FR2927149A1 - CHIMNEY FOR COMBUSTION OF A LIQUID FUEL WITH AIR. - Google Patents

Abstract

Burner type 1 chimney for liquid fuel combustion comprising a combustion chamber 3 for receiving a liquid fuel disposed in contact with air as an oxidizer and combustion stop means for stopping combustion, the combustion means stopping means being arranged to remove the fuel at least partially out of the combustion chamber 3 when activated.

Description

The invention relates to a chimney for generating flames from the combustion of a liquid fuel disposed in contact with the air. The invention is particularly applicable to fireplaces operating with alcohol of vegetable origin.

These fireplaces are mainly intended for decorative use to create an indoor environment or outdoor living. They can be placed in a fireplace hearth, or in any decorative element. Their size is limited and their handling is easy, they can easily be integrated into all types of decor. These chimneys are commonly referred to as chimneys without flues or burners. In the remainder of the description, they are designated as burners, but they must not be equated with industrial burners whose stresses are very different from those of the chimneys 15 object of the present invention. In known manner, burner type chimneys comprise a combustion chamber for receiving a liquid fuel whose free surface is disposed in contact with the air. Ignition of a flame in the vicinity of the free surface of the fuel causes the fuel to burn with air. Moreover, these chimneys are equipped with stop means intended to be controlled by the user in order to stop the combustion. These stop means comprise a flap movable between two positions and allow the user to selectively close or leave open the combustion chamber 25. When the flap is open, the air acting as an oxidizer freely accesses the fuel and maintains combustion. When the shutter is closed, the air can no longer access the interior of the room resulting in the extinction of the fire. Any significant improvement in the safety of these chimneys would be appreciable. The safety of these chimneys must be all the higher as they are intended to be used without permanent surveillance and especially inside the homes.

