DE1015315B - Rotary lobe pump - Google Patents

Description

Rotary lobe pump The invention relates to a rotary lobe pump, the stator of which with the rotor enclosed by it has a plurality of. Forms, two for the pressure medium - Arbeitsräunien with one inlet and Auslaßzon #. It is desirable in deraxtigen Drehkelbenpumpen, all inlet zones and also all Auslaßze-NEN of the rotor Toggle each connect a -eineinsamen connecting channel ,. So far there are two ways of doing this; Proposal has been brought. One way is "to relocate the connection ducts on the same side of the rotor and to fork in such a way that for each inlet zone and each outlet zone one" Ver-1-1, indun, gsl <: an, al of the associated This, however, entails serious manufacturing or casting difficulties. Very complex cores must be used which require a difficult definition in the casting mold, especially 1 the channels: concentric-1 baptized and partially overlap. The other way is "that the connection channels are arranged on opposite sides of the rotor, whereas - the" outlet zones "of the rotor are in communication with an intermediate chamber of the pump housing, of which the Connection channel goes out. With this solution there are manufacturing and casting niches! Difficulties avoided, but the layout of the connection channels on opposite sides of the redc-r is inexpedient and undesirable.

The invention is to a certain extent a combination of the two released known approaches, and their peculiarity is that each Inlet zones; with a common connection channel directly and each of the outlet zones are connected to a Zwischenka.miner of the pump housing, which on the of the common connection channel is the way-pointing Seitei of the rotor, and that the second connection channel, which is on the same side of the rotor as the first Connection duct, connected to only one outlet zone. is.

The intermediate chamber assigned to the d, en.A.u # sla, ßzone exists in an themselves. known way expediently from a plate-like, recess of the pump housing, which is closed off from the stator and roto, r by an intermediate plate, which is axially movable to a limited extent and is provided with openings which the outlet zones correspond.

Further special features of the invention emerge from the following description in conjunction with the drawing, which illustrates a 1), # o.rzu, -th embodiment of the invention. In the drawing, FIG. 1 shows a longitudinal section according to line 1-1 of FIG. 2, FIG. 2 shows an end view of the device according to FIG. 1, FIG. 3 shows a view or sectional view according to line 3-3 of FIG. 1 , Fig. -1 is a view or sectional view along line 4-4 of Fig. 1, Fig. 5 is a view or sectional view along the line! 5-5 of Fig. 1.

In Fig. 1 is a rotary piston pump! 10 illustrates, which consists of a central, pump: unit, 12, which is fastened between: a right housing part 14 and a left housing part 16. The. Pump unit 12 has a stator designed as a cam ring 18 , the cavity of which serves as a pumping chamber and for accommodating a hubless one. Rotor 20 (Fig. 5) is used. The rotor is equipped with vanes 22 which can move back and forth in slots 24. The outer ends of the vanes are in 'contact with the non-cylindrical inner surface 26 of the stator which forms the delimitation balin for the vanes '. The wings are under the action of a pressure fluid that is fed to the inner widened ends of the wing slots. The Roto.r20 is equipped with a circular groove28 which is connected to the widened ends of the wing slots and to which the hydraulic fluid is fed. By. When installing the rotor 20 in the pump chamber of the stator 18 , two opposed working spaces 30 and 32 are formed. These spaces can be appropriately divided into liquid inlet zones and liquid inlet zones. , are moving through soft diei wing in the revolution of the rotor. The liquid inlet zones comprise the parts of the Rätune 30 and 32 which coincide with a pair of liquid inlet openings 34 and 36 of the housing part 14. The inlet ports, 34 and 36 are illustrated in Fig. 3. The liquid outlet zone, n, encompass those parts of the spaces 30 and 32 which coincide with one, rn pair of outlet openings 38 I and 40 in an intermediate plate 42 which. is arranged in the end part 16 and shown in FIG. These! An intermediate plate is attached directly to the pump unit 12. A liquid outlet port 44 is also provided in the housing part 14 which communicates with only one of the liquid outlet zones. This is the outlet zone, e, with which outlet opening 40 of intermediate plate 42 is aligned on the other side of pump unit 12.

The arrangement shown offers the possibility of the entire. Funding volume The pump unit through only one: the liquid duct outlet zone, to the outlet channel in to lead the housing 14 ,.

1, 2 and 3 , the housing part 14 is provided with an outer inlet port 46 and an outer outlet port 48. The inlet port 46 carries out; a channel 50 to. a main channel 52, the ends of which are provided with liquid inlet openings 34 and 36 which coincide with the liquid inlet zones. The outlet connection 48 is in line with the outlet zone of the pump unit 12; Connection via a channel 54 which is provided with the liquid outlet opening 44 is.

The stator 18 is equipped with parallel flat side surfaces 56 and 58 which! with the. flat strings 60 and 62 of the housing parts 14 and 16 work together. The stator 18 and the housing parts 14 and 16 are means. Screws 64 f est cut to pieces which proceed and, the housing part 16, the Hous # lead through the stator housing part 18 to the fourteenth On the housing (part 14) there are lead-through openings 66 through which screws or bolts can reach when the device is being fastened.

A drive shaft 68 is connected to the rotor 20 by means of a tongue and groove and is held rotatably in the bearings 70 and 72. The bearings 70 and 72 are housed in the stepped bore 74 of the housing 14. A seal 76 is provided for the shaft 68 immediately next to the bearing 70. Further seals 78 and 80 are located in the housing sections 14 and 16, and indeed they cooperate with opposite sides of the stator 18 .

