DE102010053541A1 - Hydraulic conveyer system for promoting hydraulic medium, has wings, which lies in promotion mode at outline, where wings are switched from promotion mode into rotating mode - Google Patents

Abstract

The hydraulic conveyer system (1) has wings (11,12), which lies in a promotion mode at an outline (14). The wings are switched from the promotion mode into a rotating mode. The wing is provided at a distance in the rotating mode independently of the outline, in order to switch the promotion off to the hydraulic medium.

Description

The invention relates to a hydraulic conveyor for conveying a hydraulic medium by means of at least one wing, which rests in a conveying mode on a counter contour, which can be switched from the delivery mode in a circulation mode, in which the conveyor can be operated almost without pressure.

From the German patent DE 195 31 701 C1 is a vane pump with at least one sealing element is known, through which a fluid path to a consumer can be completed and ensures a fluid connection between a pressure side and at least one lower wing area. From the German patent application DE 10 2006 036 756 A1 is a vane pump with a wing known which impulsively applied to the start of the vane pump with a pressure medium and is pressed by the pressure medium to the outside against a cam ring. From the German patent application DE 25 31 491 A1 is a vane machine with a wing known at the inner end of at least one calf is applied, which is acted upon by an outwardly directed spring force. From the German disclosure documents DE 199 08 104 A1 and DE 199 18 393 A1 Hydraulic conveyors are known which are designed as Sperrwügelpumpen.

The object of the invention is to reduce unwanted losses during operation of a hydraulic conveyor according to the preamble of claim 1.

The object is achieved in a hydraulic conveyor for conveying a hydraulic medium by means of at least one wing, which abuts in a conveying mode on a counter contour, which can be switched from the delivery mode in a circulation mode in which the conveyor can be operated almost without pressure, thereby solved in that, in the circulation mode, the vane is at a distance from the counter-contour, independently of the rotational speed, in order to switch off the delivery of the hydraulic medium. The hydraulic conveying device is preferably designed as a vane-cell pump or as a blocking-vane pump and preferably comprises a plurality of vanes which delimit conveying chambers whose size varies during operation of the conveying device. By targeted spacing of the wings of the mating contour, the conveying effect of the wings is switched off, since the wings, if they do not rest against the mating contour, no longer limit the delivery chambers.

A preferred embodiment of the hydraulic conveyor is characterized in that the wing is spaced in the circulation mode by a spring means of the mating contour. In this case, the spring device is preferably designed so that the wing is spaced from the counter contour in an unloaded state or in a slightly loaded state of the spring means. In conveying mode, the wing, for example, by applying a corresponding hydraulic force on the wing, brought against the biasing force of the spring means on the mating contour to the plant, wherein deforms the spring means.

A further preferred embodiment of the hydraulic conveyor is characterized in that the wing is held in circulation mode by the spring means in a slot from which the wing extends in the conveying mode until it bears against the mating contour. Preferably, the wing is fully retracted in the circulation mode in the slot. As a result, undesirable pressure losses and / or friction losses are avoided by the wing.

Another preferred embodiment of the hydraulic conveyor is characterized in that the wing is pressed in the conveying mode in the slot with pressure to extend the wing against the spring force of the spring means. The wing is preferably acted upon at its end facing away from the opposite contour with a hydraulic pressure. The pressurization can be done for example via a Unterflügelnut.

A further preferred embodiment of the hydraulic conveying device is characterized in that the conveying device is designed as a blocking vane pump with the wing as a blocking wing, preferably with a plurality of wings as a blocking wing, and with a rotatable rotor, on which the mating contour is formed. In conveying mode, the blocking wing abuts against the rotor. In the circulation mode, the blocking wing is held by the spring device at a distance from the rotor.

A further preferred embodiment of the hydraulic conveying device is characterized in that the blocking wing is guided in a housing slot and is biased by a bending spring in the housing slot. The design of the spring device as a bending spring provides the advantage that only little space in the housing of the conveyor is claimed. The bending spring, for example, has the shape of an elongated leaf spring whose ends are bent.

A further preferred embodiment of the hydraulic conveyor is characterized in that the housing in the region of the housing slot a recess for receiving having the bending spring. The recess is designed, for example, as a recess in the region of the housing slot. Preferably, the spiral spring and the recess extend substantially transversely to the housing slot.

