DE8908987U1 - Fan unit - Google Patents

Description

DESCRIPTION

The description relates to a fan unit 1 as a unit, wherein the impeller 2 with backward curved blades is connected to the direct drive motor 3b with the support plate 4, which can simultaneously be the motor support plate 5, via several flexible holding devices 6 with the intake plate 7 and the air nozzle 8.

The fan unit is suitable for installation in a box unit, cabinet unit or other housing 9 for air direction. It is driven directly by an external rotor motor 2g or a standard motor 3e or indirectly by a belt drive 3c.

The sealing of the fan unit 1 to the surrounding surfaces 10 can be carried out for the intake plate 7 laterally 11 or frontally 12, rigidly or flexibly 13.

When installed upright in a housing, the fan unit is preferably connected to the housing base 17 via vibration compensators !♦-or, in the case of a rigid connection, via fastening feet 15 under the lower spacers 16. The lower exhaust cross-section 18 must not be restricted by the feet. When installed hanging, fastening is possible via the spacers or the discharge plate or motor support plate.

If an additional motor support plate 5a or shaft support plate for the belt drive 3c is used, the installation is carried out using height-adjustable mounting feet 15a. With a belt drive, the standard motor 3b is mounted on the side of the mounting feet.

Radial impellers as fans without housings are well known and are also used as duct fans, however, they are usually not used in device units because the efficiency is unsatisfactory compared to the preferred radial fans with spiral housings due to the limited space available or the distances between the impeller diameter and the walls against which the air flows.

For the radial fans with spiral casings, which are the preferred choice, fan manufacturers and literature also cite efficiencies of over 80X, whereas the maximum achievable efficiency of an impeller without casing is around 70X. If we take the practically usable efficiencies into account, then for spiral casing fans in equipment use with subsequent installations, the majority of the dynamic pressure, the individual speeds and speeds as well as the losses for belt drives must be taken into account.

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Taking these facts into account, the usable efficiency of the impeller with backward curved blades is in the same order of magnitude as that of impellers with spiral casings. However, the disadvantage remains the power adjustment, which is easily possible with a belt drive.

* The construction underlying the inventors' concept has

a discharge plate 4 in the flow direction, which is significantly larger than the impeller 2 and its size is determined by the internal dimensions of the flow channel 10. In addition, the

$ peripheral edge 19 through the rounded shape 20a/

20b/20c designed to be shock-resistant. The rounded shape can be produced by appropriate machining 20a or by applying profiles 20b/20c .

By arranging the outflow plate at the side of the impeller 21 and designing the shape and size of the remaining free cross-section 22 on the pressure side, backflow from the turbulence 23 on the pressure side behind the outflow plate is prevented from influencing the impeller. Due to this adjustment, a significant increase in performance or an improvement in efficiency can be seen, and the usable efficiency is better than with fans with spiral casings and components downstream in the direction of air flow such as heat exchangers or air filters.

A further advantage is the significantly smaller influence of the distance from the impeller outer diameter 24 to the enclosing surfaces 10 on the efficiency. With conventional impellers ^4r _, a strong influence due to the increasing turbulence can be seen as the distance becomes smaller. With variable air volumes, for example through a speed-controlled drive, the efficiency gain compared to impellers without an adapted discharge plate is maintained.

In addition, this fan design allows an accurate measurement of the air volume conveyed by means of a simple pressure measuring arrangement 25 in the inlet nozzle 8 directly in front of the impeller intake 26. As long as the next suction-side resistance 27 is installed further away than 0.75 times the inlet nozzle diameter 28, the intake behavior of the inlet nozzle remains unaffected and the air volume can be specified as a function of pressure. If the intake behavior is influenced, a device-specific pressure-dependent air volume adjustment must be carried out.

The pressure measurement can be used to display the air volume during operation. In addition, when using a speed-controlled drive, it is possible to compensate for variable resistances such as air filters when they are clogged and to keep the air volume constant at the desired level.

Claims (7)

Registration: FAN UNIT Applicant: Dipl.-Ing. Gerhard Neuhaus f Ingenieurbüro ■" Am Weiher 256301 Fernwald 2 CLAIMS 1. Fan for air conveyance in an axial direction for horizontal or vertical installation in devices, in particular in box devices, cabinet devices or other housings. Characterized in that an impeller with backward curved blades as well as a drive motor or a drive shaft and an outflow plate, which can simultaneously be a motor support plate, are joined together with the intake plate and the inlet nozzle to form a unit via several holding devices. 2. Fan according to claim 1, in which the intake plate is adapted all around for connection and sealing to the enclosing surfaces by folding. 3. Fan according to claim 1, which is fastened in a housing via vibration compensators or rigidly via height-adjustable fastening feet. 4. Ventilator üäCn claim i thereby &udigr;&thgr;&kgr;&&Pgr;&Ggr;&igr;&zgr;&eacgr; i that the outflow plate located behind the impeller in the flow direction is significantly larger than the impeller and is round or square depending on the surrounding flow channel, the distance between the outflow plate and the impeller is 0.06 to 0.08 times the impeller diameter, and the outer circumferential distances from the outflow plate to the surrounding housing are matched to the nominal air volume. 5. Fan according to claim 4, in which the peripheral edge of the outflow plate is rounded to improve airflow, or is provided with a rounded profile. 6. Fan according to claim 1, characterized in that the inlet nozzle is provided with an outlet 2 to 20 mm in front of the impeller intake cross section on the circumference with 1 to 4 holes with connections made of pipes or hoses. 7. Fan according to claim 6, in which the distance to the next ventilation installation or resistance on the suction side is preferably at least 0.75 times the diameter of the inlet nozzle.