DE1927074A1 - Radial piston pump with rotating race - Google Patents

Description

E. 9482

May 21, 1969 Vo / Wa

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SOBERT BOSCH GHBH, 7 Stuttgart V /, Breitscheidstrasse 4

Radial piston pump with rotating race

"The invention relates to a radial piston pump in one rotating cylinder body star-shaped bores, which are alternately connected to a high-pressure side and a low-pressure side of the pump during circulation and are in which pistons are tightly and slidably guided with support their outer ends in a race, which is rotatably arranged in a Gehäur <eausnung, and its eccentric; Position to the cylinder body in a central position is changeable *

BATH ORIGINAL 009849/0974

Robert Bosch GmbH 2 R. 9482 Vo / v / a

Stuttgart

From the USA patent specification 2,484,337 a radial piston machine is known in which pistons move in cylinders " which are arranged in a star shape in a rotatable cylinder body, and in which the pistons with their ends in support a raceway. With the help of a roller bearing, the raceway is guided in a G-leitrahiaen, which in turn is movable transversely to the machine axis in the machine housing via parallel roller guide bearings, whereby the eccentricity of the race against the machine axis can be changed. The sliding frame is covered by a spring-loaded piston a feeler roller is printed against a curve guide, which by pressurized actuating piston can be moved. This machine can be varied in its eccentricity and thus in its delivery rate from zero to a maximum value.

It has the disadvantage that the adjusting device is right is complicated. In addition, the roller bearing of the race tends to generate a lot of noise as soon as it is attached minor signs of wear occur.

The object of the invention is to provide a compact radial piston pump to create the type mentioned, in which the storage of the race and also the adjustment of their Eccentricity is achieved in a simple way, and in the deformation of the race with the help of the bearing be compensated.

This is achieved according to the invention in that the race is supported on bearing bodies that protrude from the inner wall the housing recess protrude, and which are partially substantially radially displaceable to the race.

009849/0974

Robert Bosch GmbH R. 9 '+ 82 Vo / Wa

Stuttgart

This has the advantage that the adjustment device of the pump is ordered from only a few machine parts, which in one relatively compact housing can be accommodated. Another advantage is that the inner wall of the housing is which receives the race, does not have to have an excessively high surface quality, since the race does not touch it. In addition, the race is safely stored in all different eccentricity positions and without the risk of deformation, which could occur under the pumping load.

Further advantageous embodiments of the subject matter of Invention emerge from the following description, the claims and the drawing. ,

An embodiment of the invention is shown in the drawing shown. This shows in:

1 shows a section through normal to the pump axis a radial piston pump in working position,

Fig. 2 shows a second embodiment, Fig. 3 shows a third embodiment,

4 shows a fourth exemplary embodiment of a radial piston pump. '. .

The "shown in Fig. 1 pump has a housing 1 with a Housing recess 2 in which a race 3 and therein a cylinder body 4 are located.

The cylinder body can be rotated on a fixed valve pin 5 stored, the 'in a known manner channels 6.7 for the supply and

BAD OBIGiNAL 009849/0974

Robert Bosch GmbH ^ R. ° / \ W ?. 1 / b / V / a

Stuttgart '

Includes expiration of funding. Several bores 8 arranged in a star shape are located in the cylinder body M-

(Only one bore is shown), in which pistons 9 are guided tightly and slidably. The working spaces in the cylinders are connected to the inlet channel 6 or the drain channel 7 via passages 10, depending on the position of the cylinder body M-.

Each piston is supported on the spherical end of a piston rod via a ball socket formed in its interior 11 from. The piston rod 11 is part of a sliding shoe 12, which with its circularly curved outer surface slidably supported on the cylindrical inner wall of the race 3.

The race 3 has the shape of a flat circular cylinder. The housing recess is cylindrical. You you; : / ... knife is by the amount of a required maximum eccentricity in which the race can move in a translatory manner can, larger than its outer diameter.