The present invention aims to improve the safety of the use of existing burner type chimneys. For this purpose there is provided according to the present invention a burner type chimney for liquid fuel combustion, comprising a combustion chamber for receiving a liquid fuel disposed in contact with air as an oxidizer and means for stopping the fuel. combustion means for stopping combustion, the stopping means being arranged to remove fuel from the combustion chamber when activated. Thus, by providing for extracting the fuel out of the combustion chamber, the invention makes it possible to eliminate any contact between the fuel and the oxidant, which results in a final and relatively rapid cessation of the combustion. However, the Applicant has found that in existing burners equipped with shutters, there is a risk that the combustion continues or resume while the user thinks that it is permanently stopped. Indeed, a reopening of the shutter made sufficiently close in time after closing the shutter can automatically generate immediately a flame of considerable magnitude and cause the resumption of combustion. This flame is particularly dangerous since it often reaches up to the face of the user. The applicant realized that the risk of the fire restarting itself continues as long as the temperature of the burner does not fall below a given temperature. However, with alcohol fuels of essentially vegetable origin, this given temperature is relatively low (of the order of 425 ° C.). The invention, by removing the fuel from the combustion chamber, eliminates any risk of recovery of combustion. The invention thus offers a significantly improved security compared to existing systems. The chimney according to the invention may furthermore optionally have at least one of the following characteristics: the stop means comprise a pump fluidly connected to the combustion chamber and shaped to pump the fuel out of the combustion chamber; when the stop means are activated, - the pump is a peristaltic pump, - the chimney comprises a fuel tank fluidly connected to the combustion chamber, the pump being arranged between the tank and the combustion chamber, - the chimney comprises control means arranged to control the activation of the stop means when they are requested by the user, the chimney comprises control means arranged to control the activation of the stop means when they are requested. and includes detection means arranged to detect an abnormal operating state and to solicit the control means when abnormal operation is detected, - the detection means comprise at least one CO2 detector, - the detection means are arranged to control the inclination of the fuel in the combustion chamber, - the detection means comprise at least two fuel level sensors; - the chimney comprises a buffer tank fluidly connected to the combustion chamber and in which the level sensors are arranged; - the chimney comprises a fuel supply duct, one end of which forms a fuel inlet; for the combustion chamber, and a flap shaped on said inlet so as to extinguish the flame by smothering. - the chimney comprises a reservoir provided with a filling orifice and a closure system comprising a valve movable between a closed position preventing filling of the reservoir and an open position allowing the filling of the Reservoir, - it comprises a locking device arranged to lock the valve in the closed position, - the control means are arranged to control the locking device so as to automatically lock the valve in the closed position when a value relative to the the inclination of the burner or the temperature of the combustion chamber, or the temperature of the control means or the content of a given gas reaches a predetermined value - it comprises a reservoir and overflow signaling means arranged to signal to a user that the tank contains a fuel level equal to or greater than a predetermined maximum level. According to the invention there is furthermore provided a method for stopping the combustion of a combustion chamber of a burner-type chimney for liquid fuel combustion, in which stop means are available for stopping the combustion, and in which the stopping means at least partially removes the fuel from the combustion chamber when activated. Other features, objects and advantages of the present invention will appear on reading the detailed description which follows and with reference to the appended drawings given by way of non-limiting example and in which: FIG. perspective of a chimney according to an exemplary embodiment of the invention, - Figure 2 is a perspective view of the chimney illustrated in Figure 1 and in which the upper plate was taken, - Figure 3 is a perspective view. of the chimney illustrated in FIG. 1, in which the housing has been removed, FIG. 4 is a side view of the chimney illustrated in FIG. 1 and in which the housing has been removed; FIG. 5 is a view according to a longitudinal section of the chimney illustrated in FIG. 1; FIG. 6 is a view in cross-section of the chimney illustrated in FIG. 1; FIG. 7 is a perspective view of a portion of the chimney illustrated; Figure 1 and on which appears a closure system of the tank. With reference to FIGS. 1 to 7, an example of a chimney according to the invention is illustrated. As a reminder, in the present application by burner 1 denotes a chimney type duct whose vocation is mainly aesthetic and decorative. The burner 1 according to the invention comprises a combustion chamber 3. The combustion chamber 3 comprises a bottom 4 and side walls defining a volume for receiving a liquid fuel. The combustion chamber 3 also has an opening to allow the fuel to mix with the air of the surrounding medium. When a flame or spark is approached to the free surface of the fuel, combustion is initiated between the fuel and the air acting as an oxidizer. Advantageously, the fuel used is alcohol of vegetable origin. The burner 1 according to the invention can work with many other liquid fuels. The burner 1 further comprises stop means arranged to extract the fuel from the combustion chamber 3 in order to permanently interrupt the combustion. Thus, when the stop means are activated and the fire is extinguished there is no more fuel in the combustion chamber 3 so that the fire can not resume of itself. The activation of the stopping means for extracting the fuel from the combustion chamber 3 is triggered by control means which are described below. In addition to reducing the risks of self-ignition, the invention makes it possible to significantly reduce the fuel consumption of conventional burners. Indeed, the invention provides for removing all the fuel from the combustion chamber 3 when the burner 1 is not used. Thus, the combustion chamber 3 is not the seat of a fuel evaporation in the non-operating phase. However, in conventional burners, the fuel remains in the combustion chamber 3 even after stopping the combustion and thus evaporates continuously. The burner 1, object of the present invention, thus reduces fuel evaporation. Moreover, when stopping combustion, the fuel remaining in the combustion chamber 3 generally has a high temperature. However, the higher the temperature of the fuel, the more its evaporation at the combustion chamber 3 is important. Thus, by providing for the evacuation of the fuel as soon as combustion stops, the invention particularly effectively reduces fuel evaporation at the combustion chamber 3. In a preferred embodiment, the burner 1 according to FIG. The invention comprises a reservoir 2 arranged in fluid relation with the combustion chamber 3 so that the fuel extracted from the latter is transferred into the tank 2. Moreover, the latter is substantially hermetic, so that the fuel that it contains does not evaporate. The invention therefore makes it possible to reduce the evaporation and the fuel consumption of the whole of the burner 1. Advantageously, the stop means comprise a pump 14 for transferring the fuel from the tank 2 to the chamber of combustion 3 and vice versa. The pump 14 is disposed between the reservoir 2 and the combustion chamber 3. Preferably, the reservoir 2 has a volume 25 significantly greater than that of the combustion chamber 3. It is arranged in the lower part of the burner 1. frame office and has an upper face for cooperating with a housing 30. The housing 30 has side walls. It is intended to cooperate with the tank 2 to be placed above the latter and to house the first 30 16, second 18 and third 5 ducts, the control means, the pump 14, the buffer tank 10 and the combustion chamber 3.

