This application claims priority under 35 U.S.C. §119 to German patent application no. 10 2010 015 189.0, filed Apr. 16, 2010 in Germany, the disclosure of which is incorporated herein by reference in its entirety.
The disclosure relates to a machine housing of a hydraulic machine.
DE 34 25 013 C2 discloses a machine housing of said type. Said machine housing has an approximately pot-shaped housing section for accommodating a drive gear of a rotary piston pump, which housing section is closed off by a housing cover. The housing cover has a projection which has a round cylindrical cross section and which, to center the housing cover, protrudes with low manufacturing tolerances into an interior space, which likewise has a round cylindrical cross section, of the housing section. Here, the projection is rotationally symmetrical with respect to a drive shaft of the rotary piston pump. The housing cover is fixed to the housing section by means of four screws which are arranged adjacent to the projection and which, for reasons of strength, are arranged rotationally asymmetrically with respect to the drive shaft. It is a disadvantage here that the centering of the housing cover entails a high level of manufacturing technology outlay and therefore high production costs.
EP 0 421 020 B1 presents a further machine housing for a hydraulic machine. The hydraulic machine is a gearwheel-type machine whose drive gear is accommodated in a hollow cylindrical housing section which is closed off on both end sides by a housing cover. A respective housing cover is fixed to the housing section by means of four screws and is positioned by means of in each case two dowel pins or centering pins. The dowel pin positions and the screw positions each have twofold rotational symmetry with respect to a common axis. As a result, it is possible for a respective housing cover to be mounted incorrectly by being mounted on the housing section having been rotated through 180 degrees with respect to the axis. The incorrect mounting can lead to damage during use of the hydraulic machine, or additional outlay in terms of assembly is required in order to arrange the housing cover correctly.
In contrast, the object on which the disclosure is based is that of providing a machine housing for a hydraulic machine, which machine housing can be produced cost-effectively and mounted securely.
Said object is achieved by means of a machine housing having the features set forth herein.
According to the disclosure, a machine housing for a hydraulic machine has a housing section for accommodating a drive gear of the hydraulic machine. To close off the housing section, a connection plate is provided which is connected to the housing section by means of screws. To center the connection plate on the housing section, two centering pins or dowel pins are provided between the housing section and the connection plate. Here, dowel pin positions have twofold rotational symmetry with respect to a shaft axis of a drive shaft of the hydraulic machine, whereas screw positions do not have rotational symmetry with respect to said shaft axis.
Said solution has the advantage that incorrect mounting, such as can occur in the prior art explained in the introduction, is prevented with little outlay in terms of equipment and therefore low production costs, because the connection plate can be screwed to the housing section only in a single position. High time and cost outlay resulting from incorrect mounting can therefore be avoided. Furthermore, as a result of the twofold rotational symmetry of the dowel pin positions, simple manufacture of the dowel pin receptacles is made possible, and outlay in terms of alignment for the dowel pin positions is extremely low, as a result of which extremely low tolerances of the dowel pin positions are made possible with little outlay in terms of manufacturing.
It is preferable for four screws to be provided which are arranged approximately at corners of a geometric rectangle, the central point being offset relative to the shaft axis.
In a further embodiment of the disclosure, the screw positions have an approximately equal spacing to a first plane. Said first plane extends approximately through a pivot axis of a pivotable swashplate of the drive gear of the hydraulic machine and approximately parallel to the shaft axis.
The screw positions may also have an equal spacing to a second plane. Said second plane runs approximately through the shaft axis and approximately orthogonally with respect to the pivot axis of the swashplate.
It is preferable for the pivot axis of the swashplate to extend approximately perpendicular to and be spaced apart from the shaft axis. In this way, the swashplate is subjected to a torque about the pivot axis imparted by pistons which are supported on the swashplate, as a result of which only one actuating piston of an actuating cylinder is required for imparting a counteracting torque.
The hydraulic machine is preferably a swashplate-type axial piston machine.
Further advantageous refinements of the disclosure are provided herein.
A preferred exemplary embodiment of the disclosure will be explained in more detail below on the basis of schematic drawings, in which:
A drive shaft 8, which protrudes to the left in
Two approximately semi-circular bearing shells 14, 16 which are parallel to and spaced apart from one another in the region of the housing base are formed in the housing section 2 laterally offset with respect to the shaft axis 12 to the left and right in
As a result of the spacing of the pivot axis 18 from the shaft axis 12, easier adjustment of the swashplate is made possible because the pistons which are supported on the swashplate—and which are arranged rotationally symmetrically about the shaft axis 12—are spaced apart differently from the pivot axis 18. In this way, a resultant torque acts about the pivot axis 18 on forces transmitted from the piston to the swashplate, which resultant torque needs to be counteracted with a counteracting torque only by one actuating cylinder for adjusting the swashplate. In
Proceeding from an end side 20 of the housing section 2, a threaded bore 30, 32, 34 and 36 for receiving a screw for screwing the connection plate 4 from
In
To mount the connection plate 4 on the housing section 2, dowel pins (not illustrated) are inserted into a dowel hole 50, 52 of the connection plate 4 or into a dowel hole 38, 40 of the housing section 2. In the assembled state of the connection plate 4 and of the housing section 2, these are centered with respect to one another with extremely low tolerances by means of the dowel pins. To fix the connection plate 4 to the housing section 2, screws are then inserted through a respective through opening 42 to 48 of the connection plate 4 and screwed into a respective threaded bore 30 to 36 of the housing section 2.
As a result of the twofold rotational symmetry of the dowel holes 38, 40, 50, 52 with respect to the shaft axis 12, and the threaded bores 30 to 36 and through bores 42 to 48 which do not have rotational symmetry with respect to said shaft axis, incorrect mounting as can occur in the prior art explained in the introduction is no longer possible.
As a result of the twofold rotational symmetry of the dowel hole 38 to 52, these are easy to manufacture, and easy alignment of their positions is made possible.
Disclosed is a machine housing of a piston machine, which machine housing is formed in two parts. The machine housing has a main housing which is closed off by a connection plate. Here, the connection plate is screwed to the main housing by means of a plurality of screws, and is positioned with low tolerances with respect to said main housing by means of two centering pins. Here, the centering pins are arranged with twofold rotational symmetry with respect to a shaft axis of a drive shaft of the piston machine. In contrast, screw positions do not have rotational symmetry with respect to said shaft axis. This prevents incorrect mounting of the connection plate.
Number | Date | Country | Kind |
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10 2010 015 189 | Apr 2010 | DE | national |
Number | Name | Date | Kind |
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3527552 | Lincks et al. | Sep 1970 | A |
4018139 | Landreau | Apr 1977 | A |
4634354 | Dantlgraber | Jan 1987 | A |
5671653 | Martensen et al. | Sep 1997 | A |
20090013864 | Mohn et al. | Jan 2009 | A1 |
Number | Date | Country |
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3425013 | Jul 1987 | DE |
0421020 | Apr 1991 | EP |
Number | Date | Country | |
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20110252958 A1 | Oct 2011 | US |