DE1966697A1 - GUIDE DEVICE FOR DUST, FIBER, OR POLLUTED AIR - Google Patents

Description

Dr.-ing. DipL-Phyn. OSKAR KÖNIG patent attorney

Deutsche Bink AG S; u: iaart Telephone: (0711) 6285Gl Account No. SH CC3O ^r

Telegram: Koenigpat 70C0 STUTTGART- !, Klüpfelstraße 6 Postscheck Stgt. 649

Poet compartment 51

196669?

Pat 2012-1D

L u w a AG Zurich (Switzerland)

Guiding device for air laden or polluted with dust or fibers.

The invention relates to a guide device for air laden or polluted with dust or fibers.

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1986697

In the technology of pneumatic cleaning of machines, z. B. textile machines, as well as pneumatic transport of good, e.g. B. fiber material, the task is often to deflect a flow of air or evenly out of a housing to flow out over a certain width. This task can be solved aerodynamically flawlessly with clean air; however, there are relatively large blow-out chambers or Duct cross-sections required. In the case of pneumatic cleaning devices, the space required for this is in the Usually not available.

Where space is limited for pneumatic cleaning devices the use of air baffles or baffles in the air ducts has therefore been proposed, which can lead to useful results with clean air. When using air, which is to be transported Material is loaded, however, these air guiding devices clog within a short time.

Attempts have also been made to determine the flow conditions in the To improve sewers by introducing so-called false air. In order to be sufficiently effective, however, you must the false air quantities used are chosen so large that they are no longer economically viable.

The invention has therefore set itself the task of avoiding the aforementioned disadvantages. The inventive Guide device for polluted air laden with dust or fibers, which is preferably approximately cylindrical or having a spiral cross-section having guide chamber in which the introduced through an inlet Air can rotate around the guide chamber axis in the manner of a swirl flow and exit from this again through an outlet -can, is characterized in that the outlet direction of the outlet of the guide chamber to generate a aerodynamic cross-sectional constriction of the outlet of the

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The swirl direction of the swirl flow is opposite.

This guide chamber can have numerous advantageous applications find, e.g. B. as an exit spiral of a fiber separator, or z. B. as an outlet spiral of a housing in which two air streams loaded with fibers are separated or combined, or pneumatic cleaning is used to blow out one from large areas causing, even uncleaned air flow.

The aerodynamic cross-sectional constriction of the outlet of the guide chamber causes an effective exit cross-section which is significantly reduced compared to the actual cross-section of the exit opening and the exit connector. As a result, the amount of air required to operate the guide chamber can be kept small, which has an advantageous effect on the energy expended for conveying the air. In spite of this, the full cross-section of the outlet connection is available when tufts of fibers and intermittent fibers accumulate. Therefore, in case of permanent transit of tufts by the guide chamber no blockage of, the outlet occurs. If necessary, the guide device can also be used to evenly blow out air laden with fibers through a very long, narrow outlet nozzle. This is important for the pneumatic cleaning of textile machines with large surfaces to be cleaned, since then not only clean, but also air laden with fibers can be used for blowing without clogging the outlet cross-sections. For example, such a cleaning device can be used to clean a card and, for example, be arranged under the cylinders of the card.

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In the drawing, a preferred embodiment of the invention is shown, it being understands that the invention can be practiced in other embodiments.

Show it:

Fig. 1 shows a guide device with a diagrammatically shown guide chamber with a spiral Housing body, tangential entry and tangential exit of the air, with the exit ■ the air from the narrow slot flows evenly over the entire width,

FIG. 2 shows a cross section through the exemplary embodiment according to FIG. 1.

A spiral-shaped, elongated guide chamber 50 constant The cross section is bounded laterally by end plates 52. With 56 the axis is referred to, which extends in the longitudinal direction of the guide chamber 50 through the center of the spiral. The guide chamber 50 has a tangential discharging outlet connection 55, at the end of which there is a relatively long and relatively narrow outlet slot 54 is located. The connector 55 extends according to FIG. 1 over the length of the guide chamber 50. A narrow inlet connector 58 opens into the guide chamber 50 at least approximately tangentially and preferably at right angles to the axis 56. The inlet connection 58 can, however, also open into the guide chamber at an angle to the axis. According to Fig. 1, its is parallel the dimension measured to the axis 56 of the guide chamber 50 is substantially smaller than the length of the guide chamber 50 and this inlet connection has approximately the same distance from the two end walls of the guide chamber 50.

