ES2381512A1 - A kit for a domestic gas appliance - Google Patents

Abstract

A kit for a domestic gas appliance comprising at least one burner, the kit (300) comprising a gas control valve (2) connectable between a gas source and the burner (1) and control means (3) electrically coupled to the gas control valve (2) to control the opening and closing of said gas control valve (2). The control means (3) is adapted to be coupled to an audio input and are configured to receive an analog sound signal (Sson) and to generate a control signal (Sc) based on the analog sound signal (Sson) deliverable to the gas control valve (2) to cause the opening and/or closing of said gas control valve (2), for the purpose of inducing a modulation of a flame in the burner (1).

Description

Gas domestic appliance with flame control.

SECTOR OF THE TECHNIQUE

The present invention relates to domestic gas appliances, and more specifically to domestic gas appliances in which a flame is generated and in which said flame can be modified by acting on at least one valve.

PREVIOUS STATE OF THE TECHNIQUE

Until recently, domestic heating or even lighting equipment worked by burning solid elements such as wood. However, these types of devices are gradually being replaced by devices that burn non-solid materials such as gas, or generate heat or light up electrically. This type of apparatus, therefore, does not produce a combustion effect as in the apparatus that burned solid elements, due to the visual effect and / or the sound effect of the flames. The combustion effect often causes the user feelings of well-being and relaxation that are not obtained with gas or electric appliances.

To solve the lack of combustion effect and to cause these feelings to the user, different types of devices are appearing on the market. One of these types is electrical devices that simulate the flame or fire to obtain these combustion effects, simulating some of them including the sound produced by the flames. An example of this type of apparatus is disclosed in US20070125367A1. In said apparatus a flame is simulated by electronic means. For this, at least one light source is used, such as LEDs, and a microprocessor varies the intensity of the light and even the color of the light (of the LEDs) to simulate the natural effect of the variable brightness of the flame. This document simulates even logs or wood.

The apparatus that heats and / or illuminates by means of a non-solid fuel such as gas, for example gas appliances, at least comprises a burner to which said gas arrives, a flame is generated in said burner when said gas is ignited. The intensity of the flame depends on the gas (or an air-gas mixture) that reaches the burner, and devices that, to simulate the combustion effect, cause the flame to be modified by blowing a stream of air directly into the burner (or the flame generated in the burner) for example, thus altering the flame that modifies its shape depending on the flow of insufflated air. An example of this type of apparatus is shown in document US6162045A, where the vibrations of a loudspeaker arranged in the burner create disturbances in the air-gas mixture that reaches said burner, the flame being altered according to said vibrations.

In other gas appliances, to simulate the combustion effect, the gas that reaches said burner is regulated by acting on a valve that regulates the passage of said gas towards said burner. Normally, the valve is operated according to previously established patterns, the user being able to select the pattern that most interests him at any time. These patterns can imitate familiar music,

or even certain environments such as a romantic atmosphere. US20050208443A1 discloses a gas heating apparatus, a stove, comprising control means for regulating the characteristics of the flame such as its frequency and amplitude, thus giving it a combustion effect. For this, the control means act on a valve to regulate the gas that reaches the burner. Said control means comprise a plurality of preset control modes or patterns, acting on the valve according to the pattern selected by the user, said user not being able to recreate environments, by means of the flame, not previously preset.

EXHIBITION OF THE INVENTION

The object of the invention is to provide a domestic gas appliance in which the flame can be varied to have an aesthetic visual effect, as described in the claims.

The domestic gas appliance of the invention comprises at least one burner where a flame is generated, at least one valve associated with the burner and which regulates the passage of gas towards said burner, and control means that are associated with the valve and which They are adapted to generate a control signal for said valve, regulating the gas flow to the burner. The valve regulates the gas flow depending on the control signal.

The control means receive a reference signal representative of the volume of a sound sequence, and generate the control signal based on said reference signal. The sound sequence is not previously stored or selected, so the control means do not respond to previously established sequences, but are adapted to generate a control signal based on a reference signal representative of the volume of any sound sequence .

In this way, the user can opt for any sequence of sounds and obtain a flame according to said sequence of sounds, being able to recreate the environment or emotions that you want at any time for example, by means of the flame, without being obliged to select between previously established environments, at the same time that the domestic gas appliance fulfills its main task that may be to heat (in the case of a gas stove) or to illuminate (in the case of a gas lamp) by example.

