NL1038321C2 - DEVICE FOR THE SUCTION OF A FAN. - Google Patents

Description

Device for the suction side of a fan.

Description The invention relates to a device which is arranged on the suction side of a fan, in particular a premixing fan, and comprises a gas inlet and a gas outlet, the device being designed as a bend and a venturi tube integrated in the bend.

The invention is described on the basis of the example of a premixing fan, but also fans without a premixing function are included. With premix fans for gas burners, air and combustion gas are usually sucked in by a radial fan, pre-mixed in the fan and blown into the burner as a mixture suitable for combustion. For controlling the mixing ratio, that is the air and gas proportions, valves are used which can be controlled either electronically or pneumatically. With a pneumatic control, the gas valve is controlled with a pneumatic negative pressure and the gas is directly mixed into the flow of the air drawn in. The amount of air drawn in per unit time yields a corresponding amount of gas to be mixed. In this connection, it is known to generate the underpressure by means of a venturi tube arranged on the suction side of the premixing fan, whereby a locally higher flow rate and hence an underpressure is obtained by means of a local reduction of the flow cross-section. (Bernoulli's law) 25

Venturi tubes must have a certain length compared to their diameter in order to achieve the necessary underpressure. The ratio between the length and the diemater is referred to as the aspect ratio. With premix fans, the aspect ratio is usually 1: 5 based on the narrowest or approximately 1: 3 on the largest cross-section of the venturi tube. The devices for premixing are mounted on the lateral suction opening of the fan, so that with the known construction a considerable construction size in all directions was created, which is not desired.

The object of the invention is therefore to provide a device which improves the known advantages of a pneumatic mixing installation by means of a venturi tube such that the required building space in the height direction is as small as possible.

This object is solved by the subject of independent claim 1.

5

A device for the suction side of a premixing fan with an air or gas inlet and a gas or gas outlet is provided, the device being designed as a bend and a venturi tube integrated in the bend. Bend piece is understood to be a component shape that deflects the supplied flow in the downstream fan, preferably in the radial direction of the fan wheel.

Due to such a bend, the projection in the height direction, i.e. in the axial direction with respect to the fan rotor, can be kept very small and thus a compact and material-saving construction unit can be obtained.

15

During the flow through the venturi tube, the fluid is accelerated to the narrowest cross-section and then slowed down. When the flow is slowed down, the pressure rises, whereby the flow can come loose from the wall, the so-called release of the boundary layer, which gives rise to losses. It is therefore known to those skilled in the art that the venturi tube, starting from the narrowest cross-section, should not be excessively widened, while as usual value an opening angle of 10 ° should not be exceeded. However, the flow is responsible for losses even with optimum contact along the entire length of the venturi tube.

25

Also when applying bends, it is known that the bending of the flow within the bend piece, in particular when the flow comes loose, is responsible for losses. It is therefore necessary to also explain the bends in such a way that the least possible losses occur. As known measure 30 for reducing the danger of releasing the flow, relatively large jets are used for deflection, whereby, however, the dimensions of the bend pieces are considerably increased.

By integrating the venturi tube into the bend, both the losses of the venturi tube and the bend are spatially brought together and the resulting total loss is reduced.

3

In an advantageous embodiment, the venturi tube of the bend piece in the area with the narrowest cross-section is substantially slot-shaped, wherein substantially the slot extends over the entire width of the venturi tube. Due to the slot-shaped design of the area of the venturi tube with the narrowest cross-section, a substantially release-free flow is guaranteed over the width of the bend, so that the total loss is extremely small.

In an advantageous embodiment, a supply line and the device or the bend piece can be manufactured in one piece, the supply line 10 being substantially tubular and extending at least over the entire width of the bend piece. An opening gap is preferably provided between the supply line and the narrowest cross-sectional area of the venturi tube, or passage holes provided with a corresponding cross-section are provided to enable effective admixture of the gas supplied with the supply line. The gas distribution within the supply line is as homogeneous as possible, so that a gas delivery that is as constant as possible is guaranteed over the opening slit. The opening slit extends at least half the width of the venturi tube, but preferably substantially over the entire width, to ensure a possible high degree of admixture. With certain types of construction of the bend pieces, it may be advantageous to provide a distance between the opening gap and the location with the narrowest cross-section of the venturi tube. Such a distance may, however, be at most 10% of the total length of the device or the bend, to ensure efficient use of the venturi effect.

