DE380287C - Inlet and outlet control for pumps or engines with alternating rotating and stationary piston pairs - Google Patents

Description

Inlet and outlet control for pumps or engines with alternating rotating and stationary piston pairs. The invention relates to a one and Outlet control for pumps or prime movers with alternating rotating and stationary Piston pairs.

In the drawing, the invention is illustrated in a liquid pump, where-Lei Fig. I and a show the pump in longitudinal section and side view. a is the cylindrical pump housing with screwed-on cover b. These two parts form bearings for the inner part of the drive shaft c, which is moved by lever d or other means, and for the hub of a drive pulley f in the housing a against the cover. Two of the pistons g and 1a are attached to hubs that support the shaft e loosely enclosed within the housing and lying next to each other (hinge-like), as indicated in Fig. r. The pistons have an oblique shoulder i and pins k, which are pressed against the pump front wall by springs l. The length of the pins is slightly greater than the width of the pistons g, 1a. Between your inlet in, and outlet n there is a track o in the left end wall (see Fig. R), into which the pin k is pressed by the spring l , so that in this way the piston h or g in the middle between the inlet in and outlet r. is held in place to form a solid partition between them. The pin k of the other piston g protrudes from its surface resting on the disk f and is inserted into one of the holes p of this disk, whereby the piston g participates in the revolution (in the clockwise direction in Fig. 2) of the disk f. When the piston g has moved so far that its approach i strikes with a bevel against the conical part q of the pin k of the piston h , the pin of the piston h is pulled out of the track o and at the same time at its other end into one of the holes p of the disk f , so that the piston h is now triggered by this and takes part in the rotation of the disk f. If, with continued rotation, the pin k of the piston g comes to the track o, this pin is pressed by the spring l into the track o and pulled out of engagement with the disk f, so that the piston g now plays the role of the solid partition between the channels in and n takes over while the wing h continues to rotate.

The device described here is essentially already known.

According to the invention, each piston is always provided with an inlet or outlet channel connected, whereby it is achieved that any shock and impact in the pump is avoided will.

In the housing a there are two parallel, annular, separate channels r and r = arranged next to one another. These channels are completely open towards the center of the pump, but closed to the outside by ball valves s "s_ against the common inlet pipe na and by similar valves t" t2 against (read common outlet pipe n, so that the liquid cannot flow back. Inwardly, the channels r, r, are covered, however, by two connecting rings -,!, And v_ with openings z and y, respectively, so that two closed channels r "r, are obtained. The rings v" v2 are connected to their pistons by lugs ö in such a way that the ring% rotates with the pistons g, g and the ring v2 with the pistons h, h . As can be seen, the pump is double-acting, and it is directly inlet and outlet through the openings z, z and y, y of the two rings v "v = instead.

The operation is as follows: The pistons h., H are locked, for example, and g, g rotate (clockwise). Then there is suction at the rear and pressure at the front of the rotating pistons g, g. The water will thus be sucked in through the inlet channel in, flow through the ball valve s, get into the channel r and from there continue through the openings z, z of the ring v into the two suction chambers of the housing. At the same time, the water is pressed out through the openings y, y of the ring v2 belonging to the pair of pistons h, lt, in order to get into the channel r2 and then through the pressure valve t. = Into the outlet pipe n.

If the pistons g, g now take the place of pistons h, h and change places with them, the pistons begin lt, h. their circulation. The water then enters through the pipe m, flows through the ball valve s2, goes into the channel r. and through the openings y, y of the ring v. and the piston h, lc into the suction chamber. At the same time, the water is through the openings z, z of the ring v ,. and the piston g, g pushed out to pass through the channel r, and the ball valve t, to the outlet ia.

In channels r, - and r. This creates an alternating suction and pressure effect.

Claims (1)

PATENT CLAIM: Inlet and outlet control for pumps or engines with alternating rotating and stationary pairs of pistons, characterized in that each pair of pistons (g, h) is mechanically connected to a ring (v, or v,) that can be rotated concentrically in the housing cylinder. which is provided with through openings (z or v), which provide a constant connection between the rear of the respective piston pair (g or h.) and outer channels surrounding the housing cylinder (r- or r.) , which are connected to the inlet pipe (s) and the outlet pipe (s) by means of suction and pressure valves.