A further preferred embodiment of the hydraulic conveyor is characterized in that the housing has grooves in the region of the recess. A reciprocating movement of the spring device, in particular the bending spring, in operation of the conveyor may lead to an undesirable pumping action of the spring device. Through the grooves shorting connection channels are created, through which the pumping action of the spring device, in particular the bending spring, is compensated.

A further preferred embodiment of the hydraulic conveyor is characterized in that the conveyor is designed as a vane pump with a rotor which guides the wing, preferably a plurality of wings, and which is rotatable within a cam ring, on which the counter contour is formed. In conveying mode, the wing abuts the lifting ring. In the circulation mode, the wing is retracted by the spring device in a rotor slot.

A further preferred embodiment of the hydraulic conveyor is characterized in that the spring device is designed as a tension spring which is fixed in the interior of the rotor. Preferably, a plurality of tension springs are attached to a central body in the interior of the rotor.

Further advantages, features and details of the invention will become apparent from the following description in which, with reference to the drawings, various embodiments are described in detail. Show it:

1 a designed as a paddle-type hydraulic pump in plan view in a delivery mode;

2 the conveyor off 1 in a recirculation mode;

3 a perspective view of the housing of the conveyor from the 1 and 2 ;

4 a perspective view of a wing of the conveyor from the 1 and 2 ;

5 a perspective view of a spring device in the 1 and 2 illustrated conveyor;

6 a designed as a vane pump conveyor in plan view in a conveying mode;

7 the conveyor off 6 in a recirculation mode and

8th the conveyor off 6 in an obstructed state in circulation mode.

In the 1 to 5 is a hydraulic conveyor 1 presented in different views and states. The hydraulic conveyor 1 is as a double-flow vane pump with a housing 4 executed, in which a rotor 5 is rotatably arranged. In housing slots 8th . 9 of the housing 4 is each a wing 11 . 12 moved back and forth on the rotor 5 led to and from this path.

In the in 1 shown conveying mode are the wings 11 . 12 , which are also called poppets, each with their from the associated housing slot 8th . 9 outstanding end on a counter contour 14 on, on the rotor 5 is trained. The other end of the wing 11 . 12 protrudes into a pressure chamber 17 . 18 , which is acted upon by a hydraulic medium pressure. The wings 11 . 12 are each by a spring device 15 . 16 from the opposite contour 14 of the rotor 5 biased away.

In 2 is the conveyor 1 presented in the circulation mode, in which the wings 11 . 12 by the biasing force of the spring device 15 . 16 each in the associated housing slot 8th . 9 retracted and from the counter contour 14 of the rotor 5 are spaced. The spring devices 15 . 16 are designed as bending springs. By applying the wings 11 . 12 in the pressure chambers 17 . 18 with a correspondingly high hydraulic medium pressure, the wings can 11 . 12 purposefully out of her in 2 extended retracted position until they are in their extended position, the in 1 is shown, with one end to the mating contour 14 of the rotor 5 issue.

In 3 is the case 4 shown in perspective alone. In this illustration you can see that the case 4 in the area of the housing slots 8th . 9 one recess each 21 . 22 , Which is designed as a recess, for receiving the spring means. In the bottom of the recesses 21 . 22 each have several grooves 23 . 24 recessed, parallel to the housing slots 8th . 9 run. During operation of the conveyor 1 could the floatation of the spring devices 15 . 16 to lead a pumping action, which is undesirable. The grooves 23 . 24 prevent this pumping action by causing a short circuit at the respective spring device 15 . 16 pass by.

In 4 is the wing 12 shown in perspective alone. In this illustration you can see that the wing 12 an incision-like recess 25 in which the associated spring device 16 engages in how to get in 2 sees. In addition, the wing points 12 at his in the pressure room 18 projecting end a step-like projection 26 on, on the one hand as Wegbegrenzung when retracting the wing in the housing slot 12 serves. On the other hand serves the step-like projection 26 in addition, an unwanted clinging of the wing 12 in the pressure room 18 on the housing 4 to prevent.

