DE102004028830A1 - Hydraulic pump has two intermeshing gear wheels each adjacent to a chamber - Google Patents

Abstract

A hydraulic pump has two intermeshing gear wheels each mounted on a shaft. One gear wheel (4) slides axially on its shaft (2) and the second gear wheel (5) is unable to slide axially on the shaft (3). The housing has a fluid chamber (10, 11). Starting from the normal position the first gear wheel (5) is free to slide into the first axial chamber (10). The second chamber (11) has a seal (12) that slides with the first gear (5). After the seal has been displaced it vacates a fluid passage for the link between a suction chamber (7) and a pressure chamber (8) and avoiding the intermeshing gear wheels.

Description

The The invention relates to a gear machine according to the preamble of the claim 1.

For one Effective operation of hydraulic systems is optimal Adaptation of a hydraulic pump to the necessary delivery pressure as well as to the desired delivery required. In systems with variable requirements in the volume of funding or delivery pressure adjustable pumps used.

Cheaper Hydraulic systems, however, work with so-called constant pumps, the only the maximum necessary delivery pressure or the maximum necessary flow rate provide. When not mentioned the maximum demand Operating conditions of the hydraulic system, the more oil is added Inferred from the efficiency. As a constant pump Because of their simple construction gear pumps gladly used.

gear machines or hydraulic gear pumps and hydraulic motors are known for a long time in various embodiments, for example as external gear, Internal gear or gear ring machines. These gear machines have all have the feature that the fluid to be delivered on the inlet side in a widening one displacer or suction chamber occurs and subsequently by means of the rotating gears for Outflow side. There, the oil eventually becomes smaller displacement chamber, also referred to as a pressure chamber, pushed out.

In practice, there is a need to use gear machines with a continuously adjustable flow rate. Such gear machines are from the DE 101 17 139 A1 in which it is essentially proposed to mount a gear of intermeshing gears of a gear machine axially displaceable, thereby changing the actively conveying cross section of the pump or the motor. In order to seal a displaceable externally toothed gear against the housing and to avoid by-passes of the fluid, various as mechanically very complicated and complicated to be estimated concepts are proposed in this document, mainly the seal by means of additional internal and / or external gears and a plurality of sealing pieces provide.

In front In this background, the invention is based on the object Gear machine of the generic type to create, which is relatively simple, accordingly a has low number of components and easy and inexpensive in the production is.

The solution This object is apparent from the features of the main claim, while advantageous embodiments and developments of the invention the dependent claims are removable.

Therefore The invention is based on a gear machine with infinitely adjustable Volume flow, comprising two in a housing by means of a shaft rotatably mounted and meshing with each other as well a suction chamber and a pressure chamber for a fluid to be conveyed forming gears, wherein at least one gear for change the displacement length of Gears of the gears is formed axially displaceable.

to solution The task is also provided that adjacent to both end faces of the displaceable gear, the housing one each Has cavity that starting from a normal position of the displaceable Gear with maximum capacity the same is axially displaceable in the first cavity of the pump, that one arranged in the second cavity and with the displaceable Gear axially displaceably connected but rotationally fixed sealing element is arranged, and that the sealing element in the of the displaceable Gear freistellbaren clearance a direct fluidic connection preventing between the suction chamber and the pressure chamber of the gear machine can be inserted into said space.

According to one particularly advantageous embodiment of the invention is provided that on the side facing away from the sealing element end face of the displaceable Gear arranged a sealing the first cavity sealing disc is.

Farther is proposed in the sense of the invention, that said sealing disc following an axial movement of the displaceable gear by means of a spring is pressed against the associated end face of the gear.

As the invention further provides, is the geometry of the second cavity so exactly the outer profile of the sealing element simulated that a direct fluidic Connection between the suction chamber and the pressure chamber largely avoided is.

Further is preferably provided that the sealing element by its cross-sectional geometry and / or by mutually corresponding axially aligned guide means on the inner wall of the second cavity and the sealing element against a twisting is secured.

A Another variant of the invention provides that the axially displaceable A gear on the same shaft or on the gear itself attacking mechanical, electromechanical, hydraulic or pneumatic actuator assigned.

