DE60007933T2 - Control device for opening a safety valve of the gas flow of a burner - Google Patents

Description

The The invention relates to a device for controlling the opening of a Control valve for controlling the gas flow rate of a burner. The invention is particularly applicable in the field of electrical household appliances Gas burners for domestic use, for example in gas ovens from cookers or used on hobs that are either standalone or in the kitchen stoves are integrated.

Most gas burners operate with a control valve for controlling the gas flow rate that is accessible to a user. 1 shows a schematic of a valve. The valve RBT contains in particular a gas feed line 1 and a gas drain line 2 to the burner BRL, which corresponds to the valve, this line having a drain passage 21 with a fixed diameter that determines the maximum gas flow rate in the burner. The valve also includes a moving part 3 , the so-called rotating part, which is, for example, conical and has a slot with a variable cross section and is rotatably carried in front of an opening with a fixed diameter, which makes it possible to adjust the gas flow rate. The rotating part is usually carried mechanically by a handle that is accessible to a user.

In general, the control valve also contains an electromagnetic safety element, for example an electro valve 4 that allows the drain passage 21 for example in the event of an unintentional extinguishing of the burner flame. This solenoid valve is, for example, an electromagnet 41 formed of a sealing washer 42 takes along, and is connected to a flame detection system, for example a thermocouple TC, which is located in the flame F of the burner. When the flame goes out, the current i _tc applied by the thermocouple in the electromagnet is no longer sufficient around the sealing washer 42 to keep, thereby this the drain passage 21 closes. The security element 4 is in a receiving trough 54 of the control valve used, the dimensions of these various parts are standard and vary little from one manufacturer to another.

When the BRL burner is ignited, the safety element must be disengaged to open the drain passage 21 to allow. The disengagement is usually carried out by mechanical pressure exerted by the user on the handle, as a result of which the sealing disk is in contact 42 supporting mechanism is taken, which allows opening of the control valve. When the flame is ignited, the flame detection system supplies the electromagnet current i _th, which makes it possible to hold the sealing disc so that the passage 21 is kept open.

It is provided, however, the manually carried rotary part certain Replace control valves with motorized turned parts, for example via geared motors are driven and controlled by an electronic control system guaranteed the user becomes. In particular, the mechanical disengagement of the security elements used are no longer possible.

An electronic control device for controlling a valve is known, as is shown in FIG EP 0 939 279 is described, which controls the opening and closing of a safety electro valve.

The Invention beats an electronic control device for controlling the opening of the valve with which it is according to a Application example possible is the disengagement of the safety element for control valves with motorized turned parts Taxes.

To The invention relates at least to a device for controlling the opening a control valve for controlling the gas flow rate of a burner, as in the claims 1 to 11 is defined.

The device according to the invention allows it, in the case of burners with valves with a motorized rotating part Ignite of the burner by controlling the opening to electronically control the gas discharge passage in the valve. she offers however, numerous other ways such as the control of certain functions of the type gentle cooking, Timer, re-ignition, etc. both for valves with manually driven turned parts also for valves with motorized turned parts. It also points the advantage of using an electro valve that takes up space comparable to known electromagnetic security elements is what makes it possible is not to change the structure of existing valves, nor additional electromagnetic elements outside the Valve.

Further Advantages and features of the invention emerge from reading the following description, which is illustrated in the figures, wherein shows:

1 an example of a control valve for controlling the gas flow rate from the prior art (already described),

2 1 shows a diagram of an exemplary control device according to the invention,

3 an embodiment of an electro valve according to the invention,

4 an embodiment of the electronic control means of the device according to the invention, and

5 a flow chart showing an example of the operation of the device according to the invention.

In these figures are identical parts with the same reference numerals indicated.

2 shows a schematic of an exemplary control device according to the invention. It is the control of at least one control valve RBT for controlling the gas flow rate of a burner BRL. In 2 only one valve is shown, but the device according to the invention can be used to control a plurality of valves, each of which corresponds to one burner. For example, the burners are installed in a hob that is either self-contained or integrated in a kitchen stove. They can also be burners for gas furnaces, boilers and in general any type of gas burner, the gas flow rate of which is controlled by a control valve.

