NL1020564C2 - Cam pan with integrated flue gas outlet and combustion air supply. - Google Patents

Description

Title: Cam pan with integrated flue gas outlet and combustion air supply

The present invention relates to a ridge tile which is intended to be mounted on the ridge of a roof.

In practice it frequently happens that a ridge pan is used to pass through a concentric tube system connected to a heating boiler. This is especially the case with roof constructions that do not include a ridge beam. With such structures there is a space in the ridge that is closed off by means of a row of contiguous ridge tiles. That space can be used to allow passage of the tubular system, whereby it is only necessary that a ridge pan is provided with an opening.

A drawback of the above-described practical procedure is that the application of a. opening in a ridge pan is a tricky, additional operation. Moreover, the pipe system must be provided on the outside with a cover member, inter alia to prevent rainwater or birds from entering the interior of the pipe system. This results in an unsightly construction on the ridge of the roof.

It is an object of the present invention to eliminate at least one of the above two disadvantages. This object is achieved by means of a new ridge pan comprising the following components: an outer supply tube; an inner drain pipe which has smaller radial dimensions than the feed pipe and which extends radially in the interior of the feed pipe; and a bridge portion connected to the supply pipe that serves to secure the ridge tile to the ridge of the roof, the discharge pipe and the supply pipe extending through the bridge section.

The inner discharge tube of the ridge pan according to the invention is intended to be connected to an inner tube of a concentric tube system connected to the heating boiler, and the outer supply tube of the ridge pan according to the invention is intended to be connected to an outer tube of the tubular system. The bridge section serves to secure the ridge tile to the ridge of a roof. When the ridge tile is mounted on the ridge of the roof,: * * f ** * 1 l v h, ë 2 the ridge tile rests on adjacent roof tiles through the bridge section.

The radial dimensions of the supply pipe and the discharge pipe extending therein can be chosen such that the supply pipe is sufficiently small to be allowed to pass through the space in the ridge of a roof without a ridge beam to the inside. The ridge tile according to the invention can also be used for roofs with ridge beams. However, in such applications, the ridge beam must be provided with an opening.

The ridge pan according to the invention is suitable for being connected to pipe systems of different types of heating boilers, such as HR boilers and VR boilers.

Using the ridge tile according to the invention, the provision of an opening in a ridge tile or a roof tile can be dispensed with. The pipe system connected to the heating boiler can after all be connected to the discharge pipe and the feed pipe of the ridge pan, which serve for the discharge of flue gases through the roof or the supply of combustion air through the roof. Covering of the discharge pipe and the feed pipe 20 can hereby be realized integrated with the ridge pan, whereby a much nicer appearance is obtained than when a separate cover member is used. Moreover, when the color of the ridge tile according to the invention is adapted to the color of the other ridge tiles of the roof on which the ridge tile is to be mounted, an inconspicuous construction is obtained.

The present invention further relates to a coupling member which serves to connect the cam pan according to the invention to the conventional tubular system.

The present invention will be further elucidated on the basis of the following description of a ridge pan and a coupling member according to the invention with reference to the drawing, in which identical reference numerals indicate identical or comparable parts, and in which: figure 1 is a schematic perspective view of a ridge tile and a coupling member according to the invention, as mounted on a conventional roof, a part of which is shown cut-away; Figure 2 is a schematic front view of a ridge tile and a coupling member according to the invention, as mounted on the conventional roof shown in Figure 1; Figure 3 is a perspective view of a ridge pan according to the invention; and Figure 4 is a cross-sectional view of a cam pan according to the invention.

Figures 1 and 2 schematically show a ridge tile 1 and a coupling member 2 according to the invention, as mounted on a conventional roof 3. For the sake of clarity, the coupling member 2 is shown in the uncoupled state, at some distance from the ridge tile 1 .

