KR20140021976A - Internal gear pump - Google Patents

Abstract

The present invention relates to an internal gear pump (1) for a hydraulic vehicle brake system. According to the invention, According to the present invention, a separation unit (7) comprises plate spring-shaped outer and inner parts (9, 10) between the ring gear (2) of the internal gear pump (1) and a pinion (3) in a mirror symmetry form. The outer and inner parts are extended in two circumferential directions come in contact with the sawtooth head of the ring gear (2) and the pinion (3).

Description

Internal gear pump {INTERNAL GEAR PUMP}

The present invention relates to an internal gear pump for a hydraulic vehicle brake system according to the preamble of claim 1.

The internal gear pump includes a ring gear and a pinion that meshes with the ring gear. The ring gear is an internal gear, the pinion is an external gear, and the ring gear and the pinion are also referred to as gears of an internal gear pump.

Outside of the circumferential section where the ring gear and pinion mesh with each other, the ring gear and pinion surround a sickle-shaped pump chamber between them. A separator is disposed in the pump chamber, which separates the suction zone from the pressure zone in the pump chamber. The separating part is usually in the form of a sickle and a half sickle and because of its form is called a sickle or sickle shaped part. Another name for the separator is live part. The separating part contacts the tooth heads of the teeth of the ring gear and pinion externally and internally and closes the space between the teeth between the teeth of the ring gear and the pinion which is at this end circle of the two gears. In operation of the internal gear pump the gears are driven to rotate, so that the tooth heads of the teeth slide along the separator, and the spaces between the teeth move along the separator in the circumferential direction. The spaces between the teeth transfer fluid, usually liquid, from the suction zone of the pump chamber to the pressure zone. That is, the fluid is sent out from the suction region to the pressure region.

Published DE 10 2007 050 820 A1 discloses an internal gear pump for a vehicle brake system, wherein the separating portion of the internal gear pump is arcuate and extends over a constant circumferential angle in the pump chamber. The separating part is a rigid, integral piece and is pivotally supported at its longitudinal center. The radial separation of the internal gear pump is narrower than the space between the teeth of the gears, and a loose fit is given between the separation and the toothed heads of the ring gear and pinion. By pivoting the separator by applying pressure, the separator contacts the tooth heads of the teeth of the ring gear at one end and the tooth heads of the teeth of the pinion at the other end. This internal gear pump is basically reversible and can be driven in both directions of rotation. When the rotation direction is reversed, the suction and pressure areas are reversed and the discharge direction is reversed.

Patent publication DE 196 13 833 B4 discloses an internal gear pump comprising a multipart, half sickle-shaped separation, which separation comprises an inner part called a segment carrier and an outer part called a segment. The inner part and the outer part are arcuate and extend slightly circumferentially and can move relative to one another in the radial direction of the internal gear pump. They are supported on the support in the circumferential direction, the support being formed by bolts, which bolts penetrate the pump chamber in the suction region and are disposed at the suction region side end of the separator. The inner part and the outer part are pressed away from each other in the radial direction by the spring member and by the provision of pressure and against the tooth heads of the teeth of the ring gear and pinion. Since the separation part is formed in several parts, its manufacture and assembly are complicated. Since this internal gear pump is irreversible, it can only be operated in one direction.

Published DE 10 2007 049 704 A1 discloses an internal gear pump, in which the separator is integral and formed of a leg spring. The leg spring is U-shaped, and the two legs are bent along the tooth of the ring gear and pinion towards the same side. A U-shaped leg spring, which forms a separator by the yoke, is supported on the bolt as a support. The legs of the separator contact the tooth heads of the gears by the prestressing force of the spring elasticity and are pressed against the tooth heads of the gears away from each other in the interspace between the legs by providing pressure. This internal gear pump is also irreversible.

An object of the present invention is to provide an internal gear pump which is suitable for reversible operation, has a high volumetric efficiency, and in which the separating part is formed integrally.

The object is achieved by an internal gear pump comprising the features of claim 1.