Finally will proposed that the gear machine as external gear, as an internal gear machine or as a ring gear machine in the sense of a hydraulic gear pump or a hydraulic motor is formed.

to Clarification of the invention, the description is a drawing attached.

In show this:

1 a cross-sectional view of an inventively designed gear machine,

2 a sectional view II according to 1 and

3 a cross-sectional profile of a sealing element of the gear machine according to 1 and 2 ,

Accordingly, shows 1 a gear machine in the form of an external gear machine, in particular an external gear pump, with two in a housing 1 by means of one wave each 2 . 3 rotatably mounted spur gears 4 and 5 whose teeth mesh with each other. One of the two gears 4 or 5 is driven, while the other gear forcibly rotates. For example, suppose that the gear shown on the left in the drawing 4 by means of the shaft 2 is driven, it rotates on the shaft 3 arranged right gear 5 as indicated by the arrows in the opposite direction of rotation.

Both gears 4 . 5 are with comparatively small wall distance in the housing 1 fitted, whereby a fluid to be delivered by the rotational movement of the two gears 4 and 5 in the direction of the arrow between the teeth of the same and the wall of the housing 1 from an inlet 6 one between the wall of the housing 1 and the gears 4 . 5 formed suction chamber 7 is assigned, via a pressure chamber 8th the process 9 is supplied.

Center of the case 1 or between the gears 4 and 5 the fluid is blocked by the return, as the teeth of the two gears 4 . 5 sealingly interlocking. This is a conveyor-preventing short circuit between the suction chamber 7 and the pressure room 8th avoided.

So far So far describe it is a conventional fixed displacement pump whose Delivery volume usually covers the fluid volume flow required in all operating situations, being the above going out amount of oil is derived to the disadvantage of the efficiency.

To create a gear machine or gear pump with infinitely adjustable delivery volume flow, is one of the two gears 4 or 5 , in this case the right-hand gear 5 formed axially displaceable, while the other gear 4 its location in the housing 1 maintains.

By an axial displacement of the gear 5 , out of the in 2 shown normal position of the gears 4 and 5 with maximum conveying capacity, can advantageously the displacement length of the teeth of these gears 4 . 5 be changed, which in turn results in a reduced volume flow of fluid depending on the size of the axial displacement.

For stepless axial displacement of the gear 5 offer a known per se and therefore not shown in detail mechanical, electro-mechanical, hydraulic or pneumatic actuator, which in turn on the shaft 3 or at the gear 5 self attacks.

With the above measures alone, the objects to be achieved according to the advantages are not yet fully achievable. According to the invention, the housing 1 , as in 2 shown, adjacent to the two end faces of the sliding gear 5 each an approximately tunnel-shaped cavity 10 . 11 on. The cavity 10 is preferably circular. Its through the inside of the case 1 The wall formed should be as close as possible to the cavity 10 shifted gear 5 exhibit.

When the sliding gear 5 now axially in the first tunnel-shaped cavity 10 is displaced, so indeed reduces the effective displacement length of the teeth, but at the same time on the opposite end face of the gear 5 in the case 1 creates a free space leading to a direct connection between the suction chamber 7 and the pressure room 8th leads. This stream Mechanical short circuit should be avoided to ensure the functioning of the gear machine.

To reach this goal is in the in 2 shown normal position of the sliding gear 5 in the second cavity 11 a sealing element 12 positioned, although with the gear 5 axially slidably connected, but is formed rotationally. If the gear 5 is now moved axially, the sealing element penetrates 12 in those free space, in which previously the sliding gear 5 has found.

The contours of the sealing element 12 are chosen such that the said clearance by the sealing element 12 almost completely filled out. This is the contour of the inner wall of the housing 1 through the sealing element 12 exactly reshaped and the latter closes as close as possible to the outer diameter of the axially parallel opposite gear 4 at.

A preferred for the selected embodiment cross-sectional profile of the sealing element 12 is 3 can be seen, with particularly clear the required recess 13 is visible in the same, in which the teeth of the axially immovable gear 4 can penetrate.

To a possible fluidic connection via the second cavity 11 To effectively prevent, are the geometries of the sealing element 12 and the second cavity 11 exactly matched to each other, but this for the Axialverschiebbarkeit of the sealing element 12 necessary game is considered.

