DE20319749U1 - tubefan - Google Patents

Abstract

Pipe fan (10, 10.2) for gaseous media,
- With a multiple blades (54) having diagonal impeller (40) and
With a guiding device (42) adjoining the diagonal impeller (40) on the outflow side for increasing the pressure of the medium,
characterized in that
- The blades (54) of the diagonal impeller (40) on a support plate (50) and on a cover plate (56) are attached, and
- The guide device (42) in the axial direction (22.1) connects to the diagonal impeller (40).

Description

TECHNICAL TERRITORY

The The invention relates to a fan with a rotationally symmetrical housing for Promote of air or other gases. Such fans are particularly used at the beginning, inside or at the end of pipelines. Therefore, they become common Pipe fans called. The field of application of the tubular fan according to the invention limited However, it does not only refer to the use in piping systems.

STATE OF THE ART

It are a number of different designs of tubular fans known. A first type of tubular fan is a backward curved radial impeller housed in an onion-shaped housing. A second type of duct fan also has an onion-shaped housing. On that from a cover plate, a support plate and a number two-dimensionally curved, Non-profiled blades existing diagonal impeller closes a radially aligned diffuser. A diagonal impeller consisting from a support disk and a number of two-dimensionally curved, not profiled sheet metal blades, and an axially adjoining diffuser owns a third type of duct fan.

PRESENTATION THE INVENTION

outgoing from this prior art, the invention Task based on a tube fan with a very high efficiency and to provide a high power density with low overall noise.

The Invention is given by the features of the main claim. meaningful Developments of the invention are the subject of the main claim subsequent further claims.

The Pipe fan according to the invention is characterized by the fact that the diagonal fan consists of cover plate, support plate and a number of on these two Disks of fixed blades in the axial direction of a diffuser is connected downstream. A number of optimizations based on this are the subject of others following on from the main claim Claims. The impeller blades and the guide blades of the tubular fan according to the invention can be three-dimensional bent and be profiled to the different flow angles along the leading edges of the blades can.

The Profiling is an essentially constant increase in the blade cross-section up to a maximum and a subsequent, essentially continuous Decrease of the blade cross section.

The Pipe fan according to the invention needs especially if you do not have an inflow nozzle, when the impeller cover plate widens in a nozzle shape. The seal between the suction and pressure chamber can take place at the impeller outlet. For further Increasing the pressure conversion from dynamic to static pressure a diffuser can be installed downstream of the diffuser. The housing of the Tube fans can ideally consist of a one-piece cylindrical Tube be made.

Further Advantages and features of the invention are furthermore those in the claims specified features and the following embodiments refer to.

SHORT DESCRIPTION THE DRAWING

The In the following, the invention is illustrated by means of the drawing Exemplary embodiments described in more detail and explained. Show it:

1 a half sectional view of a tube fan according to the invention,

2 a representation similar to that of 1 from an externally insulated pipe fan according to the invention.

WAYS TO EXECUTE THE INVENTION

The pipe fan 10 has an outer casing 12 , which encloses a cylindrical, straight cylinder interior. On its left and right end walls 14 . 16 are on the outside of the housing jacket 12 one left and one right flange 18 . 20 firmly attached to the casing shell 12 in the axial direction (axis 22 ) tower. By means of these flanges 18 . 20 can be on both ends of the housing shell 12 and thus on the pipe fan 10 one pipe each 24 . 26 a pipe not shown are connected. The pipe fan 10 can be between the tubes 24 . 26 to be built in. The outside diameter 28 respectively 30 of the pipes 24 respectively 26 corresponds to the outer diameter in the present example 32 of the housing jacket 12 , The pipes 24 . 26 could also each have a diameter 32 have a different outside diameter and are connected to the pipe fan using a corresponding pipe adapter.

The pipe fan 10 has a diagonal Wheel 40 , the input side of this fan 10 is available. Downstream of this diagonal impeller 40 is a guidance system 42 and then a diffuser 44 following the diagonal impeller 40 inside the duct fan 10 educated.

With the diagonal impeller 40 through the duct fan 10 gaseous flow medium pushed through flows around a central interior of the tubular fan 10 , which is delimited from the outside by the supporting disc 50 the duct fan 10 and one on the support disc 50 flow-adjoining intermediate jacket 52 , The support disk 50 bends at the end in the axial direction, so that it flows in a streamlined manner on the intermediate jacket aligned in the axial direction 52 abuts. The flow medium thus flows radially on the outside of the support disk 50 and on the intermediate coat 52 past.

