DE3003108A1 - GEAR PUMP FOR HYDRAULIC CIRCUIT ARRANGEMENTS - Google Patents

Description

Gear pump for hydraulic circuit arrangements

The invention relates to a gear pump of the type specified in the preamble of claim 1. Such Pumps are used in particular to drive the chassis and the tool in earthmoving machines, with the power developed by the drive motor must be sufficient for these purposes.

In a known pump of this type (Patent No. 915 dated November 17, 1970), the two pairs of gears are switched in parallel when the delivery pressure has reached a certain limit need not exceed. However, if the hydraulic arrangement requires a pressure above this limit, then one of the two pairs of gears is short-circuited so that the other pair of gears feed with all the engine power can. This leads to a reduction in the delivery rate delivered by the pump, but to a corresponding increase the delivery pressure.

The invention is based on the following object: The pump equipped with the two pairs of gears should be Switch from one operating mode to the other faster, under the same operating conditions. The unwanted pressure medium consumption should be reduced in the hydraulic circuit for the connection and the two pairs of gears are controlled. The mode of operation of the two pairs of gear pumps should also change characterized by simplicity and operational reliability.

According to the invention, this object is achieved by the design of the gear pump characterized in the claim.

In the drawings, in which an exemplary embodiment of 030 0 37/0610

Invention shown shows

Fig. 1 is a schematic view of the gear pump according to the invention with the hydraulic circuit arrangement ,

FIG. 2 schematically shows the arrangement of the lines of the hydraulic circuit according to FIG. 1,

3 shows a section through the pump shown in FIG. 1 in a direction running in the diameter direction Level and

FIG. 4 shows the section along the line IV - IV in FIG. 3.

The hydraulic control and drive system is located in the housing 2 of the gear pump 1 intended for an earthmoving machine the pump 1 housed. The drive motor, not shown in detail, drives a shaft 33 mounted in the housing 2, which has two pairs 3 and 4 of pump gears mesh. The first pair 3 comprises a gear 3a fixed on the shaft 33 and a meshing gear 3b, while the second gear pair 4 includes a driven gear 4a, which with a Gear 4b meshes and is mounted on a shaft 33a, which forms a coaxial continuation of the shaft 33. The first Gear pair 3 is supplied with the hydraulic pressure medium from a reservoir 27 through a first inlet 5. The outlet 6 of this first pair of gears 3 is connected to a hydraulic distributor, not shown in detail, which is used to control the movement of the tool carried by the vehicle. A second leads from the storage container 27 Inlet 7 to the second pair of gears 4, the outlet 8 of which extends to a cylindrical chamber 9. This chamber 9 is at her one end can be closed by a first control valve 10 and at its other end by a second control valve 11. The Ver-

030037/0610

Closing piece 12 of the first control valve 10 is through a Spring 13 pressed onto its seat. From this valve 10 a line 14 extends to the outlet channel 6 of the first Gear pair 3. The connection between the outlet 8 of the second gear pair 4 and the outlet 6 of the first gear pair 3 is interrupted as long as the valve 10 is closed by the action of its spring 13. The locking piece 15 of the second control valve 11 is also pressed by a spring 16 on its seat, which is of one by ribs on the inner wall of the chamber 9 attached cone is formed. The closure piece 15 has the shape of a pot 15a, the is slidably guided in a control chamber 25 and receives the compression spring 16. The bottom of this pot has a hole 31, which can be closed by the seat cone and forms the flow channel that connects the chambers 25 and 9.

The connected to the line 14 space, which is separated from the chamber 9 by the valve 10, is by a Line 18 with the chamber 19 of a control slide 19, 20 in connection, which has two switching positions and its Control piston 20 is slidably guided in chamber 19. On one end 20a of which a compression spring 30 acts, which pushes the piston seeks to hold in the first switch position. At the other end, the piston 20 has a thrust surface 20b on which the in-line The prevailing pressure is at work. A first area 21 of the spool valve chamber 19 is via lines 23 and 24 with the chamber 25 in connection, through the second control valve 11 from the chamber is separated. A second area 22 of the chamber which is arranged at a distance from the first area 21 and which, like the area 21 has a larger diameter communicates with the container 27 through a drain line 26. In its midst the control piston 20 has a constriction 28. The piston is caused by the fluid pressure acting on its thrust surface 20b shifted into its second switching position, then the constriction 28 connects the two areas 21 and 22 of the control slide chamber 19 with each other.

030037/0610

The effect of the pump is as follows:

The two gear pairs 3 and 4 promote the pressure medium in their outlet lines 6 and 8. As long as the in the outlet line 6 prevailing pressure does not exceed a certain limit, the pressure in the outlet line 8 is capable of the closure piece 12 to keep the control valve 10 open while the control valve 11 remains closed. As a result, flows the flow conveyed by the gear pair 4 via the line 8, the chamber 9 and the line 14 of the outlet line 6 of the gear pair 3 to. Consequently, the flow rate flowing to the distributor is equal to the sum of the two pairs of gears 3 and 3 conveyed flow rate. The closure piece 15 of the control valve 11 is thus pressed by the spring 16 onto its seat and closes the flow path from the cylindrical chamber 9 to the line 17. The spring 16 is thereby caused by the pressure in the Chamber 25 supported, which is maintained at a height, which corresponds to the pressure in the cylindrical chamber 9.

