WO2009080527A2 - Fan unit for gas-burners with pre-mixing and burner apparatus including said fan - Google Patents

Abstract

A fan unit for gas burners (3) with pre-mixing is described, of the type comprising a combustion head (2) and first conveying means (13) for conveying a combustible air/gas mixture fed to the delivery side of the fan in the direction of the head (2), the fan unit comprising a radial impeller (4) and a manifold (5) for housing the impeller, the fan being provided with at least one intake section (6) and at least one delivery section (7) for the flow which are defined in the manifold, drive means (8) being provided for rotating the impeller (4) about an axis of rotation (X), wherein the intake section (6) of the fan is disposed on the same side as the combustion head (2) and wherein second conveying means (14) are provided for conveying the flow of air and/or gas between the head (2) and the impeller (4) in the direction of the intake section (6).

Description

Fan unit for gas-burners with pre-mixing and burner apparatus including said fan

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The present invention concerns a fan unit for gas burners with pre-mixing, having the characteristics mentioned in the preamble of the main claim No. 1.

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In the specific technical field, it is known to produce burners for gas of the pre- mixed type in which the combustion head is intended to be housed in a combustion chamber into which the air/gas mixture is fed via the delivery side of a fan unit. Typically, the burner is connected to a gate or another similar member for closing the combustion chamber, and the intake section of the fan is positioned on the axially opposed side of the head with respect to the fan. This results in relative bulkiness at the gate, externally of the combustion chamber, owing to the structure for conveying air and gas towards the intake section of the fan.

A principal aim of the invention is that of providing a fan unit structurally and functionally designed to obtain, compared with known solutions, positioning within the burner body which is less bulky, making better use of the space and with smaller overall dimensions, and at the same time achieving an improvement in the functionality of the fan, especially in terms of efficiency in the pre-mixing of the air-gas mixture directed to the combustion head. This and other aims which will become clear hereinafter are achieved by the invention by means of a fan unit produced according to the following claims.

Further characteristics and advantages of the invention will become clearer from the following detailed description of a preferred exemplary embodiment thereof, illustrated by way of non-limiting example with reference to the appended drawings, in which: - Figure 1 is a partially sectioned perspective view of a fan unit associated with the combustion head of a burner body according to the invention,

Figure 2 is a view in axial section of the unit of Figure 1,

Figure 3 is a partially sectioned schematic view of the fan unit of the preceding Figures, - Figure 3A is a view in section along the line III-III of Figure 3,

Figures 4 and 5 are perspective views of respective details of the fan unit of the preceding Figures,

Figure 6 is a further partially sectioned perspective view of the fan unit according to the invention. Prpfprrpή pmhnH impnf^ nf fhp inypntinn

With reference to the drawings listed, the reference 1 indicates as a whole a fan unit arranged for feeding to its delivery side a combustible air/gas mixture intended to be conveyed to a combustion head 2 of a gas burner 3 in which the ignition and combustion of the mixture takes place. The fan is of the centrifugal type and comprises a bladed impeller 4 with a manifold 5 for housing the impeller itself in which an intake section 6 and a delivery section 7 of the fan are provided.

The impeller 4 is capable of being rotated about an axis of rotation X, by means of a drive means 8, for example an electric motor onto the drive shaft of which the impeller is keyed. The fan is further arranged to be secured to the structure of the burner 3, and in particular is mounted, in combination with the burner, above a gate 9, constituting the closure member of the combustion chamber associated with the burner. The gate conveniently comprises a plate-like base 9a on which are fixed, by means of suitable flanges, the motor 8, the manifold 5 and the combustion head 2, coaxial with one another and axially disposed one after the other, as shown diagrammatically in Figure 3.