The roof 3 shown comprises two roof parts 10, 11 which extend at an angle with respect to each other. The place where the roof parts 10, 11 connect to each other is hereinafter referred to as ridge 12. In the example shown, the inside of the roof 3 is defined as the side of the roof 3 where the roof parts 10, 11 have an angle smaller than 180 with each other, while the outside of the roof 3 is defined as the side of the roof 3 where the roof parts 3 make an angle greater than 180 ° with each other.

Each of the two roof parts 10, 11 comprises on the inside roof trusses 13, 14 which are arranged at a mutually regular distance from each other. In the ridge 12 of the roof 3, a roof truss 13 of the one roof part 10 and a roof truss 14 of the other roof part 11 connect to each other.

Furthermore, each of the two roof parts 10, 11 comprises tile slats 15 which extend in the plane of the relevant roof portion 10, 11 in a direction substantially perpendicular to the roof trusses 13, 14. The tile slats 15 serve for supporting rows of contiguous, roof tiles 16 which are known and which are arranged on the outside of the roof 3.

On the ridge 12 of the roof 3 a row of continuous, per se known, arcuate ridge tiles 17 is arranged, wherein each ridge tile 17 connects on the one hand with a number of upper roof tiles 18 of the one roof part 10 and on the other hand a number of upper roof tiles 19 of the other roof part 11. A space located between said upper roof tiles 18, 19 is closed off by means of the ridge tiles 17. The ridge pan 1 according to the invention is suitable for being placed in the row of conventional ridge tiles 17.

In the following, the ridge pan 1 and the coupling member 2 will be in more. detail, with reference to 40 figures 3 and 4 also being made for the ridge pan 1.

* r Γ; 4;

The ridge pan 1 comprises an inner discharge pipe 20 which serves to discharge flue gases from, for example, a heating boiler (not shown). An upper side 21 of the drain pipe 20 is closed by means of a top cover 22. In the vicinity of the top cover 22, the drain pipe 20 is provided with at least one drain opening 23. In the example shown, the drain pipe 20 comprises two opposite drain openings 23 .

The radial dimensions of the top cover 22 are much more advantageously than those of the drain pipe 20, so that the top cover 22 protrudes on all sides outside the drain pipe 20. This prevents, for example, obliquely raining in of the drain pipe 20 through the drain openings 23.

The ridge pan 1 further comprises an outer supply pipe 30 which serves to supply combustion air to the heating boiler, and which encloses the inner discharge pipe 20 in a radial direction. Preferably, the drain pipe 20 and the feed pipe 30 extend concentrically with respect to each other, with an upper part 24 of the drain pipe 20, which comprises the at least one drain opening 23, extending beyond an upper side 31 of the feed pipe 30 . An annular space located between the discharge tube 20 and the supply tube 30 is closed off at the top 31 of the supply tube 30 by means of a central cover 32. The central cover 32 is preferably arcuate. In the vicinity of the center cover 32, the supply tube 30 is provided with at least one supply opening 33. In the example shown, the supply tube 30 comprises two opposite rows of supply openings 33.

The radial dimensions of the center cover 32 are much more advantageously than those of the supply pipe 30, so that the center cover 32 protrudes from the supply pipe 30 on all sides.

This prevents, for example, obliquely raining in of the supply pipe 30 through the supply openings 33.

The outer supply tube 30 preferably comprises a transition part 34 in which the radial dimensions of the outer supply tube 30 increase in the direction from a bottom side 35 to the top side 31, 35 so that at the location of the supply openings 33 there is sufficient radial gap for the admission of air is.

The supply openings 33 are positioned with great advantage in relation to the discharge openings 23 in such a way that the occurrence of pressure differences between flue gas discharge and combustion air supply is avoided. To this end, the discharge openings 23 and 5 must provide the feed openings 33 in corresponding directions with access to the discharge tube 20 and the feed tube 30 respectively, which is the case in the example shown. In the case of gusts of wind, the discharge tube 20 and the supply tube 30 will be loaded to the same extent.