Thus, the burner 1 comprises a support 15 secured to the casing 30 and arranged to receive and raise the combustion chamber 3 relative to this same upper face. The pump 14 is also removably mounted on one of the faces of the casing 30. Preferably, the pump 14 is a peristaltic pump 14. Therefore, it allows the alternative transfer of the tank 2 to the combustion chamber 3. Moreover, when it is not engaged, it eliminates the fluid communication between the combustion chamber 3 and the tank 2. io The use of such a pump does not require sealing between the cooperating parts in motion. It therefore reduces the risk of leakage, reduces maintenance and improves the life of the burner. The burner 1 comprises control means arranged to control the pump 14 various actions. Thus, the control means 15 are arranged to control the deactivation of the pump 14, the activation of the pump 14 so as to fill the combustion chamber 3, or the activation of the pump 14 so as to empty the chamber The control means comprise an electronic card removably attached to the casing 30. The burner 1 further comprises a control panel 22 which acts as a control and signaling interface between the user and the user. burner 1. The console is connected to the electronic card and includes display means for signaling the user any malfunction and possibly the chosen mode of operation. The console 22 further includes a button for controlling the start or stop of combustion. Thus, when the user controls the cessation of the combustion via the control panel 22, the electronic card triggers the activation of the pump 14 so that the latter empties the fuel 30 present in the chamber of combustion 3. When chamber 3 no longer has fuel, the fire stops. Thus, between two uses of the burner 1 the combustion chamber 3 remains empty. During a subsequent start of the burner 1, the user controls, via the control panel 22, the electronic card to engage the pump 14 to transfer fuel from the tank 2 to the chamber 3. Advantageously, the burner 1 comprises detection means arranged to transmit to the control means information relating to the inclination of the burner 1 and / or the temperature of the combustion chamber 3 and / or the temperature of the combustion chamber 3. the electronic card and / or the concentration in a given gas of the environment of the burner 1, such as CO.sub.2 or CO These signals are detected respectively by at least two level sensors io 13, at least one temperature sensor and at least one sensor 19 of the given gas. The control means are arranged to control the deactivation or activation of the pump 14 when from the information received from the detection means, they detect that the burner 1 reaches an inclination greater than a predetermined value of inclination or that the electronic board reaches a temperature above a predetermined temperature value or the environment of the burner 1 has a given gas content greater than a predetermined concentration. Advantageously, the burner 1 comprises a buffer tank 20 arranged in fluid communication with the tank 2 and with the combustion chamber 3. The buffer tank 10 comprises a bottom 11, an upper face and side faces. It is intended to contain fuel. It is arranged so that the free surface of the fuel it contains is, by gravity, substantially in the same plane as the free surface of the fuel present in the combustion chamber 3. Thus, the fuel level in the buffer tank 10 makes it possible to determine the level of fuel contained in the combustion chamber 3. A first conduit 16 fluidly connects the reservoir 2 to the pump 14. A second conduit 18 fluidly connects the pump 14 to the bottom of the buffer reservoir 10. A third conduit 5 fluidly connects the bottom 11 of the buffer tank 10 to the bottom 4 of the combustion chamber 3. Advantageously, the third conduit serves as a siphon to prevent the spread of fire and gases from the combustion chamber 3 to the buffer tank 10.

