DE960609C - Circulating plunger pump with infinitely variable delivery rate setting for hydrostatic fluid gears, especially for motor vehicles - Google Patents

Description

Circulating plunger pump with infinitely variable flow rate setting for hydrostatic fluid transmissions, especially for motor vehicles There are Circulating plunger pumps known in which the pistons are star-shaped in a rotating Cylinder body are arranged. Also, such rotary plunger pumps are tangential Piston arranged in a rotating cylinder body is known. In these two Versions, the cylinders and the associated suction lines are located in the cylinder body, that the centrifugal force of the pistons and the conveyed liquid generated by its rotation counteract the conveying direction. With high-speed pumps, the centrifugal force is considerable and also requires driving force. This creates an efficiency which is worse than pumps with fixed cylinders. The circulating plunger pump according to the invention should not only eliminate the shortcomings of the known pumps, but by utilizing the centrifugal force of the conveyed liquid and the plunger in the conveying direction Achieve an efficiency that is better than with piston pumps with fixed Cylinders.

Different from the well-known circulating plunger pumps in which the pistons in the rotating cylinder body only approximately to the middle of the cylinder drum. According to the invention, the cylinder bore extends “immersed” up to near. the scope the cylinder drum on the opposite side, d. i.e., the piston can go in its bore with respect to that through the cylinder drum axis going Vertical - migrate to both sides of the axis of the hole .. The progress the proposed. Execution now lies in the fact that the piston during the centrifugal force is subjected to its suction stroke and during its pressure stroke, so that by the Centrifugal force occurring during the pressure stroke reduces the pump drive power Compensation for the centrifugal force occurring during the suction stroke is achieved.

In addition, the pressure room is at a greater distance from the fulcrum of the cylinder drum, so that the pumped pressure oil also in addition subject to a greater centrifugal force.

The circulating plunger pump according to the invention is for the particular needs in; hydrostatic fluid transmissions intended for vehicles and it is special Value on the best efficiency, high pressure, high speed (direct connection to the Crankshaft of the drive motor) and the simplest infinitely variable flow rate regulation placed. The drawing shows in Fig. I a longitudinal section with suction and] pressure channels (dashed) in the cylinder body, in Fig. 2 a section through the cylinder body. In the housing i is displaceable by a type known on an adjusting device io Eccentric ring 2 enables the stepless delivery rate adjustment, the gap 4 is arranged in a pump housing by turning the eccentric ring 2 eccentric groove adjustable and; thereby the stroke of the plunger 6 over the sliding rollers 9 of. Zero to full load continuously adjustable.

The cylinders 5, which penetrate the cylinder body 3 off-center, that just below the circumference of the same, the pressure chambers of the cylinder 5 are in the the suction channels 17 acting as a centrifugal pump open inside the cylinder body 3, are the main feature of the invention in their arrangement.

The via the suction channel 14, 15, 16 of the acting as a centrifugal pump Suction channels 17 to sucked conveying liquid is below one of the peripheral speed of the cylinder body 3 is supplied to the cylinders 5 and presses the Piston 6 outwards on the suction stroke. The pressure of the return spring 8 only needs so great to be that the plunger 6 also then; . still be pushed outwards when the Centrifugal force due to the fluid to be pumped. too low speed of the cylinder body 3 is no longer sufficient.

By the arrangement of the cylinders 5, whose axes with the tendons of a Circular cross-section of the cylinder body coincide, the centrifugal force of the plunger 6 of the cylinder walls closest to the cylinder body circumference, essentially recorded while the centrifugal force of the plunger 6 acts in the conveying direction. The cylinders 5 are so far eccentric in the cylinder body 3 that the centrifugal force of the delivery liquid is greater than the centrifugal force of the plunger 6. The parallel and paired. Cylinder 5 can be used for the purpose of achieving greater performance and smoother Delivery pressure can be arranged side by side and offset from one another as often as desired.

The pressure lines i i are just below the circumference of the cylinder body 3 and, axially parallel in this, open into the annular channel i2, from which the The delivery fluid is discharged through the connection bore 13. The Liquid ring in the annular channel i2 as a pressure compensation for the plain bearing 23, which the Annular channel ia limited to the outside except for the connection bore 13.

The suction and pressure valves 7 are located in the channels i i and 17 '.

The thrust bearing 18 takes the axial pressure of the fluid between Cylinder body 3 and housing i. _ The adjusting ring 2o can be operated from the outside and presses the plane surface 21 fixed on the cylinder body and the end face on the suction side of the cylinder body 3 via the bearing 19 and the thrust bearing 18 the housing i.

Passing through the seal between the cylinder body 3 and the housing i Leak oil flows back to the oil tank (not shown) via the bore 22- enclosing the circulation plunger pump and as. Ventilation and refill container is used, in which all additional units of a hydrostatic fluid transmission, such as Um. control slide, check valves, brake valves, etc., are housed.

Claims (6)

PATENT CLAIMS: 1. Circulating plunger pump for hydrostatic fluid transmissions, in particular for vehicles, with stepless flow rate regulation by means of an extremely eccentric housing adjustable by rotation and rides through this actuated plungers, which are arranged eccentrically in a rotating cylinder body. Cylinder axes coincide with chords of a circular cross-section of the cylinder body, characterized in that two cylinders (5) each penetrate the cylinder body (3) eccentrically and parallel to one another in such a way that the pressure chambers of the cylinders (5) lie just below the circumference of the same, in which open into the inside of the cylinder body (3) acting as centrifugal pump suction channels (17), and the liquid conveyed through these suction channels (17) exerts pressure on the pistons (6) in their suction cycle. 2. Circulating plunger pump according to claim i, characterized in that the cylinder (5) is so far eccentric in the cylinder body (3) lie that the pressure of the liquid to be pumped affects the mass carrier of the piston (6) overcomes. 3. Circulation plunger pump according to the claims. i and 2, marked with, that the pressure line (i i) about an annular channel (i2), from the cylinder body (3) and the Plain bearing (23) is enclosed, the connection mif which is arranged in the housing (i) Connection hole (i3) produces. 4. Circulating plunger pump according to claims i to 3, characterized in that. the seal between the cylinder body (3), suction chamber (i5) and housing (i) takes place through the end face on the suction side of the cylinder body (3) and through a slide bearing (23) and this seal is made from the outside through the adjusting ring (zo) the shaft bearing (i9) and the thrust bearing (1 8) can be adjusted. 5. Circulating plunger pump according to claims i to 4, thereby marked that the cylinder pairs (5) in the cylinder body (3) next to one another as often as desired and can be arranged offset to produce a uniform stroke sequence. 6. Circulating plunger pump according to claims i to 5, characterized in that the circulating plunger pump is enclosed by a delivery fluid container which serves as a ventilation and refill container and in which all additional units belonging to a fluid transmission for vehicles and its operation, such as reversing slides, check valves, brake valves , are housed. Documents considered: German Patent No. 831 36o; French patent specification No. 869 56i.