As in 1 the valve contains in particular a gas supply line 1 and a gas drain line 2 to the burner BRL, the drain line having a drain passage 21 having a fixed, predetermined diameter, and for example a rotating part for controlling the gas flow rate (not shown). The valve also contains a trough 5 , which makes it possible to accommodate a safety electromagnetic element that may be present.

According to the invention, the control device contains an electrovalve for each control valve 4 , which takes up such a space that it is in the receiving trough 5 can be included. The electro valve 4 contains in particular an electromagnet 41 and a sealing washer 42 that is large enough to close the drain passage 21 to enable. The sealing washer is carried axially by the electromagnet. The electro valve 4 also contains a return spring for the sealing washer 42 (in 2 not shown) with which the drain passage 21 can be kept in the closed position when no force is exerted by the electromagnet.

An embodiment of an electrovalve for a device according to the invention is shown schematically in 3 shown. This example is an electro valve with a so-called U-shaped electromagnet 41 , The electromagnet contains a single winding 43 , which is distributed over the two legs of the U-shape, contains a given total number of turns, and an anchor 44 , with the sealing washer 42 over an axis 45 is connected to said anchor. Of course, other types of electromagnets can be provided, such as cylindrical electromagnets. In 3 is also the return spring (at 46 ) for the sealing washer 42 shown through which the drain passage 21 can be held in the closed position when no force is exerted on the armature by the electromagnet. The feather 46 presses on the sealing washer 42 and the construction of the electromagnet positioned around the winding.

According to the invention, the device further contains electronic control means (at 6 in 2 shown} for controlling the solenoid valve of each control valve. These means make it possible to introduce a given peak current into the winding of each solenoid valve. This peak current and the number of turns in the winding are dimensioned such that the product of the peak current and the number of turns (specified in ampere-turns) is sufficient to move the sealing washer with the applied electric drive force 42 and opening the drain passage 21 to allow. These control means are described in more detail below. The user can advantageously have access to all or part of the functions of these control means, which, for example, enable him to electronically control the ignition of a burner.

Thus, the solenoid valve of the control device according to the invention is dimensioned in a special way. According to an example in the field of electrical household appliances, for example in the field of gas burners for hobs or gas stoves, the restoring force of the spring is typically in the Newton range during a drain passage 21 with a diameter of about 6 mm. The spring is dimensioned so that it complies with the safety standards regarding the gas network. The electric drive force applied by the electromagnet must be sufficient to overcome the restoring force of the spring. The applicant has shown that in this example with a U-shaped electromagnet of the type comparable to that used in the security elements of the prior art and its armature over a distance d of about 1.5 mm must shift, the product of the number of turns and the peak current is approximately in the range of 1000 ampere-turns, which corresponds to a value which is significantly higher than that which is required for the simple hold of the armature. For this purpose, the number of turns of the winding is, for example, about 1000. This number is significantly higher than the number of turns that is usually present in a security element that is also U-shaped gene contains electromagnets (with this type of electromagnet, the number of turns is about 10 on each winding). In order to maintain the required space, the applicant suggests in this example to provide only a single winding, the cross section of the wire of which has a diameter of substantially less than 0.1 mm, which corresponds to an order of magnitude which is significantly below that of an ordinary security element.

The tax revenue 6 (please refer 2 ) contain funds 61 to control the amount of energy delivered to the winding of each solenoid valve when the peak current is applied. Because the wire cross-section is reduced, the resistivity is very high and safety devices must be used to limit the power loss in the winding as a function of time. 4 shows an embodiment of the control means, which represent this control means. They are formed, for example, from a capacitor C in which the energy required to displace the sealing disk of an electrovalve is stored. The load circuit for capacitor C is in the example of 4 formed by a voltage generator U ₀ , which is connected to the connections of the capacitor via a network, a first resistor R ₁ (with which the leakage currents of the capacitance can be held) and a second resistor R ₂ connected in parallel with a first switch connected in parallel CT _{1 are} provided. Switch means any type of mechanical or electrical switch (formed from a transistor). The switch CT ₁ closes briefly (during a time period which is approximately three times the product of the value of R ₂ and the capacitance of the capacitor, ie typically 1 second) in order to accelerate the charging of the capacitor C, for example from 0 to 50 V. , after which R ₁ holds this charge. This process takes place automatically, for example, when the hob or the oven is energized, or even after a first burner has been ignited. The capacitor is thus immediately recharged and is ready to be discharged again into the winding of an electrovalve. A capacitor of this type could be provided for each electrovalve, but in practice only one capacitor is actually required for all electrovalves corresponding to the burners, since the user generally ignites the burners one after the other and not simultaneously.