In 5 is the spring device 16 shown in perspective alone. The spring device 16 is as a spiral spring with an elongated body 30 executed, whose ends 31 . 32 are bent. The elongated body 30 is in the assembled state of the conveyor 1 within the incision-like recess 25 of the grand piano 12 arranged to the wing 12 with the spring device 16 to pair. The bent ends 31 . 32 the spring device 16 serve to the spring device 16 in the housing body 4 to fix.

The conveyor according to the invention 1 is, for example by an internal combustion engine, permanently driven. In the in 1 shown conveying mode promotes the conveyor 1 a volume flow to at least one consumer. According to an essential aspect of the invention, the conveyor 1 from her in 1 illustrated conveying mode in the in 2 shown circulating mode, in which the wings 11 . 12 through the spring devices 15 . 16 so in distance from the mating contour 14 of the rotor 5 be held that the rotor 5 that in the conveyor 1 contained hydraulic medium, for example cooling oil, only pushes in front of him without a displacement of the hydraulic medium takes place to the outside. A circulation of the hydraulic medium takes place in circulation mode exclusively within the conveyor 1 , As a result, a complete interruption of the hydraulic medium delivery is made possible in a simple manner. By pressurizing the wings 11 . 12 in the pressure chambers 17 . 18 The promotion can be resumed at any time regardless of speed.

In the 6 to 8th is a hydraulic conveyor 41 shown in different states. The hydraulic conveyor 41 is as a wing cell with a lifting ring 43 executed in a housing 44 fixed or adjustable is arranged. Inside the cam ring 43 is a rotor 45 in the direction of an arrow 46 rotatably arranged. The rotor 45 is preferably permanently powered, for example by an internal combustion engine.

The rotor 45 includes three radially extending slots, each containing a wing 51 . 52 . 53 is guided back and forth movable. In the in 6 shown conveying mode are the wings 51 to 53 extended, leaving it with its out of the rotor 45 outstanding ends on a counter contour 54 abutment, the inside of the cam ring 43 is trained.

By spring devices 55 . 56 . 57 are the wings 51 to 53 biased into a retracted state, which in the 7 and 8th is shown. In their retracted state are the wings 51 to 53 completely in the rotor 45 retracted, leaving them from the opposite contour 54 of the cam ring 43 are spaced. The spring devices 55 to 57 are each designed as tension springs, in particular as Schraubenzugfedern, and on a central body 60 inside the rotor 45 attached.

Through a dashed line 58 is in 6 hinted that the wings 51 to 53 in the rotor 45 can be acted upon with a hydraulic medium pressure, that they against the biasing force of the spring means 55 to 57 from her to the 7 and 8th shown retracted position in their in 6 extend shown extended position. The pressurization of the wings 51 to 53 can be done for example by a Unterflügelnut in a housing body, to which the rotor 45 and the wings 51 to 53 lie in the axial direction, is recessed.

In 7 is by an arrow 65 hinted that the wings 51 to 53 due to the biasing force of the spring means 55 to 57 in the rotor 45 Retract as soon as the Hydraulikmediumdruckbeaufschlagung is interrupted.

In the 6 and 8th is through two floating bearings 71 . 72 indicated that the lifting ring 43 is adjustable to the position of the cam ring 43 relative to the rotor 45 to change. At the in 6 illustrated embodiment, the rotor nestles 45 forming a so-called Schmiegespalts to the counter contour 54 of the cam ring 43 at. In this position of the cam ring 43 promotes the conveyor 41 the maximum volume flow.

In 8th is the lifting ring 43 concentric or coaxial with the rotor 45 arranged. In this position of the cam ring 43 promotes the conveyor 41 if the wings 51 to 53 are extended, no hydraulic medium. However, when the wings kick 51 to 53 at the in 8th shown position of the cam ring 43 are extended, circulating and Friction losses on, which worsen the efficiency unnecessarily. By retracting the wings 51 to 53 These unwanted Umwälz- and friction losses can be significantly reduced or completely prevented.

At the in 7 illustrated embodiment is by two fixed bearings 75 and 76 indicated that the lifting ring 43 not adjustable. Nevertheless, by retracting the wings 51 to 53 in the rotor 45 the conveying effect of the conveyor 41 be switched off if necessary.

