ES2215012T3 - OPENING COMMAND DEVICE OF A GAS FLOW CONTROLLER WRENCH. - Google Patents

Abstract

Opening control device of at least one key (RBT) for controlling the gas flow of a burner, said key especially comprising a gas inlet duct (1), a gas outlet duct (2) towards the burner, said outlet duct having a predetermined fixed diameter outlet passage (21), and a receiving housing (5) of a safety solenoid valve for closing the outlet passage in case of untimely extinction of the burner flame (F) , including the control device: - for each key, a solenoid valve (4), which forms the safety solenoid valve, of volume such that it can be accommodated in the receiving housing (5) and which especially comprises an electromagnet (41), a sealing pad (42), of sufficient size to allow the closure of said exit passage, axially actuated by the electromagnet, and a recovery spring (46) of said tablet allowing said exit passage to be closed a, the solenoid comprising a single winding (43) with a number of turns as it also allows the opening of the outlet passage (21), - electronic means (6) for controlling the solenoid valve or of said solenoid valves, which allow providing the winding of each solenoid valve a given tip current (ip), said tip current being such that the product thereof by the number of turns is sufficient so that the electromotive force applied by the electromagnet causes the displacement of the pad (42) of the solenoid valve (4) when opening the outlet passage (21), characterized in that the electronic control means (6) comprise control means (61) of the power dissipated in the winding of each solenoid valve as a function of time upon opening the exit passage, said control means (61) comprising a capacitor (C) and a charging circuit of said capacitor that allows to accumulate said necessary energy for to the displacement of a sealing pad of a solenoid valve.

Description

Control device for opening a key gas flow control of a burner.

The invention relates to a control device of opening a gas flow control key of a burner. The invention is especially applied in the field of appliances to household gas burners, used for example in gas ovens in kitchens, or in cooking countertops, are independent, are integrated into the kitchens.

Most gas burners work with a gas flow control key, accessible to a user. The Figure 1 represents a schematic of a key. The RBT key comprises especially a gas inlet duct 1, a duct 2 of gas outlet to the BRL burner corresponding to said key, this duct presenting an outlet passage 21, whose diameter, fixed, Determine the maximum gas flow in the burner. The key includes also a mobile part 3, called "male", for example in cone shape with a variable section slit, and that is Actuated in rotation before a hole of fixed diameter, which allows thus regulate the gas flow. Usually, the male is powered mechanically by a hand accessible to a user.

Generally, the key also comprises a electromagnetic safety element, for example a solenoid valve 4, which allows to close the outlet passage 21, in the case, for example, of an untimely extinction of the flame of the burner. This solenoid valve, for example, is formed by a electromagnet 41, which drives a sealing pad 42, and attached to a flame detection system, for example a TC thermocouple located in the flame F of the burner. When the flame goes out, the current i_ {tc} that provides the thermocouple to the electromagnet no longer it is sufficient to maintain the sealing tablet 42 and this seal the exit step 21. The security element 4 is placed in a shelter 5 of the key, and the dimensions of these Different parts are standardized, varying little from one supplier to other.

When the BRL burner is switched on, the security element must be disengaged to allow opening of the exit passage 21. The disengagement is usually done by a mechanical pressure of the user on the hand, which drives a support mechanism in the seal 42, allowing thus the opening of the key. When the flame is on, the flame detection system provides a current to the electromagnet that allows to maintain the sealing pad of such so that step 21 is kept open.

However, it is planned to replace the manually operated male of certain keys with motorized males, driven, for example, by gearmotors, and whose command is ensured by an electronic user control. Especially in this type of keys, mechanical disengagement of the security element in situ is no longer possible.

An electronic control device of a key as described in EP 0939 279, which sends the opening and closing of a solenoid valve security.

The invention proposes a control device electronic opening of the key that allows, according to an example of application, send in the keys of motorized males, the disengagement of the safety element.

For this, the invention relates to a opening control device of at least one control key of the gas flow rate of a burner, as defined in the claims 1 to 11.

The device according to the invention thus allows send electronically in the burners with male keys motorized burner ignition by step opening command of gas balance on the faucet. But it offers numerous others possibilities, such as the management of some functions of type maintenance, timing, restart, etc., both in the male keys operated manually as in male motorized It also has the advantage of using a volumetric solenoid valve comparable to the elements Safety electromagnetic of the prior art, which allows not to change the structure of existing keys, and not add supplementary electromagnetic elements outside of the key.

