EP0753703A2

EP0753703A2 - Cowl

Info

Publication number: EP0753703A2
Application number: EP96305152A
Authority: EP
Inventors: Robert Hodgson
Original assignee: Individual
Current assignee: Individual
Priority date: 1995-07-12
Filing date: 1996-07-12
Publication date: 1997-01-15
Anticipated expiration: 2016-07-12
Also published as: DE69628094T2; DE69628094D1; EP0753703A3; EP0753703B1

Abstract

A cowl (30) has a first generally disc-shaped member (31) which extends across the opening of a chimney or flue in use and a second disc-shaped member (33) open at its centre and dished to form a shallow cone. The two discs are connected such that the vertical separation between the first and second discs is least at the central opening of the second disc and increases radially outwards. The space between the first and second members provides a venturi effect, airflow caused by wind from any quarter resulting in relatively reduced air pressure in the space above the centre opening in the second member encouraging smoke or flue gases to pass up the chimney or flue to be entrained in air passing across the centre opening between the two members. Provision (39) is made for firmly mounting the cowl to the distal end of the chimney. Because the vertical spacing between the first disc and the distal end of the chimney or flue is substantially less than the diameter of the first disc, the cowl has a generally squat appearance.

Description

This invention relates to cowls, namely constructions for fitting to the distal end of a chimney pot or a flue pipe for exhaust gases, usually from a domestic fire, boiler or burner. Such constructions are generally designed to at least mitigate the effect of wind, rain or other inclement atmospheric conditions.
The industry is replete with designs for cowls. Few such designs are manufactured in any quantity for any length of time. The great majority of designs are too complicated for mass production and thus too expensive.
Even where designs of cowl have achieved a substantial useful life in manufacture, the design of the cowl has generally been achieved without serious consideration for the aerodynamic flows resulting from the geometry chosen. That the cowl works at all has frequently been a result more of luck than of good design. On examination, many of the more successful designs of cowl achieve a measure of that success as a result of creating a venturi effect at the top of the chimney or flue duct which has the effect as wind blows of sucking out smoke and exhaust gases. In other words, the effect of wind flow has been to improve the efficiency of the cowl and hence of the chimney or flue rather than to cause a downdraught having precisely the opposite effect.
One such family of cowls which achieve a venturi effect of sorts is that sold under the Trade Marks MINITROMB, STATITROMB and BATITROMB from the French manufacturers Ventilation Tirage Innovation. These models of cowl consist of a body of stainless steel formed as a stepped cone, each circumextending step of the cone being narrower than the preceding one in the direction of the distal extremity of the cowl. Above the cone and across the opening, but well separated from it, is a flat top usually with a disc suspended beneath it. Whether the designers intended this construction to produce a venturi effect, in practice it does do so after a fashion, but not very effectively.
Another design said to be produced specifically to achieve a venturi effect is the Aerocowl flue stabilizer an example of which is illustrated in cross-section in Fig. 1 of the drawings which follow. The Aerocowl system includes a number of generally dish-shaped discs open in the centre and held together by a number of vertical posts. Across the centre of the cowl between the top two discs is an element described as an aerofoil in Aerocowl's literature. Though their literature refers to the space between the lower two discs providing a venturi effect, this will largely be exacerbated by the space between the lower disc and the chimney which appears to achieve an opposite effect and also by the space between the upper two discs which again appears to achieve an opposite effect. The Aerocowl system which in a complete arrangement also has a circumextending bird guard within the central space is complicated to manufacture and uncertain in its aerodynamic effect.
With a view to designing an improved construction of chimney cover designed in effect to cap or close off an otherwise inoperative chimney vent, I produced a novel design, now the subject of British Registered Design 2 035 434 of Sarah Hodgson which has proved easy to fabricate and successful in use. As will become clear from the description below, the preferred embodiments of my novel design of cowl builds on and makes use of the technology I developed in connection with the chimney capper.
In addition to its other shortcomings noted above, the Aerocowl design is less than ideal for one further reason, namely that the cowl has a substantial vertical extent of the order at least of the diameter of the chimney flue with which it is intended to cooperate. In modern cowl design such as the successful Colt Top cowl and the Eurocowl cowl a relatively flat or shallow design in which the vertical height of the cowl is significantly less than the diameter of the chimney opening with which the cowl is designed to cooperate is preferred.
The present invention has arisen from my work seeking to improve upon the design of cowls generally and to provide a true venturi design which operates efficiently and effectively both to exclude rain and other precipitation and effectively remove smoke and other exhaust flue gases while at the same time being relatively shallow in configuration and easy to fabricate.
