DE102004034921B9 - A single-blade - Google Patents

Abstract

A single-blade with a cup-shaped casing (12), an eccentric in the housing (12) rotatably mounted rotor (18), one in the rotor (18) orthogonal to Rotary axis (21) slidably mounted wings (20) and a wing (20) receiving working space (22) having an inner peripheral surface (30), at which the two opposite sealing edges (68) of the wing (20) abut the wing (20) the working space (22) in a suction chamber (24) and a pressure chamber (26), characterized in that the inner peripheral surface (30) facing end (28) of the wing (20) on the pressure chamber (26) side facing a flattened Section (66), that the wing (20) off-center over a line of contact (68) on the inner circumferential surface (30) and the contact line (68) in terms of the longitudinal central axis (42) is displaced in the direction of the suction chamber (24) and within the wing broadsides (44) of the grand piano (20) lies.

Description

The The invention relates to a single-wing vacuum pump with a cup-shaped Casing, one eccentric in the housing rotatably mounted rotor, one in the rotor orthogonal to the axis of rotation slidably mounted wings and one the wing receiving working space with an inner peripheral surface, on which the two opposite sealing edges of wing abut, wherein the wing the Working space divided into a suction chamber and a pressure chamber.

Vacuum pumps with such a structure are for example from DE 100 46 697 A1 known. As a rule, they serve to provide a vacuum for a vacuum consumer, for example in a motor vehicle, by causing the rotor to rotate and sucking air out of a vacuum line via the suction space. The working space of this vane pump is designed so that the wing with its two opposite ends on the inner peripheral surface slides along. The wing separates the suction chamber, which is connected to the suction port, from the pressure chamber, which is connected to the pressure port. In order to achieve a high degree of efficiency, the wing must be permanently attached to the inner peripheral surface, since the suction chamber is otherwise ventilated.

A known solution beats in front of the wing build two-piece and insert a spring between the two wing parts, the two wing parts outward in the direction of the peripheral surface urges. This will ensure that the sealing edges of the wing permanently on the inner peripheral surface issue. As disadvantageous but considered that this wing due the contact pressure is subject to considerable wear, which does not only the efficiency drops, but also maintenance intervals are shortened.

From the DE 43 32 540 A1 a vane pump has become known in which four wings are mounted in the rotor over the circumference. The longitudinal axis of the wings is parallel and spaced from the diameter of the rotor. In addition, both the wing tip and the wing base located in the rotor are acted upon by the pressure prevailing in the pressure chamber. In addition, the suction pressure prevailing in the suction chamber acts on the hook-shaped wing tip. As a result, depending on the rotational position of the rotor, the blade is pressed against or against the inner peripheral surface, either in addition to the centrifugal force. However, an additional pressing causes a higher wear and a lower efficiency, since the friction forces are higher.

Of the The invention is therefore based on the object, a single-wing vacuum pump to provide, which has a better efficiency.

These Task is with a single-wing vacuum pump of the aforementioned type according to the invention solved in that facing the inner peripheral surface End of the wing on the pressure chamber side facing a flattened section that has the wing off-center about one contact line on the inner circumferential surface is present and the contact line in terms of the longitudinal central axis is shifted in the direction of the suction chamber and within the wing broadsides of the grand piano lies.

Usually the ends of the wing are cylindrically rounded and are over a central contact or generatrix of the cylinder on the inner peripheral surface of the cylinder Working space. In the single-wing vacuum pump according to the invention is the end of the grand piano partially flattened on the pressure side, whereby the pressure forces acting on the wing in their Changed direction become. By the flattened section of the radial portion of the Increased pressure, the centrifugal force of the wing counteracts. The centrifugal force of the wing, which the wing to the peripheral surface of the working space is pressed, so by the counteracting her share reduces the pressure force from the pressure chamber. The wing will So pressed less strongly to the peripheral surface.

at a preferred embodiment the flattened portion just formed. Such a trained wingtips are relatively easy to produce, as this flattened section for example, by a milling process can be attached or produced.

at a preferred embodiment provided that the section limiting or to the section adjacent surfaces partially cylindrical are. This provides the advantage that the contact line relatively easy on the surface the wing tip can walk along. Since the angle of attack of the wing during a complete revolution of the rotor changes permanently, also wanders the contact line the wing tip slightly the cylindrical Design of the wing tip a uniform wear guaranteed.