Other advantages and features of the invention will appear from the reading of the description that follows, illustrated by The figures they represent:

- Figure 1, an example of the control key of the gas flow rate according to the prior art (already described);

- Figure 2, a diagram of an example of a control device according to the invention;

- Figure 3, an exemplary embodiment of a solenoid valve according to the invention;

- Figure 4, an example of embodiment of the electronic control means of the device according to the invention;

- Figure 5, a schedule that illustrates, according to an example, the operation of the device according to the invention.

In these figures, homologous elements have identical references.

Figure 2 represents a schematic of an example of control device according to the invention. It's about the command of al minus an RBT gas flow control key of a BRL burner. In figure 2, a single key is shown, but the device according to the invention it can be applied to the command of several keys that Each one corresponds to a burner. The burners are mounted, for example, on a cooking hob, be independent, be integrated into a kitchen It can also be burners of gas oven, boiler burners, and in general, everything type of gas burner whose gas flow control is secured for a key.

As in figure 1, the key comprises especially a gas arrival duct 1, a duct 2 of gas outlet to the BRL burner, said duct presenting a output step 21 of predetermined fixed diameter and for example a male for gas flow control (not shown). The key It also includes a shelter 5 that allows receiving a possible electromagnetic safety element.

According to the invention, the control device it comprises, for each key, a solenoid valve 4 whose volume allows to stay in the shelter 5. The solenoid valve 4 it especially comprises an electromagnet 41 and a tablet of tightness 42, of sufficient size to allow the closure of the exit step 21. The sealing pad is activated axially by the electromagnet. The solenoid valve 4 further comprises a recovery spring of the tablet 42 (not shown in the Figure 2), which allows the passage of the output 21 when no force is applied by the electromagnet.

An example of realization of a solenoid valve for a device according to the invention. This is an example of a solenoid valve that incorporates an electromagnet 41 called "U". Electromagnet incorporates a unique winding 43, distributed in the two branches of the U, of the total number of turns given and an armor 44, with the sealing pad 42 on an axis 45 to said reinforcement. By of course, other types of electromagnets, such as for example, cylindrical electromagnets. In figure 3, it has also shown the recovery spring (with the reference 46) of the sealing pad 42, which allows to keep in closed position the exit step 21 when no force is applied some to the armor by the electromagnet. Spring 46 is supported on the seal 42 and on the structure of the electromagnet placed around the winding.

According to the invention, the device comprises also electronic control means (with reference 6 in the Figure 2) of the solenoid valve of each key. These means allow provide the winding of each solenoid valve with a current of tip given. This peak current, as well as the number of turns in the winding they are sized in such a way that the product of the peak current by the number of turns (given in amps-turns) is enough for the force Applied electromotive allow the displacement of the tablet tightness 42 and the opening of the exit passage 21. These means of command are described in more detail below. Advantageously, the user can access all the functions of these media of command or a part of them, allowing for example to send electronically the ignition of a burner.

Thus, the solenoid valve of the control device according to the invention it is sized specifically. According to a for example, in the field of household appliances, for example in the field of gas burners for cooking countertops or ovens gas, the spring recovery force of said solenoid valve it is typically of the order of newton for an exit step 21 of diameter of about 6 mm. The spring is sized to respond to the safety rules of the gas network. Electromotive force applied to the electromagnet must be sufficient to overcome the force of spring recovery. The owner of the record has shown that in this example, with a U-shaped electromagnet of a type comparable to used in the safety elements of the prior art, and whose armor must move a distance of about 1.5 mm, the product of the number of turns by the tip current must be of approximately one thousand amps turned, value clearly higher than necessary for simple armor maintenance. To do this, the number of turns of the winding is, for example, of About a thousand. This number is widely higher than number of turns that is classically found in an element of safety that also presents a U electromagnet (in fact, in this type of electromagnet, the number of turns is a ten in each coil). To respect the volume limitations, the owner of the register proposes in this example a unique winding whose section of the thread has a diameter substantially less than the tenth of mm, which is substantially an order of magnitude less than what is done in a classic security element.

