DE102010006349A1 - Hot gas ventilator, particularly for recirculation of high gas flow in heat treatment plants with heat transfer on heat treatment materials by highly forced convection, has rotor with two impellers for two pressure ranges - Google Patents

Abstract

The hot gas ventilator has a rotor with two impellers for two pressure ranges that are connected one after another, where the impellers are rotated on a shaft (1). The impellers are formed as radial ventilators. The former impeller has a large diameter than the latter impeller. The former impeller sucks the conveyed gas volume flow from a suction chamber.

Description

Hot gas fans, such. In DE 100 22 788 B4 or DE 33 46 987 C2 described in thermal processing plants are used at high gas temperatures up to 1000 ° C for the circulation of gas streams and generation of a high convective heat transfer.

The impellers are sheet-metal welded constructions made of highly heat-resistant alloys that tend to creep at high temperatures.

Since with increasing temperature, the gas density and thus the delivery pressure of the fans decreases, higher peripheral speeds of the fans are required at higher temperatures to achieve higher pressures despite the low gas density. However, this is not possible because the strength load of a fan with its peripheral speed increases quadratically and also decreases the material strength with increasing temperature.

Therefore, such. B. after DE 38 304 43 A , trying to fan wheels or particularly high-stress parts of fan impellers, such. As blades, made of ceramic materials that have even at very high temperatures of 1000 ° C and more high strength. However, these developments are still in their infancy and therefore, in terms of component reliability and especially component size, not yet industrially applicable for the foreseeable future.

However, with prior art metallic hot gas centrifugal fans, higher pressures for floating heavy metal bands at higher temperatures - e.g. B. copper strips with a thickness> 2 mm at temperatures of 870 ° C - to be, after DE 10 2006 056 518 A1 Centrifugal fans connected in series in a known manner. It serves z. B. a larger centrifugal fan than the first pressure stage and in a partial flow of the flow of this fan in series with this further radial fan for supplying the lower floating nozzles as a second pressure level, while the remaining flow of the first fan, the floating nozzles above the belt directly supplied, as these after teaching the mentioned document require a lower nozzle pressure than the floating nozzles below the belt.

According to this embodiment DE 10 2006 056 518 A1 is disadvantageous that the nozzle pressures for upper and lower floating nozzles despite two fans per system section can not be adjusted separately and the division of the currents behind the first fan requires a complicated and also because of the higher material at high temperatures material expansion only with great effort to realize channel management ,

Another embodiment according to DE 10 2006 056 518 A1 has behind the first fan, the flow is divided, depending on a fan for upper and lower nozzle array as each second pressure stage. Although this somewhat improves the change in the nozzle pressures for upper and lower floating nozzles, it is additionally disadvantageous that not only two but three penetrations of the furnace wall are required for the installation of fans, the fans all having separate bearings and separate drives.

If, for reasons of better planarity, the metal strips softened during the annealing process are also required to have higher pressures for the floating nozzles above the strip, then according to the teaching of this document, which uses a separate fan for each pressure stage, there would even be four separate fans and four furnace penetrations per plant section required, which not only require higher costs and greater maintenance, but also represent additional, large thermal bridges and also significantly increase the design effort for flow guidance in the oven.

Therefore, the object is to provide a hot gas fan, which does not have the disadvantages described and does not require a Ofenwanddurchdringung for each pressure stage. This is achieved in that the rotor of the hot gas fan has at least two fan impellers on the same shaft, which operate as series-connected pressure stages.

In the following the invention with reference to an embodiment and the 1 and 2 explained in more detail.

Show it:

1 a view of an exemplary embodiment in cross section

2 schematically the pressure, volume flow characteristic of the hot gas fan after 1

On the rotor shaft ( 1 ), which are on the cold side of the in 1 only indicated heat-insulated fan plug ( 2 ), the two fan wheels ( 5 . 11 ) attached. Between the two fan wheels ( 5 . 11 ) is by means of handrails ( 10 ) on the fan plug ( 2 ), with the intake fan for the second fan impeller ( 11 ) equipped end plate ( 9 ), which on its first fan impeller ( 5 ) facing the radial guide vane ( 8th ) wearing.

The handrails ( 10 ) can z. B. be designed by profiling so that the outflow from the fan wheel ( 11 ) is hardly disturbed.

It is also possible to remove parts of the plug ( 2 ) attached outflow housing ( 13 ) of the wheel ( 11 ) as a holder for the end plate ( 9 ) to use. This solution is in the 1 not shown.

The cover plate ( 9 ) can with the two fan impellers ( 5 . 11 ) together with the fan plug ( 2 ) in the axial direction of the rotor shaft ( 1 ) from the wall ( 3 ) of the heat treatment plant are removed. The cover plate ( 9 ) is by means of the circumferential sealing bag ( 12 ), in which a sealing cord can be inserted, against the oven-fixed outflow housing ( 13 ) of the second fan wheel sealed.

