DED0020723MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: June 21, 1955. Advertised on November 29, 1956

GERMAN PATENT OFFICE

CLASS 60 GROUP INTERNAT. CLASS G 05b

D 20723 IaI60 cW

$ Daily Kurt Ruppelt, Duisburg

has been named as the inventor

Telescopic cylinders consist of a cylinder tube and several concentrically arranged Bulrushes and have the peculiarity that when the pressure medium is filled in, all the bulrushes are first slide out together. At the end of the stroke of the largest cattail, the second, smaller one moves Cattails with the pistons lying further inwards, etc., until the end only the smallest rod piston executes a stroke movement. This is because the pressure medium at the start of the stroke can act on all ring piston surfaces in a shifting sense. Since with with increasing stroke of the telescopic cylinder, the effective piston area decreases, while the stroke remains the same Pressure of the pressure medium from the lifting force, and for the lifting force at the lifting end is the Piston area; of the smallest piston is decisive.

There are applications for which it is desired is that the lifting force of a telescopic cylinder increases with increasing stroke. For this it is necessary that first the smallest piston pushes out, then the next largest cattail etc., until finally the largest cattail is the last to move.

The invention solves this problem in a telescopic cylinder in which to limit the Stroke movements of the individual pistons are provided at the inner and outer ends of guide collars are. In this way, between the facing cylinder surfaces of the individual

609 709/242

D 20723 IaI60

Piston or cylinder Rmgraume formed. According to the invention, the annular spaces sealed off to the outside and nadh the pressure space are now; ₍ ".: * '' connected to the pressure chamber of the cylinder in such a way that the flow of pressure medium to all 'annular spaces can take place simultaneously and in every piston position, while the return of the pressure medium from the annular spaces is only released when the next smaller one Pistons

ίο is fully extended. In this way it is achieved that first the smallest piston is moved and only when it reaches the end position is, the next larger piston is moved by the pressure medium, whereupon in turn the next · piston starts moving etc. The effective one The piston area increases as the stroke of the cylinder increases, and thus increases also its lifting power.

In the drawing .ist a telescopic cylinder according to the invention / shown for example. ...... ■. .

With ι is $ he. ^; / Denotes cylinder in which the 'two konzentfisefien ^ bulrushes 2 and 3 and the end bulb 4 are axially displaceable. At 5, the pressure medium flows into the cylinder space 6. Between the cylinder 1 and the tubular piston 2 is the annular chamber 7, which is closed by seals to the outside or to the pressure chamber 6. In the line a _ß between the pressure chamber 6 and annular chamber 7 is located, the valve 9. In the same way, the annular chamber located between the tubular piston 2 and 3 is sealed 8 and io _ß via the line and the valve 10 connected to the pressure chamber. As long as the valves 9 and 10 loaded by springs g _b and io _& are closed, only the innermost piston 4 moves when the pressure medium is introduced into space 6 at 5, since the pressure medium enclosed in the annular chambers 7 and 8 shifts the Cattail 2 and 3 prevented. Shortly before the innermost piston 4 reaches its end position, the valve 10 winds open with the help of the tube 13 and the plate 15, since the piston 4, which has an inner collar, takes the rod 13 with it via its outer collar and the plate 15 against the valve 10 presses. The annular chamber 8 is now connected to the pressure chamber 6 so that the pressure medium is able to move the annular piston 3. When the tubular piston 3 has reached its end position, the plate 17 arranged on the tube 16 is in the same way as before against the stem of the valve. 9 pressed, - so that the annular -.- chamber 7 is connected via the line g _a with the Druekräumo and the cattail 2 can move.

It is evident that the number of nested Bulrush can be of any size. For each tube bulb, a tube with a plate must be concentric with one another the parts 13, 15 and 16, 17 'arranged being.

When the telescopic cylinder is pushed together, the annular chambers 7 and 8 and the oil is sucked into these annular chambers through the valves 9 and 10, respectively.

Instead of the seat valves 9 or 10, slide valves can also be used,

Claims (3)

PATENT CLAIMS: ■ .1. Hydraulic cylinder with two or more telescoping pistons are located between which ^one annular spaces, which are delimited laterally by provided on the ends of the piston guide collars, characterized in that said annular spaces (7,8) to the pressure chamber (6) of the cylinder ( 1) are connected in such a way that the influx of the pressure medium to all annular spaces can take place simultaneously and in every piston position, - while the return of the pressure medium from the annular spaces is only released when the next smaller piston is maximally extended. 2. Hydraulic cylinder according to claim 1, characterized in that in the connecting lines (g _a , io _a ) between the annular spaces (7, 8) and the pressure space (6) of the cylinder (1) the pressure medium return blocking .. Check valves (9, 10) are provided, which are opened by the next smaller piston, g ₀ when this is fully extended. 3. Hydraulic cylinder according to claim 1 or 2, characterized in that as control means tubes (13, 16) which can be telescoped into one another are used for the valves (9, 10), which, starting with the outer tube (13), starts with the smallest piston (4) during its extension movement be taken and thereby provided with collars (15, 17) provided at their ends the valves act in the opening sense. 1 sheet of drawings