DE661289C - Hydraulic drive device - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
JUNE 15, 1938

REICH PATENT OFFICE

PATENT LETTERING

CLASS 47h GROUP

^ S- Hermann Mecke in Berlin-Halensee ^

has been named as the inventor.

General Electricity Society in Berlin Hydraulic drive device

Addition to additional patent 553

Patented in the German Empire on December 24, 1936 The main patent 550 016 started on December 20, 1930.

The subject of additional patent 553 577 is a hydraulic drive device in which the downward movement of the working piston is accelerated by the fact that one between the Suction and pressure side of the piston arranged bypass line for a short circuit produces the operating fluid as soon as the pump has been switched off. The operating fluid can then quickly move from the lower pressure side on the downward stroke of the piston get to the upper suction side without going through the switched off pump itself to have to. Namely, the pump sets the return flow of the operating fluid at the beginning of the downward movement of the piston opposes considerable resistance, since the up to then driven Impeller pump has to reverse its direction of rotation, which is due to the inertia of the pump and the motor armature together with the shaft takes a certain amount of time.

In the embodiment on which patent 553 577 is based, the bypass line controlled by a spring-loaded valve designed as a ring slide is. However, this ring impairs the stability of the piston guide. Under certain circumstances, this can have the effect that the drive device works restlessly and intermittently.

According to the invention, this disadvantage is eliminated in that the against the pressure of the springs attached to the piston displaceable, the bypass line controlling valve as a the piston skirt surrounding cylinder is formed, which is on the piston with on its Upper side of the flanges resting on it is loosely suspended, which in turn is the abutment for the feathers form. As a result of this design of the valve body is good management of the Piston reached, so that the device despite the arrangement of the downward movement

movement of the piston accelerating bypass valve by a quiet and bumpless Gear. The widening of an area of a body, which at its S movement has to be guided, for the purpose of improving leadership there is in itself a known aid, but the invention is the advantageous embodiment a special device, namely ίο the hydraulic drive device according to the '553 577 patent using this means. Besides the mentioned advantage it also still achieved that the inner wall of the working cylinder now can be designed smoothly, while in contrast to Herzu so far a special, protruding Ring shoulder had to be provided on the cylinder wall to form a stop for the valve. The smooth one Execution of this wall facilitates and makes the production of the device cheaper. In the end Another advantage is that the springs attached to the body in the Training and storage of the valve according to the invention in contrast to the previous one Embodiment can be relatively weak, since they only have the task of to have a damping effect on the entrainment of the valve cylinder on the downward stroke of the piston, while the corresponding springs in the device according to patent 553 577 are proportionate must be chosen vigorously because they alone remove the valve ring at the beginning of the downward stroke need to move on the piston. An embodiment of the drive device according to the invention is shown in the drawing.

Fig. Ι and 2 show schematically the lower or the upper part of the housing of the device, on the one hand at the lowest position of the working piston, on the other hand during the downward stroke of the working piston. The design and operation of the lifting device itself can be found in the main patents can be removed. Also 'the working piston itself can in principle with the Working piston of the embodiments described and illustrated in the main patents match.

About the working piston 1 is according to the invention a pipe section 2 is pushed, which represents a cylinder with wide guide surfaces, which bear on the one hand against the inner wall of the housing 3 and on the other hand against the piston skirt. The cylinder 2 has at its lower end several recesses 4 which brought into congruence with openings 5 provided on the outer surface of the working piston can be. The openings 5 stelfio len, as soon as they coincide with the recesses 4, via the pump channel 6 of the working piston ι a connection between the two Piston sides. The cylinder 2 is at its upper edge with, for example, four evenly distributed horizontal lugs 7 provided on the one hand on the working piston 1 or an intermediate piece 8 ', on the other hand, the abutment form for each spring 9, the vertical guide pins on the working piston as desired are attached.

The operation of the lifting device is as follows: As soon as the piston 1 is arranged Impeller pump, not shown, is driven by means of its drive motor, arises below the working piston 1, a pressure that pulls the piston out of the lower position transferred to the upper operating position according to Fig. 1. In the lower dead position of the working piston the springs 9 hold the cylinder 2 or its lugs in that shown in FIG Position in which the cylinder 2 covers the openings 5. The operating fluid so cannot from the lower pressure side of the piston bypassing the pump reach the upper suction side.

During the upward stroke of the working piston and during its upper working position the cylinder 2 maintains the position shown in Fig. 1 because the friction is between the slide and the working cylinder 3 on the one hand and between the slide 2 and the piston 1, on the other hand, an advance of the slide 2 relative to the piston ι counteracts.

As soon as the pump is in the upper position of the working piston after switching off the drive motor is no longer driven, the fluid pressure below the piston stops immediately. Under the retroactive Force of the device controlled or driven by the lifting device, for example a spring-loaded shoe brake, the axial piston is then immediately pressed down, and it leads the cylinder 2, since both parts as a result of the arrangement the springs 9 are resiliently connected to each other and the friction between the working cylinder 3 and the slide 2 is so strong that it over- the force of the springs 9 winds. Only when the force of the compressing Springs 9 has become so large that it is able to keep the aforementioned frictional force in balance, settles the slide 2 moves slowly and follows the piston 1. The springs 9 act here shock-absorbing, d. H. at the moment the slide 2 is taken by the downward going piston 1 is no hard impact, but this process takes place gently. It should also be noted that the friction between the slide 2 and the wall of the

Cylinder 3 is larger than between the slide and the lateral surface of the piston 1. It This then results in the operating position shown in Fig. 2. As a result of this relative movement The openings 5 pass between the working piston 1 and the cylinder 2 immediately to coincide with the recesses 4, so that the operating fluid from the lower Pressure side through the recesses 4 through the flow openings 5 and the Pump line 6 can reach the upper suction side. As a result, the downstroke is of the piston accelerates.

As Figs. 1 and 2 show, the working piston is both during the upward phase also guided over its entire width during the downward stroke. This good leadership ensures quiet and smooth operation of the device.

Claims (1)

Claim: Hydraulic drive device according to Patent 553 577, characterized in that that the bypass line can be displaced against the pressure of the springs attached to the piston The controlling valve is designed as a cylinder surrounding the piston skirt, which also opens on the piston whose upper side resting flanges is loosely suspended, which in turn form the abutment for the springs. For this purpose ι sheet of drawings