If, however, the delivery pressure prevailing in the outlet line 6 and its branch line 14, which is via the line 18 acts on the thrust surface 20b of the control piston 20, a certain If the limit is exceeded, the control piston 20 moves against the force of the suspension 30 into the second Switch position. When that happens, it becomes constricted 28 of the control piston 20 established a connection between the two areas 21 and 22 of the control slide chamber 20. As a result, the chamber 25 is switched to drain into the storage container 27 via the lines 24, 23 and 26. Therefore the pressure falls in the chamber 25 and is no longer able to keep the closure piece 15 of the control valve 11 closed. Of the The pressure prevailing in the chamber 9 therefore opens the control valve 11 so that it connects the lines 8 and 17 to one another

030037/0610

and thus the gear pair 4 short-circuits and switches to drain. Therefore, the gear pair 4 does not consume any drive power more. In this operating state, the spring 13 closes the closure piece 12 of the control valve 10 because in the Cylindrical chamber 9 switched to drain, no excess pressure there is more. As a result, the entire engine power is at a standstill to drive the gear pair 3 available that the distributor with a correspondingly high pressure, albeit with the feeds reduced flow rate. In this way, the pump is able to use the pressure medium at a higher level in this operating state To promote pressure, albeit with a smaller flow rate than in the other operating state.

The exemplary embodiment described can be used in many ways Modify respect without departing from the subject matter of the invention.

3 0 0 3 7/0610

Claims (3)

Licht, Schmidt, Hansmann, patent attorneys before the European Patent Office Patent attorneys Ucht Schmidt, Hanamann, Herrmann, Baumann ■ Dipl.-lflfl. Martin light Afcwt-Roehaupter-Str. 65 ■ 8O0O Münch «! 70 _Dr p _e j _n hold Schmidt Dipl.-Wirtsch.-Ing. Axel Hansmann FIAT-ALLIS MACCHINE MOVIMENTO TERRA ₅ SpA Dipl.-Phys. Sebastian Herrmann (an Italian company) Eduard Baumann, Dipl.-Phys Zona Industriale, Surbo 7-inU lorrp Albert-Roßhaupter-Str. / Jim Lecce aooo Munich 70 Italy Telephone: (089) 7603091 Telex: 5212 284 pats d Telegrams: üpatli Munich January 29, 1980 ML / Hei PATENT CLAIMS IJ gear pump for feeding hydraulic circuits with arranged in the housing two pairs of meshing pump gears, each of which has an inlet and an outlet, characterized through the following design: The outlet line (8) of the second pair of gears (4) opens into the outlet line (6) of the first pair of gears (3); a point (9) of the first outlet conduit (8) is connected to the second inlet conduit (7) by a branch conduit (17); downstream of the point at which the branch line (9, 17) branches off, a first control valve (10) is switched on in the second outlet line (8), the closure piece (12) of which is directly subject to the delivery pressure of the second gear wheel pair (4) and through it is controlled; A second control valve (11) is switched into the branch line (9, 17); A control device (19, 20) is adjustable by the pressure in a% r first outlet line (6), by means of which the flow (31) of the second control valve (11) can be controlled against the force of a suspension (30) when the delivery pressure of the second gear pair (4) exceeds a certain limit. 2. Pump according to claim 1, characterized in that the second 0 * 0037/0610 · »« · PU TW) »*» · iiihi KnH Mflnehw, K »-Nr. M / 000« Q ßU 7Ό070010) MlMto * K * -Mr. 1CMtT-1 «« U TOOIOOtO) .- * ■■; ■■ r. ': -% - r- • ■, .. ••• ίί-yqf) BAD' ORIGINAL ' Control valve (11) in the branch line (9, 17) sliding Has closure piece (15) and a seat which is formed in the branch line (9, 17) itself and against which the Closure piece (15) is pressed by a suspension (16). 3. Pump according to claim 1 or 2, characterized in that the control device (19, 20) which is controlled by the delivery pressure is adjustable in the first outlet line (6) and counter to the action of the suspension (30) the flow (31) of the second Control valve (11), a control slide (19, 20) with two switching positions, the slide piston (20) tries to assume the first switching position under the action of a suspension (30), but when the delivery pressure rises of the first gear pair can be displaced into the second switching position over a certain limit by virtue of the fact that the latter Delivery pressure is fed to a thrust surface (20b) of the control piston (20) via a control line (18) which connects the outlet (6) connects to an area (21) of the control slide bore (19) located next to the thrust surface (20b), wherein the on the The delivery pressure acting on the thrust surface (20b) overcomes the force of the suspension (30); next to the closure piece (15) of the second Control valve (11), a control chamber (25) is arranged and connected by a control line (24) to a section of the hydraulic circuit, the liquid under high Contains pressure, this control line (24) connecting the control chamber (25) with a first area of the control slide (19, 20) connects; an outlet conduit (26) connects a second Area (22) of the control slide (19, 20) with a container (27) under low pressure; the piston (20) is provided with a transmission channel (28) which connects the first area (2t) with the second area (22) of the control slide connects when the piston (20) 1n its second axial « Switch position is. 0 * 0037/0610 BATH ORIGINAL