On the other hand, the control means in this example contain transmission means for each burner 62 for transferring the energy stored in the capacitor to the winding 43 the burner control valve solenoid valve to displace the solenoid valve washer and allow the valve drain passage to open. As in 4 is shown, the transmission means are ensured, for example, by a switch CT ₂ . The capacitor C discharges into the winding via the switch CT ₂ 43 of the solenoid valve, which generates a current i _b in the winding. There is one switch per solenoid valve. The switch CT ₂ is controlled, for example, by the user when he wants to ignite the corresponding burner.

The electronic control means on the other hand contain means for each solenoid valve 63 for supplying a holding current in the winding of the solenoid valve in order to be able to hold the sealing washer in such a way that the outlet passage 21 of the corresponding valve remains open. In the example 4 the means for supplying the holding current are formed from an energy source U ₁ , which is connected in series with a third switch CT ₃ to the terminals of the winding via a resistor R ₃ . The switch CT ₃ closes, for example, essentially at the same time as the switch CT ₂ , whereby the holding current can be guaranteed directly. When capacitor C has discharged into the solenoid coil, switch CT ₂ opens (and the capacitor can be recharged) while switch CT ₃ remains closed.

The opening of the switch CT ₃ can be controlled, for example, by the user when he wants to switch off the burner.

According to a variant (in 2 shown), the electronic control means further contain electronics 64 for measuring a signal which is output by a flame detection system, for example a thermocouple TC, which is positioned in the flame F of each burner. The measurement signal is, for example, the holding current supply means 63 of the control valve corresponding to the burner, whereby if the flame F is inadvertently extinguished, it is possible to switch off the supply of the holding current and to close the drain passage of the control valve. For example, in the example of 4 the measurement signal the opening of the switch CT ₃ .

In practice, the tax funds contain 6 a sequence control for the various switches, for example by means of a state generator or a microcontroller with a sequence program. The user then acts on these control means by triggering a sequence.

5 shows a flowchart which indicates the current in in the winding as a function of time t, control means of the type as shown in FIG 4 described are provided. When the voltage is switched on, CT _{1 is} briefly closed, causing the capacitor can be loaded. At time t ₀ , the user decides to ignite the burner and controls the closing of switch CT ₂ . The capacitor discharges into the winding 43 , whereby a peak current i _{p is introduced} into the winding, which enables the armature of the corresponding valve to be displaced and the drain passage to be opened. At the same time, CT ₃ closes, which ensures a holding current in the winding. At time t ₁ , the user decides, for example, to switch off the burner and controls the opening of switch CT ₃ . The process can be repeated for each burner.

The control device according to the invention offers numerous possible uses. In addition to the electronic control for switching on a valve by a user, functions of the type re-ignition, subsequent gentle cooking, timer, etc. are possible. For example, for the reignition, the control means can be considered in view of the exemplary embodiment 4 detection of a nonexistent flame on a burner causes CT ₂ and CT ₃ to close to discharge the capacitor into the winding to re-ignite the burner and to keep it fired due to the holding current. In the case of subsequent gentle continued cooking, the closing and opening of the switches CT ₂ and CT ₃ can be controlled in succession in order to ensure the subsequent ignition of the burner and to enable gentle continued cooking.

