DE102007018247A1 - vacuum pump - Google Patents

Abstract

The invention relates to a vacuum pump comprising a crucible-shaped housing, a rotor mounted eccentrically rotatably in the housing, a blade (20) supported displaceably perpendicular to the rotational axis in the rotor, the blade having the blade tips thereof resting against an internal circumferential surface delimiting a working space, thus dividing the working space into a suction space (32) and a pressure space (34), and the suction space being provided with an air inlet opening and the pressure space being provided with an air outlet opening, wherein the air outlet opening is provided with an outlet valve and the outlet valve (40) has a leaf spring (44) clamped on one side as a closing element, wherein the spring characteristic curve of the leaf spring changes from the clamped location (50) in the direction of the free end (62).

Description

The The invention relates to a vacuum pump with a cup-shaped Housing, one eccentrically rotatable in the housing mounted rotor, one in the rotor orthogonal to the axis of rotation displaceable stored wings, with its wing tips at an inner peripheral surface delimiting a working space the housing rests while the working space in a Suction chamber and a pressure chamber divided, and the suction chamber with a Air inlet opening and the pressure chamber with an air outlet opening are provided, wherein the air outlet opening with an outlet valve is provided and the exhaust valve as the closing member a having unilaterally clamped leaf spring.

Vacuum pumps with such a structure are for example from DE 10 2004 034 926 B3 known. They usually have a housing in which a rotor is rotatably mounted, wherein the rotor is located in a working space. Such vacuum pumps are used inter alia in vehicles, where, for example, the motor of the motor vehicle rotates the rotor. These vacuum pumps are lubricated with oil, which also serves to seal the sealing gap between the wing and working space in order to achieve high efficiency.

At the outlet opening an outlet valve is provided, which is designed in the manner of a leaf spring. This leaf spring presses on the outside of the air outlet and closes it. The leaf spring can be bent over the prevailing pressure in the pressure chamber to the outside. As a result, the compressed air is expelled from the pressure space in the pressure line. Such a device is for example from the DE 40 19 854 B4 known. With this vacuum pump it has been found that with leaf springs closed air outlet openings, which are not completely covered when sweeping the wing, relatively high losses occur. This is because, when the wing passes over the air outlet opening and the leaf spring is moved from the outflowing, compressed air to the open position, the outlet opening is fully opened, ie behind the wing for the subsequent pressure chamber is also open, so that compressed air from the located in front of the wing pressure chamber is not in the pressure line, but in the behind the wing located pressure chamber overflowed, in which the air has a much lower pressure. It can even flow back into the pressure line conveyed air in this behind the wing located pressure chamber back, resulting in significant pressure losses.

Of the The invention is therefore based on the object to provide a vacuum pump, in which it is ensured that the compressed in the pressure chamber Air completely expelled in the pressure line and not in the past behind the wing located pressure chamber becomes.

These The object is achieved by a vacuum pump of the type mentioned in the present invention solved that the spring characteristic of the leaf spring from the clamping point changes in the direction of the free end.

at the vacuum pump according to the invention has the outlet valve a leaf spring, not, as in the prior art, from a leaf spring having a constant spring constant. Much more the leaf spring according to the invention has one of the clamping point starting from changing spring constant. This means that the free end of the leaf spring with a relative small force can be lifted from the outlet opening, whereas for the further lifting of the leaf spring for this purpose required force increases disproportionately. hereby the advantage is achieved that only the area of the leaf spring is lifted from the outlet opening, which is for the outlet of the compressed fluid is required. Too big opening of the exhaust valve is through to the clamping of the leaf spring towards growing force required to lift the leaf spring effectively prevented.

A change The spring characteristic or the spring constant can according to the invention for Example be done by the leaf spring on their Length has changing spring characteristics, what for example by a specific hardening different Areas of the leaf spring can be done.

at a development of the invention is the Leaf spring designed as a rectangular spring, triangular spring or trapezoidal spring. Already by the form of the spring can be aimed at their rigidity be acted. Please note only that the outlet opening is completely covered by the leaf spring.

