DE7712419U1 - SIDE CHANNEL COMPRESSOR - Google Patents

Description

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Berlin and Minchen VPA 77 P 3 0 7 6 FRG

Side channel blower

The invention relates to a side channel compressor with an inlet and outlet opening each opening into the side channel, between which openings a side channel interrupter is arranged.
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Such a side channel compressor is known from DT-PS 14 28 251. This leads on its way through the side channel blower medium to be conveyed from a helical movement. To achieve For a good efficiency it is necessary that the medium after its entry into the side channel blower is as short as possible Ways and as quickly as possible the corresponding helical Movement achieved. For this reason, in the known side channel compressor, the side channel is on both sides of the side channel interrupter provided with tapered side channel extensions.

The flow course in the side channel compressor is very different, depending on whether large volume flows are conveyed at low pressure or small volume flows are conveyed at high pressure. at With large volume flows and low pressure, the gradient of the helical movement is large, but with small volume flows and great print small. With the measures provided in the known side channel compressor can not be over achieve the desired improvement in efficiency over the entire operating range.

Ml 2 Sci, March 28, 1977

7712419 02/09/78

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■ - 2 - 77P 3076 FRG

The invention is based on the object of a side channel blower to be designed so that an improvement in efficiency is achieved over the entire operating range of the side channel compressor.

The task at hand is achieved with a side channel blower of the type described at the outset according to the invention in that at least in the region of the mouth of the inlet opening a tongue-shaped flow guide in the conveying direction of the side channel compressor is arranged protruding on the side channel interrupter, wherein the flow guide body from the connection point Starting at the side channel interrupter, it tapers continuously. With a large volume flow, such a flow guide body the medium to be conveyed through the longer central part of the flow guide body introduced approximately tangentially into the side channel, whereby the large volume flow corresponding to the large volume flow Slope of the helical movement is given. In the case of small volume flows and high pressure generation, this can be pumped Medium can enter the impeller via the side edges of the flow guide body almost in the axial direction and is thus from the slight slope associated with high pressure generation from the outset. The arrangement of the flow guide body is thus in all operating cases the shortest possible path to the respective corresponding slope of the helical movement of the medium achieved.

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f to be particularly advantageous, it has been found that the flow guide body is triangular in shape. In this form, the flow guide body runs out continuously so that no shocks and no siren noises occur. Furthermore, it is advantageous that a flow guide body which is directed opposite to the conveying direction is also arranged in the region of the mouth of the outlet opening. By means of such a flow guide body, the conveyed medium is directed into the outlet opening largely without loss of pressure. Furthermore, a flow guide body of this type also contributes to reducing noise again. Because the flow guide body arranged at the outlet opening is designed in the same way as the flow guide body arranged at the inlet opening, the same compressor housing can be used for both directions of rotation.

7712419 02/09/78

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^ On the basis of an embodiment shown in the drawing the subject of the application is described in more detail below.

! It shows

5 Fig. 1 shows a section of a side channel compressor in the interrupter area,

2 shows a plan view of a side channel compressor in the interrupter area with the housing cover removed, FIG. 3 shows a section along the line III-III in FIG. 1, FIG. 4 shows a section along the line IV-IV in FIG. 1.

Identical parts are given the same reference number in all figures. fer provided.

1 with the fan housing of the side channel blower is referred to. As is known per se, a housing cover 2, which closes the housing 1, is placed on this fan housing. To the Fan housing 1 is formed with an inlet opening 3 and an outlet opening 4 which are substantially axially into the side channel flow out. A side channel interrupter is located between the inlet and outlet openings 5. Since the illustrated embodiment is a double-flow side channel compressor, an interrupter projection 6 is also formed on the housing cover 2. At the side channel breaker 5 is both in the area the mouth of the inlet opening 3 and in the region of the mouth of the outlet opening 4 each have a flow guide body 7 or 8 molded. 9 with the blades of the impeller 10 of the side channel blower are designated.

