NL8101876A - FAN UNIT FOR CONSTRUCTION IN PIPELINES, CHANNELS OR CHANNEL-FURNISHED CABINETS, FOR EXAMPLE, IN VENTILATION AND CLIMATIZATION DEVICES. - Google Patents

Description

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Fan unit for installation in pipelines, ducts or channel-like cabinets, for example in ventilation and air-conditioning systems

The invention relates to a fan unit suitable for installation in pipelines, ducts or duct-like cabinets, for example in ventilation and air-conditioning devices, and intended for the transport of gaseous media, which unit contains a free-running radial impeller, without a spiral housing, and an associated drive luotor added to that impeller.

Such fans can be installed as a unit in themselves in ducts or pipelines, irrespective of whether such ducts or pipelines have a round or rectangular cross section, and in this process combine the advantages of an axial fan - namely straight flow and simple assembly - with the advantages of a radial fan - with high pressure and relatively low noise - are therefore highly sought after for many applications. Assembly is simple, much like a piece of an air duct or a pipe piece.

The air hereby exits in the direction of entry of the air, i.e. approximately axially.

The known devices of this type, however, have the drawback that the air exits from the impeller with a strong rotational movement, so that the volume flow continues to travel in a helical manner also in the subsequent duct or pipeline system, which leads to considerable energy losses: a large part of the energy communicated to the flow medium by the impeller cannot be put to good use, so the efficiency of such fans is correspondingly poor. The object of the invention is to overcome this drawback.

To achieve this object, the invention aims to provide a fan unit of the subject type, which, while retaining the advantages of the above-described known device, avoids the disadvantages thereof in that the flow of the transport medium after passing the fan The impeller in the subsequent pipe or duct line no longer has any rotary movement obtained on the outlet side, so that there is an orderly, rectified flow on the outlet side of the fan and the energy losses described above cannot be feared.

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For this purpose, it is proposed according to the invention, in view of the flow direction of the medium, to switch on a guiding device behind the impeller outlet point, which diverts the flow of the transport medium 5 radially emerging from the impeller in the axial direction. Preferably, the guiding device hereby gives the radial impeller from the outside, wherein it can, for example, keep a certain distance from the outer circumference thereof.

Advantageously, the guiding device is in the form of a multi-blade rigidly mounted wheel. It may, for example, consist of a number, for example 15-18, preferably 17 guide vanes, which are arranged such that the entrance angle corresponds to the direction of discharge of the transport medium from the impeller, so that the transport medium can enter almost without impact.

Preferably, it can be provided here that the guide vanes 15 of the guiding device are placed at such an angle or in such a curved shape. that the transport medium is diverted from the radial direction in the axial direction. In this way a fan unit is obtained, which not only has the already mentioned advantages of fan units according to the prior art described above, but. in addition, the energy losses with which the known, comparable devices are subjected to are lacking, because the medium after leaving the impeller through the guiding device. it is diverted such that this medium flows axially without a rotary movement, with the result that the energy losses associated with such a rotary movement are eliminated.

By the design and placement of the blades according to claims 5-12 hereafter, a further improvement in avoiding energy losses can be achieved, in particular with the measure according to claim 13, according to which the guide vanes are jointly adjustable and adjustable , which means that afterwards optimal setting and volume flow control can be achieved in a small way in a simple manner and without much time loss.

Preferably, the radial impeller, the associated drive motor and the guiding device are combined into one unit per se and can be built as one unit in duct, pipeline, etc. The guide vanes are preferably surrounded on the outside by a cylindrical casing, which also forms the housing for the fan unit, which holds the whole unit together.

Here he can, for example, hold the drive motor located on the side of the wheel remote from the inlet side of the impeller by means of radial support members attached to its outer end to the cylindrical casing 5 or also by means of angle brackets, one portion of which extends axially and is attached at its free end to a bearing ring, which preferably participates in the alloy of the impeller, which is located on the inlet side, and another part of which extends radially and serves to hold the drive motor.

