DE102014222321B3 - Vane pump with improved starting behavior - Google Patents

Abstract

A vane pump with a cam ring (39), with a rotor (32), with wings (30), with a housing (33) and with a housing cover, with undercut grooves (14) for supplying the lower wing surfaces with pressure is proposed, wherein in the rotor (32) radially displaceably mounted wings (30) are pressed by the pressure outwards against the cam ring (39) and the Unterflügelnuten (14) in each case in one of four squares (I, II, III, IV) Vane pump along a radius (R) extend separately from each other, wherein the Unterflügelnut (14II, 14IV) of the second and the fourth quadrant in the pressure region (12) via a respective aperture (6) with the Unterflügelnuten the first and third quadrants (14I, 14III) are connected, and the Unterflügelnuten (14I, 14III) of the quadrants of the suction region (13) also on the pressure side (11) with an auxiliary pump (40) are connected.

Description

The invention relates to a vane pump, with a contour ring, with a rotor, with wings, with side plates, with a housing and a housing cover, with Unterflügelnuten for supplying the lower wing surfaces with pressure, wherein the wings are arranged radially displaceable in the rotor and by the pressure extend under the wings and be pressed against the contour ring.

State of the art

Such vane pumps are known, they are used in particular for the supply of power steering systems or similar hydraulic systems in motor vehicles and as a gear pump in an automatic transmission. In this case, the two pressure chambers of the vane cells are connected to one another, for example via a pressure collecting space inside or outside the pump, which leads to the consumer in a common pressure line. Likewise, the two suction chambers of the vane cells are connected to each other and lead to the intake of the pump in which the oil flowing back from the steering or a tank of the pump is fed back.

During a cold start of the pump, it comes to the fact that the pump starts only delayed by high-viscosity pump and by highly viscous working fluid and high speeds required to the desired delivery result. The failure of the blades with gravity in the slots of the rotor or by engine kickback, the cold start behavior is still adversely affected.

Such a pump is out of the DE 102 59 894 A1 known. This vane pump has a zwehübigen contour ring, a rotor with wings, side plates and a housing and a housing cover Unterflügelnuten to supply the lower wing surfaces with pressure, wherein the rotor radially displaceable wings are pressed by the pressure in the Unterflügelnut against the contour ring, wherein the Unterflügelnut is divided into two parts and, in each case a part, seen in the direction of rotation, under a suction kidney and at least one subsequent pressure kidney, so that the undercut groove, which is associated with the suction of the pump half, with the associated Unterflügelnut which is associated with the pressure range of the same pump half, is in communication and no connection to the Unterflügelnuten the other pump half exists. This has the consequence that the underflügelversorgung is designed such that no direct shorts on the channels in the side plates and the wings are always pressed with the necessary pressure to the contour to prevent unwanted lifting and thus resulting short circuits.

From the WO 2009/121 471 A1 For example, there is known a vane pump with a very special approach, which has an underfloor pressure section and a take-off downlift travel section, wherein working fluid entering the underfloor pressure section is forced into the take-off downlift travel section. Thereby, the wing located in the Startunterflügelausfahrabschnitt or be in the Startunterflügelausfahr section wings are moved outward in the direction of Hubkontur and create in a subsequent separation area a separation between the suction and pressure range or between a pump inlet and the pump outlet, so that the pump begins to promote. In addition, the wings are extended by the forces acting during operation of the pump centrifugal forces. The pump may have problems if the vanes are not on the stroke ring contour.

From the WO 2013/064386 A2 a vane pump is known in which the wings extend hydraulically by the pressure area at the outlet has a second pump. The second pump builds pressure in an under wing area of the vane pump, which is provided with a check valve to reach a target pressure. In this case, the pressure range of the pump is connected to the lower wing area in the suction at least via a throttle The auxiliary pump used so can not feed directly into the pressure system, otherwise would not be guaranteed with retracted wings of the main pump that the oil does not simply run through the main pump into the tank.

The DE 28 35 816 A1 discloses a pump which is adapted for cold start but has no auxiliary pump and whose Unterflügelnuten are not properly connected.

The DE 102 47 518 A1 shows a vane machine having an additional conveyor. The aim of this combination of pumps is to optimize the efficiency with a continuously moving conveyor.

The DE 199 52 167 A1 shows two parallel running pumps, which are operated by a common drive shaft

The invention has for its object to provide a vane pump, in which an improved start-up characteristic is achieved.

The object is achieved with a vane pump, with a two-stroke lifting ring, with a rotor, with wings, with a housing and with a housing cover with Unterflügelnuten for supplying the lower wing surfaces with pressure, wherein the rotor radially displaceably mounted wings are pressed by the pressure outwards against the cam, the Unterflügelnuten each extending in one of four squares of the vane pump along a radius separated from each other wherein the underfloor grooves of the first and third quadrants are connected to the pressure region and to an auxiliary pump, the underfoot grooves of the second and fourth quadrants respectively being connected via an orifice to the underfoot regions of the first and third quadrants.