The ridge pan 1 is provided with an arc-shaped bridge portion 40 which is connected to the supply pipe 30. The discharge tube 20 and the supply tube 30 extend through the bridge portion 40, with an upper portion 36 of the supply tube 30, which includes the supply openings 33, extending beyond this bridge portion 40. The bridge portion 40 serves to secure the ridge tile 1 to the roof 3, wherein one peripheral edge 41 connects to at least one upper roof tile 18 of the one roof part 10 and another peripheral edge 42 connects to at least one upper roof tile 19 of the other roof part 11. The curvature of the bridge portion 40 preferably corresponds to the curvature of the conventional ridge tiles 17. Also, the dimensions of the bridge portion 40 preferably correspond to the dimensions of the ridge tiles 17. Advantageously, an inner side of the bridge portion 40 provided with a toothed grid 43 which serves to facilitate the fixing of the ridge pan 20 1 in cement.

The ridge tile 1 is intended to be arranged at a position between two roof trusses 13, 14. In the construction of the shown conventional roof 3 there is a space between the upper roof tiles 18 of the one roof part 10 and the upper one at such a position. roof tiles 19 of the other roof part 11. The radial dimensions of the supply pipe 30 are advantageously adapted to the dimensions of said space such that the supply pipe 30 is sufficiently small to pass through this space to the inside of the roof 3. The radial dimensions of the discharge tube 20 and those of the supply tube 30 are of course adjusted to each other such that the supply tube 30 is capable of enclosing the discharge tube 20 in the radial direction.

In the example shown, both the discharge tube 20 and the supply tube 30 are designed as flat tubes with two substantially flat sides 25, 26, 37, 38 that extend substantially parallel to each other. The flat sides 25, 26, 37, 38 extend in a direction substantially perpendicular to an arc direction of the bridge portion 40.

In addition to the two said flat sides 25, 26, 37, 38, the discharge tube 20 and the supply tube 30 can have two other flat sides, the radial section being rectangular. With such a design of the discharge tube 20 and the supply tube 30, the sides preferably connect to each other via rounded corners. However, the sides can also connect to each other via sharp corners.

Another possibility is that, in addition to the two flat sides 25, 26, 37, 38, the discharge tube 20 and the supply tube 30 also have two curved sides.

Notwithstanding what has been noted above, it is also possible to mount the ridge tile 1 on a conventional roof which comprises a ridge beam (this type of conventional roof is not shown). In that case, an opening must be provided in the ridge beam for passage of the supply pipe 30 and the discharge pipe 20 extending therethrough. The ridge pan 1 can then optionally be fixed on the ridge beam by means of screws, wherein the grid 43 has no function. and can be omitted.

The coupling member 2 according to the invention serves to connect the inner drain pipe 20 and the outer feed pipe 30 to a conventional pipe system (not shown) which also comprises an inner drain pipe and an outer feed pipe, and which is connected, for example, to a heating boiler. The tubes of the conventional tubing are designed as round tubes.

The coupling member 2 comprises an inner coupling tube 50 and an outer coupling tube 60, the outer coupling tube 60 enclosing the inner coupling tube 50 in a radial direction. With a view to facilitating the production and assembly of the coupling member 2, the outer coupling tube 60 preferably comprises two halves 61, 62 which are connected to each other.

An underside 51 of the inner coupling tube 50 is intended to be connected in a manner known per se to an upper side of the inner discharge pipe of the conventional pipe system, while an underside 63 of the outer coupling tube 60 is intended to be connected to a known per se connected to an upper side of the outer supply tube of the conventional tube system.

An upper side 52 of the inner coupling tube 50 is intended to be connected in a manner known per se to a lower side 27 of the inner discharge tube 20 of the cam pan 1, while an upper side 64 of the outer coupling tube 60 is intended to be connected to a t Γ: '.

7 in a manner known per se to be connected to the underside 35 of the outer supply pipe 30 of the cam pan 1.

