TR201809450T4 - Gas burner device with flame control electrode. - Google Patents

Abstract

A gas burner device has a burner body, an ignition electrode, a flame control electrode, and a common electrode connection. The ignition electrodes are connected via electrode connections via an arc path and the flame control electrode is connected directly to the electrode connection. The ignition electrodes have a gap voltage smaller than the flame control electrode towards the burner body. This makes it possible to implement the ignition and flame control functions using only one electrode connection. The gas burner device can be installed in a gas burner assembly by means of a control device.

Description

DESCRIPTION GAS BURNER DEVICE WITH FLAME CONTROL ELECTRODE The invention is a gas burner deviceE and even such a gas burner It relates to a gas burner assembly with a device.

A gas burner device, eg from DE 10107190 C1 known. Gas burner devices of this type, for example cooking or roasting, such as hobs or ovens Base for devicesE: can be used as a source.

Typical gas burner devices, gas burner device] PlayEstErEldEgEda yanEcD gas discharge output] many side It has a burner body with a gas outlet hole to the side.

Previously, the gas was mostly manually fired, while the current gas burner devices typically to create an arc on it. It has ignition electrodes that can be supplied with a voltage. This DjsarE escaping gas can be ignited with arc assist.

In the automatic ignition of the gas burner device, but before allsHlagelmis is really a tangible flame of all The most manual control of the day to spread out disappears. This situation is difficult just like fjrjns for example. Mounting positions with visibility Enda problematic it could be. For example, if you have an item to cook or a If objects such as cooking utensils fall on the burner body, time. base | gas d'k ß holes can be closed. This is the ignition All gas output of a flame ignited over its electrode may prevent it from spreading into the holes. This is particularly problematic because in this case the flame cannot propagate dHsan combustionMls gas comes out from the holes. This gas anyway is undesirable and irritating at best, but this is very It may lead to significant fire and explosion hazard.

In today's conditions of the technique, the gas extraction holes of the flame with the burner body related to the ignition electrode carsus It is known to monitor with the help of a thermal element. If the flame If it does not radiate correctly, this thermal element will overheat. detects. In this case, for example, a control gas cuts. Open from a flame that only partially spreads Due to the heat, this type of device is also very safe. is not.

Besides, in today's conditions of the technique, here is a flame. An electric current from the ignition electrode of the formation of the burner measuring by measuring over the flame to the body known, in which the burner body is typical in this case yalemJs and aerca grounded from a conductive material It is possible. This makes it reliable whether a flame is ignited or not. Although this situation makes it possible to determine can only be done on the ignition electrode It brings with it the problem. Thus, a flame really not spread over all gas outlet holes cannot be determined.

Here, it is located away from the ignition electrode. and a separate monitoring that observes the full spread of the flame of an additional flame control electrode connected to the circuit can be predicted. You can't implement such an application, for example existing systems, pre-existing electronic system an addition that means that it must be intervened It has the disadvantage that a monitoring circuit is required. This situation Significant development effort and also rework for your device brings with it the requirement to obtain a permit.

From US 3,574,496 A to an ignition device and two flames One-to-one gas burner device with sensor: known.

Here, a flame detector determines an ignition arc. Responds to your style. The other flame detector detects a flame itself. tanEr. In addition, the ignition circuit includes an arc path.

From US 5, 127, 823 A, a control for a gas erln Another gas burner device is known.

Here is an ignition arc with the help of a transformer. how it was created is explained more closely.

From document EP 0 088 412 A1 with an ignition electrode Another gas burner device is known. This ignition electrodesE of the gas burner, transfer an ignitionEcjsjnDn adjacent to an arc path connected parallel to the secondary effect It was created with partE.

Mission and Solution The task of find here is in existing control components the entire gas of the flame with as little or even no change as possible. Reliable monitoring of the spring diamond in the drawing holes possible, a gas burner. to create deviceL. Here In addition, a gas burner with such a gas burner device The creation of the mechanism is also a task of the invention.