On a center line 13, which is perpendicular to the center line 14 extending in the translation direction, two diametrically opposed bearing bodies 15, 16 are arranged, which protrude from the surrounding inner wall of the housing recess 2. The & ± come tr ale distance between the two bearing body is provided with flat bearing surfaces by a small running clearance is greater than the outer diameter of the race 3 x corresponds to the length of the bearing surfaces approximately three to four times the measure of the maximum possible eccentricity of the drive ring 3 · The bearing body 15 , 16 can be inserted into the housing recess. 2 be used or be parts of this, for example in a cast body.

00984 9/0974

ί-

Eobert Bosch. GmbH C ^R 9 ⁴⁸² Vo / Wa

Stuttgart

Offset by 90 ° with respect to the bearing bodies 15, 16, that is to say on the center line running in the direction of translation of the raceway 3 14 are diametrically opposite two bearing bodies 17.18 arranged. These are designed as pistons that are tightly and glidably guided in cylinders and can be moved radially with respect to the race 3. The piston crown facing the raceway 3 are provided with flat running surfaces. Pressure springs 19, 20 are arranged in the bearing bodies designed as pistons, which the bearing bodies 17, 18 against the race 3 hold even if the pistons are not pressurized.

The one holding the race 3 in. In an eccentric position Bearing body 18, that is to say the piston on the left in the drawing, has a larger diameter than the one diametrically opposite it Bearing body 17

In the two quadrants on the high pressure side of the pump, i.e. in the one between the bearing bodies 18, 15 and 15,17 lying inner circumferential areas of the housing recess 2, is in each case in the middle, that is on the 45 ° line, a radially displaceable to the race 3, also as a piston trained bearing body 21, 22 arranged. Pressure springs 23, 24 are located inside the bearing body.

The pumping process of the radial piston pump is assumed to be known, so that a description can be dispensed with here.

The left bearing body is used to start up the pump 18 is applied with a control pressure so that the race 3 moved into a position eccentric to the cylinder body 4

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BATH ORIGINAL 009849/0974

-ig *

"Robert Bosch GmbH £ R. 94-82 Yo / Wa

Stuttgart

and is braked there. The level of the control pressure is determined thereby the eccentricity that the raceway assumes.

The spaces behind the bearing bodies 17, 21, 22 are connected to the high pressure side of the pump, ie with the drain channel 7. The cross section of the piston 21,22 is dimensioned so that the deformation dec race ring 3 as a result of the load the working piston 9 becomes a minimum. This allows the raceway be thinner at a given operating pressure of a pump than if it were not supported. In addition, the contact pressure of the raceway distributed over several bearing parts.

Vird the application of the bearing body 18 with the control pressure lifted, the race is automatically by the bearing body 17 in its to the cylinder body 4 centric Position moved back: The delivery rate of the pump drops to zero.

The embodiment shown in FIG. 2 is constructed similarly to that shown in FIG. To avoid repetitions to comparable _v, only the differently constructed part · _w o <are described. :

The raceway 33 of this. The pump is guided by four bearing bodies 45, 46, 47, 48. The bearing bodies 45, 46 correspond completely to the bearing bodies 15 ₅ 16 of the first embodiment. The left bearing body 48 is in turn acted upon with a control pressure, the right bearing body 47 with the high pressure of the pump. The bearing bodies 47, 48, in which pressure springs 49, 50 are located, are each provided with a "sliding shoe 55" 56, known per se, in the outsole of which a pressure field is arranged. The pressure field is marked with the "in

—7— g * D ORIGINAL

9849/0974

Robert Bosch. GmWI ψ E. 9482 Vo / V / a

Stuttgart

the pressure prevailing in the spaces behind the bearing bodies 4-7,4-8 "acted upon. This hydrostatic bearing" causes a Reduction of friction when adjusting the raceway and thus a reduced adjusting force. As in the first exemplary embodiment, the raceway can move during the pumping process do not rotate.

Each sliding shoe 55,56 is provided with a rotatable head part 55 ', 56 ', the cylinder axis of which lies on the running surface of the race 33. Instead of the cylindrical head part A spherical head part can also be used, in which the center of the sphere is then on the running surface of the raceway 33 lies. As a result of this measure, the sliding shoes can if they are caused by friction during the adjustment rotating race 33 are entrained, do not tilt and cause the pump to fail.