The solution can be integrated into existing pump designs, since anyway often a cold start plate is installed, which can be used almost without additional effort for the presented solution, the check valve, if an additional pump is installed. No additional valves are needed as all functionality can be integrated into the pump.

The fact that the main pressure surges are closed by a valve plate, the pump can run much worse

The auxiliary pump can feed directly into the main system.

The inventive solution, a pressure-dependent circuit of the individual Unterflügelnuten is made to provide sufficient pressure for starting the pump. Only the pressure areas are closed in order to prevent the system from draining via the main pump, as long as only the auxiliary pump is operated. In contrast, the Unterflügelnuten are connected to the pressure range to be supplied.

Even at a standstill, the cold start plate prevents idling of the system and the pump itself.

It is advantageous that the Unterflügelnuten not overlap with suction or pressure areas. Thereby, the circuits for starting the vane pump is completely separated from the normal operating circuit and decoupled.

Description of the invention

The invention will now be described in more detail with reference to FIGS.

1 shows a hydraulic circuit diagram according to the invention

2 shows an alternative circuit diagram according to the invention

3 shows a further embodiment

4 shows a view of the assembly from above

5 shows a section along the axis AA along the axis of rotation

In 1 is a hydraulic circuit diagram of a double-flow pump to see. The two intake areas 13 are connected via suction lines, which are not shown, with a reservoir and suck from this common reservoir, the fluid. The pressure ranges 12 lead to a pressure line 11 ,

The vane pump is shown schematically and has four quadrants, the Latin numerals I . II . III . IV are designated. Separated by an approximately horizontal central axis are the pressure areas 12 and the suction areas 13 diametrically arranged from each other. The pressure ranges 12 are on a line, which is shown as a solid line, with the pressure side 11 connected. To recognize in the figure are Unterflügelnuten 14I . 14II . 14III . 14IV each extending only along the respective quadrant. They have a radial extent along a radius R about the central axis. The Unterflügelnuten are formed in the exemplary drawing as simple and unstructured grooves uniform size, width.

The underwing grooves of the pressure-side quadrants I . III stand with the exit side 5A a check valve 5 in connection. At the entrance side 5B the check valve is the line with a connection to the pressure areas 12 connected. The exit side 5A is with an auxiliary pump 40 connected.

At standstill of the vane pump, the blades of the pump can occur in the respective sections of the rotor, the pump can be filled to a large extent with air or is operated with cold and therefore highly viscous oil.

The areas under the wings, the underwing grooves 14I and 14III are to start with pressure from the auxiliary pump 40 applied. As a result, the wings on the Hubringkontur 39 pressed and the start of the pump allows. In order to prevent the same pressure from being applied to the underside of the wing and the top of the wing and thus creating an undefined sash position, the pressure ranges become 12 with a valve 5 locked. In addition, this minimizes the leakage through the main pump, when only the auxiliary pump is operated, to the lower wing area.

In 2 the construction is slightly different than the construction in 1 However, the circuit remains the same. In contrast to the embodiment of the 1 is the check valve 5 in the embodiment of the 2 through a switching valve 41 replaced. The switching valve 41 In this embodiment, one is from the main pump via the control path 42 controlled switching valve.

In a further embodiment, the use of an externally controlled switching valve is provided.

In 3 another embodiment is shown, which is the one check valve 5 supplemented by a second check valve, which in the respective supply lines from the pressure ranges 12 are installed. The two exits 5A are with the auxiliary pump 40 connected.

In the 4 and 5 an exemplary embodiment of a vane pump is shown, in which an integrated solution of the circuit already described is presented. The check valve is integrated as a plate valve with little effort in a pressure plate of the vane pump.

In 4 and 5 is shown schematically the structure of a two-stroke vane pump.

In this case, a vane pump is shown in a separate housing as an example in the illustration. Also included in the invention, however, are also cartridge pumps whose housings are formed by components of other components such as a motor or a transmission. The terms housing and housing cover thus describe the spatial limit of the vane pump.

Within a double-stroke cam ring 39 is a rotor 32 with removable wings 30 shown. The rotor 32 gets through a wave 35 rotates and turns in a space between a basic housing 33 and a print plate 31 , The vane pump contains two pressure ranges 12 and two suction areas 13 which are represented by corresponding pressure and suction kidneys and correspondingly enlarging or reducing cells within the lifting ring. The function of such vane pumps is known. Upon rotation of the rotor 32 The cells enlarge between two wings in the suction area 13 and thus suck fluid into the rotation group. In the printing area 12 reduce the cell volumes between two wings and thus squeeze the fluid from the pressure areas 12 out.

