveyors too create. The invention consists essentially in the fact that the float and control element Coupled with one another in a force-locking manner via a force-storing element are, whose effect on the control organ is released with a delay. In which Proposal according to the invention thus forms the energy-storing element itself, such as for example a spring, the coupling between the float and control element, and the power reserve stored by this element is reduced with a certain delay made usable for a sudden reversal of the control organ.

In detail, according to the invention, the control element can advantageously be under the effect of a lock influenced by the swimmer, and the force-storing Element can preferably consist of a leaf spring, the effect of which by the the lock that can be triggered by the float rod is inhibited.

Further advantageous details of the invention are shown in the drawing can be seen in which the invention is explained using an exemplary embodiment. It shows: Fig. I a compressed air fluid lifter according to the invention in a schematic Illustration, while in Fig.z the coupling between the float and control element in is illustrated on an enlarged scale.

Within a pressure vessel, the float a is arranged and above the leaf spring b with the control rod i of the above the pressure vessel Control organ coupled. The leaf spring i is arranged in the float rod c.

During the upward movement of the float a, the latter initially tensions the leaf spring b, which on the one hand is firmly clamped in the float lever c, and on the other hand is supported with the free end d with a certain bias against a stop c on the lever c. In the course of the upward movement, the free end of the spring b comes under a stop f on the control rod. i. The spring is then further tensioned to a certain extent until finally, in the highest position of the float a, the lock h is triggered by the stop c and the now relaxing spring lets the control rod i and thus the valve to be operated snap up. In particular, when using a leaf spring, the construction is extremely simple. When the float a moves downwards, the spring b finally rests against the stop e on the float lever and then reaches the lower stop k of the control rod in the lowest position. The own weight of the float then pulls the control rod c down in a known manner, the ejector outlet being opened or, in the case of inlet pumps, the inlet valve being closed and the outlet valve being opened. The lock h returns to its old position due to its unilateral displacement due to its own weight.

In the device according to the invention, the float a is directly connected to the spring b , and the spring b forms the actual coupling element between the float a and the control member. It is expedient here to give the leaf spring b a shape which runs conically from the clamping point to the control rod in order to achieve the smallest possible change in force with the necessary spring deflection. to obtain. The spring is also bent in the relaxed state and is only stretched when it is clamped. In this way it is possible to simply arrange the spring within the float lever c consisting of two flat irons.

The invention is, however, with the illustrated and described embodiment by no means exhausted. Even if the use of a leaf spring is the simplest embodiment of the invention, the invention is not, however, bound thereto. Much more Other types of springs, such as spiral and coil springs, can also be used as coupling elements may be used between the float and the controller.

Claims (1)

PATENT CLAIMS: i. Float-controlled compressed air fluid siphon with delayed switching movement of the control member, characterized in that floats and control element via a force-storing element, for example a spring, non-positively are coupled with each other, its action on the control organ with delay is released. a. Device according to claim i, characterized in that the Control organ is under the action of a lock influenced by the swimmer. ° 3. Device according to claim i and a, characterized in that the control member with the float is connected to a leaf spring, the effect of which is through one of the Float rod releasable lock is inhibited. q. Device according to claim i to 3, characterized in that the lock consists of a rocker arm. 5. Device according to claim i to q., characterized by the use of a prestressed Feather.