On the basis of the above, it will be clear that the mutual arrangement, the shape and the dimensions of the lower sides 51, 63 of the inner coupling tube 50 and the outer coupling tube 60 are adapted to the mutual arrangement, shape and the dimensions of the tops of the drain pipe and the feed pipe of the conventional pipe system. Furthermore, it will be clear that the mutual arrangement, the shape and the dimensions of the upper sides 52, 64 of the inner coupling tube 50 and the outer coupling tube 60 are adapted to the mutual arrangement, the shape and the dimensions of the lower sides 27, 35 of the drain pipe 20 and the feed pipe 30 of the cam pan 1. In the example shown, the undersides 51, 63 of the inner coupling tube 50 and the outer coupling tube 60 therefore have a circular radial cross-section, while the upper sides 52, 64 of the inner coupling tube 50 and the outer coupling tube 60 have a slot-shaped radial section with two substantially parallel circumferential lines. The coupling member 2 shown comprises an upper part 4 in which the inner coupling tube 50 and the outer coupling tube 60 are formed as flat tubes, a lower part 6 in which the inner coupling tube 50 and the outer coupling tube 60 are formed as round tubes, and a middle part 5 in which the round tubular shape of the coupling tubes 50, 60 and the flat tubular shape of the coupling tubes 50, 60 merge into one another.

In order to prevent the gas flow through the coupling member 2 from being influenced by variations in the flow surface area of the inner coupling tube 50, the size of the slot-shaped flow surface of the inner coupling tube 50 comes at the location of the upper part 4. advantage essentially corresponds to the size of the circular flow surface of the inner coupling tube 50 at the bottom part 6.

In order to prevent that the air flow through the coupling member 2 is influenced by variations in the flow surface area of the outer coupling tube 60, the size of the oval annular flow-through surface of the outer coupling tube 60 at the location of the upper part 4 advantageously substantially corresponds to the size of the circular annular flow-through surface of the outer coupling tube 60 at the lower part 6.

1 fi O fi f · A

8

An important function of the coupling member 2 is to connect the drain pipe 20 and the feed pipe 30 of the cam pan 1 to the drain pipe and the feed pipe of a conventional pipe system. The coupling member 2 is capable of connecting ends with a different cross-section 5 and different dimensions in radial direction. The coupling member 2 can be telescopically moved with respect to the cam 1 in the axial direction, so that the coupling member 2 can be connected to the cam 1 at different axial positions. This makes it possible to use the ridge tile 1 with all kinds of roofs, irrespective of, for example, the thickness of an insulation layer (not shown).

It will be clear to a person skilled in the art that the scope of the present invention is not limited to the examples discussed above, but that various modifications and modifications thereof are possible without departing from the scope of the invention as defined in the appended claims. conclusions.

I ü 2 0 5 6 4

Claims (22)

