WO2024047200A1

WO2024047200A1 - Heating appliance with sculpted flame

Info

Publication number: WO2024047200A1
Application number: PCT/EP2023/073967
Authority: WO
Inventors: Alexis GUY; Laurent GABORIT; Sylvain Raymond
Original assignee: Atelier Dominique Imbert
Priority date: 2022-09-02
Filing date: 2023-08-31
Publication date: 2024-03-07
Also published as: FR3139377A1

Abstract

The invention relates to a heating appliance (1) comprising a combustion chamber (3) extending upwardly from a bottom wall (32), the chamber comprising a duct side wall (30) of which a lower edge (310) provides a peripheral upflow passage, the heating appliance further comprising: a double bottom surface (34) defining with the bottom wall (32) a swirling air flow intake space, a flame source (4) provided with a flame outlet mouth (40), a flame guide sleeve encircling the flame outlet mouth (40), the sleeve defining an inner annular space (62) suitable for allowing an upward flow of the swirling air flow, and further defining an outer annular space (64) around the inner annular space (62) suitable for the passage of the peripheral upward flow, so as to vertically sculpt the flame (2) produced.

Description

Title: Heating device with sculpted flame The present invention is part of the technical field of decorative heating devices, with open or closed combustion hearth. It concerns, for example, decorative fireplaces and/or exterior or interior decorative stoves. The invention relates more particularly to a heating device, for example gas, pellet or wood, making it possible to shape the shape of the combustion flame thanks to precise control of the trajectory of the gas flows within the combustion chamber.

State of the art Known decorative heating devices, in particular of the decorative fireplace or wood stove type, comprise a typically metallic or glass structure constituting a combustion hearth as well as fuel heating means. For domestic applications, it is generally preferable to use fuels that generate little smoke, for example ethanol, town gas, propane, butane, etc. A vent or an exhaust duct is typically provided for the expulsion of combustion products. To reinforce the aesthetic decorative character of such devices, a window and/or a grille can be fitted in the structure of the hearth, so that the spectator is able to observe the flame produced. More generally, the structure forming the combustion chamber can be the subject of significant research in terms of shape and materials, in order to offer a striking and original aesthetic. However, it has been observed by the Applicant that the decorative decorative heating devices available on the market are not capable of continuously providing a flame sculpted vertically, over a significant height. More specifically, the Applicant sought to develop a heating device making it possible to sculpt a vertical flame by providing a visual impression of a "tornado", via a swirling air flow around the flame. Thus, the aesthetic proposal is achieved not only thanks to the shape and appearance of the body of the heater, but also by the specific and worked appearance of the sculpted flame. Furthermore, the regulatory context concerning the environmental performance of heating appliances is becoming more and more restrictive, particularly in the European area. In particular, the emission of fine polluting particles and fuel consumption are two aspects on which the requirements of communities are increasingly strict. To date, there is no decorative heating device, usable in particular in an exterior or interior space of a building and in particular of a home, allowing a vertical "tornado" shaping of the flame associated with a swirl aesthetics, while ensuring that the following criteria are met:

• satisfactory heating performance and energy efficiency;

• compliance with increasingly restrictive environmental standards;

• good ergonomics and ease of use.