The control means 6 (see figure 2) comprise control means 61 of the amount of energy delivered in the winding of each solenoid valve when the supply current is supplied tip. Indeed, the section of the thread being reduced, the resistivity is very large and safety means must be applied to limit the power dissipated in the winding depending on the time, Figure 4 illustrates an example of embodiment of the means command in which these control means are shown. For example, they are formed by a capacitor C in which the energy accumulates necessary for the movement of the sealing pad of a solenoid valve The capacitor charge circuit C is formed in the example of figure 4 by a voltage generator U_ {0} connected to the capacitor terminals by means of a network which comprises in parallel a first resistor R1 (which allows to maintain the leakage currents of the capacity) and a second resistor R2 in series with a first switch CT_ {1}. Switch means any type of switch, mechanical, or electrical (switch formed by a transistor). The switch CT_ {1} closes briefly (for a period approximately equal to triple the product of the value of R2 by the capacitor capacity, or typically 1 second) to accelerate the charge of capacitor C, for example 0 at 50 V, then R_ {1} maintains this load. Is operation is done automatically, for example, when it is put under tension the cooking hob or oven, or after the ignition of a first burner. Thus, the capacitor is recharged immediately and is ready to download again in the winding of a solenoid valve. A capacitor of this type could be provided by solenoid valve but in practice, it is only really necessary a condenser for the solenoid valve assembly corresponding to the burners, because the user turns on usually the burners one after the other, and not simultaneously.

The command means also include according to this example, and for each burner, transfer means 62 of the energy accumulated in the capacitor towards the winding 43 of the burner key solenoid valve, to move the pad sealing the solenoid valve and allow the opening of the passage of exit of said key. For example, as illustrated in the figure 4, the transfer means are secured thanks to a CT_2 switch. The capacitor C does indeed discharge into the winding 43 of the solenoid valve by means of switch CT2, generating a current i_ {b} in the winding. There is solenoid valve switch. The CT_ {2} switch is sent, for example, by the user when he wants to light the burner correspondent.

The electronic control means comprise another part for each solenoid valve supply means 63 of a maintenance current in the solenoid valve winding, which allow to maintain the sealing tablet so that it keep the exit passage 21 of the corresponding key open. In the example of figure 4, the means of contribution of the maintenance current are performed by a source of energy U_ {1} connected to the coil terminals by means of a resistor R 3 in series with a third switch CT 3. The switch CT_ {3} closes, for example, substantially at the same time that the switch CT_ {2}, allowing to immediately ensure the maintenance current When capacitor C has discharged in the solenoid valve coil, switch CT_ {2} opens (and the capacitor can be recharged) while the switch CT_ {3} remains closed.

The opening of the CT_ {3} switch can be sent, for example, by the user when he wants to close the burner.

According to a variant (illustrated in Figure 2), the electrical control means further comprise an electronic of 64 measurement of a signal emitted by a flame detection system, for example, a CT thermocouple placed in the F flame of each of the burners The measured signal is forwarded, for example, to the input means 63 of the key maintenance current corresponding to the burner, allowing in case of extinction untimely of the flame, the stop of the contribution of current of maintenance of the closing of the exit passage of the key. By For example, the measured signal allows the CT switch to open, in the example in figure 4.

In practice, the control means 6 comprise sequential management of the different switches, for example by means of a state machine, or a microcontroller with a sequencing program The user then acts on these command means firing a sequence.

Figure 5 illustrates a schedule that gives the current i_ {b} in the winding as a function of time t, an example of operation of the device according to the invention which includes control means of the type described in figure 4. When puts on tension, CT_ {1} has closed briefly, allowing the capacitor charge At time t_ {0}, the user decides light a burner, and send the CT_ {2} switch to close. The capacitor is discharged into winding 43, causing a current tip i_ {p} in the winding, which allows the displacement of the corresponding key armor, and the opening of the passage of exit. In parallel, CT_ {3}, also closes, ensuring in the winding a maintenance current i_ {m}. Later at time t_ {1}, the user, for example, decides to turn off the burner and orders the opening of switch CT_ {3}. The operation It can be renewed in each of the burners.