A another variant of the invention provides that the leaf spring is a simple or layered leaf spring. at a layered leaf spring, two or more leaves lie on top of each other, either the same length or graduated lengths exhibit. The leaves are attached to the clamping point and extend differently at different lengths far away from this. This specifically targets the stiffness of the free Increased end of the leaf spring in the direction of the clamping point. Also, the friction between the leaves be used to control the opening of the valve.

at a development of the invention is provided that the leaf spring is a constant or one of the clamping point starting to have decreasing thickness. This may be the thickness of the leaf spring continuous, but preferably in stages, change. The production takes place, for example, by gradual rolling of the individual leaves.

A variant according to the invention provides that at a layered leaf spring the thickness of each leaf equal or unequal. Especially with uneven thick leaves The thickness can be greater with shorter leaves be.

Prefers the leaf spring is made of metal or plastic. At layered Leaf springs can also be made from a combination of plastic and leaf springs be constructed of metal existing leaves. Especially The long leaves are made of plastic, whereas the short leaves are made of metal.

A another variant of the invention provides that in a layered leaf spring, the leaves with decreasing Length are blown up. This means that the leaves curved in the direction of each longer leaf are. Also by this measure, the rigidity of Leaf spring raised in the direction of the clamping point.

Prefers the leaf spring is part-circular in the sealing plane or kidney-shaped. This is especially the case Case when the outlet opening is in the bottom of the case located. Is the outlet opening in the peripheral wall of the housing, then the above measures each with respect to the curvature of the peripheral wall customized. This means that the leaf spring from the outset the Curvature of the peripheral wall or the outlet opening having.

Further Advantages, features and details of the invention will become apparent the subclaims and the following description, in the referring to the drawing a particularly preferred Embodiment is described in detail. there can be as shown in the drawing as well as in the Claims and features mentioned in the description each individually or in any combination be essential to the invention.

In show the drawing:

1 a vacuum pump with the housing cover removed;

2 showing the back of the vacuum pump, the drive of the rotor and the exhaust valve;

3 an enlarged view of the exhaust valve before assembly; and

4 the exhaust valve according to 3 in assembled position.

In the 1 is with the reference numeral 10 denotes a vacuum pump, wherein the housing 12 is shown without housing cover. This housing cover is partially in 2 recognizable. The housing 12 has a suction connection 14 in an interior 16 opens. In this interior 16 there is a total of 18 designated rotor, in which a wing 20 orthogonal to the axis of rotation 21 is slidably mounted. The rotor 18 has a rotor housing 24 on, with which he is on an inner circumferential surface 22 of the workroom 30 is applied. The rotor 18 passes through the housing 12 , especially a floor 26 of the interior 18 , via a drive opening and protrudes on the back of the housing 12 out so that it by means of a drive, not shown on a clutch 28 ( 2 ) can be set in rotation. The interior 16 gets off the wing 20 in a suction room 32 and a pressure room 34 divided. The direction of rotation of the rotor 20 is with an arrow 36 indicated. Besides that is in the pressure room 34 located and in the ground 26 of the housing 12 arranged air outlet 38 partially recognizable. This outlet opening 38 could also be in the perimeter area 22 be provided.

In the 2 is the back of the case 12 the vacuum pump 10 represented and it is behind the air outlet 38 Exhaust valve located 40 recognizable. This exhaust valve 40 has a valve stop 42 , which is the deflection of a leaf spring 44 trained closing organ 46 limited. This leaf spring 44 is like, for example 3 visible, directly on the outside of the outlet opening 38 open and close this off 4 is apparent. With a screw 48 is not just the valve stop 42 but also the leaf spring 44 at its clamping point 50 on the housing 12 attached.

From the 3 it can be seen that the leaf spring 44 from a total of four leaves 52 to 58 exists at their clamping point 50 one mounting hole each 60 for the passage of the screw 48 have and starting from this attachment opening 60 lie one above the other and in the direction of the free end 62 of the leaf 52 extend. Because the outlet opening 38 in the ground 26 of the workroom 30 owns the outlet opening 38 and thus also the leaf spring 44 a part-circular or kidney-shaped and are around the rotor 18 curved.