General description of the invention In view of the above, and with regard to known decorative heating devices, there is a need for a heating device capable of generating a flame sculpted vertically continuously, over a significant height, so as to perfect the aesthetics and decorative character of said heating device. The desired heater must maintain efficient heating properties of its environment. Preferably, the desired heater should be compatible with a variety of different fuel types, in order to accommodate various usage configurations and consumer wants and needs. In particular, it is desired to be able to use town gas and/or solid fuel pellets as fuel. The desired heating device must preferably also maintain a combustion chamber structure whose aesthetic remains compact and elegant, and allow the viewer to visualize the sculpted flame obtained. To meet these needs, the present invention relates to a heating appliance, for an interior or exterior space, comprising a combustion chamber extending along a longitudinal axis from a bottom wall to an opening of evacuation, the combustion chamber comprising a side wall of duct extending around the longitudinal axis, the side wall of the duct comprising a lower edge of the duct located facing the bottom wall, and providing with the bottom wall a space for the passage of an ascending air flow peripheral, said heating apparatus further comprising: a double bottom surface, extending under the bottom wall substantially parallel to the bottom wall, and axially delimiting with the bottom wall a space for admitting a flow of swirling air, a flame source including a flame outlet, a flame guide sleeve including a sleeve wall extending from the bottom wall along the longitudinal axis, surrounding the flame outlet , said sleeve wall defining an interior annular space provided to allow an ascension of the air flow swirling around the flame, the sleeve wall further defining with the side wall of the conduit an exterior annular space provided for the passage of the flow of peripheral ascending air, said outer annular space surrounding said inner annular space. Optional characteristics of the heating appliance according to the invention, non-limiting for the scope of the invention, are the following, taken alone or in any of the technically feasible combinations: a. an axial gap between the bottom wall and the double bottom surface comprises a plurality of swirling air flow intake vents, said intake vents being in fluid communication with the exterior. b. at least two consecutive inlet ports (in an orthoradial direction) are separated by a separator fin extending radially inwards from a peripheral edge of the double bottom surface. vs. the separator fin(s) are inclined at least 10 degrees relative to a radial direction, so as to direct incoming air toward the sleeve wall. d. the swirling air flow intake vents are angularly distributed around the outer perimeter of the bottom wall. e. the number of said intake vents is between 4 and 16. f. a raising support, mounted on the bottom wall, is configured to maintain the lower edge of the conduit away from and facing the bottom wall. g. the bottom wall and/or the double bottom surface is of generally circular shape, or of generally oval shape. h. the bottom wall and the double bottom surface have the same radius. i. the conduit side wall is cylindrical in shape. j. the conduit side wall is formed, totally or partially, of transparent or semi-transparent glass. k. the heater includes an exhaust duct on an upper portion. L. the exhaust duct extends along the longitudinal axis of the combustion chamber. mr. a section surface of the side wall of said conduit, perpendicular to the longitudinal axis of the combustion chamber, is strictly greater than a section surface of the exhaust conduit perpendicular to said longitudinal axis. not. the exhaust outlet of the exhaust duct is arranged coaxially with the flame guide sleeve. o. the sleeve wall and the conduit sidewall are configured such that the outer annular space is concentric with the inner annular space. p. the flame source is configured to produce a flame from gas fuel and/or wood and/or solid pellets and/or liquid ethanol fuel. q. the flame source is configured to generate a flow of oxidizer-fuel mixture propagating in the combustion chamber in an upward vertical direction. r. the flow of oxidizer-fuel mixture is generated from the flame outlet mouth. s. the flame outlet mouth has the general shape of a cylindrical sleeve. t. the flame outlet mouth extends parallel to the longitudinal axis of the combustion chamber. u. the flame outlet mouth is arranged on the double bottom surface. v. the flame exit mouth comprises a plate raised relative to an upper edge of the flame exit mouth. w. the plate of the flame outlet mouth has a general T shape when viewed from the side.

General description of the figures Other aims and advantages of the invention will emerge on reading the detailed description below, the description being supplemented by the appended figures given for illustrative and non-limiting purposes, among which: [Fig. 1] Figure 1 schematically represents a decorative heating fireplace according to the invention. [Fig. 2] Figure 2 is a schematic side view of a decorative heating fireplace according to a particular embodiment of the invention in which the flame source comprises a gas burner, the fireplace being shown in operation, the Figure illustrating airflow within the heater. [Fig. 3] Figure 3 is a cross-sectional view of the heating chimney according to the example of Figure 2, in which air flows within the chimney are schematically represented. The cross section is made according to the plane P illustrated in Figure 2.

