EP0286824A1 - Regenerative compressor - Google Patents

Abstract

The invention relates to a side channel compressor with an impeller rotatably mounted in its housing. The impeller (4) consists of a blade ring (7) which is arranged on a disk-shaped hub part (6) and on the outer circumference of this hub part (6) and which laterally projects beyond the hub part (6) in the direction of the axis of rotation. The housing (1) of the side channel compressor engages at least partially under the portion (8) of the blade ring (7) projecting laterally beyond the hub part (6) while leaving a radial gap (10). A blocking of the impeller by dust deposited in the gap (10) is prevented by the fact that at least one stripper (11) protruding radially into the gap (10) on the part (9) of the housing (1) engaging under the blade ring (7) is arranged, which extends approximately over the full width of the lower part (9) of the housing (1).

Description

The invention relates to a side channel blower with an impeller rotatably mounted in its housing according to the preamble of claim 1.

Such a side channel compressor is known from DE-PS 27 13 091. It has been found that when gases laden with dust are conveyed, dust can be deposited in the gap between the base of the blade ring and the part of the housing which engages under it. The dust deposits can become so strong, especially when it is sticky or moisture-laden dust, that the gap is completely blocked by the dust. This leads to high frictional forces, which under certain circumstances can become so large that they block the impeller or prevent a restart after a break in operation.

The invention has for its object to develop a side channel compressor according to the preamble of claim 1 so that blocking of the impeller is prevented by deposited dust.

The problem is solved by the features specified in the characterizing part of claim 1. By means of a scraper arranged in the radial gap, the dust which is deposited on the laterally projecting section of the blade ring is scraped off and thus clogging of the radial gap is avoided. The frictional forces occurring on the scraper are so low that they are surely overcome by the drive motor.

The fact that there is a radial residual gap between the scraper and the laterally projecting section of the blade ring, frictional forces are avoided as long as no deposit has occurred.

So that the dust loosened by the scraper is also removed from the gap, it is advantageous for the scraper to be arranged in the circumferential direction of the housing in the region between the center of the housing relating to the inlet and outlet opening and the inlet opening. In this area there is still a relatively low pressure in the side channel, so that the loss flow resulting from the high pressure side is already sufficiently strong to be able to transport the loosened dust out of the gap into the side channel. It is particularly advantageous that the scraper is arranged closer to the inlet opening.

• FIG 1 einen Seitenkanalverdichter im Schnitt,
• FIG 2 in vergrößterter Darstellung die Anordnung von Abstreifern am Gehäuse des Seitenkanalverdichters,
• FIG 3 einen Schnitt entlang der Linie III-III in FIG 2.

The subject of the application is described in more detail below using an exemplary embodiment shown in the drawing.
It shows:

• 1 shows a side channel compressor in section,
• 2 shows an enlarged view of the arrangement of scrapers on the housing of the side channel compressor,
• 3 shows a section along the line III-III in FIG.

1 denotes a side channel compressor, the housing of which consists of two interconnected housing halves 2 and 3. An impeller 4 is rotatably mounted in the housing and connected to a shaft 5 driven by a motor (not shown in the drawing). The impeller 4 consists of a disk-shaped hub part 6 and a blade ring 7 arranged on its outer circumference. The blade ring 7 has a greater width than the hub part 6, so that it projects beyond it on both sides in the direction of the axis of rotation of the impeller 4. The two housing halves 2 and 3 are designed such that they overlap the laterally projecting sections of the blade ring 7. The dimensions of the housing halves 2 and 3 are made in relation to the impeller 4 so that there is a radial gap 10 between the projecting section 8 and the lower part 9 of the housing halves 2 and 3 and an axial gap 13 with respect to the hub part 6. This ensures contactless rotation of the impeller 4 relative to the housing halves 2 and 3.

Wipers 11 are used on the outer circumference of the lower part 9 of the housing halves 2 and 3, which protrude in the radial direction beyond the outer circumferential contour of the lower part 9 of the respective housing half 2 or 3. In order to avoid constant rubbing of the wipers 11 on the projecting section 8 of the blade ring 7, the wipers 11 are dimensioned in their radial dimensions such that a radial remaining gap 12 remains between them and the projecting section 8 of the blade ring 7.

Due to the air flowing out via the radial and axial gap 10 and 13 as gap losses, dust particles contained in the air are transported into this column. It has now been shown that dust can accumulate in the radial gap 10 on the projecting section 8 of the blade ring 7. These deposits are particularly strong when the dust in the air is sticky or moist. The wipers 11 wipe off the dust accumulating on the section 8 of the blade ring 7 as a result of the rotation of the impeller 4 and thereby prevent the radial gap 10 from being completely closed, as a result of which the impeller 4 would be blocked. Frictional forces can thus only be effective on the small area of the scraper 11. However, these frictional forces are so small that they do not lead to the impeller 4 being blocked.

It is also possible to arrange wipers in the axial gap 13 if dust deposits should occur there. These wipers would then extend in the radial direction on the respective housing half 2 or 3. Side channel compressors, in which the blade ring 7 and the hub part 6 have the same width, only have an axial gap between the housing halves and the impeller. With such side channel compressors, only strippers extending in the radial direction can then be arranged on the respective housing half.

As a rule, the arrangement of a scraper 11 on the circumference of the respective housing halves 2 and 3 is sufficient. It is useful to arrange the scraper 11 in the area towards the inlet opening of the side channel compressor, since there is a higher loss flow due to the higher pressure gradient to the side channel in the gap, which ensures that the loosened dust is removed from the gap.

Claims (4)

1. side channel compressor with a rotatably mounted impeller in its housing, which consists of a on a disc-shaped hub part (6) and on the outer circumference of this hub part (6) arranged blade ring (7), the blade ring (7) the hub part (6) at least projecting laterally on one side in the direction of the axis of rotation and at which side channel compressor the housing (1) at least partially engages under the portion (8) of the blade ring (7) projecting laterally beyond the hub part (6) while leaving a radial gap (10),
characterized by
that on the blade ring (7) engaging part (9) of the housing (1) at least one radially into the gap (10) protruding wiper (11) is arranged, it is at least approximately over the full width of the engaging part (9) of the Housing (1) extends. 2. side channel compressor according to claim 1,
characterized by
that between the stripper (11) and the laterally projecting section (8) of the blade ring (7) there is a radial residual gap (12). 3. side channel compressor according to claim 1 or 2,
characterized by
that the scraper (11) is arranged in the circumferential direction of the housing (1) in the region between the center of the housing (1) and the inlet opening, which center relates to the inlet and outlet openings. 4. side channel compressor according to claim 3,
characterized by
that the scraper (11) is arranged closer to the inlet opening.

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