DE10253295A1 - Vacuum pump for brake force amplifier produces vacuum in closed chamber by driving working fluid in chamber from inlet opening to outlet opening which discharges into soundproofing chamber connected to environment - Google Patents

Abstract

By means of the vacuum pump a vacuum is produced in a closed chamber by the pump driving working fluid in the chamber in a volumetric flow from an inlet opening to an outlet opening (7) which does not discharge directly into the environment but into a soundproofing chamber connected to the environment.

Description

The invention relates to a vacuum pump, in particular a vane pump, with the one in a locked room, especially in one Brake booster, a vacuum is generated by a closed in the Space contained working medium, in particular air, in the form of a Volume flow from an inlet opening through the vacuum pump to a Outlet opening is conveyed into the environment.

Vacuum pumps, in particular vane pumps are in the Automotive technology used inter alia to create a negative pressure in To produce brake booster of motor vehicles. Brake boosters are used to assist the driver's muscular strength when braking by an assistant. To generate the auxiliary power of the master cylinder is a hydraulic Brake system upstream of a brake booster, which with the example is applied by a vacuum pump generated negative pressure. If the air discharged by the vacuum pump can escape directly into the environment depending on, among other things, the flow rate and the installation position the vacuum pump lead to an undesirable noise, as in Investigations carried out in the context of the present invention was determined.

The object of the invention is to provide a vacuum pump that operates quieter as conventional vacuum pumps.

The object is with a vacuum pump, in particular a vane pump, with the one in a locked room, especially in one Brake booster, a vacuum is generated by a closed in the Space contained working medium, in particular air, in the form of a Volume flow from an inlet opening through the vacuum pump to a Outlet opening is conveyed into the environment, solved by the fact that the outlet opening outward not directly into the environment, but in one Sound-damping chamber opens, which communicates with the environment. A Possibility to reduce the unwanted noise is to completely encapsulate the vacuum pump in a sound absorbing material. However, such encapsulation has the disadvantage that the outlet of the subsidized Working medium from the outlet opening of the vacuum pump into the environment is at least impaired. Moreover, such encapsulation is high Manufacturing costs associated. The solution according to the invention provides the advantage that the discharge of the pumped working medium is not affected, but nevertheless a significant reduction in operating noise is achieved.

A preferred embodiment of the vacuum pump is characterized characterized in that the sound attenuation chamber has a gap with the environment communicates, which has a larger passage cross section for the promoted Working medium has as the outlet opening. This will ensure that the relaxed in the sound attenuation chamber working fluid unhindered can escape. The size of the passage cross sections and the Sound-damping chamber is chosen so that in the operation of the vacuum pump in the Sound absorbing chamber contained working medium only slightly higher pressure than the environment.

Another preferred embodiment of the vacuum pump is characterized characterized in that the sound-damping chamber of a pot-like cap is formed in the region of the outlet opening so on the vacuum pump is attached, that between the vacuum pump and the cap a circumferential Gap is formed. Through the circumferential gap can be a large Volume flow of the pumped working medium emerge quietly. The cup-shaped cap provides the advantage of being easy to manufacture and also to conventional vacuum pumps is easy to install.

Another preferred embodiment of the vacuum pump is characterized characterized in that the vacuum pump comprises a housing, which by a Cover is closed, in which the outlet opening is provided and on the cap is placed, and in particular the fact that the outer contour the cap adapted to the outer contour of the lid and / or the housing is. This means, for example, with a round, disc-shaped lid that the cap the shape of a one-sided closed circular cylinder jacket having the lid and the circular cylinder jacket the same Have diameter. With such to the outer contour of the lid and / or the housing matched outer contours of the cap were at the frame the best results of the present invention Results achieved. In addition, the visual impression of a compact Vacuum pump is not affected by this shape of the lid.

Another preferred embodiment of the vacuum pump is characterized characterized in that between the cap and the vacuum pump Spacers are arranged. The spacers ensure a constant Distance between the cap and the vacuum pump. The gap thus formed allows the discharge of the working medium from the sound-damping chamber.