The diagonal impeller 40 has circumferentially distributed blades 54 with one side on the support disc 50 and with its opposite other side on a cover plate 56 are attached. The shovels 54 are profiled in cross-section in the present case and also twisted. This is their leading edge on the upstream side 55 that are approximately perpendicular to the direction of flow (arrow 58 ) of the flow medium flowing towards it is aligned with a fillet. The downstream edge 60 , which are also approximately perpendicular to the diagonal flow leaving them on the outflow side (arrow 62 ) is shaped like a point. The cross section of the individual blades 54 is in the area between the supporting disc 50 and the cover plate 56 not constant, but of different sizes. Also the curvature of every scoop takes off 54 from the area of the cover plate 56 to the area of the support disk 50 off so the shovel 54 in the area of the supporting disc 50 least and in the area of the cover plate 56 is most curved. The decrease in curvature could, for example, also be in opposite directions, with the greatest curvature in the area of the supporting disk. This depends on the different flow conditions along the blades 54 between their respective connection areas on the cover plate 56 and on the support disc 50 from. The leading edge 55 and the trailing edge 60 can also be arched instead of straight.

The curvature of all blades 54 of the diagonal impeller 40 can have a so-called forward curvature or backward curvature. Which curvature is chosen depends on whether or not the velocity energy present there is to be converted into pressure on the downstream side of the impeller. Compared to backward curved blades, forward curved blades achieve a greater deflection of the flow medium in the area of the blades, which leads to a greater energy conversion with the requirement that the speed energy is still downstream, for example by means of the diffuser 44 is put into print.

The cover plate 56 runs on the upstream side with a radially aligned end wall 61 from, which is very narrow in the present case. This is how the radially inward starting area runs 56.1 the cover plate 56 to the front wall 61 relatively pointed.

The downstream end area 56.2 the cover plate 56 has a much stronger tip on the downstream side than the initial area 56.1 having.

Between the end area 56.2 and the housing jacket 12 is an angled annular gap in the present case 68 available, which in principle cannot be avoided due to the stationary housing wall 12 and the rotating diagonal impeller 40 , In this angled annular gap 68 there is a sealing element 70 , which is spaced into one in the cover plate 56 angular groove 72 intervenes. This angled ring gap 68 represents a flow labyrinth and prevents or makes it difficult for the blades 54 downstream gas flow through the annular gap 68 back into the space 74 flows in between the cover plate 56 and the housing jacket 12 is available. The stronger such a backflow is formed, the lower the efficiency of the tubular fan 10 ,

The diagonal impeller 40 leaving flow then flows through the area of the guide device 42 , In this pipe section of the pipe fan 10 are between the intermediate coat 52 and the housing wall guide vanes 80 arranged. In the present case, these are guide vanes 80 in their outer area 80.1 that of the housing jacket 12 is more curved than in its inner area 80.2 that of the intermediate coat 52 is facing. In this way, the diagonal impeller in a helical, diagonal direction 40 leaving gas flow in an axial flow direction (arrow 84 ) redirected.

The guide vanes too 80 are twisted three-dimensionally and profiled.

The outside of the wall section 52.1 of the intermediate coat 52 is in the area of the guide vanes 80 evenly formed. However, it is also possible to specify the distance between the intermediate jacket 52 and the housing jacket 12 to be enlarged in the direction of flow by the intermediate casing 52 has a decreasing diameter on the downstream side.

In the present case is on the intermediate jacket 52 , in the area of the blades 80 , a transverse wall 86 attached to which the diagonal impeller 40 driving motor 88 is attached.

Following the control system 42 is the diffuser on the downstream side thereof 44 educated. This diffuser 44 is caused by an upstream flow ring channel between the housing jacket 12 and the intermediate coat 52 realized constructively. So is the intermediate coat 52 in the area of the diffuser 44 with an angle 90 , which is greater than zero degrees and less than 30 degrees, against the axial direction 22.1 inclined. In the area of the diffuser 44 is this wall section 52.2 also as flat as the wall section 52.1 in the area of the control system 42 is. However, it is possible to use the two wall sections 52.1 and 52.2 not with a kink 91 to be butted together, but to be provided with a uniform curvature in order to avoid cross-sectional jumps in the wall construction of the components delimiting the flow medium. The wall section can also 52.2 be bent in the axial direction, so that the flow ring channel widens more cross-sectionally in the flow direction.

