DE1293545B - Centrifugal dust separator of the multi-cyclone design with induced draft fan - Google Patents

Description

The invention relates to a centrifugal dust separator of the multicyclone design, in which the individual cyclones stick around or in a ring around a central dust gas supply line - Are arranged and connected with their inlet openings to this and the cyclone ring a common induced draft fan is connected downstream.

The invention is based on the object of a centrifugal dust separator to train this type so that the performance of the conveyor fan in relation to Throughput can be kept small - and flow losses can be avoided.

In a known centrifugal dust separator with a downstream The fan is located on an axial fan and small cyclones distributed over a groove level at a greater distance from the cyclones, this distance being through a is bridged conically tapering housing hood in the direction of the induced draft fan. This arrangement is fraught with losses, since the suction effect per unit area reduced due to the strongly increasing cross-section of the hood towards the cyclones. Further flow losses result from the relatively large distance the induced draft fan from the cyclones.

Also known is a dust separator of the type mentioned at the beginning, the one with a pressure fan with radial compressed air channels directed towards the cyclone inlets is working. These channels also bridge a distance between the rotor blades of the impeller and the cyclones, whereby they determine the flow cross-section for the discharged Decrease compressed air. Here, too, there are consequently not inconsiderable pressure losses and thus losses of the energy used to operate the fan.

The object on which the invention is based is now achieved by that the diameter of the impeller and the cyclone ring are approximately the same and the rotor blade ring directly above the dip tube mouths of the cyclone cells running around. This reduces the cross-section and thus causes losses Intermediate channels between the blades of the fan wheel and the cyclones avoided, so that the greatest possible output of the fan is achieved.

It is true that centrifugal separators, especially cyclones, are connected downstream Suction fan is known, in which the immersion tube is directly, i.e. without an intermediate line, opens into the fan. In these known separators, however, the immersion tube, since suction over an annular plane is not provided, a considerable amount smaller diameter than the fan wheel in order to concentrate the induced draft centrally and reinforce there. The sudden strong change in cross-section caused by this between the immersion tube and the fan housing diameter, however, in turn brings a disadvantage Wise strong flow losses with it.

The object on which the invention is based includes the delivery rate of the fan to match the required throughput as precisely as possible in order to also save operating energy here. The invention makes use of this in an advantageous manner Way of a device known per se, in which the inlets of the cyclone cells can be shut off individually by swivel flaps. It is particularly advantageous if in a manner known per se, an automatic control of the swivel flaps as a function of delivery rate or gas speed is provided. Such is known Arrangement in a multi-cyclone, in which the individual control of the swivel flaps by means of a membrane connected between the gas outlet and inlet line electrical switching contacts and control rods takes place.

The invention is described below on the basis of an exemplary embodiment explained in more detail in the drawing.

F i g. I shows a schematic representation in vertical section centrifugal dust separator designed according to the invention; F i g. 2 is the horizontal section according to line II-II of FIG. 1.

The multicyclone centrifugal dust separator shown in the figures has an induced draft fan, in which the blades 2 of the fan wheel 1 directly above the mouths of the dip tubes from a ring around the axis of the fan arranged single cyclones 6 - circulate. The drive motor 3 of the fan is located in a closed nozzle 4, which is inserted into the central dust gas supply line 5 is. The inlet openings 7 of the cyclone cells 6 are through individually operated Swivel flaps 8 lockable.

The diameter of the glass wheel 1, 2 is approximately equal to the diameter of the cyclone ring, so that extraction without losses only in this ring area takes place. Since the blades 2 are directly above the mouth of the immersion tube circulate, intermediate channels with losses are avoided. By opening or Closing a corresponding number of swivel flaps 8 is an adaptation of the for the separation efficiency decisive gas throughput of the single cyclones to the fan speed to save operating energy.

The flow path of the conveying means is shown in FIG. 1 by arrows indicated.

Claims (3)

Claims: 1. Centrifugal dust separator of the multicyclone design, in which the individual cyclones are in a ring or ring around a central dust gas supply line arranged and connected with their inlet openings to this and the cyclone ring a common induced draft fan is connected downstream, characterized in that the The diameter of the fan wheel (1, 2) and the cyclone ring are approximately the same and the rotor blade ring (2) directly above the dip tube mouths of the cyclone cells (6) revolves. 2. Dust separator according to claim 1, characterized in that the inlet openings (7) of the cyclone cells connected to the central dust gas supply line (6) can be shut off individually by swivel flaps (8) in a manner known per se. 3. Dust separator according to claim 2, characterized by an automatic known per se Control of the swivel flaps (8) depending on the delivery rate or gas speed.