Another preferred embodiment of the vacuum pump is characterized characterized in that the cap has a flange which serves to secure the Cap to attach to the lid and / or the housing. Preferably the flange formed integrally with the cap. On the flange can Eyes with through holes for receiving or carrying be provided by fasteners, such as screws.

Another preferred embodiment of the vacuum pump is characterized characterized in that the spacer elements formed by washers be in the assembled state of the vacuum pump between the Flange and the lid are arranged. Put the washers on the one hand, a cost-producible solution the size and number of washers varies the gap height arbitrarily become.

Another preferred embodiment of the vacuum pump is characterized characterized in that the spacer elements of elevations, in particular Pins are formed, which are formed on the flange or the lid and in the assembled state of the vacuum pump between the Flange and the lid are arranged. This solution provides the advantage that no additional components for the realization of the gap are required. In addition, the assembly of the lid is facilitated without loose parts.

Another preferred embodiment of the vacuum pump is characterized characterized in that in the sound-damping chamber a Sound attenuation structure is formed. The sound attenuation structure serves to Exit sound of the working fluid due to absorption, reflection, interference or to reduce turbulence.

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

Fig. 1 shows a first embodiment of a vacuum pump in exploded view;

Fig. 2 shows a second embodiment of a vacuum pump in exploded view and

Fig. 3, the vacuum pump of Fig. 1 in the assembled state in side view.

In Fig. 1, a housing 1 of a vane pump is shown in perspective. The operation of a vane pump is assumed to be known and therefore not explained in detail here. On the housing 1 , a flange 2 is formed, which serves to close the housing 1 with a (not shown) cover, or to attach the housing 1 to another unit (not shown). The housing 1 has substantially the shape of a circular cylinder jacket section. On the housing 1 fastening eyes 3 and 4 are externally formed, which serve for the implementation or recording of fasteners, such as screws.

The housing 1 is closed on the side facing away from the flange 2 by a cover 6 , in which an outlet opening 7 is recessed for funded by the vacuum pump air. The cover 6 has the shape of a round disc, on the outer circumference of three fastening eyes 9 , 10 and 11 are formed. At the outer edge region of the cover 6 , in the assembled state of the vacuum pump, there is a flange 12 , which is formed on a pot-shaped cap 13 . The cap 13 has the shape of a circular cylinder jacket which is closed at one end. On the round flange 12 , three fastening eyes 14 , 15 and 16 are formed on the outside. In addition, 12 three pins 17 , 18 and 19 are formed on the cover 6 facing the end face of the flange. The pins 17 to 19 are arranged with their longitudinal axes parallel to the longitudinal axis of the cap 13 .

In Fig. 3, the vacuum pump of Fig. 1 in the assembled state is shown in side view. In this illustration, it can be seen that a gap 20 is formed between the flange 12 of the cap 13 and the cover 6 by the pins 17 to 19 acting as spacers. Through the gap 20 , air conveyed by the vacuum pump can escape from the interior of the cap 13 , which forms a sound-damping chamber.

FIG. 2 shows a further embodiment of the vacuum pump according to the invention with a housing 21 . On the housing 21 , a flange 22 for attachment of the housing 21 is formed on a further unit.

In addition, three eyes 23, 24 and 25 are formed on the housing 21 outwardly, which serve to fasten a lid 26 to the housing 21st In the lid 26 , an outlet opening 27 is recessed for the funded by the vacuum pump air.

On the lid 26 , three eyes 29 , 30 and 31 are formed on the outside, which are congruent with the eyes 23 to 25 on the housing 21 . In addition, the eyes 23 to 25 on the housing 21 and the eyes 29 to 31 on the cover 26 are congruent with eyes 32, 34 , 35 and 36 formed on a flange 32 of a cup-shaped cap 33 . The eye 36 is indicated only by a dashed arrow, since it is not visible in the representation shown in Fig. 2.