In accordance with the present invention, I provide a cowl, comprising: a first generally disc-shaped member adapted to extend across the opening of a chimney or other flue at a vertical spacing above the distal end of the chimney or flue which is substantially less than the diameter of the disc-shaped member; a second disc-shaped member open at its centre and dished to form a shallow cone; first fixing means for mounting the first member above the second member above the distal end of the chimney or flue, so that the vertical separation between the first and second members is least at the periphery of the centre opening of the second member and increases monotonically outwardly from such periphery, whereby the space between the first and second members provides a venturi effect, airflow caused by wind from any quarter resulting in relatively reduced air pressure in the space above the centre opening in the second member whereby to encourage smoke or flue gases to pass up the chimney or flue to be entrained in air passing across the said centre opening between the two members; and second fixing means cooperating with the second member for firmly mounting the cowl to a distal end portion of a chimney or flue while effectively resting on the distal edge of the said chimney or flue.
Because the spacing of the first member above the distal end of the chimney or flue is relatively small, the cowl has a generally shallow compact appearance. Nevertheless, by having the spacing between the two disc shaped members at its least at the periphery of the centre opening of the second member, a strong venturi effect is created above the centre opening in the second member. Since the construction is effectively open through 360° apart from such obstruction as may be caused by the first fixing means, the venturi effect is both strong and nondirectional. In other words, from whichever quarter the wind blows and whether the wind direction should change or not, the effect of the wind is that smoke and other exhaust gases tend to be drawn vertically up the chimney to be entrained in air blowing across the top of the chimney. The venturi effect is enhanced the faster the wind speed.
The first fixing means may conveniently comprise vertical posts mounted between and connecting the two discs. The first disc may be completely flat but in one arrangement described below is slightly dished by the creation of shallow generally radial flutes in the disc which also serve a stiffening function as well as slightly dishing the disc. The second member is dished to a substantially greater extent than the first member. Again this is preferably achieved by means of fluting. The same tool can be made to form the flutes both in the first and in the second member, the flutes in the second member being substantially greater than in the first member. The flutes can be formed by pressing and may form a housing for hook bolts which serve as the second fixing means for attaching the second member and thus the unit as a whole to the chimney pot or flue pipe.
A circumextending bird guard mesh is preferably mounted between the first and second members radially inwardly of the vertical posts.
Though I have referred to the first and second members as being disc shaped and as having a diameter, it will be readily understood that it is not necessary that the disc be truly circular in configuration, although this will usually be the most convenient arrangement. The disc may have a square or other straight edge profile and "diameter" is to be interpreted appropriately depending upon the external profile of the disc.
While an arrangement in which the second member itself rests on the distal end portion of a chimney or flue results in a cowl which is commendably shallow in configuration, and works well in high wind speed because a substantial venturi effect is created, I have found that in situations of only gentle wind or none at all, the fact that the first member which is fully closed is relatively close to the distal end of the chimney or flue results in rather more obstruction to the natural updraught of smoke or flue gases than is desirable. In a modified and preferred arrangement, this problem is overcome by mounting the second member above a third member, the third member directly resting on the distal edge of the chimney or flue. The second and third members are spaced by a distance which may be greater than the distance between the first and second members and in the most preferred arrangement are identical fluted shallow dished discs, apart from the size of the central opening in the second and third members, the third member having an opening which may be of the order of or slightly less than the inner diameter of the flue or chimney. The disc cut from the third member to provide its central opening may be used to form the first member.
While the second and third members may be dished to the same extent or the second member may be dished less than the third member so there is also a venturi effect between the second and third members, the second member should not be dished to a greater extent than the third member because this would have the effect of counteracting the venturi effect between the first and second members.
The invention is hereinafter more particularly described by way of example only with reference to the accompanying drawings, in which:-

Fig. 1 is a sectional view of the prior proposed Aerocowl construction referred to hereinabove shown mounted to a chimney pot;
Fig. 2 is an overall perspective view of the prior Hodgson chimney capper referred to hereinabove;
Fig. 3 is an overall perspective view of the plate or disc member of the chimney capper of Fig. 2;
Fig. 4 is a side elevational view of an embodiment of cowl constructed in accordance with the present invention, two of the hook bolts being omitted for clarity and the chimney pot being shown in section;
Fig. 5 is a perspective view showing the first and second disc members without the other parts of the cowl;
Fig. 6 is a perspective view of the second or lower disc member;
Fig. 7 is a simplified schematic sectional view for the purpose of explaining the operation of a cowl constructed as shown in Figs. 4, 5 and 6; and
Fig. 8 is a view similar to Fig. 4 of a modified arrangement.

