DE1553282A1 - Rotary piston machine, in particular rotary piston pump - Google Patents

Description

GEAR FACTORY I ¹ RIEDRIOHSHAI ¹ En - 1553282

Corporation
Friedriehshafen

Rotary piston machine, in particular rotary = piston pump

The invention relates to a rotary lobe machine, in particular a rotary lobe pump, with delivery members arranged in a housing for the formation of delivery cells, an axially displaceable cam ring centered in the housing, a rotor rotatable in the cam ring with essentially radially displaceable vanes _P and with two in the housing centered pressure plates which can be acted upon by the pressure medium on the pressure side of the rotary piston machine and which, under the effect of the pressure force, lie sealingly on both sides of the conveyor links.

Rotary piston machines of the type described with two completely identical pressure plates have already become known (US Pat. No. 3,031,975). These are connected to the cam ring by screw bolts. With these known rotary piston machines it is therefore not possible for the pressure plates to be able to evade, but this is useful if, for example, cold oil is still flowing through the machine, or if the liquid contains foreign bodies. The symmetrical arrangement of the pressure plate »also requires _? that the rotor shaft of the known rotary piston machine is passed through both pressure plates and stored twice in the housing. The cam ring with the two pressure plates screwed to it form a package which is floating in the housing, free of axial forces. The package can therefore be lateral

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Execute vibrations, causing pressure surges and noise (see U.S. Patent 3,187,678).

Rotary piston compressors are also provided with blades that can be displaced radially and axially in a rotary piston and are laterally on both sides of the Sealing washers attached to the wings are known (DRP 455.543). Lateral springs support what is made up of wings and washers Package in the axial direction. Here too, harmful vibrations can occur.

The present invention avoids the disadvantages of the known ones. DrahkolbenmaFohinen. The invention is that the two Andrückplattsn axially displaceable with respect to the rotor and the cam ring are that the pressure medium acted upon by the pressure side of the rotary piston machine piston surfaces of the pressure plates are of unequal size and that a shoulder is formed on the housing? against which the pressure plate provided with the smaller piston surface is supports. This arrangement ensures that the cam ring and the pressure plates rest against one another in a non-positive manner and together under the effect of the difference between the two hydraulic forces acting on the pressure plates against the housing shoulder is pressed. This avoids axial vibrations of the parts mentioned. If foreign bodies are present in the pressure medium flow, or if cold oil is pumped out, the parts can dodge axially.

Another feature of the invention is that on the housing in a manner known per se (see US Pat. No. 2,924,182) formed a protrusion protruding into the interior of the machine

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is the one approach of the drive-side supported on the housing Pressure plate engages over, and that the end face of the approach is closed off by a seal from the Pumpendruekraira is. By choosing the diameter of the plate attachment, the difference can be the pressure forces acting on the two plates must be dimensioned appropriately.

According to a further feature of the invention, the two pressure plates are designed with different thicknesses from one another. This makes it possible to reduce the deflection of both plagues depending on & size of the pressing force acting on each plate in a pa.-sender way, for example to be dimensioned the same size.

Another feature of the invention is that two Shaft bearings are available, one of which dr..rch the drive «· side pressure plate is formed.

Further details of the invention emerge from the following Description and the drawing, i.e. an exemplary embodiment of the invention. /

Fig. 1 shows a rotary lobe pump designed according to the invention in a longitudinal section / along the line I - I in Pig. 2.; '

Pig. 2 shows a cross section along the line II-II of FIG Pig. 1.

Pig. 3 shows a longitudinal section along the line III-III of FIG Pig * 2. BAD ORIGINAL

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Fig. 4 shows a longitudinal section along the line IY-IY the Mg. 2.

Mg. 5 shows the centering of the cam ring in a section along the line V-V of Pig. 1.

The housing of the vane pump is denoted by 1 in the drawing. A part 21 of the housing interior represents the suction space of the pump. In the suction space there is a cam ring and the rotor 3 which is drivingly connected to the drive shaft 2. Pump blades 5 are radially movably guided in slots 4 of the rotor. The cam ring 6, which is concentric to the rotor 3, has an oval interior in which two groups of opposing cells are formed by the rotor 3 and the vanes. A pressure plate 7 and 8 is located on both sides of the rotor 3 and the cam ring 6. The blades 5 and the rotor 3 are slightly narrower than _{the cam ring 6 S} so that they do not rub on the inner surfaces of the pressure plates. The pressure plates 7 and 8 are centered with their circumferential surface 9 and 10 in corresponding bore parts 11 and 12 of the housing interior. The outer end face 13 of the pressure plate facing away from the rotor and the cam ring is located in a chamber 17 delimited by the end wall 15 of the housing interior, which via openings 45 and 45 * (FIGS. 2 and 3) of the plate 7 on the pressure side of the vane pump and via a Channel 17 ″ is connected to the outlet opening 17 ^! (FIGS. 2 and 5). The outer end face 14 of the pressure plate 8 lies in a chamber 18 which is also connected to the pressure side of the pump via openings 46 and 46 ′ is on via a channel 21 "

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the suction port 21 'connected.