The embodiment shown in Fig. 2 is similar to the embodiment shown in Fig. 1. The main difference between the two embodiments is that in the vacuum pump shown in Fig. 2 between the cover 26 and the flange 32 of the cup-shaped cap 33 no pin, but washers 37 , 38 and 39 are arranged as spacers. Through the washers 37 to 39 , a circumferential gap is formed between the cover 26 and the flange 32 of the cap 33 , which corresponds to the gap 20 shown in FIG. 3.

In the case of the vacuum pumps illustrated in FIGS. 1 to 3, the air conveyed by the vacuum pump passes from the pump housing 1 , 21 through the outlet opening 7 , 27 into the sound-damping chamber formed in the interior of the cap 13 , 33 . There relaxes the air and then escapes through the cover between 6, 26 and cap 13, 33 gap 20 formed in the surrounding area.

The claims filed with the application are Formulation proposals without prejudice for obtaining further patent protection. The Applicant reserves the right to add more, so far only in the description and / or claimed in the drawings feature combinations claim.

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

Since the subjects of the dependent claims in view of the state of Technology can form its own and independent inventions on the priority date, the Applicant reserves the right to make it the subject of independent claims or split statements. You can also continue to work independently Contain inventions that are one of the objects of the preceding Subclaims have independent design.

The embodiments are not intended to limit the invention understand. Rather, numerous within the scope of the present disclosure Modifications and modifications possible, in particular such variants, Elements and combinations and / or materials, for example, by Combination or modification of individual in conjunction with those in the general description and embodiments and the claims described and contained in the drawings or Elements or process steps for those skilled in the solution of the Task are removable and by combinable features to a new Subject or to new process steps or process steps lead, even if they concern manufacturing, testing and working procedures.

Claims (10)

1. Vacuum pump, in particular vane pump, with the in a closed space, in particular in a brake booster, a vacuum is generated by a contained in the enclosed space working medium, in particular air, in the form of a volume flow from an inlet opening through the vacuum pump to an outlet opening in the environment is promoted, characterized in that the outlet opening outwards not directly into the environment, but in a sound attenuation chamber opens, which is in communication with the environment. 2. Vacuum pump, in particular according to claim 1, characterized in that that the sound attenuation chamber has a gap with the environment in Connection stands, which has a larger passage cross-section for the funded working medium has as the outlet opening. 3. Vacuum pump, in particular according to one of the preceding claims, characterized in that the sound-damping chamber of a cup-shaped cap is formed, which in the region of the outlet opening on the Vacuum pump is attached that between the vacuum pump and the Cap a circumferential gap is formed. 4. Vacuum pump, in particular according to claim 3, characterized in that the vacuum pump comprises a housing that passes through a lid is closed, in which the outlet opening is provided and on the the cap is fitted, and in that the outer contour of the cap on the outer contour of the lid and / or the housing is adjusted. 5. Vacuum pump, in particular according to claim 4, characterized in that that between the cap and the vacuum pump spacer elements are arranged. 6. Vacuum pump, in particular according to claim 5, characterized in that the cap has a flange which serves to secure the cap to the Cover and / or the housing to attach. 7. Vacuum pump, in particular according to claim 6, characterized that the spacers are formed by washers, which in the assembled state of the vacuum pump between the flange and the lid are arranged. 8. Vacuum pump, in particular according to claim 6, characterized in that that the spacer elements of elevations, in particular cones, formed be formed on the flange or the lid, and in the assembled state of the vacuum pump between the lid facing end face of the flange and facing the flange Face of the lid are arranged. 9. Vacuum pump, in particular according to one of the preceding claims, characterized in that in the sound-damping chamber a Sound attenuation structure is formed. 10. Vacuum pump, in particular vane pump, with in one enclosed space, especially in a brake booster, a Vacuum is generated in which a space enclosed in a closed space Working medium, in particular air, in the form of a volume flow of one Inlet opening through the vacuum pump to an outlet opening in the Encouraged by at least one in the Application documents disclosed inventive feature.