A ridge pan (1) intended to be mounted on the ridge (12) of a roof (3), comprising: - an outer supply pipe (30); - an inner discharge tube (20) which has smaller radial dimensions than the supply tube (30) and which extends radially in the interior of the supply tube (30); and - a bridge portion (40) connected to the supply pipe (30) which serves to secure the ridge tile (1) on the ridge (12) of the roof (3), the discharge pipe (20) and the supply pipe (30) extend through the bridge portion (40). A ridge pan (1) according to claim 1, wherein at least a substantial portion of both the drain pipe (20) and the feed pipe (30) is formed as a flat pipe with two substantially flat sides (25, 26; 37, 38). ) which extend substantially parallel to each other. 3. Cam pan (1) according to claim 1 or 2, wherein the drain pipe (20) and the feed pipe (30) extend concentrically with respect to each other. A ridge pan (1) according to any of claims 1-3, wherein the bridge portion (40) is arcuate. A ridge pan (1) according to claim 4 as far as dependent on claim 2, wherein the flat sides (25, 26; 37, 38) extend in a direction substantially perpendicular to an arc direction of the bridge portion (40). 6. Cam pan (1) according to any of claims 1-5, wherein an inside of the bridge portion (40) is provided with a toothed grid (43). A ridge pan (1) according to any one of claims 1-6, wherein a top side (21) of the discharge pipe (20) is closed by means of a top cover (22), and wherein in the vicinity of the top cover (22) at least one discharge opening (23) is arranged in the discharge pipe (20). 8. Cam pan (1) according to claim 7, wherein the radial dimensions of the top cover (22) are larger than those of the drain pipe (20), the top cover (22) protruding on all sides outside the drain pipe (20). A cam pan (1) according to claim 7 or 8, wherein the discharge pipe (20) comprises two opposite discharge openings (23). A ridge pan (1) according to any of claims 7-9, wherein an upper part (24) of the drain pipe (20), which comprises the at least one drain opening (23), extends beyond an upper side (31) of the feed pipe (30). A ridge pan (1) according to claim 10, wherein an annular space located between the discharge tube (20) and the supply tube (30) at the top (31) of the supply tube (30) is closed by means of a central cover (32) ), and wherein at least one supply opening (33) is provided in the supply tube (30) in the vicinity of the center cover (32). 12. Cam pan (1) according to claim 11, wherein the radial dimensions of the center cover (32) are larger than those of the supply pipe (30), the top cover (32) protruding on all sides outside the discharge pipe (30). A cam pan (1) according to claim 11 or 12, wherein the center cover (32) is arcuate. A ridge pan (1) according to any of claims 11-13, wherein the feed tube (30) comprises two opposite rows of feed openings (33). A ridge pan (1) according to any one of claims 11-14, 35, wherein an upper part (36) of the supply pipe (30), which comprises the at least one supply opening (33), extends beyond the bridge portion (40). A ridge pan (1) according to any of claims 11-15, 40, wherein the at least one outlet opening (23) and the at least one inlet opening (33) corresponding access provide access to the discharge tube (20) or the supply tube (30). 17. Coupling member (2), comprising an outer coupling tube (60) and an inner coupling tube (50) which has smaller radial dimensions than the outer coupling tube (60) and which has a radial gap in the interior of the outer coupling tube (60). wherein the undersides (51; 63) of the inner coupling tube (50) and the outer coupling tube (60) have a circular radial cross-section, and wherein the upper sides (52; 64) of the inner coupling tube (50) and the outer coupling tube ( 60) have a slit-shaped radial section with two substantially parallel peripheral lines. The coupling member (2) according to claim 17, comprising: 15. an upper part (4) wherein the inner coupling tube (50) and the outer coupling tube (60) are formed as flat tubes; - a lower part (6) in which the inner coupling tube (50) and the outer coupling tube (60) are formed as round tubes; and - a middle part (5) in which the round tubular shape of the coupling tubes 20 (50; 60) and the flat tubular shape of the coupling tubes (50; 60) merge into one another. 19. Coupling member (2) according to claim 17 or 18, wherein the outer coupling tube (60) comprises two halves (61, 62) which are connected to each other. Coupler (2) according to any of claims 17-19, wherein the inner coupling tube (50) and the outer coupling tube (60) extend concentrically with respect to each other. 30 An assembly of a ridge pan (1) according to any of claims 1-16 and a coupling member (2) according to any of claims 17-20, wherein the top side (52) of the inner coupling tube (50) of the coupling member (2 ) is connected to a bottom side (27) of the inner drain pipe (20) of the cam pan (1), and wherein the top side (64) of the outer coupling tube (60) of the coupling member (2) is connected to a bottom side ( 35) of the outer feed pipe (30) of the ridge pan (1). 1 l <'A I U J · .. i An assembly according to claim 21, wherein the coupling member (2) is telescopically slidable relative to the cam (1) in the axial direction. 1 010 5 £ 4