Due to the details listed above, the construction is optimally simplified on the one hand and requires little cost, while on the other hand a considerable ease and simplification of the mounting is achieved.

The drawing shows some embodiments of the invented device, by way of example only for the invention.

Fig. 1 is a schematic side view, partly in section, of a device according to the invention; FIG. 2 is a plan view associated with FIG. 1; Fig. 3 shows partly and on an enlarged scale the wheels of the device according to Figs. 1 and 2 in developed state; Fig. U is a partial cross-sectional side view of a portion of a modified embodiment of a device according to the invention; FIG. 5 is a plan view associated with FIG. U; Fig. 6 is a side view of the guiding device of a further variant of a device according to the invention; Fig. T is a plan view associated with Fig. 6; and FIG. 8 is a schematic front view of a blade of the guiding device of FIG. 6.

The fan unit according to the invention according to fig. 1 comprises a freewheel! radial impeller 1 without a spiral housing and an associated drive motor 2, 35 added to that impeller, which can, in an effective manner, be designed as an outer rotor motor, so that the speed thereof can be controlled, for example when one saves energy, for example cm , wants to adapt the air volume to be processed to the actual requirement.

8101876

Ir v •: *, l! . According to the invention, viewed in the direction of flow of the medium in the direction of arrow 3a, 3b, behind the exit point 4, a guiding device 5 is switched on, which feeds the flow of the transport medium out of the running wheel in the radial direction in the direction of arrow 6a. in the axial direction in the direction of the arrow 6b, so that this transport medium can exit in the direction of the arrow 3b. The drawing shows that in the embodiment according to Fig. 1, the guide device 59 has the form of a non-rotatably mounted wheel with a number of blades J , surrounds the radial impeller 1 from the outside,. 10 with a distance between the outer circumference of the radial impeller and the guiding device 5.

As already noted, the guiding device consists of a number - for example 15 to 18, preferably 17 guiding vanes - which are adjusted such that the entry angle corresponds to the direction of exit 15 of the transport medium from the impeller, so that the transport medium is virtually without impact in the guiding device can enter.

The guide vanes of the guiding device can be designed and arranged in different ways. For example, the guide vanes 10 of the guiding device 11 of the device according to FIG. 6 can be arranged obliquely relative to the longitudinal axis 12 according to FIG. be arranged that the transport medium is diverted from the radial direction in the axial direction. Here, for example, the guide vanes of the guiding device can be inclined at an angle α of 7 ^ 15 °, preferably 10 °. positioned obliquely to the wheel axle 12.

This is also apparent from Fig. 3, in which the rotational sense of the impeller is indicated by the reference numeral 13 and the diversion of the transport medium takes place in the direction of the arrow i to the axial direction 15.

It is also possible to design the guide vanes of the guiding device in such a curved form that the transport medium is diverted from the radial direction in the axial direction. The guide vanes can also have a circular arc profile or a curved shape deviating from the circular arc shape. On the one hand, these different embodiments help to save energy and avoid impact losses, while on the other hand they serve to provide the most efficient diversion with the highest possible efficiency of the transport medium after leaving the running wheel and before entering the connecting part of the channel. or pipeline. In accordance with the embodiment according to Figs. 7 and 8, 81018 76 -5- - can also be cm. to achieve the most efficient flow of the medium, the length of the blades 1_ should be about five times as great as the radius of curvature r_, while the blade height h is about two to three times the blade width b. In this case, the blade is indicated by the reference numeral 10.

In order to achieve a simple, efficient and inexpensive operation, the guide vanes can be alloyed so that they can be adjusted and adjusted together, so that afterwards optimum adjustment is possible and a volume flow control can be achieved in a small size, which is simple and economical is.

