DE4230014C1 - Device for reducing the noise generated by fans - Google Patents

Abstract

Noise reducing device in a blower (11), in particular a side duct blower for the combustion air supply in a heating device, provided with a gas inlet duct (13), a gas outlet duct (14) and a gas advance arrangement (15), there being arranged, at least in the region of the opening cross-section (18, 19) of the gas inlet duct (13) and/or of the gas outlet duct (14), an arrangement for inducing a flow resistance (interference arrangement 20, 21). <IMAGE>

Description

The invention relates to a device for reducing adornment of the noise development according to the preamble of the Claim 1.

Such a device in a side channel blower is off the document DE 26 01 172 A known.

The noise development with heaters that with a fan for supplying combustion air in the combustion chamber of the heater is provided largely determined by the combustion Air flow in the blower resulting flow Sounds. Especially with small heaters, such as it, for example, as an additional heater independent of the engine equipment used in motor vehicles, this noise development proves itself due to the in usually due to the limited vehicle dimensions solutions near the vehicle occupants additional heater as disturbing.

The invention is therefore based on the object to create a device that enables the operation of a Blower with reduced noise light.

This task is characterized by the features of the claim 1 solved.  

The device according to the invention at least in Area of the opening cross section of the gas outlet channel and / or the gas inlet channel a fault device on which is by the gas propulsion direction accelerated gas flow in your Influences flow behavior. Through the acceleration The gas flow is reduced in the fan, in particular in the area of the opening cross section of the gas outlet channel and the gas inlet channel, pressure induced waves, the spread of which became known unfavorable noise in the fan leads. The jamming device induces flow resistances in the accelerated gas flow that hindering the propagation of pressure waves impact. In this way the Ent are large pressure waves that ent speaking increase in the noise level when Operation of the blower prevented. Instead of this creates smaller pressure waves, which at Spread in the fan housing too accordingly result in less noise. As a result the noise is reduced by the interfering device in the operation of the blower reduced. By the specified in claim 1, difference interfering elements result in interference, which reinforce the effect of the individual disruptive elements.

Side channel blowers usually consist of at least two housing parts, between which one Impeller is arranged. Both the gas entry through the gas inlet channel and the gas outlet through the gas outlet channel takes place on one side  of the impeller, the gas in a channel, the parallel to the plane of rotation of the gas propulsion direction is flowing. The arrangement of the Interference device in the edge area of the surface of the interrupter, which faces the impeller turns out to reduce noise development as particularly effective since this Area immediately adjacent to the Impeller is located and therefore in the maximum gas velocities, induced by the impeller to step.

The interfering elements can run parallel to the above Area is larger than perpendicular to it exhibit. This is another verb Enables the disturbance effect.

Sturgeon designed as material recesses Elements can be made from notches with an approximately V-shaped shape cross-section. The notch-shaped training tion of the disruptive elements, for example realizable  through after pouring into the blower housing brought in file cuts, makes a special simple possibility of realizing Störele elements. Formed from material recesses Disruptive elements also offer the advantage that their Manufacturing already in the manufacture of the As a rule, the blower housing is manufactured using the casting process se, for example by inserting appropriate molded parts in the mold, can be done.

The following is a preferred embodiment the device according to the invention with reference to the drawing nations explained in more detail. Show it:

Figure 1 shows a housing part of a Seitenkanalgeblä ses with side channel and in this confluent gas outlet channel and gas inlet channel with a both in the area of the gas inlet channel and in the area of the gas outlet channel nen interference device.

Fig. 2 is a housing section showing the interference device in the region of the gas inlet channel according to a view marked by arrow II in Fig. 1 Neten view.

Fig. 1 shows a housing part 10 of a side channel blower 11 having formed therein a side channel 12, and a gas inlet duct 13 and a gas outlet duct 14.

With a broken line shape shown in Fig. 1, an impeller 15 which is rotatably received on an axis of rotation 16 between the housing part 10 and a not shown in Fig. 1 further housing part, which together with the housing part 10 forms the fan housing. The impeller 15 serves as a gas propulsion device, by means of which gas drawn in through the gas inlet channel 13 is accelerated in the side channel 12 and is output through the gas outlet channel 14 . When using the side channel blower 11 for combus tion air supply into a combustion chamber of a heater, not shown here, the gas outlet channel 14 is connected to this heater or the combustion chamber of the heater. At the Gasein entry channel 13 , a suction line, not shown here, can be connected.

An interrupter 25 separates the inlet-side and the outlet-side end of the side channel 12 from one another. The interrupter 25 has a surface 17 facing the impeller 15 , which lies in the plane of the housing separating surface.

The surface 17 of the housing part 10 , which is arranged immediately adjacent to the impeller 15 parallel to this, is in their cross-sections opening 18 , 19 of the gas inlet channel 13 and the gas outlet channel 14 adjacent edge areas with an interference device 20 and 21 respectively. The disturbing devices 20 , 21 shown by way of example in terms of their arrangement and configuration in FIG. 1 each have individual disturbing elements 22 , 23 which are each formed as notches with a V-shaped cross section ( FIG. 2).

Fig. 2 shows a comparison with the illustration in Fig. 1 pivoted by 90 ° V-shaped cross section of the interference elements 22, it being evident that the largest cross-sectional depth of the Störele elements in a plane perpendicular 22 is located to the surface 17 and the cross-sectional depth with increasing expansion of the interference elements 22 in the surface 17 decreases steadily, so the notches fen slow out.

In addition to the V-shaped design of the notch cross section, a directional interference effect of the interference elements 22 is generated by the inclined in the surface 17 and in this tapering formation of the notches.

In FIG. 1, the interference elements 22 and 23 of the interference devices 20 , 21 are arranged approximately in a radial manner around the opening cross sections 18 , 19 of the gas inlet channel 13 and the gas outlet channel 14 . It is also possible for the individual interference elements 22 and 23 of the interference device 20 and 21 to be aligned essentially parallel to one another. Of course, the interference elements 22 and 23, contrary to the illustration in FIG. 1, can also be of the same size with regard to their size. Furthermore, it may prove to be advantageous to arrange interfering elements 22 , 23 not only in the area of the opening cross sections 18 , 19 or in the area of one of these two openings, but interfering elements 22 , 23 individually or in groups, distributed over the entire edge area of the surface 17 from the opening cross section 18 to the opening cross section 19 to be provided. Also, the interference elements 22 , 23 do not necessarily have to be limited to the area of the surface 17 , but can instead or additionally directly at the opening cross section 18 or 19 of the gas inlet channel 13 or the gas outlet channel 14 or on the inside on the outer peripheral edge 24 of the side channel 12 may be arranged.

Claims (3)

1. Device for reducing the noise in a side channel blower provided with a gas inlet channel, a gas outlet channel, an impeller and an interrupter separating the inlet and outlet channels, in particular for the combustion air supply in a heater, characterized in that an interference device ( 20 , 21 ) at least is arranged in an edge region of the interrupter ( 17 ) adjacent to the inlet channel ( 13 ) and / or outlet channel ( 14 ) and that the interference device ( 20 , 21 ) has a plurality of interference elements ( 22 , 23 ) which at least in part have a different size and / or have a different shape and / or different distances from one another. 2. Device according to claim 1, characterized in that interference elements ( 22 , 23 ), which are provided on the impeller ( 15 ) facing surface ( 17 ) of the interrupter ( 25 ), along this surface ( 17 ) a greater extent than perpendicular to do this. 3. Device according to claim 1 or 2, characterized in that by means of material recesses, preferably with a V-shaped cross section, formed interference elements ( 22 , 23 ) are provided.