The force effect of the spring devices 55 to 57 shows the center of rotation of the rotor 45 , This will cause an independent extension of the wings 51 to 53 during operation of the conveyor 41 prevented due to centrifugal forces. The extension of the wings 51 to 53 is ensured by an external pressurization of the vane slots, as by the pressure line 58 in 6 is indicated. The provision of the wings 51 to 53 is through the spring devices 55 to 57 ensured.

LIST OF REFERENCE NUMBERS

1

hydraulic conveyor

4

casing

5

rotor

8th

housing slot

9

housing slot

11

wing

12

wing

14

mating contour

15

spring means

16

spring means

17

pressure chamber

18

pressure chamber

21

recess

22

recess

23

groove

24

groove

25

notch-like recess

26

step-like projection

30

elongated body

31

bent end

32

bent end

41

hydraulic conveyor

43

lifting ring

44

casing

45

rotor

46

arrow

51

wing

52

wing

53

wing

54

mating contour

55

spring means

56

spring means

57

spring means

58

pressure line

60

central body

65

arrow

71

movable bearing

72

movable bearing

75

fixed bearing

76

fixed bearing

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19531701 C1 [0002]
• DE 102006036756 A1 [0002]
• DE 2531491 A1 [0002]
• DE 19908104 A1 [0002]
• DE 19918393 A1 [0002]

Claims (10)

Hydraulic conveyor for conveying a hydraulic medium by means of at least one wing ( 11 . 12 ; 51 - 53 ), which in a conveying mode on a counter contour ( 14 ; 54 ), wherein it is possible to switch from the delivery mode into a circulation mode in which the delivery device ( 1 ; 41 ) can be operated almost without pressure, characterized in that the wing ( 11 . 12 ; 51 - 53 ) in circulation mode independent of speed of the mating contour ( 14 ; 54 ) is spaced to shut off the delivery of the hydraulic medium. Hydraulic conveyor according to claim 1, characterized in that the wing ( 11 . 12 ; 51 - 53 ) in the circulation mode by a spring device ( 15 . 16 ; 55 - 57 ) of the mating contour ( 14 ; 54 ) is spaced. Hydraulic conveyor according to claim 2, characterized in that the wing ( 11 . 12 ; 51 - 53 ) in the circulation mode by the spring device ( 15 . 16 ; 55 - 57 ) in a slot ( 8th . 9 ), from which the wing ( 11 . 12 ; 51 - 53 ) in the conveying mode until it reaches the counter contour ( 14 ; 54 ) is present. Hydraulic conveyor according to claim 3, characterized in that the wing ( 11 . 12 ; 51 - 53 ) in the conveying mode in the slot ( 8th . 9 ) is pressurized to the wing ( 11 . 12 ; 51 - 53 ) against the spring force of the spring device ( 15 . 16 ; 55 - 57 ) to drive out. Hydraulic conveyor according to one of the preceding claims, characterized in that the conveyor ( 1 ) as a blocking wing pump with the wing ( 11 . 12 ) as a barrier wing, preferably with several wings ( 11 . 12 ) as a blocking wing, and with a rotatable rotor ( 5 ) is executed, on which the counter contour ( 14 ) is trained. Hydraulic conveyor according to claim 5, characterized in that the blocking wing ( 11 . 12 ) in a housing slot ( 8th . 9 ) is guided and biased by a spiral spring in the housing slot. Hydraulic conveyor according to claim 6, characterized in that the housing ( 4 ) in the region of the housing slot ( 8th . 9 ) a recess ( 21 . 22 ) for receiving the bending spring. Hydraulic conveyor according to claim 7, characterized in that the housing ( 4 ) in the region of the recess ( 21 . 22 ) Grooves ( 23 . 24 ) having. Hydraulic conveyor according to one of claims 1 to 4, characterized in that the conveyor ( 41 ) as a vane pump with a rotor ( 45 ) is executed, which the wing ( 51 - 53 ), preferably several wings ( 51 - 53 ), and within a cam ring ( 43 ) is rotatable, on which the counter contour ( 54 ) is trained. Hydraulic conveyor according to claim 9, characterized in that the spring device ( 55 - 57 ) is designed as a tension spring, which in the interior of the rotor ( 45 ) is attached.

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