The combustion head 2 preferably has a configuration which is like a cap or spherical segment, the base of which is suitably secured to a support flange 10. Behind the head 2, and within the latter, a distributor member, indicated by 11, is provided, also substantially shaped like a cap and arranged with through openings for distributing the mixture on the combustion head. Between the distributor member 11 and the impeller 4 facing the latter, in the body of the burner, an internal space or volume is defined, indicated as a whole by 12, into which are conveyed, separately and distinctly, the mixture coming from the delivery side 7 of the fan and directed to the distributor 11, and also the flow of air and gas directed to the intake section 6 of the fan, as will become clear from the continuation of the description. In more detail, according to the invention, first conveying means, indicated by 13, are provided for conveying the combustible air/gas mixture onto the head 2 fed via the delivery side 7 of the fan, and second, separate and distinct, conveying means, indicated by 14, for conveying the flow of air and/or gas, drawn from outside the burner body 3, in the direction of the intake section 6. According to a principal characteristic of the invention, the intake section 6 of the fan is arranged on the same side as the combustion head 2, being in communication with a first chamber 15 defined in the volume space 12, which is contained between the combustion head and the impeller. Furthermore, the conveying means 13, 14 are selected to have a length and configuration such that the flow of the air/gas mixture to the delivery side of the fan crosses the flow of air and/or gas directed to the intake section 6, as shown diagrammatically in Figure 3, in which the flows are conducted separately and distinctly from each other by the respective first and second conveying means. In Figure 3, arrows coloured white (intake flow) and black (flow to delivery side) respectively designate the directions of the aforesaid flows, which cross at a zone designated by M in the axial section of Figure 3.

In more detail, the first conveying means 13 comprise a first plurality of ducts, all indicated by 16, which extend at the delivery section 7 of the fan, beyond the outside diameter of the impeller 4, to connect the delivery section with a second chamber 17 for distributing the mixture, also defined in the space 12 contained between the distributor member 11 and the impeller, and also separated from the chamber 15 by means of a wall 18, as illustrated diagrammatically in Figure 3. The ducts 16 are distributed circumferentially, downstream of the delivery section 7, at a predetermined angular pitch, in particular at a regular angular pitch. Moreover, each duct 16 has, with respect to the flow direction, an intake opening 16a for the mixture (supplied by the delivery side of the fan) in which the flow has a predominant radial component, and an outlet opening 16b, at the opposite end, in which the flow has a predominant axial component. Downstream of the outlet opening, the configuration of the chamber 17 is such as to further deflect the flow in order to convey it along the distributor 11, in order to impinge effectively on the combustion head 2.

The second conveying means 14 themselves comprise a respective plurality of ducts, all indicated by 19, which are disposed alternately with the ducts 16, such that in the zone M where the flows cross, a duct 19 is interposed between a pair of ducts 16 adjacent to each other. Each duct 19 is further conveniently defined in the central cavity 20a passing through a respective straightener blade 20, which is part of a plurality of stator straightener blades. Between each pair of stator blades 20 is defined a corresponding duct 16 of the first plurality of ducts.

Each duct 19 also has, with respect to the flow direction, an inlet opening 19a, open to the outside of the burner body (for the admission of the air and/or of the gas) and an opposed outlet opening 19b, communicating with the chamber 15 which is itself connected to the intake section 6 of the fan. The reference 21 also indicates stator blades provided in the chamber 15 for suitably conveying the flow of air and/or gas in the direction of the intake section 6, and capable of imparting to the flow an optional pre- rotational component, obtained by the curved profile of the stator blades. Preferably, the ducts 19 are also distributed along a circumferential profile concentric with the axis of the impeller and located downstream of the delivery section 7. Moreover, a distribution of ducts at a regular angular pitch is preferred. The inlet opening 19a of each duct is such as to impart a predominant axial component to the flow, which is then deflected to reach the outlet opening 19b where it has a predominant radial component, at the entry into the chamber 15, through which it is conveyed to the intake section 6 of the fan. The latter conveniently comprises an opening 6a coaxial with the axis X of the impeller.

Figure 1 illustrates a preferred configuration of ducts 19, the air entry openings 19a of which can be seen. Through one or more of the openings 19a, the entry of the gas to the inside of the fan unit may take place.

One of the principal advantages of the invention lies in the fact that by conveying the intake air/gas flow on the same side as the head, it is possible to take advantage of the space inside the head which is arranged between the head and the impeller, thus reducing as far as possible the overall dimensions required outside the impeller in the zone conventionally dedicated to the intake of the air or of the gas (located in proximity to the axis of the impeller, on the opposite side of the combustion head from the impeller itself). The configuration according to the invention is obtained by means of respective stator straightener devices located at the intake side and at the delivery side of the fan, and which in fact impart to the flows a relative intersection, as demonstrated above.