Detailed description of particular examples of embodiment A schematic diagram of a decorative heating device 1 according to an example is shown with reference to Figure 1. The device 1 is designed to produce a flame 2 called a "sculpted" flame, that is to say a vertical flame providing a visual impression of a "tornado" to the viewer, using swirling air flows around the flame. Decorative heating device The heating device 1 is presented here in the form of a decorative fireplace. Said device is for example of generally cylindrical shape. The device 1 extends along a substantially vertical longitudinal axis L. The heating device 1 can be a device with an open or closed combustion chamber. In the case of a closed combustion hearth, the peripheral air can be taken from another enclosure not shown in the attached figures. The apparatus 1 comprises in particular on an upper part a combustion chamber 3 and on a lower part a base comprising a flame source 4. The flame source comprises for example a gas burner, a wood fireplace, etc. The base allows the device 1 to be positioned on a support surface, for example on the ground. A flame 2 generated by the flame source 4 extends, during operation of the device 1, into the internal volume provided by the combustion chamber 3. The combustion chamber 3 is for example of generally cylindrical shape, and here comprises a bottom wall 32 on a lower part. In contrast, it comprises an upper wall 31. The combustion chamber 3 is further closed laterally by at least one side wall 30, extending around the longitudinal axis L. Alternatively, the combustion chamber 3 is closed laterally by a plurality of side walls. Optionally and advantageously, the side wall 30 is formed totally or partially in transparent or semi-transparent glass. Thus, a spectator located in front of the decorative device 1 can observe the flame 2 in particular in a swirling mode. In the present example, on an upper side, the appliance 1 comprises an exhaust conduit 7 positioned above the combustion chamber 3, preferably in alignment with the longitudinal axis L. The exhaust conduit 7 allows the exhaust of smoke and/or combustion gases produced during the operation of the device 1. For example, the evacuation conduit 7 extends vertically from an upper chamber opening 37 formed in the upper wall 31 of the combustion chamber, up to an evacuation opening 70. According to a particular variant, a section surface of the side wall 30 perpendicular to the longitudinal axis L can be strictly greater than a section surface of the evacuation conduit 7 taken perpendicularly to the longitudinal axis L. The cross section of the side wall 30 has for example an area at least 20% larger compared to the cross section of the evacuation conduit 7. On a lower side, the side wall 30 of the combustion chamber 3 is here delimited on a lower part by a free lower edge 310. This edge 310 provides, with the bottom wall 32 placed axially opposite, a passage for the entry from the outside of a peripheral ascending air flow. This ascending flow participates in the air exchanges creating the sculpted flame, as will be seen below. The air passage provided on the lower part of the side wall 30 can extend over the entire periphery of the side wall 30. Alternatively, the edge 310 can only be spaced from the bottom wall 32 on one or more angular sectors, forming one or more slots. Advantageously, the bottom wall 32 is lined with a second wall extending substantially in parallel. The two walls thus form a “double bottom” at the level of the lower base of the combustion chamber 3. Said second wall comprises a double bottom surface 34, located opposite the bottom wall 32. A specific non-limiting example of “double bottom” structure will be detailed below. In Figure 1, the area of the heater 1 comprising the “double bottom” is shown in a dotted frame. The heater 1 further has a flame source on a lower part. The flame source is capable of generating a flame 2 during operation of the device, consuming fuel. It may be a gas burner connected to a gas supply conduit (not shown), for example town gas. As indicated previously, other types of flame source can be considered, replacing or in combination with the gas burner 4, in particular a flame source using solid pellets as fuel. Preferably, the chosen flame source is configured to produce a flame from gas fuel and/or wood and/or solid pellets and/or liquid ethanol fuel. Preferably the fuel used produces little or no smoke, so as to allow the spectator to see the flame. The flame source, here the gas burner 4, has an outlet 40 preferably located in the vicinity of the “double bottom” formed by the bottom wall 32 and the double bottom surface 34. The outlet 40 opens onto the internal space of the combustion chamber 3. As will be seen below, the double bottom preferably comprises mechanical guide elements (in particular a sleeve wall 60), around the outlet mouth 40. The guide elements participate in controlling the trajectory of the different air flows in the vicinity of the outlet mouth 40. The gas burner 4 is thus designed to generate an ascending flow of oxidant-fuel mixture, in a vertical direction, from the mouth outlet 40. Preferably, the outlet mouth 40 of the gas burner is positioned near the double bottom, so that the peripheral air is admitted to a position close to the base of the flame. In the present example, the bottom wall 32 has a central opening 33, through which the outlet 40 passes vertically. We have shown, with reference to the views of Figures 2 and 3, a particular embodiment of a heating device 1 conforming to the general architecture described above. The views in Figures 2 and 3 also illustrate air flows F1, F2, F3 and F4 within the device 1 during its operation. Controlling the trajectory of said air flows makes it possible to continuously generate a flame 2 sculpted vertically, over a sufficient height, so as to produce a striking visual impression for the viewer.