These and other advantages and features of the invention will become apparent in view of the figures and the detailed description of the invention.

DESCRIPTION OF THE DRAWINGS

FIG. 1 schematically shows the apparatus of the invention.

FIG. 2a shows a linear relationship between a reference signal and a control signal of the apparatus of Fig. 1.

FIG. 2b shows a logarithmic relationship between a reference signal and a control signal of the apparatus of Fig. 1.

FIG. 2c shows a potential relationship between a reference signal and a control signal of the apparatus of Fig. 1.

FIG. 3a represents the volume variations of a melody for which the most appropriate relationship is the linear relationship.

FIG. 3b represents the volume variations of a melody for which the most appropriate relationship is the logarithmic relationship.

FIG. 3c represents the volume variations of a melody for which the most appropriate relationship is the potential relationship.

FIG. 4a shows a first example of a burner of the apparatus of Fig. 1.

FIG. 4b shows a second example of a burner of the apparatus of Fig. 1.

FIG. 5 is a sectional view of a valve of the apparatus of FIG. 1, with a voice-coil type actuator.

FIG. 6 is a sectional view of a valve of the apparatus of FIG. 1, with a piezoelectric bender actuator.

DETAILED EXHIBITION OF THE INVENTION

A schematic embodiment of a gas domestic appliance 100 of the invention is shown in Figure 1, as a block diagram. The apparatus 100 may correspond to a gas heating apparatus or gas stove, or to a lighting apparatus such as a gas lamp, for example, and comprises at least one burner 1 where a flame is generated, at least one valve 2 associated to the burner 1, and control means 3 that are associated with the valve 2 and that are adapted to generate at least one control signal Sc adapted to control said valve 2. Depending on the control signal Sc, the valve 2 regulates the passage of gas towards the burner 1. The apparatus 100 may further comprise ignition means (not shown in the figures) for igniting the flame in the burner 1, which may comprise an igniter or a spark generator for example, being the control means 3 adapted to cause said ignition means to ignite the gas that reaches said burner 1 at a given time, the flame being generated as a consequence of said ignition. The control means 3 may comprise a DSP ("Digital Signal Processor"), a controller, a microprocessor or an equivalent device.

The control means 3 receive an analogue Sref reference signal representative of the volume of a sound sequence and generate the control signal Sc as a function of said Sref reference signal, so that the flame present in the burner 1 moves according to said sound sequence Unlike the Sref reference signal, the control signal Sc is digital.

The sound sequence preferably comprises a melody or music, but any other type of sequence such as wave simulation can be used for example. This sound sequence is generated by a music center or equipment that returns an analog Sson sound signal identifying the music it plays. The apparatus 100 of the invention comprises an amplifier stage 6 that receives said Sson sound signal and regulates the gain of said Sson sound signal. If the sound signal Sson has very high voltage values, the amplifier stage 4 decreases said voltage values, if it has very low voltage values it raises them, and if it has intermediate or acceptable voltage values it keeps them as they are. As intermediate or acceptable voltage values can be understood those voltage values that can be accepted and treated by the control means 3, which could depend on the control means 3 used.

The apparatus further comprises an adaptation stage 7 where the signal from the amplifier stage 6 is treated, once treated in said amplifier stage 6. Previously, the manufacturer prescribes which parameter of said signal is taken into account to generate the control signal Sc, which may correspond to its amplitude (instantaneous signal), its effective value or that may be a function of peak detection, for example. The output signal of said adaptation stage 7 corresponds to the reference signal Sref that reaches the control means 3, as shown in Figure 1, said control means 3 generating the control signal Sc as a function of said reference signal Sref.