In Fig. 2 is in particular the triangular shape of the flow guide body 7 to recognize. A radial extension 11 enables the transfer of the medium to be conveyed from the one to the other side of the side channel blower. This is necessary because the side channel blower has a double-flow design.

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In Fig. 3, the entry path of the medium to be conveyed on the flow guide body 7 is indicated by dashed arrow lines 12.

tet. Due to the triangular shape of the flow guide body 7 it is achieved that the medium to be conveyed moves in the circumferential direction

7712419 02/09/78

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Immediately after the end of the side channel interrupter 5, you can see in an area 13 between the blades 9 of the impeller 10. The medium to be conveyed enters the impeller 10 in the hub area 14 of the blades 9. After acceleration by the blade 9, the medium can, offset in the circumferential direction, exit again on the other side of the flow guide body 7 from the area of the blade 9 into the side channel. Thus, with a small flow rate and high pressure generation, the helical movement of the medium to be conveyed is achieved in the shortest possible way. The run-up distance is thus considerably shortened.

The triangular shape of the flow guide body 7 is but also achieves that with a high flow rate and low pressure generation, the medium to be conveyed over the longer middle Part of the flow guide body 7 essentially approximately tangentially into the side channel and into the area of the blades 9 of the impeller 10 is initiated. This direction corresponds to the great gradient of the annular flow in this operating state. In order to the correct gradient of the medium to be conveyed is achieved in the shortest possible way.

In FIG. 4, as in FIG. 3, the exit path of the conveyed medium in the area of the flow guide body 8 is shown by dashed arrow lines. As can be seen from the illustration, C ) the helical movement of the medium as it exits the side channel blower is deflected into an axial movement, the kinetic energy of the medium being largely utilized and the flow losses being kept small as a result. The flow guide body 8 arranged in the area of the outlet opening 4 has the same shape and size as the flow guide body 7. This has the advantage that the same housing can be used in both directions of rotation of the side channel compressor.

Due to the tapering shape of the flow guide bodies 7 and 8, which form part of the side channel interrupter 5, the Ingress and egress impacts in the interrupter area are significantly reduced, which means a considerable reduction in the siren noise connected is.

7712419 02/09/78

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- ijp) To avoid pressure and flow losses, it is still known to arrange the inlet and outlet openings in accordance with the conveying direction of the side channel compressor so that the Inflowing or outflowing medium can enter or exit the side channel as tangentially as possible. The inlet and outlet ports must accordingly be arranged at an angle on the compressor housing. Such an arrangement of the inlet and outlet ports However, it brings considerable disadvantages in terms of manufacturing technology, especially when the compressor housing is die-cast will be produced. Here, too, the arrangement of the flow guide bodies 7 and 8 results in advantages, since the inlet and outlet Outlet openings 3 and 4 containing nozzle arranged axially on the housing can be and can thus be easily produced in the die-casting process.

7712419 02/09/78

Claims (4)

• · ItI ■ ■ • · • ft ■ β · 1. Side channel blower, each with one opening into the side channel Inlet and outlet openings, between which openings a Side channel interrupter is arranged, characterized in that at least in the area of the mouth the inlet opening (3) a tongue-shaped flow guide body (7) protruding in the conveying direction of the side channel compressor Ssitenkanalinterrupter (5) is arranged, wherein the flow guide body (7) continuously tapers starting from the connection point on the side channel interrupter (5). 2. Side channel compressor according to claim 1, characterized in that that the flow guide body (7) is triangular. 3. Side channel compressor according to claim 1 or 2, characterized in that that also in the area of the mouth of the outlet opening (4) there is a flow guide body directed opposite to the conveying direction (8) is arranged. 4. Side channel compressor according to claim 3, characterized in that the flow guide body arranged at the outlet opening (4) (8) is designed in exactly the same way as the flow guide body (7) arranged at the inlet opening (3). 7712419 09.0178