A harmonious course and thus a simple production of the wing tip is achieved in that the surfaces at the wing tip steadily pass into the flattened section. The surfaces and the section at the transition points can have the same tangents. The processing tools can produce the wing tip in one operation or, in an injection-molded wing tip, the injection mold easy and inexpensively manufactured.

With Preference points the wing a wing body and two terminal ones Essays on. At these essays is the flattened section formed and these essays are on the inner circumferential surface of the workroom. This has the significant advantage of being worn out wing by exchanging the essays can be serviced, the essays preferably made of plastic, whereas the wing body for Example consists of metal. In this case, the wing body is a die-cast or injection-molded element and the essays are injection molded.

to Fixing the attachments instructs the wing body his the essays receiving ends each have a slot orthogonal to the Wing broadside of the wing body runs. Of the The attachment has a U-shape formed by two parallel legs. or C-shaped Cross-section on. Thus, the Essays be fitted securely against displacement on the ends of the wing body and are only movable in the direction of the wing longitudinal axis. hereby can they are due to their centrifugal force on the inner peripheral surface of the Create working space and seal the suction chamber opposite the pressure chamber.

at an embodiment the legs flank a bridge, with the legs themselves on semicircular at the free end are formed and in a corresponding semi-circular Aufnehmung engage at the ends of the wing body. Both the bridge and shots for the thighs prevent that the essays undefined movements during the operation of the pump. In particular, a flutter or rattling, as well become noise developments prevented. With preference, the essays are under low bias pushed onto the ends of the wing body.

One Another feature is seen in that the essay rotated by 180 ° attachable to the wing body is. This means that the ends of the wing body as well as the shots so are designed to allow a rotation of the essays.

Further Advantages, features and details of the invention will become apparent the dependent claims as well as the following description, with reference to FIG the drawing a particularly preferred embodiment in detail is described. It can those shown in the drawing and in the description and in the claims mentioned Features individually for themselves or be essential to the invention in any combination.

In show the drawing:

1 an exploded view of the vacuum pump;

2 a perspective view of the single-wing vacuum pump with inserted rotor and wing;

3 a perspective view of a wing body;

4 a perspective view of an essay; and

5 a plan view of one end of the wing, showing the pressure distribution.

In the 1 is with the reference numeral 10 denotes a vacuum pump, wherein the housing 12 is shown without housing cover. 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.

Like from the 2 visible, divided the wing 20 from the interior 18 formed working space 22 in a suction room 24 and a pressure room 26 , This is the wing 20 with both ends 28 at one the working space 22 surrounding inner circumferential surface 30 at.

The wing 20 is how out 1 seen from a wing body 32 and two essays 34 educated. The 3 shows the wing body 32 , where the 4 one of the essays 34 reproduces. The wing body 32 consists in the embodiment of metal and is a die-cast part, but it may also be injection-molded. For tribological reasons, there is the essay 34 made of plastic and is injection molded. For weight reduction and reduction of moments of inertia is the wing body 32 with cavities 36 provided, which are executed either continuously or as a blind hole. At both ends 38 points the wing body 32 one slot each 40 on, on the one hand in the direction of the longitudinal axis 42 of the grand piano 20 , to the other orthogonal to the wing broadside 44 extends.

In addition, the two wing broadside 44 in the area of the ends 38 with substantially semicircular recesses 46 provided in which thighs 48 (please refer 4 ) of the essay 34 can be inserted. The two thighs 48 flank a footbridge 50 which also points in the direction of the longitudinal axis 42 of the grand piano 20 extends and the shape of the slot 40 has. Both the slot 40 with jetty 50 as well as the recess 46 verhin that the essay 34 in the direction of the axis 52 can be relocated. The the end 38 embracing thighs 48 prevent the essay 34 in the direction of the axis 54 dodging. This means that the essay 34 only in the direction of the longitudinal axis 42 displaceable on the wing body 32 is attached.