Alone through the recess 13 in the sealing element 12 , in turn, a non-visible corresponding depression in the wall of the second cavity 11 penetrates, is in itself a certain security against rotation of the sealing element 12 given. But particularly effective, for example, jamming of the sealing element 12 in the cavity 11 To prevent it may be indicated in the cavity 11 and in the sealing element 12 provide further axially aligned and mutually corresponding guide means, such as a spring not shown in detail in the cavity 11 , in turn, in a groove of the sealing element 12 intervenes.

As 2 can be seen further, closes at the of the sealing element 12 facing away from the end of the sliding gear 5 a sealing washer 14 in turn, on the inner contour of the first tunnel-shaped cavity 10 is applied and thus the teeth of the two gears 4 and 5 against the cavity 10 axially seals. By means of a compression spring 15 will this gasket 14 firmly against the facing end face of the gear 5 pressed, leaving the gasket 14 an axial movement of the gear 5 follows.

In the shifted state of the gear 5 the oil runs on the non-meshing ends of both gears 4 . 5 without conveying influence only between the pressure side and the suction side of the gear machine, so that the delivery capacity of the pump is reduced in this position.

The explained embodiment The invention relates to a gear machine in the form of an external gear pump from. The features of the invention but in their combination they are also for others Gear machines, such as internal gear and ring gear machines applicable, wherein both gear pumps and hydraulic motors detected are (not closer ) Shown.

1

casing

2

wave

3

wave

4

unverschiebbares gear

5

movable gear

6

Intake

7

suction

8th

pressure chamber

9

procedure

10

cavity

11

cavity

12

sealing element

13

recess

14

sealing washer

15

compression spring

Claims (8)

Gear machine with infinitely adjustable delivery volume flow, comprising two in one housing ( 1 ) by means of a respective shaft ( 2 . 3 ) rotatably mounted and intermeshing and a suction chamber ( 7 ) and a pressure chamber ( 8th ) for a fluid to be conveyed forming gears ( 4 . 5 ), wherein at least one gear ( 5 ) for changing the displacement length of the gears of the gears ( 4 . 5 ) is axially displaceable, characterized in that adjacent to both end faces of the displaceable gear ( 5 ) the housing ( 1 ) each have a cavity ( 10 . 11 ), that starting from a normal position of the displaceable gear ( 5 ) the same in the first cavity ( 10 ) is axially displaceable, that in the second cavity ( 11 ) and with the displaceable gear ( 5 ) axially slidably connected but rotationally fixed sealing element ( 12 ) is present, and that the sealing element ( 12 ) in the of the sliding gear ( 5 ) Freistellbaren space, a direct fluidic connection between the suction chamber ( 7 ) and the pressure chamber ( 8th ) avoiding the gear machine, in the said space can be inserted. Gear machine according to claim 1, characterized in that on the of the sealing element ( 12 ) pioneering end face of the sliding gear ( 5 ) one the first cavity ( 10 ) sealing gasket ( 14 ) is arranged. Gear machine according to claim 2, characterized in that the sealing disc ( 14 ) an axial movement of the displaceable gear ( 5 ) by means of a spring ( 15 ) against the front side of the gear ( 5 ) is pressed. Gear machine according to claim 1, characterized in that the geometry of the second cavity ( 11 ) such the outer profile of the sealing element ( 12 ) is modeled that a direct fluidic connection between the suction chamber ( 7 ) and the pressure chamber ( 8th ) is avoided. Gear machine according to at least one of the preceding claims, characterized in that the sealing element ( 12 ) by the formed cross-sectional geometry and / or by mutually corresponding axially aligned guide means on the inner wall of the second cavity ( 11 ) and the sealing element ( 12 ) is secured against twisting. Gear machine according to at least one of the preceding claims, characterized in that the axially displaceable gear ( 5 ) one on the shaft ( 3 ) thereof or on the gear ( 5 ) is associated with self-attacking mechanical, electro-mechanical, hydraulic or pneumatic actuator. Gear machine according to at least one of the previous Claims, characterized in that it is characterized by an external gear, an internal gear or a ring gear machine is formed. Gear machine according to at least one of the previous Claims, characterized in that the same as a hydraulic gear pump or hydraulic motor is formed.