This task includes a device with the features of claim 1 or claim 3. gas burner device and even with the features of claim 1Z solved with a gas burner assembly. find it other with advantageous or preferred designs your claims. * and below. more closely explained.

Here, some of the specifications are based on the Elarj only gas burner device or only for gas burner assembly. These but this regardless of the situation, heni gas burner device] heni gas may apply to the burner assembly.

The gas burner assembly according to the invention is interconnected in a certain number. a burner body with adjacent gas outlet holes, a ignition electrode, a flame control electrode and a control equipment of the gas burner assembly for the electrodes It has a common electrode electrical connection on it.

Ignition electrodes with at least one arc. electrode via `` path connection and flame control electrode directly connected to the electrode connection. Ignition electrodesE and flame control electrodesE here, ignition electrode towards the burner body from the flame control electrode. will have a smaller range voltage or voltage is higher in the burner body than the flame control electrode. It is placed adjacent to the burner body in a large size.

With the aid of the gas burner assembly according to the invention, here only both automatic ignition using an electrode connection on all gas outlets of both the process and the flame it is possible to foresee the process of monitoring its propagation correctly It is possible. From an additional connection with corresponding electronics dispensable.

The operating mode of the gas burner assembly according to the invention is given below. succinctly explained.

In an arc path, typically the current voltage arc a conductor that is greater than the gap voltage of its path YapE element is discussed. Such a large enough voltage here is typically a discharge between the electrodes. It leads to the ionization of a gas in its space. These gases becomes conductive and the arc path is thus one microsecond. kEa circuit is connected for In the present invention, the arc path is particularly only if a voltage at the electrode connections If ignition is considered, short-circuit connection fulfills its duty. brings. When there is an ignition typically an appropriate high voltage is supplied. If only a little as the range voltage if a voltage is present then this voltage is typically measured It serves and is separated from the ignition electrode by means of an arc.

Due to flames indicating a properly spread flame, the flowing voltage thus flows only through the flame control electrode.

Many arc paths can be connected in series here, advantageously. are two arc paths. The jump voltages of these are a sum is summed up as the range voltage.

Estimation of the arc path but alone, the ignition to ensure that it occurs on the electrode not enough for These are two measures foreseen in accordance with the invention. with, ie the ignition electrode. flame towards the burner body has a smaller gap voltage than the control electrode can be provided with. Thus, to the correctly chosen height or in case of ignition voltage with voltage jumping of an arc from the ignition electrode to the burner body, However, there is nothing from the flame control electrode to the burner body. It is ensured that arctn cannot Slçram. In other words, it is innovative design, an arc only from the ignition electrode to the burner connected to the body of the burner, but from the flame control electrode body slçramadDgE to select an ignition voltage makes possible. Primarily. In this way, the ignition voltage gap voltage of the ignition electrode and flame control in the region between the gap voltage of the electrode and even towards the respective burner body.

Ignition to achieve a smaller gap voltage According to a look at the electrode, the flame from the control electrode to a differently constructed electrode tip, preferably it has a more pointed electrode tip. This situation The gap is a possibility to reduce the voltage. This alternatively, the ignition electrode is a reference to the invention. smaller gap of the ignition electrode than the angle to the burner body, flame control placed with a smaller intermediate distance from the electrode it could be. This means that the gap voltage of the relevant electrode is connected to the burner. It increases with the distance to the body, based on its knowledge. Search Intermediate voltage is also increased by increasing the distance. can be upgraded. As the intermediate distance, here is an electrode and shortest distance between the burner body, i.e. on The path where aralHgk is located is tanlmlanmlstHr.

The ignition electrode is preferably 3 mm to 5 mm from the burner body, especially preferably has a distance of about 4 mm. Flame control electrode preferably 5 mm to 7 mm from the burner body, especially preferably has a distance of about 6 mm. This values practically, above all in gaseous environments They take advantage of gas burners such as as proven. Here, the flame control electrode of the ignition electrode of the distance. approach from distanceMin -a 30 It is particularly preferred that it be greater than about 70%.