With the device according to the invention it is advantageous that a flow deflection of, for example, 30 ° is realized from the air inlet to the air outlet. Depending on the application, however, a deflection with an angle between 30 ° and even 180 ° may also occur. This is made possible by the design of the device as a bend in which the air sucked in is not sucked in axially with respect to the fan rotor, as in the prior art, but is sucked in substantially from radial direction and only at the suction opening of the fan housing is deflected in an axial flow.

For a flow-free flow within the device or the bend piece, it can be provided that the flow is already deflected from the air inlet to the area with the narrowest cross-section by at least 15 °, preferably in a flow parallel to the fan outer wall. is becoming.

4

With regard to the geometric shape of the device, it is advantageous that the cross-sections in the area of the air inlet up to the cross-section in the narrowest area of the venturi tube have a height to width ratio between 1: 1.5 and 1: 2, and preferably 1: 1.7. Furthermore, it is advantageous if the mixture outlet is formed essentially as a round outlet opening, and a distance between the edge of this outlet opening and the area with the narrowest cross-section of the bend is at most 1.5 times the diameter of the outlet opening diameter . When using a rotor blade as a reference size, the distance between the center of the outlet opening and the area with the narrowest cross-section (B) must be at most 1.5 times the radius of the rotor blade of the fan used. Longer distances lead to losses that generate losses. Efficient use of the building space is achieved especially when the venturi tube exceeds the outer diameter of the rotor blades of the fan rotor by less than 15%.

Furthermore, it is advantageous that the width of the venturi tube in the suction area corresponds substantially or precisely to the diameter of the outlet opening. This ensures that the flow takes place over the entire length of the device, or the bend piece, and over their joint width, without any loss-causing restrictions or constrictions being provided for.

For an optimum gas supply, the supply line can be provided with a flange to which a gas line can be connected. The supply line preferably extends over the entire width of the bend, so as to ensure admixture of the gas with the air flowing through the venturi tube over the entire width of the bend. In this way, the fan can be supplied with a mixture of air and gas that is as homogeneous as possible to the suction opening.

Further features, advantages and embodiments of the invention are the subject of the following description and the schematic drawing of the exemplary embodiments.

FIG. 1A shows in side view a section of the device according to the invention on a fan housing,

FIG. 2 shows a top view of the device according to the invention on a fan, 5

FIG. 3 shows an enlarged view of the device of FIG. |

FIG. 1 shows the device 1 designed as a bend piece, mounted on a fan housing, in which a fan rotor is arranged. The device 1 is substantially twice as wide as high, the height direction being an axial direction of the fan rotor and the width direction being a radial direction of the fan rotor.

A venturi tube is integrated in the bend piece 1 shown enlarged in Fig. 3, at a distance from both the suction opening of the fan and the mixture outlet 3 of the bend piece. The venturi tube comprises a plurality of flow sections with different box sections A, B, C, the section A, C being larger than the narrowest section B of the venturi tube of the bend. The bend 1 is provided with a very flat shape and the area of the narrow-sectioned venturi tube is essentially slit-shaped and extends over the entire width B of the bend 1. The narrowest B of the bend 1 is obtained in that its outer surface runs from both sides to the substantially straight bottom surface.

On the bend piece 1, in the region of the narrowest section B, a supply pipe 20 is formed in one piece, which extends substantially tubularly over the entire width b of the bend piece 1. The supply line 4 extends approximately as far as the usual components of a bend 1 in the height direction, in order to obtain a construction unit that is as compact as possible. Between the supply line 4 and the flow channel of the bend 1, an opening gap 5 is provided in the area of the narrowest section B, which opening preferably extends over the entire width b of the venturi tube. In the embodiment shown, the supply line 4 is arranged on the bend 1 in such a way that the opening gap 5 extends exactly along the location of the narrowest cross-section. In alternative embodiments, the opening slit 5 can be provided with a predetermined distance from the location of the narrowest cross-section, but this distance will not exceed 10% of the total length I of the bend 1. With the bend 1 according to the invention, the flow from the air inlet 2 to the mixture outlet 3 is deflected by approximately 120 °, with a first deflection from the air inlet 2 towards the venturi tube and then a second deflection in the area of the outlet opening 3 of the 35 bend is realized.