Claims (11)

Device for controlling the opening of at least one control valve (RBT) for controlling the gas flow rate of a burner, the control valve in particular a gas feed line ( 1 ) and a gas drain line ( 2 ) to the burner, the drain line having a drain passage ( 21 ) with a fixed, predetermined diameter and a trough ( 5 ) to accommodate a safety electrovalve to close the drain passage in the event of the flame (F) of the burner being inadvertently extinguished, the control device comprising: - an electrovalve for each control valve ( 4 ), which forms the safety electrovalve and takes up such a space that it is in the receiving trough ( 5 ) can be accommodated, and in particular an electromagnet ( 41 ) and a sealing washer ( 42 ) which is large enough to allow the drain passage to be closed and which is axially entrained by the electromagnet, as well as a sealing disc return spring ( 46 ), with which the drain passage can be kept in the closed position, the electromagnet having a single winding ( 43 ) with a given number of turns that also open the drain passage ( 21 ) allowed, - electronic means ( 6 ) to control the solenoid valve (s) via which a given peak current (ip) can be introduced into the winding of each solenoid valve, the peak current being such that the product of the same and of the number of turns is sufficient to match that of the solenoid Electric drive moving the sealing washer ( 42 ) of the solenoid valve ( 4 ) when opening the drain passage ( 21 ), characterized in that the electronic control means ( 6 ) Medium ( 61 ) to control the power loss in the winding of each solenoid valve depending on the time when the drain passage is opened, the control means ( 61 ) contain a capacitor (C) and a load circuit for the capacitor, which makes it possible to store the energy required to displace a sealing disk of an electrovalve. Device according to claim 1, characterized in that the electronic control means further contain - for each control valve transmission means ( 62 ) to transfer the energy stored in the capacitor to the winding ( 43 ) of the solenoid valve of the control valve in order to displace the sealing disk of the said solenoid valve, - means for each control valve ( 63 ) for supplying a holding current (i _m ) into the winding of the solenoid valve of said control valve in order to hold the sealing disk of said solenoid valve so that the opening of the drain passage of said control valve is maintained. Device according to claim 2, characterized in that the transmission means ( 62 ) and the feeding means ( 63 ) for supplying the holding current can be controlled by a user in order to control the opening or closing of the drain passage of the corresponding control valve. Device according to one of claims 2 or 3, characterized in that the electronic control means furthermore electronics ( 64 ) for measuring at least one signal which is output by at least one device for detecting the flame (F) of a burner, the measurement signal being used to supply the holding current ( 63 ) of the control valve of said burner is supplied, whereby it is possible in the event of an unintentional extinguishing of the flame (F) to switch off the supply of the holding current into the solenoid valve of said control valve and to close the drain passage of the control valve. Device according to one of the preceding claims, characterized in that the electromagnet of said solenoid valve is U-shaped and in particular a winding distributed over the two legs of the U-shape and an armature ( 44 ) contains, the sealing disc of the solenoid valve via an axis ( 45 ) is connected to said anchor. Apparatus according to claim 5, characterized in that with a restoring force the spring of the aforementioned electrovalve in the Newton range and at a displacement (d) of the anchor of approximately 1.5 mm from the product the number of turns of the winding and from the peak current in Range of 1000 ampere turns. Apparatus according to claim 6, characterized in that the number of turns of the winding is in the range of 1000 and the cross section of the wire forming the winding has a diameter has significantly less than 0.1 mm. Device according to one of claims 1 to 4, characterized in that that the solenoid of the solenoid valve mentioned is cylindrical and in particular includes a winding and a core that slides in said winding, the sealing washer of the solenoid valve is attached to said core. Device according to one of the preceding claims, characterized characterized in that the control valve or valves with a drive system to control the flow rate are provided electronically can be controlled by a user, with opening the or the control valves by the user in particular the ignition of the appropriate burner possible is. Hob with at least one gas burner and pro Burner a control valve for controlling the gas flow rate, wherein the control valve in particular a gas inlet line and a gas outlet line to the burner contains wherein the drain line has a drain passage with a fixed, predetermined diameter has, and a receiving trough for receiving a safety electro valve to lock of the said passage, characterized in that it a device for controlling the opening of the control valve or valves according to one of the preceding claims. Gas furnace with at least one gas burner and per burner a control valve for controlling the gas flow rate, the Control valve in particular a gas inlet line and a gas outlet line to the burner contains wherein the drain line has a drain passage with a fixed, predetermined diameter has, as well as a receiving trough for receiving a safety electro valve to lock said passage, characterized in that it a device for controlling the opening of the control valve or valves according to one of the claims Contains 1 to 9.