SK5609Y1 - Guide shield, particularly for radial-flow fans - Google Patents

Abstract

It is described a guide shield (1), particularly for radial-flow fans (2) mounted on a driving shaft (31) of a drive unit (3) and consist of a rotor (21) located in a housing(22). The guide shield (1) consists of an internal hub (11) and an outer ring (12), which each other are coupled by at least three circumferentially positioned ribs (13). The ribs (13) create flow channels (14), which are maintained so that at least two flow channels (14) have a different outlet flow section. The each flow channel (14) may have yet another outlet flow cross-section.

Description

The technical solution belongs to the field of construction of air-handling equipment and it concerns a new solution of air inlet and shaft mounting of radial fans, used mainly for securing supply, treatment, exhaust or air circulation to both building and mobile objects such as containers, cabinets bodywork or vehicle cabs.

BACKGROUND OF THE INVENTION

At present, radial fans are designed to be designed so that air is supplied to the fan on the opposite side of the location of the drive shaft of the drive electric motor or the drive shaft with a pulley of another type of external drive. An example of this construction is evident from the solutions of CZ 297722, which relates to an electric motor with a fan wheel, to which a diffuser radially follows, where air enters the fan through an opening in the housing from the opposite side of the electric motor. fan wheel and diffuser towards the electric motor.

There is also a solution according to utility model CZ 19119, which solves the inlet of air into the fan from the side of the drive shaft. The principle of this solution is that the fan rotor is mounted on the drive shaft so that its axial suction port is directed towards the drive unit, with a fan shield placed between the drive unit and the fan. This shield consists of a flange and a molded body which are mutually coupled to each other by at least three circumferentially spaced ribs. The disadvantage of this solution is the aerodynamic noise, which is caused by the regular arrangement of the ribs around the circumference of the shield and that its applicability is only for compact ventilation units composed of a radial fan and a drive unit.

The object of the present invention is to provide a ventilator shield design that reduces the level of aerodynamic noise while maintaining or increasing the efficiency of the ventilator and allowing the use of various types of drives.

The essence of the technical solution

The achievement of the stated objective is made possible by a technical solution, which is a guide shield, in particular radial fans, mounted on the drive shaft of the drive unit and formed by a rotor placed in the housing, the essence of the solution consists in the guide shield consisting of an internal hub and an outer ring. interconnected by at least three circumferentially positioned ribs forming the flow channels and guided so that at least two flow channels have a different outlet flow cross-section.

In a preferred embodiment of the guide shield, each flow channel has a different outlet flow cross section.

The new design of the fan guiding shield greatly reduces its aerodynamic noise while allowing any drive to be used either directly by the drive unit, for example by an electric motor mounted on the fan shaft, or by any torque transmission device such as a cardan shaft, pulley, chain and the like.

BRIEF DESCRIPTION OF THE DRAWINGS

Specific examples of embodiments of the guide shield according to the invention are schematically illustrated in the attached drawings, where:

Fig. 1 is a partial vertical longitudinal section of a basic embodiment of a ventilation assembly comprising a guide shield and driven by a V-belt, FIG. Fig. 2 is a partial vertical longitudinal section of an alternative embodiment of a ventilation assembly comprising a guidance shield and driven by a wedge belt; 3 is a front view of a basic embodiment of a guidance shield from the fan side; and FIG. 4 is a front view of an alternative embodiment of a guidance shield from the fan side.

The drawings which illustrate the technical solutions and the examples of its specific embodiments described below do not in any way limit the scope of protection given in the definition, but merely clarify the nature of the technical solution.

SK 5609 Υ1

Examples of technical solution

A ventilation unit in which the guide shield 1 in the basic embodiment of FIG. 1 consists of a fan 2 which is mounted on the drive shaft 31 of the drive unit 3, represented in this case by the drive pulley. The fan 2 is formed by a rotor 21 housed in a housing 22 provided with an outer mounting ring 221 on the side adjacent to the drive unit 3. The rotor 21 is mounted at the end portion of the drive shaft 31 by conventional means such as wedges, tongues and the like. and its axial suction port 211 is directed to the drive unit 3.

A guide shield 1 is provided between the fan 2 and the drive unit 3 and consists of an inner hub 11 and an outer ring 12 interconnected by at least three circumferentially spaced flat ribs 13 extending substantially parallel to the axis of the drive shaft 31. Outer ring 12 of the guide shield 1 is rigidly or resiliently detachable connected to the mounting ring 221 of the fan housing 2, for example it is provided with connection holes 121 for the connecting screws 4, the outer ring 12 and the rotor 21 of the fan 2 being interconnected through a rotary seal 5, for example labyrinth. In this case, the inner surface of the hub 11 is adapted to rotatably support the drive shaft 31, for example by means of a pair of bearings 6.

The ribs 13 are arranged unevenly around the perimeter of the guide shield 1, as shown in FIG. 3 and FIG. 4. The ribs 13 may be guided substantially radially from the inner hub 11 towards the outer ring 12, which is the solution of FIG. 3 or may be aerodynamically shaped as shown in FIG. 4. Finally, the ribs 13 for special use of the guide shield 1 can be shaped in the axial direction from the drive unit 3 to the fan 2, the condition of perfect functionality is unevenly arranged in the air flow direction at least two outlet edges 131 of ribs 13 thereby forming between them 13 shows a different outlet flow cross-section. Ideally, each of the flow channels 14 has a different outlet flow cross section.

The described embodiments are not the only possible constructions of the guide shield 1 according to the invention for a ventilation unit, the basic flow diagram of which with a tangential outlet neck 222 is shown in FIG. 1, but the same guide shield 1 can also be used for ventilation units with an axial outlet throat. As shown in FIG. 2, for the drive units 3 realized by an electric motor, the surface of the internal hub 11 towards the drive unit can be provided with a suitably shaped transforming arc 111 ensuring optimal parameters of the intake air flow. For the same purpose, the inner edge of the outer ring 12 is also rounded. Without affecting the nature of the solution, the outer ring 12 can be provided with a different number of connection openings 121 depending on the size of the unit. three.

Industrial usability

The guidance shield according to the invention is generally applicable to fans used for a wide range of ventilation and filtering devices to provide air to buildings or various mobile devices, such as mobile collective protection facilities, ie armed forces technical support containers, vehicle body bodies, etc. .

PROTECTION REQUIREMENTS

Claims (2)

A guide shield (1), in particular for radial fans (2) mounted on the drive shaft (31) of the drive unit (3) and consisting of a rotor (21) housed in a housing (22), characterized in that it consists of an internal hub ( 11) and an outer ring (12) interconnected by at least three circumferentially spaced ribs (13) forming flow channels (14) and guided so that at least two flow channels (14) have different outlet flow cross-sections. A guide shield according to claim 1, characterized in that each flow channel (14) has a different outlet flow cross-section. 4 drawings