The separating part of the internal gear pump according to the invention comprising the features of claim 1 comprises two outer parts and two inner parts, the outer parts and the inner parts respectively extending in opposite circumferential directions and having a ring gear and It contacts the tooth heads of the teeth of the pinion. The outer and inner parts are movable in radial direction with respect to each other and contact the tooth heads of the teeth of the ring gear and pinion by the prestress of the spring elasticity. They can be pressed against the tooth heads by a spring member, preferably the outer and inner parts are spring-elastic and prestressed against the tooth heads in an assembled state.

The internal gear pump according to the invention is suitable for reversible operation. That is, the internal gear pump can be operated in two rotational directions. The internal gear pump according to the invention has a high volumetric efficiency, and its separating part, which includes the outer parts and the inner parts, can be manufactured integrally in an embodiment of the invention, which reduces the number of individual parts and into the internal gear pump. Simplify insertion of the separator and assembly of the internal gear pump.

The dependent claims set forth the preferred embodiments of the invention presented in claim 1.

The internal gear pump according to the invention is provided in particular as a hydraulic pump for hydraulic, slip controlled and / or external force-vehicle brake systems. Hydraulic pumps in slip-controlled vehicle brake systems are also called return pumps and have recently been implemented primarily as piston pumps.

According to the present invention, there is provided an internal gear pump which is suitable for reversible operation, has a high volumetric efficiency, and in which the separating part is formed integrally.

Hereinafter, the present invention will be described with reference to the embodiments shown in the drawings.
1 is a schematic diagram of an internal gear pump according to the present invention;

The internal gear pump 1 according to the invention shown in the figure comprises a ring gear 2 and a pinion 3 which meshes with the ring gear 2. The pinion 3 is an external gear, the ring gear 2 is an internal gear, and the ring gear 2 and the pinion 3 may also be referred to as gears of the internal gear pump 1. The pinion 3 is arranged on the pump shaft 4 so as not to rotate relatively, by which the pinion 3 can be driven to rotate for the operation of the internal gear pump 1, which engages with it. The gear 2 is driven to rotate. The ring gear 2 is slid in a bearing ring 5 that is press fit into a pump housing, not shown.

On the outside of the circumferential section where the gears 2, 3 mesh with each other, the gears comprise a sickle pump chamber 6. A separator 7 is arranged in the pump chamber 6, which divides the pump chamber 6 into two zones, namely the suction zone and the pressure zone. The direction of rotation of the internal gear pump 1 determines which is the suction zone and which is the pressure zone. If the gears 2, 3 in the figure rotate clockwise, the suction zone is on the left and the pressure zone is on the right, and if it rotates counterclockwise, the reverse is true.

The separator 7 is mirror symmetrical, the center of which is pivotally supported by the bearing pin 8, which passes through the circumferential center of the pump chamber 6 parallel to the axis. As seen from the separator 7, one outer part 9 and one inner part 10 protrude in two circumferential directions, respectively, which parts contact the tooth heads of the teeth of the gears 2, 3. do. Since the outer parts 9 and the inner parts 10 are formed in the form of leaf springs, they can be moved in the radial direction of the internal gear pump 1 and can be elastic in the radial direction of the internal gear pump 1. have. The outer parts 9 and the inner parts 10 are bent in contact with the tooth heads of the teeth of the ring gear 2 and the pinion 3 by prestressing of the spring elasticity in the assembled state. The outer parts 9 and the inner parts 10 use a fluid volume, preferably a liquid volume, and an internal gear pump 1 as a hydraulic pump of a hydraulic vehicle brake system, not shown. Since the brake fluid is included in the space between the teeth between the teeth of the ring gear 2 and the pinion 3, the fluid is driven by the rotational driving of the gears 2 and 3 during operation of the internal gear pump 1. It is sent from one area of the pump chamber 6 to another area along the separator 7 from the interspace to the outside and inside, and as described above, which area is the suction area and which area is the pressure area. Is determined.