Preferably, the level sensors 13 are arranged at the buffer tank 10. Thus, they can reflect the fuel level in the combustion chamber 3 while being deported out of the latter which can be subject to significant particularly thermal constraints. As soon as one of the two inclination sensors detects the presence of liquid, the control means consider that the buffer tank and therefore that the combustion chamber 3 have reached the predetermined limit value of inclination. The control means then trigger the activation of the pump 14 to empty the combustion chamber 3. It is the same when the control means, thanks to the information received from the detection means, detect an excessive temperature in the chamber. 3 or at the level of the electronic card or detect an abnormal content of a given gas. Under the effect of the pumping, the fuel contained in the combustion chamber 3 passes successively in the third conduit, then in the buffer tank, then in the second conduit 18, then in the pump 14, then in the first conduit 16, and finally in the tank 2. Preferably, the chimney comprises control means 20 arranged so that the fuel level of the combustion chamber 3 is less than or equal to a predetermined upper limit. Advantageously, said upper limit is less than 15 millimeters. Said upper limit is less than 8 millimeters. Even more advantageously, the regulation means are arranged so that the fuel level of the combustion chamber 3 remains between 1 millimeter and 5 millimeters. The regulation means make it possible to obtain a fire exhibiting qualities as unexpected as remarkable in terms of crackling as well as in terms of liveliness and flame color. Moreover, maintaining the fuel level below said lower limit makes it possible to limit the evaporation of the fuel. In addition, the combination of stop means and control means makes it possible to stop combustion in a short time. Indeed, for a fuel level maintained at about 4 millimeters, it is easy to obtain a flushing time of the combustion chamber 3 which is less than two minutes. Optionally, the burner 1 according to the invention comprises a shutter 7 for closing the combustion chamber 3. This closure flap 7 cooperates with a lever 8 that the user is intended to activate when he wishes to reduce the flame or to stop combustion. When the handle 8 is activated, the flap 7 closes the chamber hermetically. As a result, the combustion chamber 3 runs out of fuel and the fire stops. The combination of the closure flap 7 and the stop means allows a definitive and particularly rapid stop of the combustion. Advantageously, the support 15 is arranged to be able to position in a simple, precise and stable way the combustion chamber 3 and the buffer tank 10. The support 15 can be obtained by laser cutting in particular. Preferably, the burner 1 comprises a plate 31 shaped to cooperate with the side walls of the housing 30 so as to cover the different members of the burner 1. Recesses are made in the plate 31 and the housing 30 to leave free access to the combustion chamber 3, to the filling orifice 17 of the tank 2, to the control panel 22 and to the ventilation zones. The main purpose of the aeration zones is to contribute to the cooling of the electronic part of the burner. The burner is arranged so that as little heat as possible is transferred from the combustion chamber to the other particular electrical organs. Thus, the contact surface between the combustion chamber 3 and the support 15 is deliberately limited, and the convective exchanges with the outside are favored. The invention as described above improves the fire control generated by a burner 1. Moreover it has a limited size and simplicity. Optionally and independently of the control means 30 described above, the burner 1 comprises means for stopping combustion by smothering when only a small amount of fuel remains in the combustion chamber 3, this amount being millimeter order. These means generally have a shape of flap 2927149 It 6 covering the orifice through which the combustion chamber 3 communicates with its supply conduit 5. These means also allow fluid communication between the combustion chamber 3 and its feed duct 5. 5 The flap 6 can be attached to the bottom 4 of the combustion chamber 3. Preferably it is obtained by V-folding a sheet. It has for example a cylinder portion shape extending along an axis substantially parallel to the plane of the bottom 4 of the combustion chamber 3 and whose ends are open. The burner 1 comprises a system for filling the tank 2 illustrated in FIG. 7. The system comprises a filling channel 42, one end of which opens into the tank 2 and another end of which has an orifice through which the user is intended to pour the fuel. Advantageously, the filling system is arranged so that the orifice is contained in the plane of the plate 31. The burner comprises a closure system 40 equipped with a valve 41 shutter 19 designed to selectively allow or prevent the Access to the filling channel 42. The valve 41 is movable between two positions: in a so-called closed position it masks the orifice and prevents filling. In a so-called opening position it allows free access to the orifice and allows the filling. Advantageously, the valve 41 passes alternately from one position to another by sliding. This sliding takes place in a plane parallel to that around the filling orifice 17. This sliding is guided by a rail 47 secured to the reservoir 2. The valve 41 and the rail 47 have complementary shapes to ensure their cooperation. in translation. These complementary shapes can be obtained by folding in particular. The rail 47 extends above the orifice and in a plane parallel to that of the orifice. It has a recess disposed opposite the orifice and shaped to allow free access to the filling channel 42. Thus, the rail 47 offers the valve 41 guiding over the entire travel length in translation.

Furthermore, the cooperation between the filling channel 42, the rail 47 and the valve 41 is made such that in the closed position, the valve 41 completely covers the filling channel 42. Thus, when the valve 41 is closed the The invention makes it possible to limit the evaporation of the fuel out of the tank 2.