Pre-tensioned compression springs 20 (FIG. 4) are inserted into the pressure chamber 18 and are located on the one hand on the closure cover 16 and on the other hand engage in blind holes 20 ″ of the pressure plate 8 and press them against the cam ring 6 ″ The drive shaft 2 rotates in a roller bearing 19 and in a bore 71 the pressure plate 7.

The chambers 17 and 18 are opposite to the curve ring β concentric annular suction area 21 by seals 22 and 23 completed. The sealing of the chambers 1.7 and 18 to the outside is done by the seals 24 and 25 «The former lies between the Housing 1 and the cover plate 16 «The seal 25 lies between one approach 27 on the pressure plate 7 and one the approach 27 partially overlapping and protruding into the housing interior annular Torsprung 28 of the housing end wall 15 «The acted upon surface 13 of the pressure plate 7 is around the end face of the approach 27 smaller than the area H of the pressure plate

By means of a pin 29 '(Fig «3) engaging in bores on the cam ring 6 and the pressure plates 7 and 8 and in a bore 29 in the housing 1, these parts are secured against rotation and centered on the housing 1, whereby the pump members can execute an axial movement» The pressure plate 8 ' the rotor 3 and cam ring 6 are pressed against the pressure plate 7' An annular shoulder 52 is formed on the housing end wall 15, on which the pressure plate 7 is supported with part of its end face. The supporting force is equal to the difference on the surfaces 13 and

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14 acting pressure forces. This differential force can be selected appropriately by differently dimensioning the projection 27.

The cells formed by the cam ring 6 and the rotor 3 are subdivided into suction zones 40 and 40 ^s and pressure zones 41 and 41 ′ through which the blades pass. The Sa'agronen 40 respectively. 40 '

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are ^ recesses 42 and 42 "IFig. 1 and 5) in connection ₉ which are incorporated into the rotor-side end faces of the pressure plates 7 ^ and 8 and open into the suction chamber 21. The through openings 45 ₉ 46 and 45% 46" (Fig 3) the pressure plates are in connection with the pressure zones 41 and 41 ³ and are closed off from the recesses mentioned. The openings 46 and 46 ⁹ in the pressure plate 8 establish a connection between the pressure zones 41 or 41 ° of the cells and the rear pressure chamber 18 and are via axial bores 49 (FIG. 2) in the cam ring 6 and the openings 45 and 45 'connected to the pressure chamber 17. This is connected to the pressure medium outlet 17 '.

By means of the bores 52 and channels 53 in the pressure plate, the inner part 54 of the slots 4 under the pump blades 5 Pressure medium is supplied and the pump cylinder is thus pressed against the cam tracks of the cam ring 6.

The part of the cam ring 6 protruding into the suction chamber 21 has inclined surfaces 26 and 26 'in the region of the recesses 42 and 42'. As a result, the deflection of the pressure medium sucked into the suction chambers 40, 40 ^{5 is} improved in terms of flow.

A further sealing element 56 is arranged between the bearing shaft of the drive shaft 2 and the projection 28 of the housing 1, which

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_{In connection with the seal 25, 9} forms a space 57 which is closed to the outside and is dirt-tight, in which the end face 58 of the projection 27 of the pressure plate 7 lies. The end face 59 of the drive shaft 2 lies in a space 6O ₉ which is connected to the space 57 by bores 67 and 68. To relieve the pressure in the spaces 57 and 60, a connection channel 66 opening into the suction space 21 on the one hand and into the annular gaps 65 and 69 on the other hand is incorporated in the pressure plate 7.

Through the radial guide 9 and the bore 71 of the pressure plate 7 is combined for the drive shaft 2 except Axial and radial roller bearings 19 another bearing on the Surface 72 of the shaft is formed. The storage area 72 is on the Width of the bore 71 also extended “The protruding part serves as a centering surface for the rotor 3 through the intermediary of its centering surface 76. A part 74 has wedge profiles for entrainment of the rotor 3 through the drive shaft 2.

The vane pump described is assigned a combined pressure and quantity control valve ₉ which keeps the flow rate constant in a large pressure and speed range and limits the maximum pressure. This valve is not the subject of the present invention and is therefore not described in detail

Pig. 5 is a further representation of the capsule structure according to the invention. The cam ring 6 is centered with its circumferential surface 101 on centering surfaces 106 and 107 from into the suction chamber 21 projecting guide strips 103 and 104 of the housing 1. The

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Guide strips are designed to be narrower than the width of the cam ring 6 _9, which forms the suction chamber 21 »

The mode of operation of the vane pump designed according to the invention is as described below