6

In Fig. 2 the device 1 according to the invention is shown in top view in cross section, mounted on a fan. The bend 1 extends over the length I and shows the width b. The air flows over the entire width b of the air inlet 2 into the bend 1, and is accelerated up to the area of the narrowest section B. The supply line 4 is provided with a flange 6 to which a gas line can be connected in order to mix gas to the air drawn in via the supply line 4 and the opening gap 5. The mixture outlet 3 is formed as a round outlet opening, for which the distance f between the edge of the outlet opening and the area of the narrowest cross section B is substantially the size of the diameter d of the outlet opening. In an alternative embodiment, the distance f can also be chosen larger, but this value may never be greater than 1.5 times the value of the diameter d of the outlet opening. The width b of the bend 1 is slightly larger than the diameter of the outlet opening d, the difference between b and d already being limited by the material thickness of the bend 1 and therefore b and also d can be chosen to be equally large.

The invention is not limited in the embodiment to the exemplary embodiment shown above. On the contrary, a number of variants are possible, which also lie within the scope of the invention. For example, it is possible to shift the supply in the direction of the suction opening or in the direction of the air inlet, as long as the desired admixture of the gas can still be guaranteed. Furthermore, it is possible to make the air inlet of the bend straight and to provide only a deflection of the flow in the area of the mixture outlet. In addition to the shown use of an opening gap, it is also possible to provide several openings which guarantee the gas inlet in the flow within the bend.

1038321

Claims (14)

Device (1) for the suction side of a fan with at least one gas inlet (2) and a gas outlet (3), wherein the device (1) is designed as a bend piece and a venturi tube is integrated in the bend piece. 2. Device as claimed in claim 1, wherein the venturi tube comprises several flow sections with different cross-sections (A, B, C), characterized in that the venturi tube of the bend in the area with the narrowest cross-section (B) is substantially slot-shaped . Device according to one of the preceding claims, characterized in that substantially the slot extends over the entire width (b) of the venturi tube 15 in the bend. Device according to one of the preceding claims, characterized in that a supply line (4) and the device (1) are made in one piece. Device according to claim 4, characterized in that an opening gap is provided between the supply line (4) and the area with the narrowest cross-section (B) of the venturi tube. 6. Device according to claim 5, characterized in that the opening gap (5) extends at least over half the width (b) of the venturi tube. Device according to claim 4 or 5, characterized in that the distance between the opening gap (5) and the location with the narrowest cross-section (B) is at most 10% of the total length (I) of the device. 30 Device according to one of the preceding claims, characterized in that a deflection of the flow of at least 30 ° is realized from the air inlet (2) to the mixture outlet (3). Device according to one of the preceding claims, characterized in that a deflection of the flow of at least 15 ° occurs from the air inlet (2) up to the area with the narrowest cross-section (B). 1038321 Device according to one of the preceding claims, characterized in that the sections (A, B) have a ratio of the height to the width that are between 1: 1.5 and 1: 2. 5 Device according to any one of the preceding claims, characterized in that the mixture outlet (3) is formed substantially as a round outlet opening and has a distance (f) between the edge of the outlet opening and the area with the narrowest cross-section (B) which is at most 1.5 times the value of the diameter (d) of the outlet opening. Device as claimed in any of the foregoing claims, characterized in that the width (b) of the venturi tube in the suction area substantially corresponds to the diameter (d) of the outlet opening. 15 Device according to one of the preceding claims, characterized in that the supply line (4) is provided with a flange (6), to which a gas line can be connected. Device according to one of the preceding claims, characterized in that the supply line extends over the entire width (b) of the venturi tube of the bend. 25 1038321