The housing part 16 is provided with a plate-like. Recess 82 provided, the opening of which through the; Stator 18 and the rotor 20 is closed, whereby an outlet intermediate chamber 84 is formed. The chamber 84 is thus immediately adjacent to the rotor and the working spaces, specifically on the side of the rotor opposite the outlet and inlet channels of the housing 14.

The intermediate plate 42 is arranged in a floating manner in the recess and is supported on the walls of the same. The pressure fluid located in the depression84 acts on the free side 86 of the intermediate plate and thereby presses the opposite side of the plate designated 88 against the side 58 of the stator 18 , creating a liquid seal. the rotor 20. The thickness of the rotor 20 is slightly less than the thickness of the stator 18. In this way the appropriate running spike for the rotor is automatically maintained by the intermediate plate which, under the influence of the pressure on the outlet side of the device stelit. During start-up and at particularly low pressures, the intermediate plate is pressed against the stator by a spring 90 and is held in a fluid-sealing connection with the rotor.

The stator 18 is appropriately aligned with the housing parts 14 and 16 with the aid of. from. Dowel bolts 92, which extend from the stator 18 on both sides. extend and into corresponding openings. engage the housing parts 14 and 16 ,. The intermediate plate 42 is aligned with the pump unit 12, specifically with the aid of dowel bolts 94, which are seated on the intermediate plate and engage with the housing part 16 .

The intermediate plate 42 is provided with a plurality of through openings 96 which coincide with the groove 28 of the rotary door 20. In this way, pressure fluid is transferred from the intercom 84 into the widened inner ones. End up. the wing slots guide4 to urge the wings outward until they are in with the wing guideway; Come into contact4 during operation and while the rotor is rotating. clockwise (Fig. 5) , liquid is introduced into the liquid inlet zones. of the workspaces initiated by the. Connection channel 46, channels 50 and 52 and the diametrically opposite inlet openings, 34 and 36.

As the vanes pass through the outlet zone, they join the outlet port 44; the housing 14 covers, move, liquid is pressed out of this zone through the opening 44 and further = the connecting channel 48. The liquid, which is located in the outlet zone which covers the outlet opening 38 , is pressed out of this zone and conveyed through the opening 38 of the intermediate plate: 42 into the intermediate chamber 84. The liquid, which is constantly pressed into the intermediate chamber 84, is conveyed from this chamber to the connection channel 48, through the outlet opening 40 of the intermediate plate, the liquid located therewith, outlet zone, ne "the outlet opening 44 in the housing 14 and the channel 54. The pressure fluid acting in the intermediate chamber 84 on the free side 86 of the intermediate plate 42 ensures that the flat surface 88 of the intermediate plate remains in contact with the stator 18 and seals the rotor 20 in a liquid-tight manner.

In this way, the outlet zone, which coincides with the liquid outlet opening 44 in the housing 14, serves as an outlet opening for the entire delivery volume of the pump unit 12. Thanks to this arrangement, it is possible to connect the inlet and outlet connections and the associated inlet and outlet channels, those with multiple liquid inlet and outlet zones. of the pump mechanism must be in connection - to be fully attached to one side of the housing. A single outlet port may instead iner e # plurality of outlet channels are used, since the intermediate plate for maintaining the right. Roto-rspiels has to ensure, is also used to transfer the liquid from all outlet zones into the outlet zone which is connected to the outlet channel. As already said, the last-mentioned outlet zone serves as an outlet opening in that it is the only one of the liquid entering the outlet chamber. Outlet channel directs.

By arranging the liquid inlet zones and the liquid outlet zones diametrically radial equilibrium can be achieved. This means that the use of a Intermediate plate enables which - under the influence of the pressure in the intermediate chamber and ensures the correct movement of the rotor. These particularities arise at no additional cost for complicated Attachment of cavities, and channels, despite the fact that the inlet and outlet ports and the associated channels on one side. of the pump mechanism are "and that on the side opposite the intermediate chamber 84.

The) explained design also offers the possibility of the connections and channels to be attached to the side of the housing facing the drive shaft :.

Claims (3)

PATENT CLAIMS :: 1. Drehko, lb, en pump, whose stator, with the rotor enclosed by it, forms a plurality of working spaces, each with an inlet and outlet zone for the pressure medium, "characterized in that each of the inlet zones, such as, unmittelbe.r known per se, to a common Anschlußkana, 1, and in each case j, outlet zones with a Zwischenkanimer of the pump housing are connected, which is situated on the side facing away from the common connection channel. side of the rotor, and that the second connection channel, which is on the same side of the rotor as the first connection channel, is connected to only one outlet, zone. 2. Rotary piston pump according to claim 1, characterized in that the intermediate chamber in; in a known manner from a telleraxtigen recess of the pump housing existing, which is closed off from the stator and rotor by an intermediate plate. which is axially movable to a limited extent and is provided with openings which correspond to the outlet zones. 3. Rotary lobe pump according to claim 1 or 2, characterized in that the connection channels in. In, are in a known manner on the side of the pump pointing towards the drive shaft. Documents considered: German Patent No. 467 094; USA. Patent Nos. 1989 900, 2319238, 2335567, 2 511573, 2544988.