DE3330803A1 - Feed element - Google Patents

Abstract

The feed element (10) according to the invention for a radial piston engine is formed in one piece and comprises a slide shoe (12) and a piston (11). The latter is slidably carried in a through bore (16) of a cylindrical roller (17). This bore (16) intersects a cylinder bore (18) running relative to the longitudinal axis of the cylindrical roller (17). The cylindrical roller (17) is supported in a recess (20) of a cylinder block (19) and performs swivel movements. Simple and cheap to manufacture, the cylindrical roller (17) serves as joint for the piston, which is largely pressure-compensated. <IMAGE>

Description

Conveyor element

PRIOR ART The invention is based on an element according to FIG Genre of the main claim. Such a known element is designed in several pieces. It is therefore complex and expensive to build and increases the diameter of the radial piston machine. In addition, the joint is subjected to compressive forces.

Advantages of the invention Because the element according to the invention with the characterizing Features of the main claim has the advantage that it is in one piece and that no compressive forces act on the joint. The manufacture of the egg is simple and can be done rationally so that it is cheap. With axial Sucking in the .Pressure medium can be dispensed with a control pin. One exact positioning of the joint is possible by simply adjusting the threaded ring possible.

The joint itself is movable in every direction.

The measures listed in the subclaims are advantageous Further developments and improvements to the features specified in the main claim are possible.

Drawing exemplary embodiments of the invention are shown in the drawing and explained in more detail in the following description. It show figure 1 shows a longitudinal section through a conveying element, FIG. 2 shows a section along II-II according to FIG. 1, FIG. 3 a longitudinal section through a second example embodiment and FIG. 4 shows a section along IV-IV according to FIG. 3.

Description of the exemplary embodiments The conveyor element 10 consists from a cylindrical piston 11 and a sliding shoe fixedly arranged on this 12. This is arched and lies on the inner sliding surface 13 of a cam ring 14 at. This is in the interior of a housing 15, not shown in detail Radial piston machine arranged.

The piston 11 is in a through radial bore 16 one Cylindrical roller 17 slidably guided. The bore 16 runs transversely to one with the The longitudinal axis of the cylinder bore 18, which is aligned with the cylinder shaft 17, and intersects it. The cylindrical roller 17 fits in an off-center, parallel to the longitudinal axis a cylinder body 19 extending recess 20 mounted. In the recess 20 penetrates a slot 20 ', which is open to the zubring 14 and its width corresponds to the diameter of the piston 11. The cylinder body 19 is on a central Cylinder pin 22 mounted.

The cylinder bore 18 is closed on a wide by a disk 23, and from the opposite side acts on the cylinder roller; 7 one with a slight Overpressure applied slide-out disk 24. This has a central hole 25. Between the disk 23 and the compensating disk 2l on the one hand and the housing 15 on the other hand there are thrust washers 26, 27. The thrust washer 27 Nat a central bore 28, which is exactly aligned with bore 25. Both holes 25, 28 correspond to two kidney-shaped recesses formed in the housing 15 29, 29 '. This training means that the printing medium is sucked in and pushed out axially possible.

Such arrangements are both in wheel piston pumps - as rotary vane referred to - also known as axial piston pumps - referred to as flat slide valve.

When the radial piston machine is in operation, the piston 11 sucks through it Stroke movement of pressure medium via the bores 25, 28 and the recess 29. By the arrangement of the cylindrical roller 17 in the recess 20 is a pivoting movement of the piston 11 is possible, which is generated by the eccentric position of the cam ring 14 will. The pressure medium flows during the pressure stroke of the piston, i.e. its inward stroke, again via the bores 25, 28 and this time the recess 29 'to the consumer away.

The cylindrical roller 17 itself is not pressurized but only the piston 11. The cylindrical roller 17 thus represents a joint that largely Is arranged in the recess 20 in a pressure-balanced manner.

In the exemplary embodiment according to FIG. 3, the cylindrical roller 17 is through a ball 33 replaced. Is accordingly also a matching recess 34 formed in the cylinder body 35. The recess 34 has a hollow spherical shape Bottom 36 and towards the cam ring 14 an opening 38 with a diameter that is slightly is larger than the ball diameter. In the ball 33 is a centrally continuous one Longitudinal bore 39 is formed, in which again the piston arranged on the slide shoe 12 11 is guided to slide tightly. The sliding shoe 12 is made up of two overlapping rings 43, 43 'on the lifting ring 14.

The ball 33 is held in the recess 34 by a threaded ring 44, which is screwed into the opening bore 38. In a control pin 45 on which the cylinder body 35 is mounted, there are two bores 46, 46 'for axial suction or discharge of the pressure medium formed, which by means of bores 47, 47 'with the Recess 34 are connected.

The mode of operation according to FIG. 3 largely corresponds to that according to FIG 1.

Claims (7)

Claims conveying element for radial piston machines, consisting of a piston and a slide shoe that slides on the inside of a cam ring, thereby characterized in that the piston (11) and the slide shoe (12) are integrally formed are, and that the piston (11) in a bore (16, 39) of a guide body (17, 33) slides pivotably in a recess (20, 34) of a cylinder body (19, 35) is arranged. 2. Element according to claim 1, characterized in that the guide body (17) one arranged in a transverse bore (20) of the cylinder body (19) Cylindrical roller (17) is. 3. Element according to claim 1 and / or 2, characterized in that the cylindrical roller (17) has a bore (16) running transversely to its longitudinal axis, in which the piston (11) is guided. 4. Element according to any one of claims 1 to 3, characterized in that that the bore (16) receiving the piston (11) is one in the cylindrical roller (17) in the axial direction of which the bore (18) intersects. 5. Element according to one of claims 1 to 4, characterized in that that the cylindrical roller (17) of pressure compensating shims (23, 24) is sealed. 6. Element according to claim 1 and / or 2, characterized in that ler guide body (33) one in a hollow spherical recess (34) of the cylinder body (35) arranged ball (33), and that the ball (33) has a central bore (39) in which the piston (11) is guided. 7. Element according to one of claims 1, 2 and 6, characterized in that that the ball (33) from a threaded ring that can be screwed into the recess (34a) (44) is recorded.