DE4000072A1 - Blower for delivery of gases through cylindrical housing - with widening of output channel to improve efficiency - Google Patents

Abstract

The blower is for the delivery of gases having a cylindrical housing with an inlet and an outlet opening and a centrally mounted motor driven impeller. The gas carrying channel (39) is arranged at the side of the impeller within the cylindrical inner wall of the housing (10) such that the cross-section area of the channel gradually increases in an outlet support section. USE/ADVANTAGE - Blower in which the outlet offers the greatest possible width for the outflowing gas, so improving efficiency.

Description

The invention relates to a blower for conveying gases, whose cylindrical housing with an inlet opening and an outlet opening is provided and centrally in the interior a motorized impeller with essentially has radially flowed blades, which around a zen central suction chamber arranged and with their radially blue longitudinal edges on the one hand on the impeller disk and on the other hand, one with a central breakthrough as Inlet to the suction chamber provided cover plate are attached and from the cover disk of the impeller and the impeller disk at least one at a distance from the cylindrical inner wall of the Housing ends and an annular breakthrough for that Forwarding of the extracted gases in a channel of the Ge forms housing, whereby according to patent (patent application P 38 43 463.6) the radial flow of the gas in the barrel wheel-effecting blades of the impeller all the way up to close project the cylindrical inner wall of the housing.

With this blower, the dre impeller the gas inside the impeller to the outside hurled so that in the area of the outer edge of the barrel rades a substantial pressure increase arises, whereby the Escape gas to the side through the annular opening can, which is at a distance from the cylindrical inner wall of the housing ending radial outer edge of the impeller  disc is formed. The gases then continue to flow axially through an annular channel of the housing that is fixed has standing baffles. By forwarding the radially flowing outwards and from the rotating impeller entrained gases through the annular, fixed Channel having baffles becomes the direction of flow of the extracted gases diverted so that congestion and thus Reductions in fan performance occur.

The invention has for its object that the fan to improve even further at the beginning and ins special to increase the efficiency.

This object is achieved in that the the channel receiving gases emerging from the impeller to the side of the impeller inside the cylindrical Inner wall of the housing is arranged, the cross cross-sectional area of the channel towards one essentially union tangential to the impeller steadily increasing. The one carried by the rotating impeller and gas flowing radially out of the impeller thus arrives to a channel that ver in the circumferential direction of the impeller runs, the cross-sectional area of the channel towards on the one essentially tangential to the impeller Exhaust port increases steadily. Immediately behind the end lassstutzen is the cross-sectional area of the channel almost zero. The gases entrained by the rotating impeller thus reach in a simple manner after the radial outflow from the impeller into an outlet channel, which is also in order direction of the impeller runs, so that the funded Gases flow through the outlet channel without major deflections can and get to the outlet.

The channel receiving the gases emerging from the impeller can ver with its in the radial direction of the impeller running width to essentially tangential to the impeller  steadily increase the outlet pipe. The outlet duct of the blower thus takes in in a simple manner radial direction of the impeller running width to im outlet tangential to the impeller prod constantly.

The channel receiving the gases emerging from the impeller can with its in the axial direction of the impeller width to essentially tangential to the impeller steadily increase the outlet pipe. The outlet duct of the blower can thus also with its in the axial direction the width of the impeller to essentially tan potential to the impeller extending outlet port steadily to take.

Both the cover disk of the impeller and the impeller disc can be at a distance from the cylindrical inner wall of the End of the housing and ring on both faces of the impeller shaped breakthroughs for the forwarding of the funded Form gases, which are the gases emerging from the impeller receiving channel half on either side of the impeller within the cylindrical inner wall of the housing is arranged. This ensures that the gases escaping from the impeller on both sides of the Enter the impeller into the outlet channels and to the outlet port can reach.

The two sides of the impeller inside the cylin arranged inner halves of the housing channel halves can together the essentially tangential to the impeller Form running outlet connection.

In the drawing, the invention is in one embodiment game shown, namely show:

Fig. 1 shows a blower according to the invention in side view,

Fig. 2, the fan in front view,

Fig. 3 is a section along the line III-III in FIG. 1.

The fan shown in the drawing is used to convey gases and has a housing 10 with an inlet opening 11 and an outlet opening 12 . In the interior of the Ge housing 10 , a driven with a motor 37 impeller 13 with radially flowed blades 14 is provided. The blades 14, which are flowed through radially, are arranged around a central suction chamber 15 and, with their radially running longitudinal edges 16 , 17, are fastened on the one hand to the impeller disk 18 and on the other hand to a cover disk 20 provided with an opening 19 as an inlet to the suction chamber 15 .

When used as intended, the gas present between the blades 14 is taken along by the impeller 13 and flung outwards, so that a vacuum is created in the suction chamber 15 and gas is sucked in through the inlet opening 11 . The gases thrown out can escape through the outlet opening 12 .