Double bottom of combustion chamber - Flame guide structure As described previously, the heating device 1 here comprises a combustion chamber with a “double bottom” formed by the bottom wall 32 and the double bottom surface 34. The source flame 4, here the gas burner, is configured to generate a flow of oxidizer-fuel mixture F1 in an upward vertical direction from the flame outlet 40. The flow F1 of oxidizer-fuel mixture spreads into the combustion chamber 3 along the longitudinal axis L. As illustrated in Figure 2, the outlet mouth 40 is arranged here on the double bottom surface 34, for example in the center of this surface. The outlet mouth 40 preferably extends vertically to the bottom wall 32. Preferably, the outlet mouth 40 comprises a plate 42 raised relative to an upper edge of the outlet mouth. The elevation of the plate 42 can be obtained by any suitable geometry. In the present example, the plate 42 comprises a rod 41 and a circular upper wall raised relative to the outlet mouth, so that the plate 42 has a T shape when viewed from the side. The flow F1 of oxidizer-fuel mixture thus bypasses the plate 42 during its ascent to the combustion chamber 3. Furthermore, the bottom wall 32 and the double bottom surface 34 axially delimit an admission space of a swirling air flow F2 from outside the heater to the inside. An axial gap (along the longitudinal axis L) between the bottom wall 32 and the double bottom surface 34 comprises a plurality of intake vents 5 of swirling air flow F2. The swirling air flow F2 can thus be admitted at a plurality of locations along the periphery of the base of the heater, as illustrated in Figure 3. The inlet vents 5 form an axial space of air pre-intake. In the present example, the intake vents 5 are distributed regularly all around the outer periphery of the bottom wall 32 and the double bottom surface 34. The number of intake vents 5 is preferably between 4 and 16, and here rises to 12. The inlet vents 5 can be made below the gas burner 4. Preferably and advantageously, to better guide the swirling air flow F2 at the inlet, separating walls are provided between the different intake vents. As such, in this example, two consecutive intake mouths 5 are separated from each other by a separating fin 36. Each fin 36 extends radially inwards, from the outer periphery of the bottom wall 32 and the double bottom surface 34. Furthermore, each fin 36 extends axially preferably from the double bottom surface 34 to the bottom wall 32. Advantageously, some or all of the fins 36 can have an inclination relative to in the radial direction, so as to direct the incoming air towards the sleeve wall 60. Here, the lateral surfaces of the fins 36 have an angle 'a' preferably greater than 10°, even more preferably between 30° and 70 °, relative to the radial direction D. In addition, the lateral surfaces of the fins 36 can be curved, so as to curve the trajectory of the incoming swirling air flow F2. In a variant not shown in the figures, the heating device 1 can optionally be equipped with one or more retractable shutters, at the level of the intake vents 5. These retractable shutters can allow the user to select a mode of classic combustion (non-sculpted flame) or a swirling combustion mode (vertically sculpted flame). The retractable shutters can then be controlled remotely if necessary, for example by electromechanical means. The heating device 1 further comprises mechanical elements allowing vertical guidance of the swirling air flow F2, once this air flow has been admitted into the heating device 1. To this end, the apparatus 1 comprises a guide sleeve 6 which has a lateral sleeve wall 60 extending from the bottom wall 32 along the longitudinal axis L, and surrounding the outlet mouth 40 of the source of flame. The guide sleeve 6 is located axially above the upper edge of the flame source. The sleeve wall 60, which is preferably of hollow cylindrical shape, extends around the flame source so as to guide several peripheral ascending air flows at the base of the flame 2. Preferably, the sleeve wall 60 and the bottom wall 32 form a right angle 35 inside the axial air pre-admission space, to guide the rise of the air flows. The sleeve wall 60 of said guide sleeve delimits around the outlet mouth 40 two distinct annular spaces:

