DE374261C - Reversible fluid gear - Google Patents

Description

Reversible fluid transmission. The subject matter of the invention is the special design of a reversible fluid transmission. The invention characterizes The use of two hollow control slides, one of which is always a continuation of the pressure chamber, the other a continuation of the suction chamber: the The driving pump forms and the interiors of these hollow slides through openings alternately connected to collecting chambers located in a ring around the driven pumps to be brought. can. With such a training: the transmission is achieved that a change in pressure during reversing only occurs after exit. the control slide takes place. It finds: therefore also:. When the direction is reversed, there is a pressure change in the Pressure and suction chambers of the driving pump do not take place, and can therefore these: housing parts, since they are no longer exposed to changing loads, correspondingly lighter be built, which results in a weight reduction. Through this training The propellant guidance achieved by the transmission also results in low flow resistances for both directions of rotation, prevents vortex formation; there is a reversal of the Propellant flow only in a closed; . enclosing the driven pump Annular space takes place.

There is one on the drawing. Embodiment of the: transmission for example shown. Esl is: Fig. I a longitudinal section through the transmission along the line i-i of Fig. 2, Fig. ia one such according to the line i-ia, A 1b. 2 is a cross-section through that driving pump according to line 2-2 or Fig, i, Fig. 3 a cross section through the driven Pump along line 3-3 of Fig. I, Fig. 4 is a cross section through the driven pump after line 4-4 of the Abi-. i.

The driving pump a and the driven pump U are installed coaxially to one another in the housing c. Each of the pumps consists of a triple-acted capsule mechanism, the pistons of which rest on the inner surface c 'of the housing and are controlled by the corresponding shaping of this inner surface. In this case, the driven pump b is kept wider than the driving pump in relation to the desired reduction ratio. Circular channels d, e, f are arranged around the inner part of the housing, which forms the running surface for the pistons, which open out into a sack arranged at the bottom of the housing, in which the hollow reversing slides h and i are arranged. The space of one slide h opens into the pressure chamber d of the driving pump a , while the cavity of the second slide i opens into a space k , which is arranged in the housing c between the driving and driven pump and forms the suction chamber of the driving pump a .

The annular spaces e and f arranged around the driven pump b are kept the same width and can be connected to the cavities of the slides h and i as required. For this purpose, two openings L and dm and! in the slide there are two openings and o, which are offset from one another in such a way that the cavity of each slide is either connected to one of the annular spaces and from. the other annulus f is blocked or vice versa.

The mode of operation is as follows: In the forward gear, the piston drum of the driving pump a, driven by the motor, conveys the propellant by means of the pistons a through the openings p into the pressure collection chamber d of the driving pump. This space d is connected to the collecting space e of the driven pump through the opening 1 of the hollow slide h. That. Propellant delivered by the piston a 'therefore flows through the hollow slide 1a, flows to the collecting space c and from there through the openings q into the working spaces of the driven pump b, where it acts on the piston b' and the driven pump and the connected pump to be driven The shaft moves in the direction of rotation of the driving pump. The expanded propellant then exits through the openings r after the second collection space f I in the driven pump. This collecting woman f is connected to the collecting suction space k of the driving pump through the opening o of the second hollow slide i. The propellant is thus pushed from the second collecting chamber f through the openings o into the second hollow slide i and passes through this into the collecting suction chamber k of the driving pump, from where it flows back through the openings s to the driving pump.

If the driven pump is to rotate backwards, the hollow slides h and i are rotated. The opening l of the hollow slide h is closed, the opening nz has the hollow slide h connected to the second collecting space f . The opening o of the second hollow slide i is also closed, but it is connected through the opening n to the first collecting space e of the driven pump. The propellant path for the reverse gear accordingly changes from the slide chamber 1a. The propellant passes from here through the opening m into the second collecting space f, from there through the openings r into the working space of the driven pump and moves it in the opposite direction of rotation, leaving the working space, entering the first collecting space e through the openings q, flows further through the opening zz, the hollow slide i into the suction collection chamber k of the driving pump and returns through the openings s into the working chamber of the driving pump.

In order to enable an easy and shock-free reversing, is known in Way a relief slide t attached, by means of which a connection between Collective suction and collecting pressure chamber of the driving pump can be produced. By This slide can be spring loaded in the simplest way as a safety valve will.

Claims (1)

PATENT CLAIM: Reversible fluid transmission with coaxially arranged driving and driven pump, characterized by the use of two hollow control slides (h, i), one of which is the continuation of the pressure chamber, the other the continuation of the suction chamber of the driving pump, and the interiors of these slides through openings (1, in or yz, o) can alternately be brought into connection with collecting spaces (e, f) located in a ring around the pump to be driven, so that a change in pressure when reversing only takes place after exiting the hollow slides.