Another advantage lies in the fact that in the fan unit according to the invention it is possible to obtain the measurement of the flow rate by arranging a pressure sensor in the intake chamber. Yet another advantage is that of being able to have in the fan unit according to the invention an air/gas mixing chamber incorporated in the fan itself. Another advantage is linked to the fact of being able to ensure an improved degree of quietness for the fan unit produced according to the invention. Another advantage is linked to the greater compactness obtainable in the fan unit according to the invention, compared with known machines having similar performance characteristics.

Yet another advantage lies in the lower cost at which the invention can be produced owing to the fact that the fan unit incorporates within it more functions for each component. The invention thus achieves the aims proposed with respect to the known solutions, obtaining the advantages listed compared with the known solutions.

Claims

C L A I M S

1. A fan unit for gas burners (3) with pre-mixing of the type comprising a combustion head (2) and first conveying means (13) for conveying a combustible air/gas mixture fed to the delivery side of the fan in the direction of the head (2), said fan unit comprising a radial impeller (4) and a manifold (5) for housing said impeller, the fan being provided with at least one intake section (6) and at least one delivery section (7) for the flow which are defined in the manifold (5), drive means (8) being provided for rotating the impeller (4) about an axis of rotation (X), characterized in that the intake section (6) of the fan is arranged on the same side as the combustion head (2) and in that it comprises second conveying means (14) for conveying the flow of air and/or gas between the head (2) and the impeller (4) in the direction of said intake section (6).

2. A fan unit according to claim 1, wherein said first and second conveying means (13, 14) have a length and configuration such that the flow of the air/gas mixture supplied at the delivery side (7) of the fan crosses the flow of air and/or gas directed to the intake section (6) of the fan, said flows being conducted separately and distinctly by said respective first and second conveying means (13, 14).

3. A fan unit according to claim 1 or 2, wherein said intake section (6) comprises an opening of the manifold (5) coaxial with the axis of rotation of the impeller (4) and axially facing towards the combustion head (2).

4. A fan unit according to any one of the preceding claims, wherein said first and second conveying means (13, 14) comprise a respective first (16) and second (19) plurality of ducts disposed alternately with one another, such that in the zone (M) with said intersecting flows a duct of one of said plurality is interposed between a pair of ducts of the other plurality.

5. A fan unit according to claim 4, wherein the ducts (19) of said second plurality are at least partially defined by respective cavities (20a) passing through corresponding straightener blades (20) of a first straightener stator device, each duct (16) of said first plurality being at least partly defined between pairs of adjacent blades (20).

6. A fan unit according to claim 5, wherein the ducts (19) of said second plurality are in fluid communication, at one of their ends, with a first chamber (15) for connection to the intake section (6) of the impeller (4), said chamber (15) extending between the head (2) and the impeller (4).

7. A fan unit according to claim 6, wherein said chamber (15) is provided with stator blades.

8. A fan unit according to any one of claims 4 to 7, wherein the ducts (19) of said second plurality are distributed along a circumferential profile concentric with the axis (X) of the impeller, located downstream of the delivery section (7) with respect to the flow direction.

9. A fan unit according to claim 9, wherein the ducts (19) of said second plurality are disposed at a regular angular pitch along said circumferential profile.

10. A fan unit according to any one of claims 4 to 9, wherein the ducts (16) of said first plurality extend to connect the delivery section (7) of the fan with a second chamber (17) for distribution of the mixture which itself communicates with the combustion head (2).

11. A fan unit according to claim 10, wherein the first and the second chamber (15, 17) are axially interposed between the head (2) and the impeller (4) of the fan.

12. A fan unit according to any one of claims 2 to 11, wherein, at the ducts (16, 19) of said first and second conveying means, with intersecting flows, the direction of the intake flow has a dominant axial component and the direction of the delivery flow has a dominant radial component.

13. A fan unit according to any one of claims 4 to 12, wherein the injection of the gas inside said first chamber (15), upstream of the intake section (6) of the impeller, takes place through one or more of the ducts (19) of said second plurality.

14. A gas burner with pre-mixing comprising a fan unit for feeding a combustible air/gas mixture to the combustion head of the burner produced according to one or more of the preceding claims.