DE2525865A1 - FAN - Google Patents

Description

MÜLLER-BORE · ΟΡΟ. '. Ϊ \ ΙΚ (4 · DEI) FJaJU · SCHÖN · IIERTEI.

MUNICH - BRAUNSCHWEIG - COLOGNE

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DR P. CjC Ul EL. CjJ (LC »IE M MUNICH

DR A SC> - «iJN. U ι ft -CHtM MUNICH WtRNtW HEHIEL. DIPL-PHY'j. COLOGNE

CHARBONNAGES DE FRANCE Paris, France

fan

The invention relates to a fan of the radial construction with a cylindrical strong rotor made of an air-permeable Material rotating in a circular concentric chamber with an axial entry port.

The use of such fans consists of ventilation in the strict sense of the word and dedusting. Her Suction and ventilation through a porous body can be advantageous for removing dust of the air that passes through such a body.

Various embodiments of such a fan are already known (GB-PS 532 467). However, it has been shown that such a fan has only a weak suction force in use, so that its known uses are limited to the extraction of gas and dust for dosing or sampling.

509881/0388

UONC) IJiN 80 · SlEHEHTSTIt. 4 POU 8007S0 CABLE: MTTSJiOPAT TEL. (OSB) 471079 TELEX: 0-220 * 30

This disadvantage of the weak suction force thus allows the development of this fan for the actual Do not ventilate a room or other limited environment if dust is captured and removed in addition to ventilation should be, so not only a dosage or sampling of dust particles should be made.

This disadvantage is very unfortunate given that this type of fan is considered among the blade fans has the advantage that it works very quietly, since its rotor does not give the air any pulsations with sound frequencies.

The object on which the invention is based therefore exists in creating a fan with a rotor made of porous material and with a suction and conveying effect that is sufficient is strong, on the one hand, to ensure good mixing of the air in a room or in another limited environment and on the other hand to bring about a perceptible entrainment of the air sucked in by the fan even at a distance.

In addition, a good directional suction should be achieved so that the fan for the ventilation of the flow dead corners or rooms is suitable. In addition, the air filtration properties of the known fan should can be used to the maximum. In particular, the fan is intended for long periods of time to remove dust or other harmful elements can be used, which are carried along by the air sucked in by the fan.

This object is achieved by the fan according to the invention solved, which has a cylindrical chamber with a bottom, through the center of which the rotor axis passes and whose inlet and outlet openings sit concentrically to one another on both sides of an annular nozzle.

509881/0388

Tests have shown that the rotor thus introduces a double concentric air flow, namely the air flow the middle suction and the circumferential ventilation in the form of an air curtain. Each of the air currents also becomes owing the rotation of the air curtain being blown forward by the rotor. this leads to to a double vortex and in particular to a pronounced axial directional effect of the central vortex, its range can be several meters, what with the known Vorrichtuncjen this kind is not attainable.

According to the invention, the ring nozzle has in the air inlet direction a convergent section.

The effect of the vortex described above is improved to a great extent by the Venturi effect, which on this way is obtained at the entrance of the vacuum compression chamber which the jacket forms with its rotor.

In order to increase the beneficial effect of the vortex, it is advantageous that the outlet opening which surrounds the ring nozzle, Has guide vanes or directional vanes and that these vanes also inclined and to the circumference in the direction of rotation of the rotor are inclined.

It is also advantageous that the inlet opening is provided with wings for straightening the flow threads of the air are what is known per se with other fans. In this way, the turbulence effect, the other is favorable for the suction effect, at the entrance of the device in the desired manner reduced by the efficiency to improve the device and, if necessary, the trapping capacity for particles or dust grains to be removed to increase.

509881/0388

If you want to use the fan according to the invention maximally as a dedusting device, it is advantageous provided with water atomization devices in the inlet opening. In this case the Jacket at least one line for removing deposits or dirt or products thrown from the rotor. Tests have shown that the device has a considerable trapping efficiency in this case and the property is that it is self-cleaning with an amount of water which is considerably lower than with all other wet-working dust extractors.

The best functional results are obtained if the lateral outer surface of the mass that forms the rotor is over at least part of its length there is a compensation profile which, with respect to the theoretical cylindrical Profile is drawn in. This compensation profile is designed so that when the foam rotates by itself deformed, assumes a cylindrical profile favorable for good functioning.

