NL8100705A - ROTARY SHOT PUMP OR MOTOR. - Google Patents

Description

ï .'- V-, f - 1 -

Rotary vane pump or motor *

The invention relates to a rotary vane pump or motor, comprising a circular cylinder rotor with slotted rotor in which blades are gigdendly alloyed, the rotor being eccentrically mounted in an internal circular cylinder housing which is closed at the end by internally flat lids.

These rotary suction-press pump assemblies have long been well established, not only as a pump, but also used as a pneumatic motor. Both designs have found wide application, despite often low efficiency due to internal leakage and dependence on the chain. speed, for timely outward movement of sck *

The object of the invention is to considerably improve the efficiency of the sub-construction, while retaining the existing advantages. Due to this improvement, the field of application of the pump as well as of the motor can be further expanded, the efficiency of which. the construction is enlarged, and / or a more compact construction is chosen, whereby a less accurate dimensioning of the constituent parts and / or a less careful assembly than is possible * 20 The improvement of the pump construction or of a similar pneumatic motor is obtained by the paddle movement independent of ket. speed, while ensuring good sliding seals between pump housing and rotor as well as vanes »

The invention is explained in more detail with the aid of the figures, wherein the features and advantages of the invention emerge with regard to the treatment of particularly favorable embodiments.

Figure 1 is an exploded view of a simple embodiment of a rotary vane pump or motor according to the invention, of which all essential components are depicted. The vanes control means are formed by a schgf fixedly connected to the pump housing covers or cam, while the sliding seal between the ends of the rotor and the pump housing covers is obtained by segment plates between the blades, which are resiliently mounted in annular chambers in the ends of the rotor. The 35 sockets themselves are so to the pump housing covers and the so-called padded recesses facing the pump casing inner wall provided with resilient sealing strips * 81 00 70 5 --2- v 4 figure 2 is a schematic representation * of a section, yam an embodiment according to the invention in cross-section, in which a centric chamber in the ends of the rotor a loose rotating ring between the ends of the shaft directed towards the shaft. the blades 5 are present, which provides the blade control.

Fig. 3 schematically shows an embodiment of the blade control by a loose rotating ring, operating in an "cut-out corner". the ends of the. shaft, facing, side of blades, blades and ring separate. completed.

Property k gives a schematic embodiment according to the invention, in which the blades are provided with a notch or recess on the sides facing the pump housing covers, into which a loose control falls, with which the blades both outwards and inwards during rotation. are moved * 15 Diagram 5 shows schematically, an embodiment of the impeller control, in which the pump housing cover is provided with a round, hub, the outer circumference of which is centered relative to the inner wall of the pump housing, why: the cam ring is rotatably alloyed

Figure 6 schematically shows an embodiment. according to the invention in which portions of the blades facing the control members have a broadening, owner, thereby increasing the interface of the blades with the control members, and the differences caused by the. eccentric alloy of the rotor in it. pump casing are compensated * 25 Property T schematically gives an embodiment :, of. de: sliding seal between the. ends of the rotor and pump housing covers according to the invention, formed by wear-resistant and self-lubricating segments alloyed in an annular chamber in the rotor between the blades, which are pushed against the pump housing cover by resilient means *.

Figure 8 schematically shows an embodiment of a sliding seal; connection between the rotor sides and the pump housing cover according to the invention, in which the rotor is provided with shallow chambers close to the outer circumference of the rotor. This comprises a disc of wear-resistant and / or self-lubricating sealing material, which is provided with slots identical to the blade slots in the rotor and a central round opening for the. rotor shaft, while this disc is held by resilient means against the nearby pump housing cover.

'8 1 00 70 5 - .. 3 - V- #

Figure 9 shows schematically, one. embodiment vair a. sliding sealing connection between the rotor ends and the pump housing covers according to the invention, formed by a cover-like member which glides over one end of the rotor with a smaller diameter than the rotor body, which lid-shaped member is provided with identical slots as the Slides in the rotor and a central opening that can slide over the rotor shaft with sliding fit. the lid relative to the rotor, and springs around the dowel pins keep the lid-shaped member in tight contact with the pump housing lid.