In the space between the outer part 9 and the inner part 10 of the separator 7, the holes 11 lead into a pump chamber 6 which forms a pump inlet and a pump outlet. Depending on the direction of rotation, some of the two holes 11 form a pump inlet and some form a pump outlet. The holes 11 pass through the pump chamber 6 in the circumferential direction from the outside of the outer part 9 and the inner part 10, as shown, the pump chamber being the outer part 9 and the inner part 10. Its free end communicates with the space between the outer part 9 and the inner part 10. In the pressure zone, the outer part 9 and the inner part 10 are pressed against the tooth heads of the teeth of the gears 2, 3 apart from each other by the provision of pressure and in addition to the prestress of the spring elasticity.

The outer parts 9 and the inner parts 10 are integral parts of the separator 7, which are made of a spring-elastic material, for example spring steel. Other elastic metals or plastics are also possible as the material of the separator 7.

At the end of the outer parts 9 and the inner parts 10, the outer parts 9 and the inner parts 10 integrally into the separator 7, the sealing members 12 are the outer part. It is disposed in the space between 9 and the inner portion 10 to seal the separator 7 laterally. The sealing members 12 may for example be vulcanized or glued. They laterally contact the axial disk or end wall of the pump housing, not shown. The sealing members 12 are not necessarily necessary.

The internal gear pump 1 according to the invention is used for slip control such as antilock brake control, antispin control and / or electronic stability program control and / or for brake pressure generation in a hydraulic external force vehicle brake system. Hydraulic slip controlled and / or external hydraulic vehicle brake system. Such hydraulic pumps are also referred to as return pumps, although they are not necessarily applicable. Abbreviations of ABS, ASR, FDR and ESP are used for the slip control. Electronic stability program control is also commonly known as anti slip control.

2 ring gear
3 pinion
6 pump chamber
7 Separation
9 outer part
10 internal parts

Claims (7)

An internal gear pump for a hydraulic vehicle brake system, comprising a ring gear (2) and a pinion (3) engaged with the ring gear (2), wherein the ring gear (2) and the pinion (3) are engaged with each other. Outside of the circumferential section restricts a sickle-shaped pump chamber 6 between them, a separator 7 is arranged in the pump chamber, which divides the pump chamber 6 into two regions, and Since the toothed heads of the teeth of the ring gear 2 are external to the separating part 7 and the toothed heads of the teeth of the pinion 3 are in contact therewith, the separating part 7 is connected to the ring gear 2. And at the toothed end of the pinion 3 closes the space between the teeth between the ring gear 2 and the teeth of the pinion 3, the separating part 7 having an outer part 9 and an inner part ( 10) wherein the outer portion and inner portion have the ring group in the circumferential direction (2) and teeth of the teeth of the ring gear (2) and of the pinion (3) extending along the distal end of the teeth of the pinion (3), movable radially relative to each other and by spring elastic prestress In an internal gear pump, which contacts the heads,
The separating part 7 comprises two outer parts 9 and two inner parts 10, the outer parts and the inner parts having the ring gear 2 and the pinion 3 in opposite circumferential directions. An internal gear pump extending along the tooth circle of the teeth of the teeth and contacting the tooth heads of the teeth of the ring gear (2) and the pinion (3) by spring elastic prestress. 2. Internal gear pump according to claim 1, characterized in that the separating part (7) comprises outer parts (9) and / or inner parts (10) in the form of leaf springs. 2. Internal gear pump according to claim 1, characterized in that the outer parts (9) and / or the inner parts (10) of the separating part (7) are mirror symmetrical. 2. The separating part (7) is supported in the pump chamber (6) of the internal gear pump (1) so as to be pivotable between the outer parts (9) and the inner parts (10). Internal gear pump, characterized in that. 2. Internal gear pump according to claim 1, characterized in that the outer parts (9) and the inner parts (10) are integral with the separating part (7). 2. Internal gear pump according to claim 1, characterized in that the space between the outer parts (9) and the inner parts (10) of the separating part (7) is in communication with the pump chamber (6). 2. The sealing member (12) according to claim 1, wherein a sealing member (12) is disposed between the outer portion (9) and the inner portion (10), the sealing member (12) being in the pump chamber (6) and Internal gear pump, characterized in that for sealing the inner part (10).

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