The movement of the valve 41 may be manually driven by the user. For this purpose, the valve 41 comprises a tongue 46 connected to a handle not shown in the figures. The control means are arranged so that the valve is closed by default. Furthermore, the control means do not allow the valve to open when fuel is still present in the tank 2, or when the temperature sensor detects an abnormally high temperature. Alternatively or in combination with a manual opening handle, it can be provided that the movement of the valve 41 is triggered by the control means. For this purpose, at least one button is provided at the control console 22 which, when it is actuated, triggers the opening or closing of the valve 41. It is also possible for the closure of the valve 41 to be automatically controlled by the control means when the inclination sensors 13 detect an abnormal inclination of the burner 1, or when the temperature sensor detects a too high temperature at the level of the combustion chamber 3 or at the level of the electronic card, or when the detector 19 gas detects an abnormal content of a given gas such as CO2. The closure system 40 further comprises a locking device 43 of the valve 41 in the closed position. This device makes it possible to prevent the valve 41 from opening. It comprises a member acting as a bolt 45 and intended to act as a retractable abutment in translation for the valve 41. A light made in the guide rail 47 allows the bolt to The latch 45 is slidably mounted on an element secured to the casing 30 to selectively prevent or allow translation for the valve 41. The bolt 45 can be moved manually by the user. The possibility of moving the bolt 45 may be subject to an authorization issued by the control means ensuring that the burner 1 operates normally. In a preferred embodiment, the locking device 43 comprises an actuator 44 controlled by the control means and intended to automatically move the bolt 45. The actuator 44 may in particular comprise an electromagnetic coil within which a portion bolt 45 is intended to slide. The bolt 45 has at least partly a ferromagnetic element. Under the effect of a voltage applied to the coil, the electromagnetic field generated by the latter causes the bolt 45 to move in at least one direction and to the closed position or the open position. The translation in the other direction can be obtained either by the coil, or by a spring-type return element, or even by gravity. The control means can trigger the locking of the valve 41 in the closed position in the following case in particular: • a locking button integrated in the control panel 22 is actuated by the user, • the detection means detect an abnormal inclination of the burner 1, or an abnormally high temperature at the combustion chamber 3, or an abnormal content of a given gas. Thus, the closure system 40 limits fuel leakage from the tank 2 when the valve 41 is in the closed position. Moreover, it makes it possible to prevent any unintentional opening of the filling orifice 17. In addition, the burner 1 according to the invention makes it possible to automatically lock the flap 7 as soon as a risk is detected by the detection means. In particular, any filling of the tank 2 or opening of the latter is made impossible if the temperature in the combustion chamber is too high. However, in existing burners, the opening or filling of the tank while fuel is carried a high temperature presents a significant risk of safety. The invention therefore makes it possible to considerably enhance the safety of existing burners.

It should be noted that the closure system 40, as well as the locking device 43 can be operated independently of the stop means described above. Thus, they could each be specifically and independently protected.

Optionally, the burner 1 further comprises overflow signaling means for signaling to the user that the reservoir 2 contains a fuel level equal to or greater than a predetermined maximum level. Usually, the filling of the burner 1 is carried out by pouring fuel from a container into the tank 2 via a filling orifice 17. Such filling is inconvenient and often leads, when the tank 2 is full, the spillage of even a small amount of fuel in the burner 1. The control of the amount of spilled fuel is even more difficult to control that cans are often bulky, heavy and therefore difficult to handle. It may be provided to use a pump, for example manual and equipped with a pear to transfer the fuel from the container to the tank 2. The subsequent switching on of the burner 1 can cause combustion inside the burner itself 1, which causes the deterioration of the latter and a major risk of safety. The invention, by providing overflow signaling means, allows the user to stop the filling before any overflow. The overflow signaling means comprise a level sensor disposed in the tank 2 or in the filling channel 42. They also include visual warning means such as light-emitting diodes (LEDs) or audible warning means. such as a buzzer. Therefore, the overflow signaling means contribute to enhancing the safety of existing burners.

These overflow signaling means can be implemented independently of the stop means, or the closure system 40, or the locking device 43 described above. They could therefore be subject to specific and independent protection.