With the discharge housing ( 13 ) is the rotationally symmetrical outflow housing ( 6 ) of the first fan wheel ( 5 ) firmly connected. As a rule, the outflow housing of the second fan impeller ( 13 ) a spiral housing.

Depending on the selected combination of impeller types for the fan wheels ( 5 ) and ( 11 ), the second fan impeller ( 11 ) be surrounded by a ring-like diffuser, which at the same time the end plate ( 9 ) with the stopper ( 2 ) connects. This solution will be chosen if a multi-sided outflow from the rotor of the hot gas fan offers particular advantages.

Depending on the selected Lüfterlaufradtypen other, not described solutions for the Abströmgehäuse are possible. Essential for the exemplary embodiment of the invention described here is that the part of the outflow housing of the first fan impeller (in the example as end plate ( 9 ) referred to, from which the inflow to the second fan impeller, is attached to the fan plug and can be expanded together with this.

The course of the flow is described for the embodiment described in more detail by way of example 1 through the flow arrows ( 4 ) illustrates. The fan impeller ( 5 ) sucks through the suction nozzle ( 6a ) the volume flow to be pumped from the suction space ( 14 ) at. The outflow takes place from the fan wheel ( 5 ) radially into the rotationally symmetrical outflow housing ( 6 ). The considerable velocity component in the circumferential direction of this outflow is achieved by means of the annular vane apparatus (US Pat. 7 ) deflected in the axial direction, whereby the static pressure increases. Another deflection, by which the static pressure is further increased, takes place with the annularly arranged guide vanes (FIG. 8th ) in the outflow part of the housing for the first fan impeller, so that the inflow to the second fan impeller ( 11 ) takes place evenly and almost without twisting.

The outflow of the second fan wheel ( 11 ) takes place in the case of the exemplary embodiment 1 favorable in a 360 ° spiral housing in which there is a further increase in pressure due to the low-loss delay of the fan outflow.

Like the schematic characteristic diagram 2 shows, by the operation of the two fan wheels one behind the other, ie in series, achieved a considerable increase in pressure.

(V . = Volumenstrom, D = Laufraddurchmesser, u = Umfangsgeschwindigkeit), aufweist und dessen Schaufelform der Fliehkraftbeanspruchung Stand hält.It is important for the first fan wheel ( 6 ) to select a type of centrifugal fan, which is suitable for operation in a rotationally symmetrical outflow housing, which at the highest possible pressure increase a sufficiently high volume promotion, characterized by the delivery number

(V = volume flow, D = impeller diameter, u = peripheral speed), and its blade shape of the centrifugal force holds state.

The second fan wheel may then be a type of centrifugal fan that relies on a 360 ° volute to achieve a large pressure increase. This can, as in the example described, be a drum rotor impeller which, due to its special design throughout the operating range of the volume flow, has almost the same pressure increase and, moreover, manages with a smaller peripheral speed, whereby the construction, as in FIG 1 shown, simplified and the fan diameter as small as possible, based only on the first fan, can be selected and the centrifugal force of the second fan impeller is reduced.

The exemplary embodiment according to 1 when used in a ribbon float oven has the advantage that, for example, when selecting a flow guide to EP 0 864 519 Instead of the conventional centrifugal fans hot gas fans can be used according to the invention without changing the particularly advantageous flow channel guide according to EP 0 864 519 something.

LIST OF REFERENCE NUMBERS

1

rotor shaft

2

fan plugs

3

Heat insulated wall

4

flow arrows

5

First fan impeller

6

Rotationally symmetrical outflow housing

6a

suction

7

vanes

8th

Radial vanes

9

End plate with suction nozzle

10

Handrails

11

Second fan wheel

12

seal bag

13

outflow housing

14

suction

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10022788 B4 [0001]
• DE 3346987 C2 [0001]
• DE 3830443 A [0004]
• DE 102006056518 A1 [0005, 0006, 0007]
• EP 0864519 [0026]

Claims (4)

Hot gas fan, in particular suitable for the circulation of high gas flows in heat treatment plants with heat transfer to the heat material by high forced convection, characterized in that the rotor of the fan at least two on the same shaft ( 1 ) rotating wheels ( 5 . 11 ) for at least two successive pressure stages Hot gas fan according to claim 1, characterized in that the fan rotor forming impellers ( 5 . 11 ) Radial fans are Hot gas fan according to claim 1 and 2, characterized in that in a rotor with two centrifugal fan impellers ( 5 . 11 ), the first, the funded gas flow from the suction chamber suction impeller ( 5 ), a larger diameter than the second impeller ( 11 ) Has. Hot gas fan according to at least one of claims 1 to 3, characterized in that the rotor of the hot gas fan with shaft and storage with a plug ( 2 ) is installed in a wall of the thermal process plant.

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