DE1043230B - Hydraulic machine - Google Patents

Description

Hydraulic machine The invention relates to a hydraulic machine, which can be used as a motor, a pump and also as a brake, like the known capsule pumps to which the new machine is related.

As is known, capsule pumps essentially consist of a housing, in the interior of which the rotor of the pump is eccentrically mounted, which has a circular cross-section and is closed off by the cover (s) of the housing. The rotor, which usually also has a circular cross-section, is provided with blades that are longitudinally displaceable in it in the radial direction, the ends of which rest against the inner wall of the housing, usually under spring pressure, and are displaced by the same during the rotary movement of the rotor with respect to the same. The rotor is usually arranged in the housing in such a way that its outer surface touches the inner wall of the housing, and the connecting pieces of the machine open into the interior of the housing on both sides of this linear contact point. The upper and lower edges of the wings rest against the flat bottom part and the cover of the housing is liquid-tight. As is known, these pumps can also be used as motors. where the operating fluid 01 is used, which also takes care of the lubrication.

In order to improve such machines a hydraulic machine is already known which comprises a rotatable cylindrical rotor, which is arranged together with its same radial longitudinally movable vanes in a housing, the rotor nd at its Innenwa "with its circumferential surface at a between denZu- and Outflow channel mouths located and the end surfaces of the rotor together with the upper and lower edges of the wings resting with their ends on the inner wall of the housing are in contact with the base and cover surfaces of the interior of the housing and the rear cross-sectional delimitation lines of the housing at two opposite points are circular arcs with an identical center and identical Central angles, but different radii and on the parts preventing these two circular arc-shaped parts from each other are Archimedean spiral lines, the geometrical axis of the rotor shaft going through the identical center of the above circular arc-shaped lines, the rotor radius s corresponds to the smaller radii of the above, the rotor having at least two vanes and the area enclosed by each two adjacent vane angle is smaller than the center angle of the above circular arc-shaped lines and the voice of the radii of curvature corresponding to the same length of the wings.

This improvement in the machine ensures well-sealed contact surfaces between the rotor jacket surface or the wing tips and the precisely machinable ZD zvlindrischen inner wall parts of the housing and leaves the wings during the relatively long periods in which they touch the cylindrical inner wall parts of the housing, stand still with respect to the rotor. If at the by the Archimedean spiral lines limited inner wall parts of the housing overflow channels are also present a constant torque or even liquid delivery ensured, in addition to your further advantage that the blades in the rotor are only in their non-working, thus practically unencumbered states are shifted.

The invention further improves such a machine in that the The rotor is provided with an axial overflow bore connecting the grooves for the blades is that by a fixed to the rotor, at the same time the bearing of the rotor is covered in which a housing cover serving trunnion while the one-piece rotor with the rotor shaft and a collar by means of the Federal is stored in the other housing cover.

The invention provides the advantage that the oil in the rotor one Chili tablets for the rotor blade, ie behind the wings is subject to no compression, because it can move together in the incisions with the wings, simple back and lierströmt and exerts so no Breinswirkung, because when the rotor rotates, it only flows from the incision of one wing into the incision of another wing. This makes the work of the machine easier and improves its efficiency. The machine according to the invention with the advantage achieved by the design is described in more detail in an exemplary embodiment with reference to the drawing. In the drawing, Fig. La, a Ouerschnitt, Jaler County-sschnitt by the 'Ma Figure lb a ix machine, Fig. 2a is a side view, Fig. 2b shows a plan view of the rotor, Fig. 3 a is a side view and Fig. 31) the top view of a grand piano.

The rotor 2 is rotatably arranged in the housing 1. In the two radial slots 3 (FIG. 2b) thereof which are at right angles to one another, the two wings 14 are arranged to be longitudinally displaceable and, due to their shape shown in FIG. 3b, can move unhindered from one another. Their length is the sum of the two radii of curvature r and r2 (Fig. 1 a) of the opposing cylindrical housing el inner wall parts equal. The radius of curvature r. of the housing inner wall part having the central angle a and the contour line x is identical to the radius of the rotor 2, and a is greater than 90 ', since the vanes 4 enclose an angle of 90' with each other, the radius of curvature r 2 of the housing inner wall part showing the contour line 3 is greater than il 'the central angles a of both wall parts are identical to one another. The zeometric axis of the rotor shaft 14 passes through the identical center of curvature of the wall parts having the arcuate contour lines x and y. The inner wall parts of the housing lying between the above two cylindrical wall parts have outlines U and TV, which are Archimedean spiral lines identical to one another, and the central angles of these elements are also identical to one another. This design of the housing ensures that the distance between the mutually opposite points on the inner wall of the housing, measured along any line crossing the geometric axis of the point 14, is constant. As a result, the wings 4 can each consist of one piece and can be moved through the inner wall of the housing without the use of resilient intermediate members. This simplifies the construction and increases operational safety and efficiency.

The inflow and outflow channels 5 and 6 open into the interior of the housing 1 at the two ends of the contour line X and at the beginning of the contour lines U and TV. The inflow and outflow lines connected to the same can be interchanged in order to change the direction of rotation of the machine. If the channel 5 serves as an inflow channel, the rotor 2 rotates in the direction of the arrow 7. The connection of the inflow and outflow lines, not shown in the drawing ZD, takes place in the usual U-shape by means of threaded connectors.