In Fig. 3, a third embodiment of the pump is shown. Here too, the raceway "moves" in four bearing bodies 75,76,77,78. The bearing bodies 77, 78 correspond completely to those described in the second exemplary embodiment Bearing bodies 4-7,4-8. They are also appropriate with Sliding shoes 85, 86 are provided.

The two bearing bodies arranged on the center line 13 75,76 are designed here in the form of rotatably arranged sliding shoes, for which in principle that of the sliding shoes What has been said about the second embodiment applies. The pressure field in the bearing body 75 located on the high pressure side of the pump is with high pressure, which is acted upon by the low pressure in the bearing body 76 located on the low pressure side. That the latter pressure field is therefore with the inlet channel 6 of the pump

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SAD 009849/0974

Robert Bosch GmbH ° E. 9482. Vo / Wa

Stuttgart

tied together. The space behind the radially movable, right Bearing body 77 is with check valves 87 »88 the inlet channel 6 and the outlet channel 7 connected that he depending on the direction of rotation of the pump, it is filled with a high-pressure conveying medium.

In this exemplary embodiment, the race 63 is therefore supported completely hydrostatically. As a result of the very low frictional torque caused by this, the raceway also rotates when the pump is in operation. He takes on an intermediate speed, the 12 has a reduction in the sliding speed of the sliding blocks on the inner race of the bearing race 63 result.

You can also use the relieved channel, i.e. the inlet channel the pump connected to the bearing body 76 (in Fig. 3) escape conveying means that lubricates the running ring on the circumference and cools.

The fourth embodiment in Fig. 4- represents a combination in which the features of the previous three pump designs have been combined.

The race 93 is mounted in bearing bodies 105, 106, 107, 108 and 111, 112, 113, 114.

The bearing bodies 105 and 106 are constructed and arranged in accordance with the bearing bodies -75,76 in the third exemplary embodiment. The same applies to the two bearing bodies 107, 108 which are arranged on the center line 14 (FIG. 1) and are displaceable radially to the race. Here, too, is the space

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009849/0974

-f

Robert Bosch GmbH 3 R.9482 Vo / Ua

Stuttgart

behind the bearing body, 107 via check valves 117 ₅ 118 with the respective high pressure side of the pump, connected. As a result of this measure, the pump can be used for both directions of rotation.

In all four between the bearing bodies 108 1, 105, 107 106 located quadrants of the Inn, enumf angsflache the housing recess is in each case in their cement, similar to the first exemplary embodiment, a radially displaceable to the race 93, piston 111, 112, 113, 114 provided with a slide shoe. These serve as additional support of the race 93 · Xm principle, these are bearing bodies e.g. constructed as the bearing body 107; the size of the Pressurized piston area is based on a given pump pressure according to the bearing ring deformation that occurs, which should be prevented from grounding.

This pump with the '93 running ring in operation as well as in the third embodiment, is due to the The constructive measures described are particularly suitable for high pressures and high speeds.

The technical teaching disclosed here can be used except in the The radial piston pumps described are of course equally advantageous can also be implemented on radial piston motors. ·

BATH ORIGINAL

00984 9/09

Claims (1)

