DE1848088U - BALL PUMP OR MOTOR WITH HYDRAULIC ACTUATION. - Google Patents

Description

Description "Ball pump or motor with hydraulic actuation".

The innovation relates to ball pumps or motors with hydraulic Actuation with a rotatable cylinder block, which with several generally radial cylinders is provided, in each of which a spherical piston works, its Stroke is controlled by a cam ring, which the cylinder block with radial play surrounds, the cylinder channel inserts controlled by a stationary pivot pin are arranged coaxially within the cylinder block and with a medium inlet and outlet channels is provided.

In British patent applications 22 147, 22 148, 22 149 (from the Years 1959) is a method for precisely locking the sleeve or liner in the Cylinder described, which consists of a gradation of the cylinder bore, so that whose inner end has a slightly larger diameter than that Has outer end and the outer surface of the liner is shaped accordingly. The radial height of the shoulder on the gradation is dimensioned so that the section the larger diameter liner through the end of the cylinder bore with the smaller diameter while maintaining a sufficient temperature difference can be inserted between the parts. At the same time are the axial lengths the sections of the cylinder bore with the larger diameter and the liner sufficiently different so that the liner between the shoulder and the inner end is detected axially compressed when the cylinder block and the Liner have reached the same temperature.

It has now been found that clamping or wedging the liner is not necessary in the longitudinal direction; also the accuracy, on which the length of the sections of the cylinder with the larger diameter and the liner must be machined to create the axial compression, can be reduced significantly, so that there are consequent advantages in terms of costs and the processing time. The innovation therefore creates a combination of one Cylinder bore and a liner, both of which are stepped to have sections create larger diameter at the inner end of the cylinder, the diameter of the interior section the liner is larger than that of the outer section of the cylinder bore and the axial length of the section of the cylinder bore with larger diameter is greater than the axial length of the corresponding section the liner. Preferably the radial height of the step or shoulder is between the sections on the liner so that the largest diameter through the section of the cylinder bore with the smaller diameter pushed through if the parts are under sufficiently different temperatures.

There is also preferably a small radial clearance between the section the liner with the larger diameter and the corresponding section of the Cylinder bore provided.

The diameters of the sections of the cylinder bore are expediently with the smaller diameter and the liner chosen so that the liner represents a slight interference fit in the cylinder bore over this section which is sufficient to produce and ensure a considerable radial engagement, that the shoulder on the outside of the liner fits into the corresponding shoulder the cylinder bore can detect inadvertent pulling out of the liner to prevent from drilling during operation.

Practical embodiments of the arrangements described above will be made explained in more detail below, namely as exemplary embodiments of the innovation below Reference to the drawings; these show in: FIG. 1 a partial sectional view a generally schematically illustrated embodiment by a cylinder with an inserted liner and FIG. 2 is a partial sectional view similar that of Fig. 1 of a modified embodiment.

Referring first to Fig. 1, a cylinder block 1 of e.g. B. a ball pump or a motor with several radial or substantially radial Cylinders 2 (only one is shown), each of which has a bore, which is stepped on an inner shoulder 3 so that an inner end 4 with a larger diameter than the outer end 5 results. There is a sleeve in this cylinder or liner 6 made of a hard material with a low coefficient of friction, such as B. tungsten carbide, inserted, the inner edge of which has a constant diameter has, but the outer wall is stepped in a similar manner at 7, so that an inner end wall portion 8 having a larger diameter than the outer end wall portion 9 is created. Both are easy tight fits into the respective inner and outer Sections 4 and 5 of the cylinder bore. In this way the liner is against accidental removal from the cylinder bore without the need for high radial compression on the liner 6 secured.

One of the shortcomings of the arrangement described above is that Need for precise internal machining of the two almost identical diameters on the cylinder wall.

Fig. 2 shows a modified embodiment, according to which the Inner end 4a of the cylinder bore with a larger diameter is longer and a larger one Has a diameter than the corresponding inner end portion 8a of the sleeve 6a, so that there is play on the diameter and lengthways between the two inner ones End sections 4a, 8a arise. At the same time, the outer end section 9 has the bushing a slight interference fit in the outer portion 5 of the cylinder bore; this fit is therefore primarily chosen to make the sleeve against a radial rather than against an axial displacement under the normal normal working conditions of the machine to keep. With this arrangement it has been found easier to maintain the parallelism the bore of the sleeve 6 to maintain. The height of the shoulder 7 on the sleeve 6 is still sufficient to ensure that it has the shoulder 3 in the cylinder bore can detect under normal conditions of use, so that you can be sure of a opposes axial displacement of the sleeve outward.

In any case, the liner section has a larger diameter 8 or 8a has an outer diameter such that it is through the outer portion 5 passed through the cylinder bore or-can be plugged, when the parts are under sufficiently different temperatures.

The ball pump or motor is essentially the same as that described and illustrated in the Complete Specification of British Patent Applications 22 147, 22 148 and 22 149 of 1959 except that the construction of the liners and cylinder bores are in accordance with the previous description. Protection claims: P.

Claims (4)

Protection claims: = = = = = = = = = = = = = = = = 1. Ball pump or motor with hydraulic actuation with a rotatable cylinder block which is provided with a plurality of generally radial cylinders, in each of which a ball piston works, the stroke of which is controlled by a cam ring which surrounds the cylinder block with radial play, the cylinder channel inserts are controlled by a stationary pivot which is coaxially arranged within the cylinder block and provided with medium inlet and outlet channels, characterized in that each cylinder has a sleeve or liner of hard material with a low coefficient of friction, the outer surface of the liner and the wall of the cylinder bore are stepped so that enlarged diameter portions are formed at the inner end of the cylinder and that the diameter of the inner portion of the liner is greater than that of the outer portion of the cylinder bore and the axial length of the enlarged diameter portion of the cylinder bore diameter is greater than the axial length of the inner portion of the liner. 2. Pump according to claim 1, characterized in that the diameter of the inner portion of the liner is dimensioned so that the inner portion the liner can be guided or plugged through the outer section of the cylinder bore is when the cylinder is under a temperature sufficiently higher than that the liner is. 3. Pump according to claim 1 or 2, characterized in that a radial Clearance between the inner section of the liner and the inner section of the Cylinder bore is provided. 4. Pump according to one of the preceding claims, characterized in that that the diameters of the outer portions of the liner and the cylinder bore are chosen so that the liner has an interference fit in the cylinder bore the outer section has.