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As can be seen from FIG. 2, the connector 58 is arranged centrally symmetrically to the connector 55 with respect to the axis 56.

It is important that the nozzle 58, seen in the axial direction of the guide chamber 50, by an imaginary, virtual Rotation about the axis 56 with the outlet connection 55 could be brought approximately to coincide.

When air is passed through the guide chamber 50, the tangential entry of the air through occurs the nozzle 58 in the guide chamber in its interior a swirl flow. When entering the nozzle 55 is the air is deflected against the swirl prevailing in the guide chamber 50. This results in an aerodynamic Cross-sectional constriction. When exiting the guide chamber the air is diverted brusquely against the swirl prevailing in the guide chamber 50. This creates vortices, soft increase the flow resistance in the nozzle 55 considerably. The increase in resistance acts like one physical cross-sectional constriction, which is caused by the guide chamber 50 affects the amount of air passing through. However, since this cross-sectional constriction does not actually exist | it is referred to in this patent specification as aerodynamic cross-sectional constriction. If the air fibers contains and fibers accumulate in bursts or in clusters, the full cross-section of the still stands for their path Nozzle 55 available so that no blockage of the nozzle 55 can occur.

Surprisingly, it was found that when passing through of air and fibers through a guide device according to the invention no deposits of fibers at the location of the abrupt diversion into the outlet. The upstream lower edge of the outlet connection 5 5 is through

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the vortices of the air flow kept clean. In contrast, there would be an air flow opening out in the direction of the swirl the nozzle 5 5 in the region of its upstream mouth clog in a short time by paser deposits.

Surprisingly, it was also found that the The air exiting the guide chamber 50 is evenly distributed over the entire length of the slot 54. When trying a uniform blowout was achieved up to slot lengths of 2 m, both with small ones as well as with large amounts of air. When using air laden with fibers, as mentioned, there was no clogging of the Slot 54. It is essential that the deflection of the air within the spiral is at least 70 °.

It is not absolutely necessary to provide the connector 55 for the air to exit from the guide chamber 50. the The slot-shaped blow-out opening can also be made directly in the jacket of a cylindrical tube. It's from Meaning that the air in the guide chamber swirls which is generated in the exemplary embodiment by the tangential entry of the air into the guide chamber 50 is / however possibly also by special swirl generators, such as guide vanes or the like or a Entry spiral can be generated.

309841/0019

Claims (6)

2012 - 1 - 7 - Claims ll.iDirection device for loaded with dust or fibers, polluted air, which preferably has an approximately cylindrical or spiral cross-section having guide chamber in which the air introduced through an inlet in the manner of a swirl flow can rotate around the guide chamber axis and emerge from this through an outlet, characterized in that the outlet direction of the outlet (55) of the guide chamber (50) to generate an aerodynamic cross-sectional constriction of the outlet of the swirl direction of the swirl flow is opposite. 2. Guide device according to claim 1, characterized in that the outlet of the guide chamber has an outlet nozzle (55), which is preferably approximately opens tangentially into the guide chamber. 3. Guide device according to claim 2, characterized in that that the walls of the outlet nozzle (55) and the Guide chamber are impermeable to air. 4. Guide device according to one of the preceding claims , characterized in that the guide device (50) has a single outlet opening (55). 5. Guide device according to one of the preceding claims, characterized in that the outlet of the guide chamber over almost the entire length of the guide chamber 309841/0019 2012 - 1 - 8 - extends, and that the width of the outlet is only a fraction of this length. 6. Guide device according to one of the preceding claims, characterized in that the guide device has a tangential inlet connector (23; 58) for generating the swirl flow. 3 09841/0019