Ligature 10 shows in an exploded view an embodiment of the seal between the side of the rotor and the pump casing cover according to the invention, formed by an annular member provided with gate-shaped recesses for the passage of the blades * which have been partially inserted in an annular chamber in the rotor and with the portion protruding outside the rotor with a sliding fit in a corresponding annular chamber in the rotor. pump housing cover, falls ..

Figure 11 schematically shows an embodiment, for the sliding-seal sealing connection between the rotor and the pump housing cover, according to the invention in cross-section, where the rotor is parallel to the. the outer circumference has an edge of greater length than the pornp house interior wall, the edge of which with sliding fit falls into an annular chamber provided with a wear-resistant seal in it. pump-25 casing cover.

Ligature 12 schematically shows a vane according to the invention in front and side view, wherein the vane is provided with a slit-shaped recess in which three separate sealing strips are mounted with sliding fit, which are supported by.

30 by means of a light spring pressure. sealing disturbance with the cylinder wall and pump casing covers are maintained.

Figure 13 schematically shows the version of the blade with sealing strips according to Figure 12 in cross section, with the spring pressure for the. several strips, is achieved with a single spring.

Figure I schematically enter an embodiment of the sealing strips. the vanes according to the invention in perspective, whereby an uninterrupted sealing connection is obtained between the vane and pump housing walls.

Figure 15 schematically shows a blade with the sealing members of Figure 15 in section, showing the weather pressure in the direction of the cylinder wall and pump housing covers with a. steel twist & spring »

Figure 16. shows one. schematic embodiment of. a pump 5 according to the invention, in which the pump housing, viewed in the direction of rotation of the Setter, is provided with additional bores behind the inlet opening and in such a way that at least one is always present in these bores between the inlet and outlet openings. paddle. These bores are interconnected by a closed channel »8 1 00 70 5

Claims (8)