The relationship between the reference signal Sref and the control signal Sc can be linear, logarithmic or potential for example, which are represented by the curves shown in Figures 2a, 2b and 2c respectively. In figures 3a, 3b and 3c three different types of melodies are shown, with different rhythms, represented as a function of the variations in the volume of said melodies (reference signal Sref, coordinate axis). In the representation of figure 3a, the volume of the melody undergoes frequent variations between a zone of maximum levels Zmax and a zone of minimum levels Zmin, large variations in volume, so the most appropriate relationship to apply for this case would be the linear relationship shown in figure 2a. In the representation of Figure 3b, the volume of the melody undergoes frequent variations only in the zone of minimum levels Zmin, small variations in volume, and suffers very few variations between said zone of minimum levels Zmin and the zone of maximum levels Zmax, and / or in the zone of maximum levels Zmax. Thus, in this case it is interesting to have a good resolution especially in the variations of volume of the zone of minimum levels Zmin, so the relation to apply more appropriate for this case would be the logarithmic relation shown in Figure 2b, whereby a small range of analog input values (coordinate axis) of the zone of minimum levels Zmin, corresponds to a wide range of digital output values (control signal Sc, abscissa axis). In the representation of Figure 3c, the volume of the melody undergoes frequent variations only in the zone of maximum levels Zmax, small variations in volume, and suffers very few variations between said zone of maximum levels Zmax and the zone of minimum levels Zmin, and / or in the zone of minimum levels Zmin. Thus, in this case it is interesting to have a good resolution especially in the variations of volume of the zone of maximum levels Zmax, so that the relation to apply more suitable for this case would be the potential relation shown in Figure 2c, by which to a small range of analog input values (coordinate axis) of the zone of maximum levels Zmax, corresponds to a wide range of digital output values (control signal Sc, abscissa axis).

The apparatus 100 may comprise a single burner 1 with a single combustion zone 1a where a flame is ignited or with a plurality of combustion zones 1a, a flame may be ignited in each of said combustion zones 1a. Said apparatus 100 could also comprise a plurality of burners 1, each comprising one or more combustion zones 1a. The apparatus 100 comprises, for each combustion zone 1a, an associated valve 2, and the control means 3 generate a control signal Sc for each of said combustion zones 1a. The control signals Sc can be the same or different for all the valves 2, being a control signal Sc the result of a linear relationship with the reference signal Sref and another control signal Sc of a logarithmic or potential relationship with the signal of Sref reference, for example. In general, in each combustion zone 1a the flame can be modulated

or be modified independently to the rest of combustion zones 1a. The burner 1 is not limited to a specific shape and / or configuration and can comprise any conventional shape such as those shown in Figure 4a (with a single combustion zone 1a in this case) and in Figure 4b (with two zones of combustion 1a in this case, also arranged at different heights). In each combustion zone 1a the corresponding tube 1c comprises a plurality of grooves 1a ’through which the flame goes outside. As shown in Figure 4b, in addition, the shape and / or configuration of a combustion zone 1a (of a tube 1c where combustion zone 1a is arranged) may be different from that of another combustion zone 1a (at tube 1c of another combustion zone 1a), and the burner 1 may comprise an intermediate tube 1b for communicating the flame of a combustion zone 1a with another combustion zone 1a, such that the flames present in the burner 1 have a continuity despite being generated in different combustion zones 1a.

To obtain a flame that represents the volume of the sound sequence as realistically as possible, it is desirable to use valves 2 that can be opened and closed at high speeds, at speeds greater than 30Hz for example. Thus, in a preferred embodiment of the invention, valve 2 comprises a voice-coil actuator shown in Figure 5. This type of actuator comprises a permanent magnet 2b, and in the preferred embodiment said permanent magnet 2b is axial magnetized (although could be radial). Alternatively, the valve 2 could further comprise piezoelectric bender type actuators such as that shown in Figure 6, or ultrasonic type motors, which can also be opened and closed at high speeds. The piezoelectric bender actuators comprise a piezoelectric element 10 which, depending on the temperature, can move as indicated by reference M in Figure 6, by opening or closing the gas passage through the valve 2.

In the preferred embodiment, the valve 2 used is a valve 2 with a voice-coil actuator. These types of actuators comprise a moving part 2a (moving coil) whose displacement causes the opening or closing of the valve 2, allowing or preventing the passage of gas towards the burner 1. The smaller the movement of the moving part 2 at the speed The displacement that can be achieved is greater, and the less that said moving part 2a weighs, the easier it is to move it and greater travel speeds can be achieved. In this case, the actuator configuration is such that a weight of said moving part 2a of less than 2 grams and a displacement of less than 1 millimeter is achieved. To cause the displacement of the mobile part 2a it is necessary to supply the valve 2 (the actuator) with an electric current, in such a way that a magnetic field is generated that opposes the force exerted by the permanent magnet 2b, causing the opening of the valve 2. The apparatus 100 comprises a driver 8 or a control system (not shown in the figures) for the valve 2, to which the control signal Sc arrives. The driver 8 generates the electric current for the valve actuator 2 as a function of said control signal Sc, which is preferably square. The square signals comprise, in each period, a Ton interval in which the signal corresponds to a logical "1", and a Toff interval in which the signal corresponds to a logical "0", known as duty-cycle a the relationship between said intervals Ton and Toff. By adjusting the duty - cycle of the electric current signal, the opening and closing of the valve 2 is controlled.