In the printing plate 31 integrated are the check valves 5 , Via pressure channels 36 that with at least one spring plate 8th is closed, the working space of the pump is with the pressure range 11 in connection. The spring plates 8th are with feathers 9 attached against the pressure plate. In the view after 4 it can be seen that the spring plates 8th formed in this example tongue-like and the pressure channels 36 in the printing plate 31 cover. However, the spring plates can be designed in any geometric shape that is suitable for the skilled person.

The plate check valves only seal the pressure channels, while the underfloor supply remains completely open to the system. The spring is not used to build up back pressure. But it serves the surface contact between pressure plate and spring plate 8th manufacture. The back pressure is caused by the additional pump 40 built up. The feather 9 can also be omitted with a suitable structural design.

Alternatively, the closure effect can also be achieved by an elastic valve plate, which is arranged between the pressure and the sealing plate.

The function of the check valves is such that the pressure ranges are closed when the pump is at a standstill and when the start pressure is established. After the start of the promotion in the main pump, a target pressure builds up within the rotation group, which opens the check valve and thus allows a promotion of the pressure oil outward into the two pressure channels and thus to corresponding consumers. The check valves are designed as a simple plate valve.

Often also cold start plates are installed, in which the check valve 5 can be integrated. Cold start plates are arranged parallel to the pressure plate and perform at standstill a sealing function.

The embodiments are not to be understood as limiting the invention. Rather, numerous modifications and variations are possible within the scope of the present disclosure, in particular those variants, elements and combinations and / or materials, for example, by combination or modification of individual in conjunction with those described in the general description and embodiments and the claims and in The features or elements or method steps contained in the drawings for the expert with regard to the solution of the problem can be removed and lead by combinable features to a new subject or to new process steps or process steps, even if they concern manufacturing, testing and working procedures.

LIST OF REFERENCE NUMBERS

I

First underwing quadrant

II

Second underwing quadrant

III

Third underwing quadrant

IV

Fourth underwing quadrant

5

check valve

5A

output

5B

entrance

6

cover

8th

spring plate

9

feather

11

pressure side

12

pressure ranges

13

suction area

14

Unterflügelnut, 14 _I , 14 _II , 14 _III , 14 _IV

30

wing

31

printing plate

32

rotor

33

Headers

35

drive shaft

36

breakthrough

39

lifting ring

R

radius

40

auxiliary pump

41

slide valve

42

control path

44

valve plate

Claims (9)

Vane pump, with a lifting ring ( 39 ), with a rotor ( 32 ), with wings ( 30 ), with a housing ( 33 ) and with a housing cover, with Unterflügelnuten ( 14 ) for supplying the lower wing surfaces with pressure, wherein in the rotor ( 32 ) radially displaceably mounted wings ( 30 ) by the pressure to the outside against the cam ring ( 39 ) are pressed, characterized in that the Unterflügelnuten ( 14 ) each in one of four squares ( I . II . III . IV ) of the vane pump along a radius (R) separated from each other, wherein the lower wing groove ( 14 _II , 14 _IV ) of the second and fourth quadrants in the pressure range ( 12 ) each via a diaphragm ( 6 ) with the underfoot grooves of the first and third quadrants ( 14 _I , 14 _III ) are connected, and the Unterflügelnuten ( 14 _I , 14 _III ) of the quadrants of the suction area ( 13 ) also on the print side ( 11 ) with an auxiliary pump ( 40 ), wherein at least one pressure-limiting component ( 5 . 41 ) when the pump is at a standstill, the pressure ranges ( 12 ) closes to the outside. Vane pump according to claim 1, characterized in that the underflügelnuten ( 14 _I , 14 _II , 14 _III , 14 _IV ) do not overlap with suction or pressure areas. Vane pump according to one of the preceding claims, characterized in that the at least one pressure-limiting component as a plate valve ( 5 ) is trained. Vane pump according to one of the preceding claims, characterized in that the at least one pressure-limiting component as a slide valve ( 41 ) is trained. Vane pump according to claim 3, characterized in that the plate valves ( 5 ) in a printing plate ( 31 ) are arranged. Vane pump according to claim 3, characterized in that the plate valves ( 5 ) are arranged in a cold start plate. Vane pump according to claim 3, characterized in that the plate valves as check valves ( 5 ) are formed and have a shutter function. Vane pump according to claim 7, characterized in that the check valves ( 5 ) without a spring ( 9 ) are constructed. Vane pump according to one of the preceding claims, characterized in that pressure channels ( 36 ) provided with an elastic valve plate ( 44 ) are closable.

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