In the arrangement of Fig. 1, to the distal end of a chimney pot 1 is fixed an Aerocowl flue stabilizer generally indicated 10 which comprises 3 annular members 11, 12 and 13 mounted on a plurality of posts 14 and with an obstruction, described in their literature by Aerocowl as an aerofoil, is mounted across the central through opening in the cowl between the upper 11 and middle 12 discs. The profile of discs or vanes 12 and 13 results in a venturi effect being produced where these two vanes open at 16 into the central region of the cowl but this will be negated by the opposing geometry of the passages 17 and 18 between the lowermost vane and the chimney pot and between the upper 11 and middle 12 vanes.
The prior Hodgson chimney capper 20 shown in Figs. 2 and 3 is not intended to function as a cowl. Its purpose was solely to close off the top of a redundant chimney pot or flue. Capper 20 comprises a disc shaped member 21 best shown in Fig. 3 which is dished by the formation of shallow flutes 22 which are widest at the periphery of the disc and narrow towards the centre. These flutes provide housings for hook bolts 23, small plates being mounted across the underside of the flutings to hold the hook bolts in position. The hook bolts are threaded at 24 for wing nuts 25. The fluting can be formed by pressing with simple tools and so is easy to fabricate. The whole arrangement can readily be fitted to a redundant chimney pot or flue.
Cowl 30 of Figs. 4 to 7 makes use of the technology developed for the Hodgson capper 20. Cowl 30 comprises two disc shaped members of which the upper 31 is only slightly dished by shallow fluting 32 in the manner of capper 20 while the lower 33 is dished to a greater extent by more pronounced fluting 34, again in the manner of capper 20. The two discs are best shown in perspective in Fig. 5 and the lower disc is shown in Fig. 6.
Thus, the upper disc 31 is nearly flat but dished just sufficiently for precipitation to run off. The slight fluting 32 will also strengthen the disc so that it can be made of thinner material than would otherwise be necessary without the fluting to strengthen it. The lower disc 33 has an open centre 35 and the two discs are fitted together by a plurality of posts 36 fitted to holes 37 drilled or punched in the two discs. A circumextending wire mesh 38 around the inside of the posts 36 serves to prevent entry of birds into the interior of the cowl and down the chimney pot. Housings for hook bolts 39 are created in the flutings 34 by fixing small plates 40 across the underside of the respective flutings to the lower disc 33. It will thus be seen that the lower disc 33 is substantially similar to the capper 20 of Figs. 2 and 3 save for its centre opening 35.
As can readily be seen from Figs. 4 and 7, the vertical space between the first 31 and second 33 discs is least at the periphery 41 of centre opening 35 and progressively increases towards the outer edges of the disc. When the wind blows, from whichever quarter, as schematically illustrated in the diagrammatic sectional view of Fig. 7, a classic venturi is created in the centre of the cowl. As in any venturi, the narrowing cross-section results in an increased air flow velocity and thus a lowered pressure. The lower pressure in centre opening 35 results in smoke and fumes in the chimney being sucked up into the natural air flow to be carried away from the chimney cowl. Should the wind change to a different direction, the effect will remain because the cowl is essentially symmetrical (apart from the respective fixing means) over 360°.
Persons skilled in the manufacture of cowls will readily appreciate that a cowl of the basic construction illustrated, namely with the two disc members and the venturi created in the centre by having the least spacing between the two discs at the periphery of the centre opening and the spacing increasing monotonically outwards, could be created in various ways. I have found the fabrication techniques developed in connection with the Hodgson capper to be particularly useful in simple fabrication of embodiments of my cowl, but dished discs can be produced by many other alternative means.
The modified arrangement illustrated in Fig. 8 has a second member 33 which is essentially the same as the second member of the embodiment of Figs. 4, 5 and 6. As before, a first member 42 is mounted by posts 43 above the centre opening defined by the inner peripheral edge 41 of member 33. The spacing, however, between the first 42 and second 33 members is less in the arrangement of Fig. 8 than in the previously described embodiment. For a nominal 200 mm diameter flat disc 42 used as the first member, the spacing between the first and second members is desirably 16 mm or less. As can be seen, the second member does not rest on the chimney cowl itself as in the arrangement of Figs. 4, 5 and 6 but is itself supported by further posts 44 above a third member 45. Desirably, as shown in Fig. 8, the third member 45 is generally similar to the second member 33, being formed as a shallow fluted dish carrying the hook bolts 39 as in the previously described embodiment for fixing the cowl to the chimney top. The difference between the two shallow dishes 33 and 45 is that the opening defined by inner peripheral edge 46 of third member 45 is substantially greater than the opening defined in the member. Desirably the material cut from the centre of member 45 before it is dished using the same tool as for member 33 is used to provide the first member 42. In other words, the diameter of the opening in the third member is identical in size to the diameter of the first member 42 in this embodiment. A bird guard 47 is mounted between the second and third members.
We find that with this arrangement, a substantial venturi effect is created between the first and second members when there is any significant wind and that in the absence of any significant wind, the spacing between the second and third members, which is significantly greater than the spacing between the first and second members is such that the natural updraught of smoke and flue gases can still readily escape without significant obstruction. Though the overall height of the cowl is greater than in the arrangement of Figs. 4, 5 and 6, it will be seen that the overall height of the cowl is still less than the diameter of the chimney opening and significantly less than the overall diameter of the cowl. In other words, even with three members rather than two, the cowl of Fig. 8 still presents a relatively shallow profile.
Though I have found that the use of a first member as shown in Fig. 8 and a third member without any intervening second member but with the same spacing between the first and third members as shown in Fig. 8 will work perfectly satisfactorily in achieving a venturi effect when there is significant wind and will fail to obstruct the natural updraught of smoke and flue gases when there is little or no wind, I do not regard that arrangement as fully satisfactory because there is a danger of downdraught in the case where there is, for example, wind directed downwards at a 30° inclination and moreover precipitation could readily pass into the chimney flue. the intervening second member as shown in the arrangement of Fig. 8 cures both of these problems and I have found in practical tests that there is no significant downdraught, precipitation does not enter the chimney opening, the venturi effect is significant and effective in significant wind speeds and the cowl does not present undue obstruction to the natural upflow of smoke and flue gases in the situation where there is next to no wind. Needless to say, to ensure an adequate venturi effect between the first and second members, the geometry of the second and third members should be such that there is not a counteracting effect between those two members. In other words, while the members may have essentially the same inclination or the inclination of the second member may be less than the third member, the reverse situation where the inclination of the third member is less than that of the second member should be avoided.