The in 2 tube fan shown 10.2 differs from the duct fan 10 principally in particular by the fact that its housing jacket 12 from an insulation sleeve 92 performing insulation material 94 is surrounded. This insulation sleeve 92 is made of an end-end Z-shaped tubular frame 96 edged in a ring. This frame 96 wraps around with a flange 98 the front edge of the casing 12 , The circular shape of the casing 12 and thus the duct fan 10.2 - The same applies to the duct fan 10 - makes the installation of external insulation structurally very simple. Thus, there are no curved wall areas of the tubular fan, as is the case in the prior art, which can only be covered with material on the outside in a relatively complex manner.

The through the intermediate coat 52 Defined sleeve is sound-permeable and has a sound-absorbing effect. In the present case, the intermediate jacket is at least in the wall section 52.2 designed as a perforated plate.

Claims (17)

Duct fan ( 10 . 10.2 ) for gaseous media, - with one multiple blades ( 54 ) diagonal impeller ( 40 ) and - with one on the downstream side of the diagonal impeller ( 40 ) subsequent control device ( 42 ) to increase the pressure of the medium, characterized in that - the blades ( 54 ) of the diagonal impeller ( 40 ) on a support disc ( 50 ) and on a cover plate ( 56 ) are attached, and - the control device ( 42 ) in the axial direction ( 22.1 ) to the diagonal impeller ( 40 ) connects. Pipe fan according to one of the preceding claims, characterized in that - the guide device ( 42 ) is followed by a flow channel that gradually increases on the downstream side. Pipe fan according to one of the preceding claims, characterized in that - its hollow cylindrical housing has a housing jacket ( 12 ) that has along its cylinder axis ( 22 ) has constant cross-sectional dimensions. Pipe fan according to one of the preceding claims, characterized in that - the blades ( 54 ) of the impeller ( 40 ) are profiled. Pipe fan according to one of the preceding claims, characterized in that - the blades ( 54 ) the control system ( 42 ) are profiled. Pipe fan according to one of the preceding claims, characterized in that - the blades ( 54 ) of the impeller ( 40 ) are twisted three-dimensionally. Pipe fan according to one of the preceding claims, characterized in that - the blades ( 54 ) the control system ( 42 ) are twisted three-dimensionally. Pipe fan according to one of the preceding claims, characterized in that - between the cover plate ( 56 ) of the impeller ( 40 ) and the impeller ( 40 ) containing housing ( 12 ) an annular gap ( 68 ) is available. Pipe fan according to claim 8, characterized in that - the annular gap ( 68 ) is labyrinthine. Pipe fan according to one of the preceding claims, characterized in that - the outflow end ( 56.2 ) the cover plate ( 56 ) of the impeller ( 40 ) approximately in the axial direction ( 22.1 ) is aligned so that the cover plate ( 56 ) a gradual curvature towards the guide device ( 42 ) having. Pipe fan according to one of the preceding claims, characterized characterized that - the Cover plate of the impeller against the flow direction nozzle-like expands. Pipe fan according to one of the preceding claims, characterized in that - the downstream end of the supporting disc ( 50 ) of the impeller ( 40 ) approximately in the axial direction ( 22.1 ) is aligned so that the supporting disc ( 50 ) at the impeller outlet a gradual curvature towards the guide device ( 42 ) having. Pipe fan according to one of the preceding claims, characterized in that - the housing jacket ( 12 ) of a sound absorbing material ( 94 ) is surrounded, - the housing jacket ( 12 ) is permeable to sound. Tube fan according to claim 13, characterized in that - the sound absorbing material ( 94 ) from another housing jacket ( 92 ) is surrounded. Pipe fan according to one of the preceding claims, characterized in that - the guide device ( 42 ) consists of plastic or aluminum. Pipe fan according to one of the preceding claims, characterized in that - the impeller blades ( 54 ) consist of plastic or aluminum. Pipe fan according to one of the preceding claims, characterized in that - the guide device ( 42 ) with the subsequent, increasing flow channel (diffuser 44 ) and with the suspension for the motor drive ( 88 ) is made from one part.