It is also advantageous to have a depression in the transverse outer surface of the foam opposite the devices to be provided for atomizing the washing liquid.

Based on the accompanying drawings, the invention will become for example explained in more detail.

Fig. 1 shows in axial section an embodiment of a fan according to the invention.

Fig. 2 shows the fan of Fig. 1 from the front.

Fig. 3 shows in a side view in section a first embodiment of a rotor for use in a fan of the previous figures.

509881/0388

Fig. 4 shows in a side view in section a rotor which is suitable for use as a dedusting device of the fan proves to be cheap.

Fig. 5 shows in a side view in section a variant embodiment of a rotor for a rotor according to the invention Dedusting fan.

The device shown in Figures 1 and 2 is particularly suitable for ventilating a limited space, for example an underground construction site, where the directional effect is extremely useful to create blind zones vent like the front of a dismantling passage.

The device comprises a thick cylindrical rotor 1 made of a permeable material, for example a plastic foam with open pores that sits on a rotating plate 2 with a shaft 3. The rotor 1 and the plate 2 are arranged in a concentric circular chamber 4. The chamber 4 consists of a cylindrical shell, which has a flat bottom 6 and an annular wall 7. The bottom 6 of the casing 5 is in its center from the shaft 3 of the rotor 1.2 interspersed. The shaft 3 is driven by an electric motor 8 in a rear housing 9 of the device is arranged. The motor 8 rotates the rotor with 3ooo Upra and is controlled by a relay or a Contactor 1o controlled. The inlet openings 11 and 12 of the device are concentric and have approximately equal surface sections. The inlet 11 is axial, the outlet 12 is provided on the circumference. An annular nozzle 13 forms the partition wall and the boundary between the inlet 11 and the outlet 12. In an embodiment not shown, the nozzle is at the edge 7 of the jacket 5 by cross struts attached.

509881/0388

The ring nozzle 13 has an outer cylindrical section and an inner frustoconical shape in which the entrance direction of the air convergent section.

The opening of the outlet 12 has over its entire circumference Guide vanes 14, which are inclined to the circumference in the direction of rotation of the rotor, which is indicated by the arrow F. In the embodiment shown, the wings 14 replace the cross struts for fastening the nozzle 13 to the edge 7 of the jacket 5.

The fan according to the invention has a filtering effect, since the air drawn in through the rotor made of plastic foam open pores through it.

When optimal filtration is sought over a long period of time, the fan is beneficial the following additional properties.

In the axis of the fan a water atomizer 15 is provided, which is connected to a rigid pipe 16, which passes through the nozzle 13. The atomizer gives the water atomized in the direction of the inlet air flow directed near the point of maximum negative pressure. A line 17 for the removal or withdrawal of Deposits or dirt or products thrown off the rotor complete the device. This line can be arranged tangentially or axially in a manner known per se. Rings 18 are used for suspension the device.

The rotor of the dedusting fan is shown on the basis of FIGS described in more detail.

509881/0388

The shaft 3 of the drive motor on which the rotating Plate 2 is keyed for rotation is partially shown. A rotor 1 is glued to the plate Plastic foam attached with open pores. The foam 1 has a side surface 19 and, a transverse outer surface 2o.

In the embodiment shown in Fig. 3, the side face in the vicinity of the plate 2 has a section a cylindrical profile 21 on which a section with a compensation profile 22 follows, which jumps in with respect to the line which lengthen the cylindrical profile 21 would. The compensation profile 21 is overall frustoconical, but this is not absolutely essential. When rotating at a high speed, the foam 1 deforms depending from the distance from the plate 2 more and more outwards under the action of centrifugal force. The observed deformation depends on the natural stiffness of the foam and the speed. SLe also depends on the nature and the amount the retained dust particles and the volume of washing liquid which is sucked up by the rotor during its operation. So you can have the profile, which the rotor "1 for Kompensieruhg this effect in ' the rest position is to be given, do not define exactly. The compensation profile is often close to a truncated cone shaped profile, but may also vary depending on the circumstances.