4. Pump according to claim i mat. it is characterized that at least in one of the end walls of the rotor (8) a round chamber (11) is present centrally, in which a loose disc (13) or loose cam ring (14) with on the internal cylinder wall (2) of the. pump casing (l) parallel circumference is present and - of all. blades (1Q) are sliding-fitting parts between the disc circumference (15) or cam circumference (10) and the inner wall ^ 25 of the pump housing (1) are alloyed. 5 * Pump according to claim 4 «, characterized in« that the cam ring (14) is rotatably alloyed to fix one with it. pump housing cover (3) connected round hub (17) - 6. Pump according to a. of claims 1-5 «characterized in that in. 30 an end wall. of the. rotor (8) centrically has a round chamber (11.) - in which a loose, round disc (13) with the. internal d-linder wall (2) of the pump housing (l) with parallel perimeter and of the blades (10) slidingly fitting between the disc circumference (15) and the inner wall (2) of the. pump housing (l) is alloyed, while the rotor shaft (5) is rotatably mounted in the pump housing cover (3) at the other end only- Pump according to any one of claims 1-6, characterized in that the blades (1Q) slide against the cam rings (14) or the discs (12 or 13). 8 1 00 70 5 - 6 - * S 'des; right away. to the. ro & oras (5) facing side of a recess (1 J which is fitted inside, the outer circumference of the rotor (8) in the blades (10), * Pump according to any one of claims 3-5, characterized in that the; 5 blades (10). The ends of the rotor (8) facing the rotor shaft (5), inside the outer circumference, of the rotor (8) in the side ricked to the pump housing covers C 3), have a notch or recess (19)} d ± e the rtok ring (14) at least in part. 9. Pump according to any one of claims 1-8, characterized in that parts (20) of the blades (10) directed towards the control members (12, 13, 14 or 17) are wider than the thickness of the blade body * . Pump as claimed in any of the claims 1-9, characterized in that between the ends of the rotor (8) and the pump housing covers (3) within the outer circumference of the. rotor (8), abutments (21) of wear-resistant material are present between the blades (10) * 11. Pump according to claim 10. characterized in that the seal between the ends of the rotor {8) and the pump cover caps C3) wedge-shaped. segment plates (22) of abrasion resistant material between the blades (10) are positioned, with the ends of the segments (22) resting against the blades (10), while the segment and (22) are alloyed in an annular frame mer (23) die. centrally mounted in the end wall of the rotor (8) and. resilient means (24) the. push segments (22) against the nearby pump housing cover (3) * Pump according to claim 10, characterized in that. of the seal 23 between the ends of the. rotor (8) and the. pump casing covers. (3) is formed by a round disc (25) of abrasion resistant sealing material recessed in. a round chamber (26) arranged centrally in the end wall of the rator (8), the disc (25) being interrupted by slots (27) connecting to the vane slots (9) in the. rotor (8) and a central lap. opening (28) the rotor shaft (5) through; and the sheave (25) by spring means (24) outwardly to the near. pump cleaning cover (3) is pushed * Pump according to claim 10, characterized in that the seal between the ends of the rotor (8) and the. porch house covers (3) is * 35 formed by * a lid-shaped member (29) which glides over one end (30) of the rotor (8), which end (30) a smaller one. diameter then has the rotor body (8), such that the outer diameters of the cover and the rotor body are equal, the cover (29) being removed from the rotor body (8) by resilient means (24) 8 1 00 70 5 - 7 - ¢ - * is stowed and. one or more guides (31) are present which prevent rotation of the cover (29) relative to the rotor <8). Pump according to claim 10 «characterized in that the seal 3 between the ends of the actuator (8) and the pump housing lids (3) is formed by an annular member (J> 2) of wear-resistant sealing material the rotor side is provided with corresponding recesses (33) for the passage of the blades (10) yten. Alloyed in an annular chamber (34 ·) mounted centrally in the end wall 10 of the rotor (8), and rotatable on the other side in a corresponding annular chamber (35) in the pump cleaning cover (3) ► Pump as claimed in claim 10. characterized in that the rotor (8) has a greater length than the internal length of the pump housing 15 (1) and the blades (10), the length of the rator (8) extending outside the blades (10) being rotatably let in in a chamber (37) through the pump housing cover (3), while between the end wall of the impeller (8) and the chamber (37). the pump housing cover (3) has a resilient seal (38) or highly viscous grease * 20 l6 * Pump according to claim 10, characterized in that the vanes (1Cj) on the sides facing the pump housing covers (3) over the entire length have a slotted recess (41) in which a strip (42) of wear-resistant sliding fitting material is alloyed and. resilient means (43) pushing the strip (42) outwardly against the adjacent punch housing cover (3) - 17 # Pump according to claim 10, characterized in that the siphons (1Cj> on the inner wall (2) of the entire length of the pump housing (1) is provided with a slotted recess (44) in which a strip (45) of wear-resistant sealing material is alloyed and resilient means (46) the strip (45). ) pushing outward towards the inner wall (2) of the pump housing (1) * 18. Pump according to claims 16 and 17, characterized in that the slit-shaped recess (41) on the sides facing the pump housing covers (3) and the recess (44) on the side of the vanes (10) facing the Mnnen wall (2) of the pump housing (1) is a continuous slotted recess (47), containing a strip (48) of wear-resistant sealing material with sliding fit is alloyed between the seal atrippeni 42) near the pump housing covers (3), and resilient means (46) the stud (48) to the nursery house inner wall (2) and 8 0 0 70 5 4 w - a - resilient parts (43) push the: str ± ppen (42) to the nearby pump housing cover (3). Pump according to claim. 18, with the following characteristic: that in the: continuous slit-shaped recess (47) in the wedges (10) with sliding fit two snag-shaped; a £ sealing strip (49). alloy, the ends of which overlap on the side facing the pump housing inside (2) with, on the spot, thinner strip sections (50), and. spring, (43) on (46) the sealing strips. (49) to the adjacent pump tube covers (3) and the pump housing inner wall (2) s.tu-10. A pump according to claims 18 and 19, characterized in that the; diminish the signs (42 and 48) or (49). the three vane sides spring-directed outward pressure. encountered by a single i-shaped. spring ('51) from. resilient wire, which includes an outwardly directed bend in the sides facing the pump housing covers 15 (3) and on the sides. pump housing inner wall (2) facing side includes two outwardly directed bends- Pump according to claim 18, characterized in that, the ii-shaped spring (51) is hook-shaped at the ends (52) and these hooks (52) behind the ends of the rotatable shaft (5) facing the rotational axis (5). grip strips (42). Pump according to any one of claims 1-21, characterized in that in the. circular cylindrical. pump casing (l) between the inlet and outlet are the bores (53) and (54-) which are connected by a closed channel (55 )- 8 1 00 70 5