The outer edges of the blades 14 protrude closely to the inner wall 21 of the housing 10 . The distance can be 0.1 to 1 mm. The radial outer edge of the impeller disk 18 ends at a distance from the cylindrical inner wall 21 of the housing 10 and thus forms an annular opening 22 for the gases to flow out of the impeller 13 . The radial outer edge of the cover plate 20 also ends at the same distance from the cylindrical inner wall 21 of the housing 10 and likewise forms an annular opening 38 for the gases to flow out of the impeller 13 . In the area of the outer edges of the blades 14 , the gases are thrown radially outward, causing an overpressure so that the gases flow out of the impeller 13 through the annular openings 22 , 38 .

The gases flowing out of the impeller 13 reach a channel 39 , which is arranged half on both sides of the impeller 13 within the cylindrical inner wall 21 of the housing 10 . The cross-sectional area of the channel 39 increases in the direction of a substantially tangential to the running wheel 13 extending outlet pipe 40 . The channel 39 extends in the circumferential direction to the impeller 13 , so that the gases entrained in any case by the rotating impeller 13 can continue to flow in the circumferential direction in the channel 39 without the flowing gases having to change direction. The channel 39 can increase with its radial width of the impeller 13 and also with its width in the axial direction of the impeller 13 ver. In the illustrated embodiment, the channel 39 increases both in its radial width to the impeller ver, as well as with its width in the axial direction to the impeller.

The arranged on both sides of the impeller 13 within the cylin drical inner wall 21 of the housing 10 channel half 39 together form the substantially tangential to the impeller 13 outlet port 40th The outlet nozzle 40 has the greatest internal width for the gases flowing out. Immediately behind the outlet nozzle, that is, at the beginning of the channel 39 , the cross-sectional area of the two channel halves is almost zero. With the fan according to the invention, large outputs are achieved with a high degree of efficiency in a simple manner.

As already mentioned, the version shown is single Lich an example of realizing the invention and these are not limited to this. There are many more other versions and modifications possible.

Reference symbol list

10 housing
11 inlet opening
12 outlet opening
13 impeller
14 blades
15 suction chamber
16 long edge of 14
17 longitudinal edge of 14
18 impeller disk
19 breakthrough
20 cover plate
21 inner wall
22 breakthrough
37 engine
38 breakthrough
39 channel
40 outlet connection

Claims (5)

1. blower for conveying gases, the cylindrical Ge housing is provided with an inlet opening and an outlet opening and centrally in the interior has a motor-driven impeller with substantially radially through flowing blades, which are arranged around a central suction chamber and with their radially extending Longitudinal edges on the one hand are attached to the impeller disk and on the other hand to a cover disk provided with a central opening as an inlet to the suction space and at least one ends at a distance from the cover disk of the impeller and the impeller disk from the cylindrical inner wall of the housing and an annular opening for the forwarding of the conveyed Forms gases in a channel of the housing, whereby according to patent (patent application P 38 43 463.6) the radial flow of the gas in the impeller impeller blades of the impeller protrude all the way up to the cylindrical inner wall of the housing, characterized in that the from em impeller ( 13 ) exiting gases on receiving channel ( 39 ) is arranged laterally next to the impeller ( 13 ) within the cylindrical inner wall ( 21 ) of the housing ( 10 ), the cross-sectional area of the channel ( 39 ) towards a substantially tan potential to the impeller ( 13 ) extending outlet pipe ( 40 ) increases steadily. 2. Blower according to claim 1, characterized in that the channel emerging from the impeller ( 13 ) gases receiving channel ( 39 ) with its radial in the radial direction of the impeller ( 13 ) to the substantially tangential to the impeller ( 13 ) extending outlet pipe ( 40 ) increases steadily. 3. Blower according to claim 1, characterized in that the emerging from the impeller ( 13 ) gases receiving channel ( 39 ) with its in the axial direction of the impeller ( 13 ) width to the tangential to the impeller ( 13 ) extending outlet port ( 40 ) increases steadily. 4. Blower according to one of claims 1 to 3, characterized in that both the cover disc ( 20 ) of the impeller ( 13 ) and the impeller disc ( 18 ) at a distance from the cylindrical inner wall ( 21 ) of the housing ( 10 ) and form annular openings ( 22 , 38 ) on both end faces of the impeller ( 13 ) for the forwarding of the gases conveyed, the channel ( 39 ) receiving the gases emerging from the impeller ( 13 ) receiving halves on both sides of the impeller ( 13 ) within the cylindrical inner wall ( 21 ) of the housing ( 10 ) is arranged. 5. Blower according to claim 4, characterized in that arranged on both sides of the impeller ( 13 ) within the cylindrical inner wall ( 21 ) of the housing ( 10 ) channel halves ( 39 ) together the substantially tangent tials to the impeller ( 13 ) Form outlet socket ( 40 ).