When the rotor 3 is driven, the pressure medium is ^{sucked in via the suction opening 21 β} connected to a pressure medium container and passes through the bore 21 ″ and the annular suction chamber 21 and the suction chambers 42 and 42 'to the suction zone 40 or 40 ^! Of the pump cells from there, the pressure medium is fed through the wings 5 to the pressure zones 41 or "41 '" and through the openings 45 "45" and 46s ;, 46' in the pressure plates 7 and "8 to the pressure chambers 17 and" respectively. The pressure medium is pressed to a consumer via the channel 17 ″ and the outlet opening 17 '. The pressure medium pressure developing in the chambers 17 and 18 via the connecting _{bore 49 in the cam ring 6 acts on the surfaces 13 9} 14 of the pressure plates 7, 8 and the latter pressed against the cam ring 6, wherein available eats a certain clearance between the end faces of the Andrtickplatten I ₁ 8 and the rotor 3 with the wings. 5 the Andrüokplatten can thus deflect at corresponding impingement against the rotor. 3 the magnitude of the deflection and the deflection line the pressure plates 7 and 8 can be determined by their shape, distribution of the thickness and the selection of suitable materials, taking into account the plate diameter and the pressure of the pressure medium being formed.

With such a deflection of the two pressure plates 7 and 8, the volumetric efficiency can be reduced as a result of a change in the forehead play of the rotor 3 is kept constant over a large pressure range

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will hold.

By the amount of the end face of the projection 28 is the

actable surface 13 of the pressure plate 7 is smaller than that

.that

pressurizable surface 14 of the pressure plate B ₉ so'Rotor 3 ₉ cam ring 6 and the two pressing plates are always pressed 7 and 8 by the unequal pressure forces against the shoulder 32 of housing end wall 15 Is the presence of unnecessary thus a second contact surface on the cover 16 of the housing 1 _O Further, a certain ratio of the size of the loadable surfaces 13 uni14 the pressure plates 7, 8 -and the pressing force are influenced by the shoulder 32 of the housing 1 ₀ by Pale the size of the acted upon surface 13 of the pressure plate 7 can be determined by the diameter of the Approach 27 change. In non-pressurized pump, the compression springs 20 cause therefore the installation of the pressure plates 7 and 8 on the cam ring 6, the system of the pump parts on the shoulder 32 of the housing 1 and.

As a result of the connection between the space 60 and the suction space 21, no pressure medium pressure can build up in the space 60. This creates a axial load on the bearing 19 avoided.

Duron the radial guide strips 103 and 104 according to FIG. 5 with their centering surfaces 106 and 107 'which work together with the peripheral surface 101 of the cam ring 6, disproportionately long ₉ extending from the housing end wall 13 through the pressure chambers 17 and the pressure plate 7 centering pins are dispensable.

September 26, 1968

Aj / kl file 4601

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Claims (1)

Patent claims: 1J rotary lobe machine, especially rotary lobe pump with arranged in a housing conveyor members for the formation of Delivery cells, one centered in the housing, axially displaceable Cam ring, one in this rotatable rotor with substantially radially displaceable vanes, and with two in the housing centered, can be acted upon by the pressure medium on the pressure side of the rotary piston machine and is under the action of the pressure force Pressure plates which are sealingly applied to both sides of the conveyor links, characterized in that the two pressure plates (7, 8) relative to the rotor (3) and the cam ring (6) are axially displaceable that the pressure medium can be acted upon Piston surfaces (13> 14) of the pressure plates are unequal are, and that a shoulder (32) is formed on the housing (1), against which the one with the smaller piston surface (13) is provided Pressure plate (7) is supported. 2. Rotary piston machine according to claim 1, characterized in that on the housing (1) in a manner known per se a protruding into the inner T & nm of the rotary piston machine, via an approach (27) on the drive-side pressure plate supported on the housing (1) (7) engaging projection (28) is formed, and that the end face (58) by a seal (25) between projection (28) and approach (27) completed against the pump pressure chamber (17) is. 909839/0769 New documents * «·.« »« '■ · * «. *. * - BATH 3 «rotary piston machine according to claim 1 and 2, characterized ;, that the pressure plates (7 and 8) are differently thick "dimensioned» 4 ο rotary piston machine according to claim 1 to 3, characterized thereby ρ that there are at least two bearings (19-71) to support the drive shaft (2), one of which (71) through the drive-side pressure plate (7) centering in the housing (1) is formed. 5 ο rotary piston machine according to claim 1 to 4, characterized in that that for centering the rotor (3) the shaft mounted in the drive-side pressure plate (7) with its shaft bearing seat (76) is extended beyond the bearing surface (71) of the end plate, and that on this extended shaft bearing seat the rotor centered with a corresponding hole = 6 ο rotary piston machine according to claims 1 to 5? characterized in that the parts of the end faces of the cam ring (6) located in the suction chamber (21) have bevels (26, 26 ') ^{in the area of the recesses (42, 42!) present in the pressure plates (7s. 8) «,} September 26, 1968 A / kl file 4601 BATH ORIGINAL 909839/0769 / ι Blank page