In the 5 is a plan view of the wing body 32 with attached attachment 34 shown. The essay touches 34 the inner peripheral surface 30 so that the suction chamber 24 below and the pressure room 26 above the wing 20 are located. The wing 20 turns in the direction of the arrow 56 ,

Would the wing 20 a rounded end 28 have, for example, an axial compressive force 58 that of the pressure in the pressure room 26 is generated on the end 28 act. This pressure force 58 acts against the centrifugal force of the wing 20 that with the arrow 64 is indicated.

Like from the 4 and 5 can be seen possesses the essay 34 a flattened section 66 , its contact line 68 a distance A to the median plane 70 of the grand piano 20 having. On the flattened section 66 the power acts 60 one. This power 60 is greater than the pressure force 58 because of the section 66 a larger axial projection in the pressure chamber 26 has as the (shown in phantom) conventional wings.

Therefore, the centrifugal force acts a greater counterforce, namely the force 60 opposite. The wing 20 is thus less strong on the inner peripheral surface 30 pressed.

In addition, there is the contact line 38 on a partially cylindrical section 72 of the essay 34 , The partially cylindrical section 72 goes steadily with the same tangent in the flat section 66 above. As a result, the advantage is achieved that on the pressure side of the wing 20 evenly over the section 66 and then evenly over the section 72 distributed so that the contact line 68 is wetted over its entire length.

Claims (12)

Single-wing vacuum pump 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 ) and a wing ( 20 ) receiving working space ( 22 ) with an inner peripheral surface ( 30 ), on which the two opposite sealing edges ( 68 ) of the wing ( 20 ), whereby the wing ( 20 ) the working space ( 22 ) in a suction chamber ( 24 ) and a pressure chamber ( 26 ), characterized in that the inner peripheral surface ( 30 ) facing end ( 28 ) of the wing ( 20 ) on the pressure chamber ( 26 ) side facing a flattened section ( 66 ) that the wing ( 20 ) off-center via a contact line ( 68 ) on the inner peripheral surface ( 30 ) and the contact line ( 68 ) with respect to the longitudinal central axis ( 42 ) in the direction of the suction chamber ( 24 ) and within the broadsides ( 44 ) of the wing ( 20 ) lies. Single wing vacuum pump according to claim 1, characterized in that the flattened section ( 66 ) is just. Single wing vacuum pump according to one of the preceding claims, characterized in that the section ( 66 ) an angle deviating from 0 ° to the wing broadside ( 44 ) of the wing ( 20 ) having. Single-wing vacuum pump according to one of the preceding claims, characterized in that the section ( 66 ) bounding surfaces are partially cylindrical. Single wing vacuum pump according to claim 4, characterized in that the surfaces are continuous in the section ( 66 ) pass over. Single wing vacuum pump according to claim 4, characterized in that the surfaces and the section ( 66 ) have the same tangents at the transition points. Single-wing vacuum pump according to one of the preceding claims, characterized in that the wing ( 20 ) a wing body ( 32 ) and two terminal papers ( 34 ) having. Single wing vacuum pump according to claim 7, characterized in that the wing body ( 32 ) at its the essays ( 34 ) receiving ends ( 38 ) each have a slot ( 40 ) which is orthogonal to the wing broadside ( 44 ) of the wing body ( 32 ) runs. Single wing vacuum pump according to claim 7 or 8, characterized in that the attachment ( 34 ) one of two parallel legs ( 48 ) has formed U-shaped cross-section. Single wing vacuum pump according to claim 9, characterized in that the limbs ( 48 ) a footbridge ( 50 flank. Single-wing vacuum pump according to claim 8 and 10, characterized in that when mounted wing ( 20 ) the bridge ( 50 ) into a slot ( 40 ) intervenes. Single wing vacuum pump according to one of claims 7 to 11, characterized in that the attachment ( 34 ) rotated by 180 ° on the wing body ( 32 ) can be plugged.