To supply the valve 2, the apparatus 100 comprises two electrical connections that are connected to the movable part 2a (coil). Each of said connections comprises a wire (not shown in the figures) through which the electric current flows, and said wires, which extend from a connector (not shown in the figures), are preferably extended with a substantially shaped sinus and preferably comprise a small diameter, less than 0.02mm. In this way the stresses and / or oscillations that said threads can cause on the mobile part 2a are perceived by said mobile part 2a in a very dampened manner, and do not exert efforts or forces on said mobile part 2a that could affect its speed of closing and opening. In addition, since the force perceived by the moving part 2a from the wires is minimal, these do not prevent said moving part 2a from performing many cycles without being damaged (of the order of millions), the actuator comprising a long service life. , which is a very relevant factor for use in household appliances 100.

The sound sequence is generated by a sound device 5 which are conventional devices that already have an output that corresponds to the Sson sound signal. The sound device 5 may comprise, for example, pick-up elements such as CD players, DVD players, microphones ..., or even devices referred to as "virtual" electronic devices, such as a guitar or an electronic baton for example. The sound device 5 may also be an external device to the heating apparatus 100 as shown in Figure 1, or it may be integrated in the device 100 itself. In the case of an external sound device 5, said Apparatus 100 comprises an input 15 for receiving the Sson sound signal from the sound device 5, which preferably comprises a plug.

Claims (17)

 1.-Gas domestic appliance with flame control, comprising at least one burner (1) where the flame is generated, at least one valve (2) associated with the burner (1), and control means (3) that are associated with the valve (2) and that are adapted to generate a control signal (Sc) by which the gas flow to the burner (1) through the valve is regulated ( 2), characterized because the control means (3) receive at least one reference signal (Sref) representative of the volume of a sound sequence, and generate the control signal (Sc) based on said reference signal (Sref), the corresponding flame moving with that sequence of sounds. 2. Apparatus according to claim 1, wherein the reference signal (Sref) is analog and corresponds to an adaptation of an analog sound signal (Sson) generated by a sound device (5), the apparatus comprising (100) an amplifier stage (6) that regulates the gain of said sound signal (Sson), and an adaptation stage (7) that generates the reference signal (Sref) based on a preset parameter of said sound signal (Sson), from the signal from the amplifier stage (6). 3. Apparatus according to claim 2, comprising an input (15) for receiving the sound signal (Sson), being adapted to receive through the input (15) a sound signal (Sson) generated by a sound device (5) that may comprise a virtual electronic type control instrument. 4. Apparatus according to claim 2, comprising the integrated sound device (5) that generates the sound signal (Sson). 5. Apparatus according to any of the preceding claims, wherein the sequence of sounds corresponds to a melody. 6. Apparatus according to any of the preceding claims, comprising a driver (8) that receives the control signal (Sc) and that generates an actuation signal (Sa) to feed the valve (2), said actuation signal corresponding (Sa) with a square current signal, and the opening and closing of the valve (2) being regulated according to the duty-cycle of said actuation signal (Sa). 7. Apparatus according to any of the preceding claims, wherein the relationship between the reference signal (Sref) and the control signal (Sc) is linear. 8. Apparatus according to any one of claims 1 to 6, wherein the relationship between the reference signal (Sref) and the control signal (Sc) is logarithmic. 9. Apparatus according to any of claims 1 to 6, wherein the relationship between the reference signal (Sref) and the control signal (Sc) is potential. 10. Apparatus according to any of the preceding claims, wherein the valve (2) comprises a voice-coil type actuator that can act at speeds greater than 30Hz. 11. Apparatus according to claim 10, wherein the valve (2) comprises a permanent magnet (2b) of axial magnetization. 12. Apparatus according to any of claims 10 or 11, wherein the valve (2) comprises two electrical connections that allow its activation, said connections comprising wires a substantially sinus shape and a wire diameter of less than 0.02mm. 13. Apparatus according to any of claims 1 to 9, wherein the valve (2) comprises a piezoelectric bender actuator that can act at speeds greater than 30Hz. 14. Apparatus according to any of the preceding claims, wherein the burner (1) comprises a plurality of combustion zones (1a) where the flame is ignited, the apparatus (100) comprising a valve (2) associated with each zone of combustion (1st). 15. Apparatus according to claim 14, wherein the control means (3) are adapted to be able to generate different control signals (Sc) for each combustion zone (1a) of the burner (1). 6 73821 Fig. 1  Fig. 2a   Fig. 2b  Fig. 2c    Fig. 3a    Fig. 3b   Fig. 3c  Fig. 4a   1st  1c 1’ Fig. 4b Fig. 5 2 Fig. 6 SPANISH OFFICE OF THE PATENTS AND BRAND Application no .: 200930261 SPAIN Date of submission of the application: 04.06.2009 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE 51 Int. Cl.: F24C3 / 12 (2006.01) F23N5 / 16 (2006.01) RELEVANT DOCUMENTS