Claims

A cowl characterized in comprising: a first generally disc-shaped member, preferably incorporating shallow generally radial flutes, adapted to extend across the opening of a chimney or other flue at a vertical spacing above the distal end of the chimney or flue which is substantially less than the diameter of the disc-shaped member; a second disc-shaped member open at its centre and dished to form a shallow cone, and preferably incorporating shallow generally radial flutes; first fixing means for mounting the first member above the second member above the distal end of the chimney or flue, so that the vertical separation between the first and second members is least at the periphery of the centre opening of the second member and increases monotonically outwardly from such periphery, whereby the space between the first and second members provides a venturi effect, airflow caused by wind from any quarter resulting in relatively reduced air pressure in the space above the centre opening in the second member whereby to encourage smoke or flue gases to pass up the chimney or flue to be entrained in air passing across the said centre opening between the two members the first fixing means preferably comprising vertical posts mounted between and connecting the first member and the second member; and second fixing means cooperating with the second member for firmly mounting the cowl to a distal end portion of a chimney or flue while effectively resting on the distal edge of the said chimney or flue.
A cowl according to Claim 1, further characterized in that the second fixing means comprises: a third disc-shaped member open at its centre and dished to form a shallow cone, and preferably incorporating shallow generally radial flutes, third fixing means for mounting the second member above the third member, preferably comprising vertical posts mounted between and connecting the second member and the third member, and fourth fixing means cooperating with the third member for mounting the cowl to the distal end of the chimney or flue.
A cowl according to Claims 1 or 2, further characterized in that hook bolts are provided for mounting the cowl to a chimney or flue.
A cowl according to Claim 1 or 3 when dependant on Claim 1, further characterized in that the second fixing means are housed in the shallow generally radial flutes of the second member.
A cowl according to any of Claim 1 or Claim 3 or any claim appendant thereto, further characterized in that a circumextending bird guard mesh is mounted between the first and second members radially inwardly of the first fixing means.
A cowl according to Claim 2 or Claim 3 when dependant on Claim 2, further characterized in that the fourth fixing means are housed in the shallow generally radial flutes of the third member.
A cowl according to Claim 2 or any claim appendant thereto, further characterized in that the dishing of the third member is equal to the dishing of the second member.
A cowl according to Claim 2 or any claim appendant thereto, further characterized in that the dishing of the third member is greater than the dishing of the second member, such that a venturi effect exists between the second and third members.
A cowl according to Claim 2 or any claim appendant thereto, further characterized in that the diameter of the first member is 200 mm and the minimum vertical spacing between the first member and the second member is 16 mm or less.
A cowl according to Claim 2 or any claim appendant thereto, further characterized in that a circumextending bird guard mesh is mounted between the second and third members.
A cowl according to any preceding claim, further characterized in that the first member is generally flat.
A cowl according to any of Claims 1 - 10, further characterized in that the first member is slightly dished.