The stop means, the control means, the locking device 43 and the overflow signaling means are supplied with electricity. This power supply is provided by a connection to a source of electrical energy external to the burner 1 or preferably by batteries or batteries housed in a compartment 21 housed inside the housing 30. Although the chimney object of the present The application is primarily intended for decorative use and may be used additionally as an auxiliary heater.

The present invention is not limited to the embodiments described above, but extends to any embodiment within its spirit. In particular, in an alternative embodiment, an upper tank 2 is provided with respect to the combustion chamber 3 so that the latter can be filled by gravity by the tank 2. A valve, controlled by the control means then regulates the supply of the combustion chamber 3. Furthermore, it is possible to provide a lower reservoir 2 and a second valve arranged in fluid communication with the combustion chamber 3 and in such a way that the control means trigger the opening of the valve when the fuel level in the combustion chamber 3 reaches or is greater than said upper limit so that the fuel of the combustion chamber 3 passes, by gravity, in the lower tank 2.

REFERENCES

1. Burner 2. Tank 3. Combustion chamber 4. Bottom 5. Supply pipe 6. Flap 7. Flint 8. Handle 10. Buffer tank 11. Buffer tank bottom 12. Level sensor 13. Tilt sensor 14.Pump 15.Support 16.First duct 17.Fill control 18.Second duct 19.Gas sensor 20.Case 21.Storage compartment 22.Control panel 30.Carter 31.Plate 40.Closing system 41. Valve 42.Filling duct 43. Locking device 44. Actuator 45. Pin 46.Language 47.Rail 5 10 15 20

Claims (14)

Burner type chimney (1) for liquid fuel combustion comprising a combustion chamber (3) intended to receive a liquid fuel arranged in contact with air as an oxidizer and combustion stop means for stopping the combustion. combustion, characterized in that the stop means are arranged to remove the fuel at least partially out of the combustion chamber (3) when activated. 2. Chimney according to the preceding claim, wherein the stop means comprises a pump (14) fluidly connected to the combustion chamber (3) and shaped to pump the fuel out of the combustion chamber (3) when the means of stop are activated. 3. Chimney according to the preceding claim, comprising a reservoir (2) of fuel fluidly connected to the combustion chamber (3), the pump (14) being disposed between the reservoir (2) and the combustion chamber (3). 4. Chimney according to any one of the preceding claims, comprising control means arranged to control the activation of the stop means when they are requested by the user. 25 5. Chimney according to any one of claims 1 to 4 comprising control means arranged to control the activation of the stop means when they are stressed and detection means arranged to detect an abnormal operating state and to solicit the control means when an abnormal operating condition is detected. 6. Chimney according to the preceding claim, wherein the detection means comprise at least one detector of a given gas. 7. Chimney according to any one of the two preceding claims, wherein the detection means are arranged to control the inclination of the fuel in the combustion chamber (3). 8. Chimney according to the preceding claim, wherein the detection means comprise at least two level sensors (13, 13) of fuel and having a buffer tank (10) fluidly connected to the combustion chamber (3) and in which the level sensors (13) are arranged. io 9. Chimney according to any one of the preceding claims, comprising a fuel supply pipe (5), one end of which forms a fuel inlet for the combustion chamber (3), and a flap (6) shaped on said inlet so as to prevent a possible return of flame in the supply duct (5). 10. Chimney according to any one of the preceding claims, comprising a reservoir (2) provided with a hole (17) for filling and a closure system (40) comprising a valve (41) movable between a closed position. preventing the filling of the tank (2) and an open position allowing the filling of the tank (2). 11. Chimney according to the preceding claim, comprising a locking device (43) arranged to lock the valve (41) in the closed position. 25 12. Chimney according to the preceding claim, wherein the control means are arranged to control the locking device (43) so as to automatically lock the valve (41) in the closed position when a value relative to the inclination of the burner or the temperature of the combustion chamber, or the temperature of the control means or the content of a given gas reaches a predetermined value. Chimney according to any one of the preceding claims, comprising a tank (2) and overflow signaling means arranged to signal to a user that the tank (2) contains a level of fuel equal to or greater than one level. predetermined maximum. 14. A method for stopping the combustion of a combustion chamber (3) of a burner-type chimney (1) for liquid fuel combustion, in which stop means are provided for stopping the combustion, characterized in that the stopping means at least partially remove the fuel from the combustion chamber (3) when activated. 10