DE929148C - Hydraulically operated lifting, tilting and return press, especially for motor vehicles - Google Patents

Description

Hydraulically operated lifting, tilting and retrieval presses, in particular for automobiles The invention relates to a hydraulically operated multi-stage Telescopic piston press, especially for motor vehicles, with which the load is not only lifted and tilted, but can also be lowered or retrieved hydraulically.

In the previously known press of this type, the jacket of the telescopic piston a through-flow channel penetrating it, opening inwards at the top and outwards at the bottom for the pressure medium, which is under the collar of the innermost one when the piston is fully extended Piston ends. The displacement of the press cylinder and the displacement of the outer piston are constantly in hydraulic connection via a check valve.

This configuration of the press has the disadvantage that it is not a satisfactory one Retrieval of the load enables. For this it is essential that the retrieval Can be carried out hydraulically in succession for each piston stage over the entire stroke range is. Only then is it possible to retrieve it without any influence whatsoever heavy load and its direction of force in all positions to steer safely and to make full use of the cubic capacity.

This is impracticable with the previously known hydraulic tipper press, because when the return is started, only the lowest piston with the pressure medium can be charged. After finished Retrieve this piston the following piston cannot be brought back hydraulically because the flow channel opens under the bottom of the piston. At the same time the check valve is open, so that the pressure medium flows out ineffectively.

The invention overcomes this disadvantage in that the feed channel or channels open over the uppermost piston collar in such a way that the hydraulic pressure medium all, but at least two piston stages in succession in countercurrent, d. H. in around I800 charged in a reversed flow direction, which means that the - retrieval via the -The entire stroke range can be initiated hydraulically.

The drawing shows various exemplary embodiments.

In Fig. I an example is partly in section and partly in view shown in the rest position of the piston press.

Fig. 2 shows schematically the position of the extended piston.

Figs. 3 and 4 show further embodiments.

In the basic form of the press according to the invention shown in Fig. I this has a two-stage telescopic piston with the inner full piston in cylinder a b and the outer ring piston c. Located under the flanges of the piston stages b, c the displacement connected to the pressure medium supply line e. The piston c divides the cylinder a into two return spaces g, h, through one or more Winkdkanäle k, i, kl are in communication with one another inside the piston c; m is the pressure medium connection neck for the return route in h.

Fig. I shows the state of rest when pistons b are pushed into one another, c. Fig. 2 shows the working position after the piston c has been extended. When retrieving the pressure medium flows through the supply linem into the outer withdrawal spaceh and through the channels k, i, kt in the inner return space g, whereby the loaded by the pressure medium Inner piston b is brought back. When this has happened, the pressure medium works in the outer return space h on the ring flange of the piston stage c and thus fetches it Piston back until the position shown in Fig. I is obtained again.

The entire piston stroke is used for the retrieval, the pressure medium in return or in directions offset from one another by 1800 through di, eRüclçholzimmer flows.

This is very beneficial in many cases; so can z. B. a car body, which is to be tilted particularly high, equipped with a short telescopic piston press that can easily be accommodated in the chassis. Despite the required great Stroke, the piston can be safely retrieved, for the whole Lifting range. Up to now this was only possible with a long single piston press, the but only finds space in special vehicles.

In the embodiment according to Fig. 3 there is a four-stage telescopic piston provided, with the inner full piston b, the outer annular piston c and the intermediate piston cl, c2. The outer piston c has the angular channel k, i, kl for loading with the pressure medium when returning the piston; h, hl are the retreat areas.

In special cases, e.g. B. if such tilting conditions exist that when the smallest piston is extended, a high pressure level can arise in the displacement due to the larger dimensioning of the outer return space h, which during tilting the Restraint and braking of the Rückhoikolben causes an inadmissible and thus potentially dangerous high pressures can be avoided.

Fig. 4 shows such an embodiment.

Here the press cylinder is divided into two stages a, al, from which the upper step a1 is larger in diameter than the lower step a. Of the The flange of the outer annular piston c lies on the bottom of the cylinder stage al.

The Winkelkanälek, i, kl can be produced in different ways be e.g. B. by axial and transverse bores in the walls of the piston stages concerned.

However, the production is particularly practical and simple the piston stages in that - as can be seen in Fig. 3 for the outer ring piston c - the piston stages in a manner known per se from two coats stacked one inside the other exist, which release the cylindrical annular gap space i between them, which through a number of transverse bores k, kl is open to the outside and to the inside.

Claims (1)

PATENT CLAIM: Hydraulically operated lifting, tilting and return press with a multistage telescopic piston whose jacket allows the pressure medium to flow through is penetrated by a channel opening inwards at the top and outwards at the bottom, in particular for motor vehicles, characterized in that the hydraulic pressure medium all, but at least two piston stages in succession in countercurrent, d. H. in around I80 ° alternating flow direction charged to retrieve over the whole To be able to initiate the lifting range hydraulically. Attached printed matter: German patents No. 597 564, 595 295, 492 095; French patent specification No. 7I4 591.