Through this. (the central angle of the circular passage A-1) oe.iifi3rni, -eii contour lines X and Y having Gehätiseiniie # - wall parts is larger than the through two adjacent F] -,>;, - el 4 is included angle, a. !> iChe..er 'lu, ##,;., i # eitsdichtei- conclusion between the wings and de- Gehätisewand or the under ver - # chiedenem pressure Rise - identical parts reaches of the case, since in this arrangement always two wings contact the Yzeigenden the outline part of the housing wall, along which the -'1.r1) ei, sleistun- This is achieved in that in the contour lines (-. 'TV and displayed housing wall parts at the NMündungen of the channels 5 and 6 subsequent grooves 9 milled through through which the operating fluid can flow past the wings 4 touching each of these housing wall parts. Therefore, there is no pressure difference on the two sides of the wings. Instead of these grooves, however, channels 5 and 6 with the ends of the cylindrical inner wall partially the Uinrifflinie Y connecting overflow channels are used. The advantage of this design of the housing is, on the one hand, that the cylindrical wall parts can be machined precisely and that the torque of the machine is constant, since the effective, under pressure: different wing surface along the line Y is constant, and also that in during the working periods of the blades there is no displacement of the same with respect to the rotor. These facts are wichti e advantages of the machine, which offer their versatile 9 Verwendungsmö'glichkeiten.

The two figures 4 have identical shape and dimensions and can move freely from one another in the grooves 3 of the rotor 2, since the height according to their incisions is slightly more than half of their total height h (Fig. 3b), and the two blades can are placed in the grooves 3 with mutually facing incisions of a corresponding length. The end plate 10 fastened to the rotor 2 by means of the screws 10 serves on the one hand to prevent any deformation of the rotor and on the other hand also to support it in the housing cover 12, while its support in the other housing cover 13 takes place by means of its cylindrical part 16. The shaft 14 of the rotor passing through the cover 13 is sealed by means of the seal 15. The covers 112 and 13 are fastened to one another and to the housing 1 by means of the screws 18. In order to secure the wings partly free movement and partly sufficiently large contact and sealing surfaces in the rotor grooves 3 , the length 1 (Fig. 3 b) of their rectangular cuts is greater than the difference in the radii of the cylindrical parts of the interior of the housing, but smaller than that Rotor radius, it is therefore rl > 1 > r2 - ri-The above-described arrangement of the blades together with an overflow channel 19 offers the advantage that the 01 located in the grooves 3 , as mentioned above, is not subject to compression because it is moves in the incisions of the wing 4 together with the wings and therefore does not exert any Breitiswektiven, but on the occasion of the rotational movement of the rotor 2 only flows over from the incision of one wing into the incision of the other. The bore 19 (FIG. 2b) is used for this, the gap secured by the already mentioned dimensioning of their incision heights h being provided between the wings. This overflow can take place unhindered even if the machine has more than wings. In this case, the central angle a shown in the drawing is smaller, but should always remain larger than the angle enclosed by two adjacent wings.

The machine of this type has numerous uses. You can z. B. are advantageously used on machine tools as the main and / or auxiliary drive, especially if they are subsequently converted for hydraulic actuation. Also, the use of the hydraulic machine in motor vehicle construction is possible and advantageous, since it can replace the usual Ausigleichgetriebe (differential gear) together with the speed-change gearbox and clutch by j edes driven wheel single drive by a respective inventive hydraulic motor, advantageously by means of a gear transmission, receives. The individual hydraulic motors are connected to the pressure oil line in parallel to one another and accordingly automatically exert the necessary balancing effect between the individual driven vehicle wheels. Since the pressure line can be fed by a pump with a variable delivery rate driven by the vehicle engine with variable speed, this enables simple speed control within wide limits and starting without the use of a clutch, both in advance and in reverse, since the direction of rotation of the lu, -draulic Älotore - by interchanging their inflow and outflow lines - can be easily changed and the delivery rate of the feed pump can be regulated to zero.

The machine can also be used excellently as a hydraulic brake if the inlet and outlet nozzles are connected to one another by an adjustable throttle valve. To actuate such a valve, only the very little effort required to adjust the throttle valve is required, and the braking effect can be precisely adjusted. This is why the new machine can be used for both; Vehicles as given and valued at Brernsstands .

With the above examples, however, the simple -Construction, high operational safety and good efficiency of the machine given numerous possible uses of the same are by no means exhausted, since she z. B. can also be used advantageously as a pump. In this case it is in particular their perfectly uniform liquid transport is valuable.

Claims (1)

PATENT CLAIM Hydraulic machine with a rotatable cylindrical rotor, which is arranged together with its in the same radially longitudinally displaceable vanes in a housing, on the inner wall of which the rotor rests with its outer surface at a point located between the inflow and outflow ducts and the end surfaces of the rotor together with the upper and lower edges of the wings lying with their ends on the inner wall of the housing rest on the bottom and cover surfaces of the housing interior and the inner cross-sectional delimitation lines of the housing at two opposite points are circular arcs with an identical center and identical central angles, but different radii and at the These parts connecting two circular arc-shaped parts are Archimedean spiral lines, the geometric axis of the rotary shaft going through the identical center of the above circular arc-shaped lines, the Rütor radius corresponding to the smaller of the above radii, the red or has at least two blades and the angle enclosed by two adjacent blades is smaller than the central angle of the above circular arc-shaped lines, the sum of the radii of curvature corresponds to the blade length, characterized in that the rotor (2) with one of the grooves (3 ) is provided for the blades (4) connecting axial overflow bore (19) , which is covered by a bearing pin (10) which is fastened to the rotor (2) and at the same time serves to support the rotor (2) in the housing cover (12), during the with the rotor shaft (14) and. a collar (16) is supported from a piece of existing rotor by means of the collar (16) in your other housing end cover (13). Considered publications: German Patent Nos. 848 889, 835 120, 455 543; British Patent No. 341,337; U.S. Patent Nos. 2,347,944, 2,312,886, 2272635.