DE7429546U - RADIAL FLOW FAN - Google Patents

Description

NU-WAY HEATING PLANTS LIMITED, Droitwich, Vines Lane, England

Radial flow fan.

The invention relates to a radial flow fan consisting of a housing with an inlet opening in an axial end wall and a tangential outlet opening, an impeller which is arranged in the housing such that a gap is formed between the circumference of the impeller and the circumference of the housing and a gap between the housing end wall and an adjacent axial end of the L _a ufrades to permit free flow of air from the entire space in the interior of the impeller by means to allow the intermediate space, wherein the location of kürζenten distance between the circumferences of the impeller and of the housing is adjacent to the junction of the outlet opening with the rest of the housing and a baffle plate which extends from one edge of the inlet opening into the impeller.

Such radial flow fans are known from DT-OS 2 027 936. In this construction, in order to increase the delivery pressure, it is proposed to cover the part of the housing inlet opening which the Housing outlet opening is closest.

However, these radial flow fans have the disadvantage that they in particular do not provide an increase in the outlet pressure at low delivery rates, which can arise, for example, especially when if sick results in an increased flow resistance when starting an oil or gas burner for the first time, which leads to a part of the Air that has been conveyed through the impeller flows back through the blades of the impeller into the interior of the wheel. This Reverse flow causes turbulence and thereby worsens the efficiency.

The invention is based on the object of a radial flow fan
to create an improved pressure-volume characteristic
has low flow velocities without the need for it dig is to increase the dimensions of the impeller.

This object is achieved according to the invention in that one thing is:

The end of the baffle plate extends around the axis of rotation of the impeller and f

their other end the radial inner edges of the blades of the barrel I

rades is adjacent and the baffle plate from the inlet opening C

extends into an area which is adjacent to the support plate of the impeller ί ·

beard is. Ϊ

The invention has the advantage that turbulence as a result of Buck «
Currents through the blades can be avoided, so that the efficiency is improved with small delivery rates. Especially with the
Use of the Badialströmungsgebläee according to the invention together with | This advantage is of essential importance for oil or gas burners, i <because the outlet pressure is as high as possible at low delivery rates in order to control the increased flow resistance,
which occurs when a burner is started for the first time *.

The invention is based on an exemplary embodiment in the following: illustrated figures.

Fig. 1 is a side end view of the radial flow path λ ν biases;

Figure 2 is a section taken on line 2-2 of Figure 1; .

Fig. 3 illustrates a pressure «* volume characteristic of the | blower according to the invention. |

The fan has a housing 10, which with a spiral shape
migen circumferential wall 11 is provided, at the end of which the
Outlet opening 12 is located. The lateral limitation of the housing he *
follows through the two end walls 13 and 14 ″ in the housing 10 is
an impeller 15 is provided which has a plurality of blades or

- 3 -

Has lamellae 16, which extend from the impeller plate 17 inward extend. The outlet opening 12 extends essentially tangentially to the circumference of the impeller 15 · The blades or lamellae 16 have an exit angle of at least 90 ° and the circumference of the barrel * rades has its smallest distance from the spiral wall 11 at the junction of the same with the outlet 12, that is, on the section 11a of the wall 11, which has the smallest radial distance from the axis of the impeller 15. The scope of the impeller 15 and the The periphery of the wall 11 defines a space 18 which is round extends around the impeller and opens into the outlet 12.

The axial extension of the impeller is significantly smaller than the axial extension of the housing 10. It has been shown that satisfactory results are achieved when the impeller 15 has approximately 30 to 84 % of the axial extension of the housing 10. The impeller 15 is arranged in the housing 10 in such a way that there is a considerable gap 19 between the axial end wall 15 and the adjacent axial end of the impeller 15. In contrast to the conventional construction of such fans, no attempt is made according to the invention to prevent an air flow from the zone 18 via the intermediate space 19 to the atmosphere. In the present exemplary embodiment, such a flow can take place completely unhindered. The space 19 can be viewed as an area consisting of two sub-areas. The central area 19a is located directly next to the inlet, while the radially further outward area is marked with 19b in the drawing.