The control device according to the invention opens Multiple possibilities of applications. In addition to the command electronic by a user of the ignition of a key, allows functions of re-ignition type, sequential maintenance, timing, etc. For the re-ignition for example, if you return to take the example of realization of the control means of the Figure 4, a flame absence detection in a burner can bring with it the closure of CT_ {2} and CT_ {3}, in order to discharge the condenser in the winding to light the burner and keep it on thanks to the maintenance current. In sequential maintenance, closing and opening of CT_ {2} and CT_ {3} switches can be sent sequentially to ensure sequential burner ignition and allow maintenance

Claims (11)

1. Opening control device of at least a key (RBT) for controlling the gas flow of a burner, said key especially comprising an arrival duct (1) of the gas, a conduit (2) for the gas to the burner, said outlet duct presenting an outlet passage (21) of predetermined fixed diameter, and a host housing (5) of a safety solenoid valve for closing the exit passage in case of untimely flame extinction (F) of the burner, including the control device: - for each key, a solenoid valve (4), which forms the safety solenoid valve, of volume such that it can staying in the host accommodation (5) and comprising especially an electromagnet (41), a sealing pad (42), of sufficient size to allow the closure of said passage of output, driven axially by the electromagnet, and a spring of recovery (46) of said tablet that allows to keep in position said exit passage closed, the electromagnet comprising a unique winding (43) with a number of turns given that it also allows the opening of the exit passage (21), - electronic means (6) for controlling the solenoid valve or of said solenoid valves, which allow to provide in the winding of each solenoid valve a given tip current (i_ {p}), said tip current being such that the product of the latter by the number of turns is sufficient so that the electromotive force applied by the electromagnet causes the displacement of the pad (42) of the solenoid valve (4) when opening the outlet passage (21), characterized in that the electronic control means ( 6) comprise control means (61) of the power dissipated in the winding of each solenoid valve as a function of time when proceeding to the opening of the output passage, said control means (61) comprising a capacitor (C) and a circuit of charging of said condenser that allows to accumulate said energy necessary for the displacement of a sealing pad of an electrovalve. 2. Device according to claim 1, characterized in that said electronic control means further comprise - for each key, transfer means (62) of the energy accumulated in the condenser towards the winding (43) of the solenoid valve of the key for the displacement of the tablet sealing of said solenoid valve, - for each key, means of contribution (63) of a maintenance current (i_ {m}) in the winding of the valve of said key to maintain the sealing pad of said solenoid valve in such a way that the opening of the exit step of said key. Device according to claim 2, characterized in that said transfer means (62) and said contribution means (63) of the maintenance current can be sent by a user to control, respectively, the opening and closing of the passage output of the corresponding key
tooth. Device according to one of claims 2 or 3, characterized in that the electronic control means further comprise a measuring electronics (64) of at least one signal emitted by at least one flame detection system (F) of a burner , the measured signal being sent to the supply means (63) of the maintenance current of the key of said burner, allowing in case of unexpected extinction of the flame (F), the stop of the contribution of said maintenance current in the solenoid valve of said key and the closing of the exit passage of the key. Device according to one of the preceding claims, characterized in that the electromagnet of said solenoid valve is U, especially comprising a winding distributed in the two branches of the U and an armature (44), the sealing pad of the solenoid valve being connected to said reinforcement by an axis (45). Device according to claim 5, characterized in that the spring recovery force of said solenoid valve is typically of the order of Newton, the displacement (d) of the armature is about 1.5 mm and the product of the number of turns winding by the tip current is of the order of a thousand amps-turns. 7. Device according to claim 6, characterized in that the number of turns of the winding is of the order of one thousand, and the section of the thread forming the winding has a diameter substantially less than one tenth of a millimeter. Device according to one of claims 1 to 4, characterized in that the electromagnet of said solenoid valve is cylindrical, and especially comprises a winding and a core that slides inside said winding, the sealing pad of the solenoid valve being fixed to said core . Device according to one of the preceding claims, characterized in that the key (s) being equipped with a motorized flow control system, which can be electronically sent by a user, the opening control of the (s) key (s) by the user especially allows the ignition of the corresponding burner. 10. Cooking hob with at least one gas burner, and for each burner a gas flow control key, said key especially comprising a gas arrival duct, a gas outlet duct to the burner, said duct presenting an output of a predetermined fixed diameter output passage, and a housing of a safety solenoid valve for closing said output passage, characterized in that it comprises an opening control device of said key (s) according to a of the preceding claims. 11. Gas oven with at least one gas burner, and for each burner a gas flow control key, said key especially comprising a gas arrival conduit, a gas exit conduit towards the burner, said conduit presenting an output of a predetermined fixed diameter output passage, and a housing of a safety solenoid valve for closing said output passage, characterized in that it comprises an opening control device of said key (s) according to a of claims 1 to 9.