In order to simplify, especially the mounting, and to achieve a simple construction, it is also provided that the radial impeller, the associated drive motor and the guiding device are combined into one unit per se, which unit as a whole in 15 duct, pipeline, etc. can be built-in, for which known per se flanges or reducing pieces, respectively. bridging sections ,. plug-in connections or the like can be used. In the embodiment according to Figs. 1-3, the blades are given on the outside by a jacket 15 of cylindrical shape, which also forms the housing of the fan unit and holds the whole unit together. In this case, the drive motor 2 is located on the side of the wheel remote from the inlet 16 in the impeller 1 and is thereby held by means of radial supports 17, which are attached to the cylindrical casing at their outer ends at the reference numeral 18. . The housing 25 thus contains the guide device and the running wheel and carries the motor.

The housing can be built into the duct system with means not shown in more detail in the drawing. In the variant according to Figs. 4 and 5, the drive motor 20 is again mounted on the side of the wheel remote from the inlet 21 in the impeller 22 and is held therein by means of angle brackets 23, one part of which 2b extends axially and is attached at its free end at reference numeral 25 to a support ring 26, which preferably participates in the alloy of the impeller 22, and the other portion 27 of which extends radially - portions 2b and 27 are at reference numeral 28 connected to each other - and serves to hold the drive motor. 29 indicates the guiding device and 30 a mounting plate for the drive motor. Also in this case, where the fan 22 81 01 876 -β- is equipped with backward curved blades, a housing 31 is provided, which encloses the unit and also serves for mounting and mounting the unit.

81 01 876

Claims (9)

1 -7- 1. Fan unit, “intended for installation in pipelines, ducts or channel-like houses, resp. in the aerating and limiting devices and intended for the transport of gaseous media, the fan unit is provided with a free-running radial impeller without a spiral housing and with an associated drive motor added to that impeller, characterized in that seen from the medium behind the place of exit of said impeller (k) a guiding device (5, 11, 29) is switched on, which guides the flow of the transport medium emerging in radial direction from the impeller (1, 22) in axial direction . Fan unit according to claim 1, characterized in that the guiding device (5s 11, 29) gives the radial impeller (1, 22) from the outside, efficiently with a distance. Fan unit according to claim 1 or 12, characterized in that the guiding device (5, 11, 29) is in the form of a non-rotatably mounted multi-blade wheel (7, 10). k. Fan unit according to at least one of the preceding claims, characterized in that the guiding device (5, 11, 29) consists of a number, for example 15 to 18, preferably 17 guide vanes, which are arranged such that the entrance angle corresponds to the direction of discharge of the transport medium can enter substantially without impact into the guiding device, in which case the guide vanes of the guiding device are advantageously placed at an angle, for instance at an angle of 7 ° -15 °, preferably of 10 ° with respect to the wheel axle, or have such a curved shape, that the transport medium is diverted from the radial direction in the axial direction. Fan unit according to claim k3, characterized in that the guide vanes have a circular arc profile or a profile differing from the circular arc shape. Fan unit according to at least one of claims 3-5, characterized in that the length of the blades is about five to six times greater than the radius of curvature. Fan unit according to at least one of claims 3-6, characterized in that the height of the blades is about two to three times as great as the width of the blades. 8101876: -; - 8- * I: 8. Fan unit according to at least one of claims 3-7 *, characterized in that the guide vanes are jointly adjustable and adjustable. Fan unit according to at least one of the preceding claims,; 5, characterized in that the radial impeller, the associated drive motor and the guiding device are combined into one unit per se, which unit as a whole can be built into duct, pipeline, etc. Fan unit according to at least one of Claims 3-9 * 10, characterized in that the guide vanes are surrounded on the outside by a cylindrical jacket, which also houses the housing for the fan unit and holds the whole unit together in an effective manner. the drive motor is located on the. inlet in the impeller turned side of the wheel and, for example, by means of radial attached at their outer end to the cylindrical jacket. brackets or held by angle brackets, one portion of which extends axially and, at the free end, is mounted in an advantageous manner in the alloy of the impeller, mounted on the inlet side, while the other section 20 extends radially and serves to hold the drive motor. 8101876