Robert Bosch GmbH E. 94-82 Vo / V / ü Stuttgart Expectations ι 1.1 radial piston pump with bores arranged in a star shape in a rotating cylinder body, which are alternately connected to a high-pressure and a low-pressure side of the pump during circulation and in which pistons are tightly and slidably guided, the outer ends of which are supported in a raceway that is in a housing recess is rotatably arranged, and its eccentric position to the cylinder body can be changed into a central position, characterized in that the race (3, 33, 65, 93) on bearing bodies (15 to 18, 21, 22, 45 to 48, 75 to 78, 105 to 108, 111 to 114) which protrude from "the inner wall of the housing recess (2γ32,62,92) ηβΓνοΓ—, and which are partially essentially radially displaceable to the race. ~. "~ 2. Radial piston pump according to £ claim 1, characterized in that two diametrically opposed bearing bodies ^[ (15,16,45,46,75,76,105,106) are arranged on a central part (13) of the housing recess (2,32,62,92) which is perpendicular to the direction of translation of the raceway, and that the other bearing bodies are arranged symmetrically to this center line; *: .ϊ? -11- 009849/0974 bad original Robert Bosch GmbH R. 9482 Vo / \ / a Stuttgart 5. Radial piston pump according to claim 1 or 2, characterized in that that apart from the bearing bodies arranged on the center line (13), at least two further bearing bodies (17,18,47,4-8,77,78,107,108) are arranged on the translational center line (14) are diametrically opposed to each other and which can be displaced radially to the raceway ring (3,33,63,95). 4. Radial piston pump according to one of claims 1 "to 3" thereby characterized in that at least in the "two quadrants of the inner circumferential surface of the housing recesses (2,92), which are on the high pressure side of the pump, preferably in the middle, at least one radially to the running ring (3? 93) displaceable bearing body (21,22,111 to 114) arranged is. Si 5. Radial piston pump according to one of claims 1 to 4, characterized in that the «radially displaceable bearing bodies (17,18,21, .22,47,48,77,78,107,108,111 to 114) are designed as pressurized pistons on which Piston crown is supported by the race (3,33,63,93). -12- BADORJGlNAt 009849/0974 Robert Bosch GmbH R. 9482 Vo / Wa Stuttgart ο 6. Radial piston pump after. Claim 5, characterized in that that at least one of the bearing bodies designed as a piston holds the piston against the race Pressure spring is located. 7. Radial piston pump according to one of claims 1 to 6, characterized in that the piston designed as a piston Bearing body (18,48, 78,108), which on the in the translational direction of the race (2,32,62,92) running Center line (14) is arranged and this moves into the eccentric position, is acted upon with a control pressure, while the other piston (17,47,77,107), which is diagonally opposite it, is subjected to the high pressure of the pump is. 8. Radial piston pump according to one of claims 1 to 7? through this characterized in that those arranged in the quadrants located on the high pressure side are designed as pistons Bearing body (21,22,111,112) from the high pressure of the pump and the one located on the low pressure side Quadrant arranged bearing body (113,114) are acted upon by the low pressure of the pump. -13- BATH ORIGINAL 0098A9 / 0974 Robert Bosch GmbH E. 9482 Vo / Wa Stuttgart 9. Radial piston pump according to one of claims 1 to 8, characterized characterized in that x ^ at least one bearing body (15,16,17,18,21,22,4-5,4-6) especially jevreils two diametrically opposite, is provided with flat bearing surfaces on which the race (3,33) is supported. 10. Radial piston pump according to one of claims 1 to 8, characterized in that at least one bearing body (47,48,75,76,77,78,105 - 108, 111 to 114) in particular two diametrically opposite each other, with one on known sliding shoe is provided, on the sole of which a hydrostatic pressure field is arranged. 11. Radial piston pump according to one of claims 1 to 10, characterized in that the sliding shoe (55, 56) has a spherical or cylindrical head part (55 ', 56') is provided, the center of the sphere or cylinder axis lies on the running surface of the raceway. 12.Radial piston pump according to one of claims 1 to 11, characterized characterized in that the pressure field in the sliding shoe of the pump located on the high pressure side, non-displaceable bearing body (75 »1Q5) with high pressure, the print field «in the one on the bottom of the print side Bearing body (76,106) is subjected to low pressure. 009849/0974 * Robert Bosch GmbH "R. 9482 VoAia Stuttgart 13- radial piston pump according to one of claims 1 to 12, which is suitable for both directions of rotation, characterized that the space behind the displaceable bearing body (77, 107), which is on the center line (14) of the raceway running in the translational direction '(63,93) arranged and this moved into the central position, via check valves (87,88,117,118) in such a way is connected to the high pressure and the low pressure side of the pump that the bearing body (77,107) is always pressurized with high pressure. ': ■ ■ 4 009840/0974