DE147150C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention has a rotary piston and piston vanes movable in the latter equipped rotary pump to the object and is characterized by the fact that that the piston wing in the rotary piston by angle lever in the direction of the radius be moved inwards or outwards when the piston wings are surrounded on all sides with the same tension.

ίο To achieve this are the same tension Fluid passage channels arranged independently of one another in the rotary piston body for each piston wing provided, their alternating connection once with the suction chamber, the other time with the pressure chamber is made possible by the angle lever, such that when a piston wing in the Suction space passes the liquid entry point, liquid in through suction Openings formed between the piston wing pin and the angle lever end occur. the The liquid then enters the longitudinal channels through the rotary lobe body, from which it is displaced again and enters the discharge line when the piston wing is in the pressure chamber at the fluid outlet point passes at which point the inward movement of the piston wing resulting in the displacement of the liquid begins by its bell crank.

The accompanying drawing shows, for example, an embodiment of a rotary pump set up according to the invention.
Fig. Ι shows a vertical longitudinal section laid through the center, the two opposing piston wings being in a vertical position.

Fig. 2 shows a horizontal section with the inserted rotary piston partially in plan view, partly in cut.

Fig. 3 shows a cross section with the inserted rotary piston in an end view below Omission of the edge disk covering one end face and with the opposite to FIG. 1 changed position of the piston wings.

FIG. 4 shows a horizontal section along line AB in FIG. 3.

In the upper part of the housing 1 is in the illustrated embodiment, for example Roller 2 loosely rotatably arranged, below which a mounted on the drive shaft 3 Rotary piston 4 is mounted so that an upper one by the contact of the roller and piston Completion between suction and pressure chamber is created. The delivery channel 5 is located between the circumferential surface of the piston and the inner wall of the housing formed, the part serving as the suction chamber with the inlet opening 6 and its as Pressure chamber serving part with .der outlet opening 7 is connected.

Two longitudinal grooves 8 and 9 are arranged opposite one another in the rotary piston 4, in each of which a piston wing 10 provided with a stop respectively. 11 towards of the piston radius is inserted slidably. Each piston wing 10 respectively. 11 has a stepped pin 12 BEZW at both of its front ends. 13, which in corresponding Slots of the piston edge disks 14, 14 received guidance. On each piston

The end faces are two covered by the peripheral disk 14 and by a partition 15 separate cavities 16, 17 formed by the fact that the piston vane grooves 8 and 9 supporting arms are not passed through the entire length of the rotary piston 4 as shown in FIG. The two opposing cavities 16, 16 are, except through the piston wing groove 8, still through two channels 18, 18 passing through the rotary piston 4 with one another in connection, while the cavities 17, 17 except through the piston wing groove 9 still passed through two below the partition 15 through the rotary piston 4 Connect channels 19, 19 with one another. In each of the cavities 16, 16 and 17, 17 is an angle lever 20 respectively 21 to bolts 22 respectively. 23 pivotably mounted. The inner leg of the angle lever 20, 20 is connected to the piston wing 10 by means of a joint 24, while the inner legs of the angle levers 21, 21 connected to the piston wing 11 by means of a joint 25 is. With their outer legs, the angle levers 20, 20 respectively. 21, 21 over the circumference of the piston, so that, when rotating the piston 4 in the clockwise direction, the protruding leg ends are moved away from under the roller 2, a depression of the angle lever takes place, consequently the piston wing connected to the angle levers is pulled inwards before it gets under the roller 2.

After the wing has gone under the roller 2, the former either occurs the action of springs 26 or out of the piston as a result of centrifugal force, around the amount of liquid sucked in by the wing leading in front of him to drift.

In addition, the outer legs of the angle lever 20, 20 respectively. 21.21 moreover, close the cavities 16, 17 after the conveyor channel 5 in such a way that in each Cavity only one changing in width due to the movement of the angle lever Opening 27, 27 respectively. 28, 28 remains. These inlet and outlet openings are how from Fig. 2 and 3 can be seen, of the offset piston wing pin 12, 12 respectively. 13, 13 and the outer leg ends of the bell crank 20 BEZW. 21 formed.

An alternating connection of the interior of the rotary piston is established through said openings produced temporarily with the suction and temporarily with the pressure chamber of the conveyor channel, whereby it is achieved that for Creation of a tension that uniformly surrounds the piston wing in the suction chamber Liquid enters the channels of the rotary piston, which is then released at the outlet point of the Pressure chamber is displaced by inward movement of the piston wing concerned and to the angle lever 20 respectively. 21 around, through the openings 27 respectively. 28 through, through which it had entered before, escapes again. Then is the one to the inside pulled piston wing has been moved away from under the roller 2, the former is, since in suction pressure prevails in the feed channel behind the preceding piston wing, slightly moved outward by the springs 26 or by centrifugal force, whereupon the previously made the amount of liquid displaced inside the piston is replaced by a new amount, which respectively through the openings 27. 28 through and around the inner legs of the Angle lever 20 respectively. 21 around into the inside of the piston to produce one of the The same internal tension is reached.

Claims (2)

Patent Claims: 1. Rotary lobe pump with radially movable piston blades, in which the The suction chamber is separated from the pressure chamber by a roller or the like. characterized in that the piston wings (10, 11) with angle levers (20, 21) are connected, which the piston wing during their outward movement under the roller (2) Move inward in the direction of the piston radius when the wing is surrounded by the same tension everywhere is, while it is moved outwards again by springs or centrifugal force after moving underneath the roller. 2. embodiment of a rotary lobe pump according to claim 1, characterized in that that in the rotary piston (4) except for the grooves for the piston vanes through channels (18, 19) and lateral Channels (16, 17) are arranged, which through from the piston vanes and the angle levers formed openings (27, 28) brought through alternately with the suction and pressure chamber in connection be in order to bring about the unimpeded passage of the liquid through the rotary lobe To allow external and internal tension. 1 sheet of drawings.