- a first interior annular space 62, formed on the interior side of the sleeve wall 60, around the flame 2;

- a second outer annular space 64, here concentric with the inner annular space 62, this outer annular space being delimited between the sleeve wall 60 and the side wall 30 of the combustion chamber 3. The outer annular space 64 is in particular designed to allow the passage of a peripheral ascending air flow F3, around the air flows F1 and F2 previously described. To receive the air constituting this peripheral ascending air flow F3, an additional air inlet is formed at the lower edge 310 of the side wall 30 of the combustion chamber. At least one raising support 320 can be used to maintain the lower edge 310 of the side wall 30 at a distance and facing the bottom wall 32. In the present example, three raising supports 320 are placed on the bottom wall 32. The air can thus rush under the lower edge 310 of the side wall 30, to then be guided into the outer annular space 64 and rise inside the combustion chamber 3.

Example of operation of a sculpted flame heating device Steps of a method of operating a heating device according to an example are described below. The method is for example implemented by the heating device 1 described previously in relation to Figures 2 and 3. When combustion is triggered at the flame source, here the gas burner 4, the fuel is consumed and the flame 2 is ignited within the combustion chamber 3. An inlet of primary oxidizer can be provided at the level of the flame source, typically below the outlet 40, to start the combustion. Simultaneously with the flame igniting, a draft of air is generated around the flame. Part of the incoming air is consumed by combustion. A remaining part of the incoming air rises in temperature, and describes an upward movement inside the heating device 1. A flow of oxidizer-fuel mixture F1 generated at the outlet of the flame source 4 rises in a vertical direction from the outlet mouth 40. A swirling air flow F2 is admitted from the outside at the level of the mouths intake 5 and moves towards the inside of the heater. The swirling air flow F2 is preferably guided by the separating fins 36 present in the pre-admission space. The swirling air flow F2 swirls within the pre-admission space, due to the specific geometry of the “double bottom” at the base of the flame. The swirling air flow F2 is then redirected upwards, at the level of the base of the flame 2, through the interior annular space 62 formed by the sleeve. The specific cylindrical shape of the guide sleeve 6 also contributes to the swirling of the air flow. A peripheral air flow F3 is admitted, for its part, at the level of the opening(s) provided under the side wall 30. The air flow F3 enters over the double bottom. This peripheral ascending air flow F3 then orients vertically upwards and crosses the outer annular space 64 formed by the sleeve, around the air flows F1 and F2 previously described. The different air flows F1, F2, F3 mix while swirling around the flame. They then form an exhaust flow F4 which is discharged onto the upper part of the heater 1. The exhaust flow F4 here passes through the exhaust conduit 7 and escapes through the opening of evacuation 70. Controlling the trajectory of the air flows F1, F2 and F3 thus makes it possible to continuously generate a vertically sculpted flame, so as to produce a striking visual impression for the viewer, while warming the surroundings of the device of heating.