In the embodiment shown in FIG. 4, the rotor 1 consists of a more rigid foam than in the case of FIG Fig. 3 shown embodiment. Excessive outward deformation is less of a concern in this case. The side surface 19 thus has a cylindrical profile, but the foam is opposite to the washing liquid less permeable. The transverse outer surface 2o of the foam 1 has an opposite the atomizer

509881/0388

Recess 23. As a result, instead of the tendency to flow on the transverse surface 2o during the rotation, the washing liquid is collected in the recess 23, from where the centrifugal force forces the liquid to penetrate into the interior of the foam volume 1. The exact profile sov / ie the depth of the / recess 23 resulting from the / \ rt and, as the liquid is guided manner, so that it penetrates into the foam rising of said recess to flow along the edges instead.

In the embodiment shown in FIG. 5, the rotor consists of a composite foam. A first layer 24, which is attached directly to the plate 2, consists of a fine foam. This layer can be a side face with a cylindrical profile. A second layer consists of a ring of coarser foam. The rigidity this foam can be sufficient for the side surface 19 to retain a cylindrical profile. However, if this foam 1 is even coarser, it no longer has too great a rigidity, so that its side surface is given a frustoconical profile can, as shown in Fig. 5 by the dash-dotted line. "...- ■. · ■.

Depending on the type of foam used and the conditions of use of the fan can have a side surface with a compensation profile 22, as shown in Fig. 3, with a transverse outer surface with a profile with a recess 23, such as this is shown in Fig. 4 combined v / ground. The profile with the recess 23 gives the foam 1 a radial direction progressively decreasing strength as one approaches the transverse surface 20. The deformation the side surface of the foam during the rotation thus only corresponds to that in the absence of a recess, what leads to an adaptation in the form of a different compensation profile 22.

509881/0388

Claims (14)

PATENT CLAIMS Radial design fan with a strong cylindrical rotor made of an air-permeable material, which is in a concentric circular Chamber rotates, which corresponds to a cylindrical jacket, the bottom of which in its center of the rotor axis is penetrated, characterized by an annular nozzle (13) which has an inlet opening (11) and delimits an outlet opening (12) which are directly concentric with one another. 2. Fan according to claim 1, characterized in that at least the inner wall of the annular nozzle (13) has one has convergent section in the direction of entry of the air. 3. Fan according to claim 1 or 2, characterized in that that at least the outlet opening (12), which surrounds the annular nozzle (13), guide vanes (14) Has. 4. Fan according to claim 3, characterized in that the guide vanes (14) are arranged obliquely and to Circumference are inclined in the direction of rotation of the rotor (1). 5. Fan according to one of the preceding claims, characterized in that the inlet opening (11) with wings for aligning the flow threads the air is provided. 509881/0388 - 1ο - 6. Fan according to one of the preceding claims, characterized in that it is used for dedusting is used and has means for atomizing water into the inlet opening (11). 7. Fan according to one of the preceding claims, characterized in that it is used for dedusting is used and that the jacket has at least one line (17) for discharging dirt particles or has products thrown off the rotor (1). 8. Fan according to claim 1, characterized in that the rotor (1) consists of an air-permeable material has a side surface (19) which, in the rest position, has a compensation profile (22) on at least one length section which, with respect to the theoretical cylindrical profile is retracted. 9. Fan according to claim 8, characterized in that the compensation profile (22) is substantially is frustoconical. 10. Fan according to claim 6, characterized in that that the rotor made of air-permeable material has a transverse outer surface (2o), the one has central recess (23). 11. Fan according to claim 1o, characterized in that the rotor is made of a composite foam consists of layers (24, 25) of different stiffnesses and / or porosities. 509381/0388 12. A fan according to claim 11, characterized in that the composite foam rotor has at least a first layer (24) corresponding to a disk of fine foam and a second
Layer (25) in the form of a ring made of coarser foam, the recessed central part of the ring forming the central recess which is provided in the transverse outer surface of the rotor. 13. Fan according to claim 12, characterized in that the transverse outer surface (2b) of the first layer. (24) inside the second layer one
Has annular central recess. 14. Fan according to one of claims 8 to 1o, characterized in that the rotor is made of air-permeable
Material has a side surface (19) with a compensation profile (22) and that at the same time the
transverse outer surface (2o) has a central recess, the compensation profile being designed so that it takes into account the actual profile of the central recess. 509831/0388