The leaf 52 is the outlet opening 38 UNMIT neighbors and lies on this and closes them. The leaf 52 gets off the sheet 54 behind which lies against the opposite side. However, the sheet owns 54 a shorter length, leaving the sheet 52 the leaf 54 towering over a certain distance. The leaves 56 and 58 are structured accordingly and engage behind the sheet 54 or the sheet 56 ,

As a result, to lift the free end 62 of the leaf 52 only a small pressure force in the direction of the arrow 64 is required. At high volume flow is in addition to the free end 62 of the leaf 52 also the free end of the sheet 54 and possibly the free end of the sheet 56 raised. To the leaves 54 . 56 and 58 to raise one after the other, it must be in the direction of the arrow 64 However, acting pressure force increase disproportionately. This ensures that only the extreme free end 62 from the outlet opening 38 is lifted off and the remaining area of the outlet opening 38 continue from the leaf spring 44 is covered. This will prevent air from the pressure chamber 34 in front of the wing 20 in the suction room 32 behind the wings 20 overflows.

From the 3 and 4 is recognizable that the free end 32 of the leaf 52 is rounded and the leaves 54 . 56 and 58 Although partially curved curved, but with respect to the curvature of its longitudinal axis has a rectangular shape. It is also possible that the leaves 52 to 58 triangular with the tip to the free end 62 directed or trapezoidal are formed. Furthermore, the leaves can 54 to 58 blasted, that is towards the respective underlying leaves 52 to 56 be curved or curved. There is also the possibility that the respective protruding ends of the leaves 52 to 56 one to the free end 62 have decreasing thickness. The material of the sheet 52 For example, it may be plastic, whereas the materials of the other sheets 54 to 58 a metal is. Different spring rates or stiffnesses of the individual leaves 52 to 58 are also possible.

The 4 shows the leaf spring 44 in the assembled position in which the leaves 52 to 58 lie one above the other. It is also conceivable, a one-piece leaf spring 44 produce with stepped thickness. The thickness can also be from the clamping point 50 proceeding continuously towards the free end 62 lose weight.

With the vacuum pump according to the invention 10 is a backflow of compressed fluid into the suction chamber 32 effectively diminished.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102004034926 B3 [0002]
• - DE 4019854 B4 [0003]

Claims (9)

Vacuum pump ( 10 ) with a cup-shaped housing ( 12 ), an eccentric in the housing ( 12 ) rotatably mounted rotor ( 18 ), one in the rotor ( 18 ) orthogonal to the axis of rotation ( 21 ) displaceably mounted wings ( 20 ), with its wing tips at a working room ( 30 ) limiting inner peripheral surface ( 22 ) of the housing ( 12 ) and thereby the working space ( 30 ) in a suction chamber ( 32 ) and a pressure chamber ( 34 ) and the suction space ( 32 ) with an air inlet opening ( 14 ) and the pressure chamber ( 34 ) with an air outlet opening ( 38 ), wherein the air outlet opening ( 38 ) with an outlet valve ( 40 ) and the exhaust valve ( 40 ) as a closing member ( 46 ) a cantilevered leaf spring ( 44 ), characterized in that the spring characteristic of the leaf spring ( 44 ) from the clamping point ( 50 ) towards the free end ( 62 ) changes. Vacuum pump according to claim 1, characterized in that the leaf spring ( 44 ) is a rectangular spring, triangular spring or trapezoidal spring. Vacuum pump according to one of the preceding claims, characterized in that the leaf spring ( 44 ) a simple or layered leaf spring ( 44 ). Vacuum pump according to one of the preceding claims, characterized in that the leaf spring ( 44 ) a constant or one of the clamping point ( 50 ) has starting decreasing thickness. Vacuum pump according to one of the preceding claims, characterized in that in the case of a layered leaf spring ( 44 ) the thickness of the individual leaves ( 52 . 54 . 56 . 58 ) is the same or different. Vacuum pump according to one of the preceding claims, characterized in that the leaf spring ( 44 ) consists of metal or plastic or a combination. Vacuum pump according to one of the preceding claims, characterized in that the leaf spring ( 44 ) is bent part-circular or kidney-shaped in the sealing surface. Vacuum pump according to one of the preceding claims, characterized in that in the case of a layered leaf spring ( 44 ) the leaves ( 52 . 54 . 56 . 58 ) are blown up with decreasing length. Vacuum pump according to one of the preceding claims, characterized in that the outlet valve ( 40 ) with the leaf spring ( 44 ) in the ground ( 26 ) or the peripheral wall ( 22 ) of the housing ( 12 ) are located.