DE10227772A1 - Method for reducing sound level of vacuum pump has a controlled bleed to provide an air ballast to slow the action of the non return valve - Google Patents

Abstract

A method for reducing the sound level of a vacuum pump, e.g. in the engine compartment of a vehicle, has a permanent bleed into the pump housing to slow the action of the non return valve. The bleed is positioned near to the air outlet of the pump and has no effect on the inlet of the pump. A simple bleed is obtained via the gap between the pump rotor housing and the rotor, Alternately the bleed is provided by an aperture near to the air outlet.

Description

The invention relates to a vacuum generator, in particular one Vacuum pump, for a compressible medium, especially air, with a Pump housing, in which an outlet for the compressible medium is provided, which is a pump chamber provided in the pump housing connects to the environment and which can be closed by a valve body.

Vacuum generators, especially vacuum pumps, are used in the Automotive technology used, among other things, to create a negative pressure in To produce brake boosters of motor vehicles. In the operation of conventional vacuum generators are particularly in a vacuum of less than 0.9 bar in the context of the present invention carried out loud, metallic sounding noises been found. Such noises are found in modern, quiet engines perceived as disturbing.

The object of the invention is therefore to prevent unwanted noise in the Operation of the vacuum generator described above to reduce or prevention.

The task is with a vacuum generator, especially one Vacuum pump, for a compressible medium, especially air, with a Pump housing, in which an outlet for the compressible medium is provided, which is a pump chamber provided in the pump housing connects to the environment and can be closed by a valve body, solved by at least one additional connection to the environment, the is permanently open. Via the additional connection to the environment, the Pump room permanently a certain amount of air from the environment fed. This slows the opening and closing movement of the Valve body, which in turn reduces the radiated airborne noise so much that it can no longer be heard when the engine is running.

A preferred embodiment of the vacuum generator is thereby characterized that the additional connection to the environment in the Extending area of the vacuum generator is arranged. As Extension area is the area of the pump housing in which the outlet opening is arranged. The extension area is also called Designated outlet area or pressure area of the vacuum generator. The Arranging the additional connection in the exit area provides the advantage that the suction of the compressible medium on the suction side of the Vacuum generator is not affected.

Another preferred embodiment of the vacuum generator is characterized in that in the pump housing a rotor with at least a wing is rotatably received within a contour ring and that the additional connection to the environment in the area of the Rotor and contour ring is arranged. The area becomes a nestle between rotor and contour ring, where the distance between the The outer circumference of the rotor and the inner circumference of the contour ring are the smallest is. The so-called dead center of the vacuum generator is also in this area arranged.

Another preferred embodiment of the vacuum generator is characterized in that the additional connection to the environment of a groove is formed, which is connected to the outlet opening and is at least partially open to the environment. Through this constructive It is possible to measure the additional connection to already to make existing pump housings.

Another preferred embodiment of the vacuum generator is characterized in that the groove substantially in the longitudinal direction circular arc shaped and concentric to one likewise is arranged circular arc-shaped outlet opening. With this Arrangement were made in the context of the present invention Tests achieved the best results.

Another preferred embodiment of the vacuum generator is characterized in that the groove in the facing the nip End of the outlet opening. This ensures that the groove just before Top dead center is arranged to ensure that the connection to the environment in particular when the valve body closes is effective.

Another preferred embodiment of the vacuum generator is characterized in that the additional connection of one Through hole is formed, which is provided in the vicinity of the outlet opening. The through hole can be formed, for example, by a bore that is not or at least not completely covered by the valve body.

Another preferred embodiment of the vacuum generator is characterized in that the through hole on the the nip facing side of the outlet opening is arranged. This will ensures that the through hole takes effect in the last phase of the Compression, especially when the valve body closes, is full can unfold.

Another preferred embodiment of the vacuum generator is characterized in that the additional connection in one Housing bottom part of the pump housing is formed. The case bottom part can, for example, be round and serve to cover the outlet area of the To close the vacuum generator. The outlet opening is preferably in arranged the housing bottom part and by a resiliently designed to Example closed tongue-shaped valve body. The outlet opening and the Valve bodies form a check valve.

Preferably, the depth of the groove and the diameter of the through hole are dimensioned so small that the additional connection to the environment is only slight Effects on the efficiency of the vacuum generator brings with it.

Further advantages, features and details of the invention result from the following description, in the two with reference to the drawing Embodiments are described in detail. Show it:

Figure 1 shows a vacuum generator according to a first embodiment of the invention in the rear view.

Fig. 2 is an enlarged section of Fig. 1 and

Fig. 3 shows the same section as Fig. 2 according to a second embodiment of the invention.

In Fig. 1, the pump housing is generally designated 1 . A rotor is rotatably received in the pump housing 1 within a stroke contour. A wing is slidably received in the rotor. The individual parts (not shown in FIG. 1) of the rotor and blades interact in the pump housing 1 according to the principle of a mono-wing cell pump, which is assumed to be known.