Claims

1. Heating apparatus comprising a combustion chamber (3) extending along a longitudinal axis (L) from a bottom wall (32) to an exhaust opening (37), the combustion chamber (3) comprising a conduit side wall (30) extending around the longitudinal axis (L), the heating apparatus being characterized in that the conduit side wall (30) comprises a lower conduit edge ( 310) located facing the bottom wall (32), and providing with the bottom wall (32) a space for the passage of a peripheral ascending air flow (F3), and in that said heating device comprises in besides :

- a double bottom surface (34), extending under the bottom wall (32) substantially parallel to the bottom wall (32), and axially delimiting with the bottom wall (32) an admission space of a swirling air flow (F2),

- a flame source (4) comprising a flame outlet (40),

- a flame guide sleeve (6) comprising a sleeve wall (60) extending from the bottom wall (32) along the longitudinal axis (L), surrounding the flame outlet mouth (40) , said sleeve wall (60) defining an interior annular space (62) provided to allow ascent of the swirling air flow (F2) around the flame, the sleeve wall (60) further defining with the side wall of conduit (30) an outer annular space (64) provided for the passage of the peripheral ascending air flow (F3), the outer annular space (64) surrounding the inner annular space (62).

2. Heating apparatus according to claim 1, in which an axial gap between the bottom wall (32) and the double bottom surface (34) comprises a plurality of intake vents (5) of swirling air flow ( F2), said inlet mouths (5) being in fluid communication with the outside.

3. Heating apparatus according to claim 2, in which at least two consecutive inlet openings (5) are separated by a separator fin (36) extending radially inwards from a peripheral edge of the double bottom surface (34), the separator fin (36) being optionally and preferably inclined by at least 10 degrees relative to a radial direction (D), so as to direct the incoming air towards the sleeve wall (60).

4. Heating device according to any one of claims 2 or 3, in which the intake vents (5) of swirling air flow (F2) are distributed angularly on the exterior perimeter of the bottom wall (32) , the number of said intake vents (5) being optionally and preferably between 4 and 16.

5. Heating device according to any one of claims 1 to 4, the device comprising at least one raising support (320), mounted on the bottom wall (32) and configured to maintain the lower edge of the conduit (310) at a distance and in front of the back wall (32).

6. Heating device according to any one of claims 1 to 5, in which the bottom wall (32) and/or the double bottom surface (34) are of circular shape, the bottom wall (32) and the double bottom surface (34) preferably being of the same radius.

7. Heating apparatus according to any one of claims 1 to 6, wherein the side wall of the conduit (30) is of cylindrical shape, and is formed totally or partially of transparent or semi-transparent glass.

8. Heating apparatus according to any one of claims 1 to 7, the apparatus further comprising an evacuation conduit (7) on an upper portion, a section surface of the side wall of the conduit (30) perpendicular to the longitudinal axis (L) being optionally and preferably strictly greater than a sectional surface of the evacuation duct (7) perpendicular to the longitudinal axis (L).

9. Heating apparatus according to any one of claims 1 to 8, wherein the sleeve wall (60) and the conduit side wall (30) are configured such that the outer annular space (64) is concentric with the interior annular space (62).

10. Heating appliance according to any one of claims 1 to 9, wherein the flame source (4) is configured to produce a flame from gas fuel and/or wood and/or solid pellets and/ or liquid ethanol fuel.

11. Heating device according to any one of claims 1 to 10, in which the flame source (4) is configured to generate a flow of oxidizer-fuel mixture (F1) in an upward vertical direction from the mouth of the flame outlet (40).

12. Heating device according to any one of claims 1 to 1 1, in which the flame outlet mouth (40) has the shape of a cylindrical sleeve extending parallel to the longitudinal axis (L) of the chamber. combustion (3).

13. Heating apparatus according to any one of claims 1 to 12, in which the flame outlet (40) is arranged on the double bottom surface (34)

14. Heating device according to any one of claims 1 to 13, in which the flame outlet (40) comprises a plate (42) raised relative to an upper edge of the flame outlet (40) .