The wall 13 has a circular opening through which the barrel · «· wheel can be removed, while the wall 13 is a flat Has plate 20 which partially closes the opening. The plate 20 is provided with a cutout 21 which formed the fan inlet. The center of the Aueeohnittes 21 is to the axis of the impeller 15 slightly offset, the offset of the inlet opening in a Sighting takes place facing away from outlet 12. The cutout 21 has - as illustrated "■ generally the shape of a Sreissek"

tors, which includes the area of the eotation axis of the impeller 15, A border 21a of the cutout relatively forms a leading edge to the direction of hardening of the impeller 15 · In the present example the edge 21a is at an angle of 45 ° to the axis of the outlet 12o. A second edge 21b of the in the direction of flow In the present exemplary embodiment, the cutout 21 has an angle of 90 ° with respect to the edge 21a. With alternative design « the edge 21b can form any angle between 4-5 ° and 240 ° with the edge 21a · you form larger ones enclosed between the edges Angles are each assigned to the smaller of those angle values that lie between the edge 21a and the axis of the outlet opening 12, so that the cutout 21 is always on one side of the The impeller axis lies away from the outlet 12.

A baffle 22, generally in the form of a plate, is attached to the inlet opening plate 20 along a portion of the opening 21. The baffle plate 22 protrudes perpendicularly from the plate 20 so that it extends into the impeller 15, approximately parallel to the axis of the impeller, the ends of the baffle plate reaching close to the question plate 17 of the impeller blades extends along the edge 21a and thereby defines, in the present example, an angle of 45 ° with respect to the axis of the outlet opening 12 · The baffle plate 22 extends around the axis of rotation of the impeller 15? so that it runs essentially between the inlet opening and the region 11a of the spiral wall 11. The expansion of the baffle plate 22 is essentially the same for all sizes of the cutout 21. The end of the baffle plate 22, which faces away from the plate 20, partially forms the hub 23 of the impeller 15. According to an alternative embodiment, this can The end of the baffle plate 22 completely surrounds the hub and is supported by it.

During operation, the fan sucks air through the cutout 21 into the housing and calls for this air to outlet 12, where it exits. EIa Part of the air in the space 18 reaches the outer area 19b

of the space "19 · This part of the air moves essentially borrowed in the same hotation sense as the impeller 15 · The baffle plate 22 guides this air into the sub-area 19a of the space 19 'from where it re-enters the impeller. A turbulence the air flow and thus an instability of the fan, especially at low flow velocities. significantly reduced

It has been found that a blower as described above an improved pressure-volume characteristic at low flow »* - rates has «FIG. 3 illustrates the curve 30 of the invention -» according to the blower, the pressure DP on the ordinate and the Flow volume V is plotted on the abscissa. The curve 3 * 1 shows the pressure-volume characteristics of the known blowers are comparable Size so that one can see the substantial improvement that will be made results at low flow rates.

As additional features of the invention, the exhaustion 21 a flap or a closing member are provided which is rotatably attached to the plate 20, so that the cutout 21 between the angles enclosed by the edges is changed. Such a flap or closing element can be used to change the pressure-volume character- teristics of the fan can be provided and / or to adapt the whole Amount of air that passes through the fan "

claim

Claims (1)

A η s ρ r u Radial _{flow fan s} consisting of a housing with an inlet opening in an axial end wall and a taugentialen outlet opening, an impeller which is arranged in the housing j that a gap is formed between the circumference of the impeller and the circumference of the housing and a gap between the housing end wall and an adjacent axial end of the impeller to allow an unimpeded flow of air from the entire space into the interior of the impeller by means of the space, the location of the shortest distance between the circumferences of the impeller and the housing being the junction of the outlet opening is adjacent to the rest of the housing and a baffle plate which extends from one edge of the inlet opening into the impeller, characterized in that one end of the baffle plate (22) extends around the axis of rotation of the impeller (15) and its other end the radial inner edges of the blades (16) of the Impeller (15) is adjacent and the baffle plate (22) extends from the inlet opening (21) in an area which is adjacent to the support plate (17) of the impeller (15).