The vane pump shown in FIG. 1 comprises an intake port 6 which is attached to the pump housing 1 . The intake manifold 6 is connected, for example, to the brake booster of a motor vehicle. In order to generate a vacuum in the brake booster (not shown), a compressible medium, such as air, is sucked through the suction nozzle 6 into a suction area in the interior of the pump housing 1 . The medium drawn in is compressed in the pump housing 1 and conveyed to an outlet area.

The outlet area of the pump housing 1 is arranged in a round base part 10 . An outlet opening 12 is formed in the round bottom part 10 , through which the compressible medium can emerge from the outlet region in the interior of the pump housing 1 . The outlet opening 12 is kidney-shaped and extends on a circular arc which is arranged concentrically with the round base part 10 . The outlet opening 12 is closed by a valve body (not shown) in the form of a resilient tongue which closes the outlet opening 12 . The outlet opening 12 is arranged in the vicinity of an upper dead center 13 of the vane pump.

A groove 14 extends from the end of the elongated outlet opening 12 facing the top dead center 13 . The groove 14 has a kidney-shaped contour and is arranged on the same circular arc as the outlet opening 12 . The groove 14 has a small depth, for example of approximately 0.3 mm, and is only slightly covered, if at all, by the valve body (not shown). This ensures that air from the outside can get permanently through the groove 14 into the outlet opening 12 .

The valve body (not shown) forms a check valve together with the outlet opening 12 . The opening and closing movement of the check valve is slowed down by the groove 14 , so that noises occurring during the opening and closing process are reduced. The groove 14 can best be seen in the detail from FIG. 1 shown enlarged in FIG. 2.

In the embodiment shown in FIG. 3, a through hole 16 is arranged in the vicinity of the end of the outlet opening 12 facing the top dead center 13 instead of a groove. The through hole 16 ensures the permanent passage of air from the environment into the interior of the pump housing 1 . As a result, the same effect and the same advantages are achieved as through the groove 14 in FIG. 1.

The claims filed with the application are Proposed wording without prejudice for obtaining further patent protection. The The applicant reserves the right to do so, so far only in the description and / or combinations of features disclosed in the drawings claim.

Relationships used in subclaims point to the others Training the subject of the main claim by the features of respective subclaim; they are not a waiver of attainment an independent, objective protection for the To understand combinations of features of the related subclaims.

Since the subjects of the subclaims with regard to the status of Technology can form its own and independent inventions on the priority day, The applicant reserves the right to make it the subject of independent claims or make declarations of division. You can continue to work independently Inventions contain one of the objects of the previous Have independent claims independent design.

The exemplary embodiments are not intended to limit the invention understand. Rather, there are numerous within the scope of the present disclosure Changes and modifications possible, especially such variants, Elements and combinations and / or materials, for example, by Combination or modification of individual in connection with that in the general description and embodiments as well as the claims features described and contained in the drawings or Elements or process steps for the person skilled in the art with a view to solving the Task can be removed and combined to create a new one Subject or new process steps or process step sequences lead, also insofar as they relate to manufacturing, testing and working processes.

Claims (10)

Characterized 1. vacuum generator, in particular a vacuum pump for a compressible medium, particularly air, with a pump housing in which an outlet opening is provided for the compressible medium that connects a provided in the pump housing the pump chamber with the surroundings and which is closable by a valve body, through at least one additional connection to the environment that is permanently open. 2. Vacuum generator, in particular according to claim 1, characterized characterized that the additional connection to the environment in the Extending area of the vacuum generator is arranged. 3. vacuum generator, in particular according to one of the preceding Claims, characterized in that in the pump housing Rotor with at least one wing rotatable within a contour ring is included, and that the additional connection in the area of a Narrow gap between the rotor and contour ring is arranged. 4. vacuum generator, in particular according to one of the preceding Claims, characterized in that the additional connection to Environment is formed by a groove that with the outlet opening in Connection is established and is at least partially open to the environment. 5. vacuum generator, in particular according to claim 4, characterized characterized in that the groove is substantially circular arc-shaped and concentric to a circular arc Outlet opening is arranged. 6. vacuum generator, in particular according to claim 5, characterized characterized in that the groove in the end of the Exit opening opens. 7. vacuum generator, in particular according to one of claims 1 to 3, characterized in that the additional connection of one Through hole is formed, which is near the exit opening is provided. 8. vacuum generator, in particular according to claim 7, characterized characterized that the through hole on the the nip facing side of the outlet opening is arranged. 9. Vacuum generator, in particular according to one of the preceding Claims, characterized in that the additional connection in a housing base part of the pump housing is formed. 10. Vacuum generator, especially vacuum pump, for a compressible Medium, especially air, with a pump housing in which a Outlet opening for the compressible medium is provided, one in the Pump housing provided pump room connects with the environment and which can be closed by a valve body, characterized by at least one inventive disclosed in the application documents Characteristic.