DE657956C - Control for compressed air fluid lifter with spring tilting mechanism moved by a float - Google Patents

Description

Control for compressed air liquid siphon with a float moved The invention relates to a control for compressed air fluid lifters with spring tilting mechanism moved by a float.

The operational safety of the control system moved by a float depends on your ratio of the size of the swimmer's work capacity to the size of the for the reversal of the work to be done. The larger this ratio is, the greater the operational safety.

Because of lack of space and because of the required strength as to the exposure to external pressure, it is advantageous to keep the float body as possible small to measure. There is practically only the option, the entire hub of the swimmer for the work performance to make his greatest achievable To gain working capacity.

The operational safety of the float control also requires, in particular with fluctuating, decreasing inflow of the liquid to be conveyed that the Reversal in the float end positions and also takes place suddenly because at creeping movement of the control member not to achieve a precise reversal process and as a result the lifter fails in its effect.

The previously known controls neither use the entire float stroke to work performance, nor control them in the float end positions in the required the exact manner in which it is achieved by the invention.

The object of the invention is shown in FIGS.

Fig. I shows the deepest Schwirniner position at the beginning of the filling period.

Fig.? shows that the swimmer has almost reached the highest position.

Fig. 3 shows the Schwiminerhöchstlage after reversing.

The float i: 2 is attached to one end of the lever io and swings around the fixed pivot point g at the other end of the lever io. With the liquid level the float rises and turns the loosely rotatable on the reversing effect Control shaft .4 seated lever 8 with the help of the handlebar i i (for a better overview the parts mentioned are shifted downwards on the drawing; in reality the two centers of the control waves ¢ coincide). This rotation takes the also loosely rotatably seated on the control shaft cam 3 part by it is carried along by the stop 8a and the stop pin 5 attached to it is, whereby the spring i is tensioned by rolling the cam track on the role a. .

Shortly before reaching the highest float position (Fig. A), the tip of the cam of the cam 3 is perpendicular to the roller - while the stop 3a of the cam 3 almost touches the stop pin 6 of the lever 7 attached to the control shaft 4. Swimmer's low up to his continuation, # i2 # ', H'o`, i--. Position moves to the tip of the cam: = d roll 2 over. This causes the spring i to take effect and the cam disk 3, retaining the original direction of rotation, snaps into the position shown in FIG 3a takes along the stop pin 6. The control process is thus ended. In a correspondingly identical manner, this process takes place in the opposite direction when the float sinks from its highest position to its lowest position during the ejection period of the siphon.

It is not necessary that the handlebars i i directly with the Lever 8 is coupled. One can also use an intermediate shaft in extension of the actual Arrange control shaft on which a simple one-armed lever for coupling with the handlebar i i and also at some distance from the lever 8 with its two Attacks 8a are attached. The coupling of the intermediate shaft with the actual The control shaft 4 takes place through the stops 8a and the stop pin 5. The effect remains the same.

Claims (1)

PATENT CLAIM: Control for pressure lift fluid siphon with one Float moving spring tipping mechanism, characterized in that the float (12) on a lever rotatably arranged on the control shaft (4) for the compressed air (8) attacks, which has a recess corresponding to the float path between two stops (8a), which is rotatable on a stop pin (5) on the control shaft Attack the cam disk (3) alternately and swivel it, and that the cam disk (3) on its circumference a recess corresponding to the float path between two alternately on a stop pin (6), which is fixed on one with the control shaft connected lever (7) is arranged, acting stops (3a) and a cam has to tension a spring through which the lever (7) is suddenly adjusted, as soon as the swimmer has reached its highest or lowest position.