DE661297C - Liquid shock absorbers - Google Patents

Description

Liquid shock absorber The object of the invention is a liquid shock absorber for motor vehicles, the spring-loaded as a direct acting piston pump between and unsprung parts such as the frame and the axle are installed in a vehicle is and in which a return line, in which the reflux of the working fluid at takes place in both stroke directions in the same direction, as well as a that Housing .des shock absorber forming expansion tanks are provided. The invention is seen in the fact that the various spaces in a common valve chamber open into which the liquid flows into the expansion tank or during the movement of the differential piston is distributed in the pump. This arrangement is also characterized in its operation perfect that the different work rooms are concentrically one inside the other are arranged and contain the valve chambers or connecting lines in end pieces, which unite the rooms.

The subject of the invention differs from known shock absorbers of this type through large flow cross-sections that allow the liquid to move slowly and thereby avoid foam formation as far as possible, while because of the connection of the expansion tank to the valve chamber of the pump the immediate distribution the liquid emerging from the return line is relieved over short distances. With a small overall length and a small diameter, the shock absorber according to the invention has but large work spaces and allows easy production.

In Fig. I and 2 of the drawing the shock absorber is according to the invention shown in two exemplary embodiments in longitudinal section.

In the example according to FIG. I, the return line chamber is around the pump cylinder i o 12 arranged concentrically. This chamber forms the spatial connection between the upper open end of the pump cylinder and the valve chamber 13, the is connected upstream of the lower end of the pump cylinder. The valve chamber forms also the connection between the pump cylinder, the return chamber and a at the same time the housing of the shock absorber forming the expansion or receiving tank 14; in it are a control valve 15 loaded by a spring 22 in a passage the return line and a check valve 116 upstream of the pump. Compared to the Control valve 15 is in a leading to the outside and closable by a cap Bore of the. Housing an adjusting screw 15a is provided, the pressure of the spring 22 to change the valve 15 and thus to regulate the action of the shock absorber allowed. The filling of the shock absorber can through this opening or through .ein special filling screw can be made. Of the a check valve Piston 18 containing 17 and passages 2o forms together with the piston rod i9 - the differential piston acting as a displacement element. s: The shock absorber will expediently formed from tubes enclosing individual work spaces, 12, 14, which are connected to one another at the upper and lower end by means of suitable locking pieces are, similarly as is illustrated more clearly in FIG. Eyelets at the outer end the piston rod and at the lower end of the housing are used to attach the shock absorber on the frame and on the axle of the vehicle.

The shock absorber acts in the following way (it is assumed here that the plunger cylinder, the return chamber and the valve chamber are completely filled with liquid, while the filling of the expansion tank need not be complete) Height of the cylinder io. During the upward stroke of the piston, the liquid located above it is displaced by the Rückströmka mmer and the control valve 1 5 , since the valve 17 in the piston remains closed. The liquid from the valve chamber and the liquid flowing in from the return chamber are sucked into the space under the piston through valve 16, the throttling by valve 15 damping the vibrations. The space below the piston is larger than the space above the piston i8 by the volume of the piston rod emerging from the pump cylinder. The difference in the receiving volume is compensated for by the fact that liquid flows in from the compensating tank 14. This equalizing amount of liquid is displaced again into the equalizing chamber 14 on the following downward stroke of the piston; this is done in the same way as in the upstroke and is initially by the valve 17 via the return line chamber 12 and the control valve 5. The valve 1 1 6 is closed under the fluid pressure. As much liquid is displaced from the cylinder space below the piston as the volume of the penetrating piston rod.

The size ratio of the cross-sectional areas: the piston rod on the one hand and the piston rod minus the piston on the other hand determines the difference in damping on the upstroke and downstroke. This relationship shows whether one or the other the other stroke causes the stronger or weaker damping. The regulation of the damping takes place in each case by means of the adjustment screw 15a from the outside resilient valve 15.

In the embodiment of Figure 2 C, a shock absorber is connected shown combined with a suspension of a single wheel. Structure and mode of operation differ from the embodiment according to Fig. i in the main only insofar as than the control valve 15 is arranged in the upper end of a hollow piston rod ig. The adjustability of the control valve 15 remains after the filling screw has been unscrewed preserved in the housing cover. The reservoir or reservoir is formed by the spring housing 24 filled with the working fluid, from which the fluid enters the cylinder through valve 16. The return chamber is here partly formed by the bore of the piston rod i g.

Claims (5)

PATENT CLAIMS: i. Liquid shock absorber that acts as a direct acting Piston pump switched between, sprung and non-sprung parts of a vehicle is and in which the return flow of the working fluid in a bypass line takes place while an expansion tank has an excess of the working fluid receives and releases again, characterized in that the different rooms open into the common valve chamber (13). 2. Liquid shock absorber according to claim i, characterized in that the pump cylinder, the return chamber and the The equal space forming the shock absorber housing is arranged concentrically one inside the other are. 3. Liquid shock absorber according to claim i, characterized in that the Rückleitungskaznmer (12 ) opens into the valve chamber (13) through a controllable valve (15). 4. Liquid shock absorber according to claim i, characterized in that that in the passages between the pump on the one hand and the backflow chamber and the expansion tank, on the other hand, special sealing or regulating valves (15, 16) are provided. 5. Liquid shock absorber according to claim i, characterized in that - that. the return chamber from the hollow piston rod (i g) and the surge tank are formed by the spring housing (24) of a single wheel shock absorber.