Category

56 Documents cited Claims Affected

X

FR 2689963 A1 (BISMUTH ROBERT ET AL.) 10/15/1993, page 1, lines 1-18; page 1, line 24 - page 2, line 2; page 2, line 12 - page 3, line 33; page 4, lines 7-12; Figures 1, 2. 1-15

X

US 6413079 B1 (LYONS DAVID CHARLES ET AL.) 02/07/2002, summary extracted from the EPOQUENETDATA database of the European Patent Office. 1-5

TO

EP 0428373 A2 (CONTROL TECHTRONICS INC) 05/22/1991, claims 1, 2, 8. 1-4,6,7

Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

This report has been prepared • for all claims • for claims no:

Date of realization of the report 14.05.2012

Examiner A. Rodríguez Cogolludo Page 1/4

REPORT OF THE STATE OF THE TECHNIQUE Application number: 200930261 Minimum documentation sought (classification system followed by classification symbols) F24C, F23N Electronic databases consulted during the search (name of the database and, if possible, terms of search used) INVENES, EPODOC State of the Art Report Page 2/4  WRITTEN OPINION Application number: 200930261 Date of Written Opinion: 05.05.2012 Statement

Novelty (Art. 6.1 LP 11/1986)

Claims Claims 1-15 IF NOT

Inventive activity (Art. 8.1 LP11 / 1986)

Claims Claims 1-15 IF NOT

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Opinion Base.- This opinion has been made on the basis of the patent application as published. State of the Art Report Page 3/4  WRITTEN OPINION Application number: 200930261 1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number publication date

D01

FR 2689963 A1 (BISMUTH ROBERT et al.) 15.10.1993

D02

US 641307 B1 (LYONS DAVID CHARLES et al.) 02.07.2002

2. Statement motivated according to articles 29.6 and 29.7 of the Regulations for the execution of Law 11/1986, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement The object of the request is a household appliance powered by gas which is provided with a valve for regulating the flow rate of said fuel as a function of the volume of an acoustic signal. In this way, the flame can be adjusted according to the volume of a sequence of sounds. Document D01 discloses a domestic gas burner with flame control in which, by means of a valve activated by an electroacoustic signal, the flow of gas to the flame generating means is regulated. As described in D01, the regulation system may be provided with an acoustic signal generator, or receive said signals from an external source. The acoustic signals, once amplified, are transformed into an electrical signal that will feed an electromagnet. The device that modifies the opening of the gas valve uses a lever of a ferromagnetic material by means of which the intensity of the flame is regulated based on the electrical voltage representative of the existing sound volume. Document D01, although it does not explicitly mention the gas burner and simply speaks of a flame generating means from that fuel, which would obviously amount to a burner, discloses all the technical characteristics contained in claim 1 of the application. Therefore, said claim would not present inventive activity according to art. 8.1 of Law 11/1986 on Patents. In relation to dependent claims 2 to 13, concerning the control electronics and the operation of the valve, it is considered that none of them provides information that is already disclosed in documents D01 or D02 cited in this report, or it reflects only design alternatives that would be apparent to a person skilled in the art. Similarly, it would be obvious to apply the flame control device of the application to an apparatus with several combustion zones (claims 14 and 15). It is concluded, therefore, that none of the dependent claims 2 to 15 meets the inventive activity requirement according to said art. 8.1 of Law 11/1986 on Patents. State of the Art Report Page 4/4