An arc path, a first arc path, according to one embodiment gas between the electrode and a second arc path electrode. made as a filled discharge gap, where the first arc path electrode is connected to the ignition electrode and the second arc path electrode to the electrode connection connectedmstHr. Both arc path electrodes in this sHra have a certain distance from each other. alternative to this Also, the arc path can be made as an electronic part.

If several 'or two arc paths' are foreseen, then these are for example one arc path electrode and the other electronic as parts, it may be made differently. These are Jn but the same It is advantageous to have it built.

Ignition electrode and flame control electrode preferably burner fixed on the body. This case is a compact and unusable makes an easy construction possible. In this way, AyrEca distance of the electrodes to the burner body is very good, precise and can be defined quite simply.

Ignition electrodesE and flame control electrodes burner on the body preferably quite far from each other or even It has opposite standing positions. It will take advantage In this way, the distances are at least 50% of the burner body length. as much as Here, the respective positions of the burner body Being in the far end regions is particularly advantageous, every before anything the ignition electrodesE advantageously placed on an end region. In this way, the ignition electrodesThe most flame over one side of the burner body ignition and flame control electrodesHnln flame only flame correctly over all throttle holes to the other end. to appear reliably when spread can be provided.

Preferably, the arc path is 250 V to 450 V, particularly preferably 400 V. It has an interval voltage of up to . These values are practically proved itself advantageously. Primarily, flame control electrodesE pointed tip, gas when a flame burns on the burner device, inside the flame will be located in such a way that it can be found. This is the flame of a flame an electric current to the burner body via the control electrodes. with the help of akjmu akjsj to be determined safely it's possible.

The invention also provides a gas in accordance with the invention described above. burner and the electrode connections of the gas burner assembly A remote with a socket made to connect It relates to a gas burner assembly equipped with This control equipment, external ignition electrode higher than the gap voltage to the body and flame control the gap of the electrode to the burner body. than voltage an ignition jump with a small ignition voltage not made for giving. Here, control hardware, gas from the arc voltage of the arc path, whose burner burns on the device. for the detection of a smaller flame makeElmEstDr. gas according to the invention gas burner according to the invention above with the aid of the burner assembly The advantages described in relation to the deviceH a gas burner can be made available for the setup. gas burner all described above herein variations and applications can be referenced. described benefits apply accordingly.

The control hardwareHmH is used for the execution of the control tasks. For example, a microprocessor, a microcontroller, a application-specific integrated circuit (ASIC), precisionJ a programmable controller (SP8) or a programmable may have another unit. Especially the gas burner assembly It can have processor tools and memory tools that here in memory tools, with processor toolsH Operation of the gas burner assembly in case of application The controlling program codes are saved in E. an ignition With the help of giving the gas burner assembly, a flame can be ignited. Gas of a flame with the measuring voltage yardLmU directly onto all gas outlets of the burner assembly. In this way, the spreadHlkp can be determined. remote hardwareHml thus taking advantage of both functions of the gas burner assembly. It controls the gas burner in such a way as to provide automatic operation of the mechanism is possible.

The ignition voltage is preferably between 8 kV and 12 kV, especially preferably up to 10 kV. Also, the ignition voltage smaller than the gap voltage of the control electrode] preferable. Measuring voltage preferably 200 V and 260 V between, particularly preferably up to 230 V, where this the values are the highest values and the measuring voltage fluctuates maximum value is 325 V. These values in practice they consider themselves advantageous.

According to a preferred embodiment, the control equipment is gas gas burner assembly for ignition of the burner assembly to give ignition shots at certain time intervals and then to supply the measuring voltage and thus the gas burner MakeElmÜstjr to control the flamethrower burning in the assembly. This condition, control equipment, automatic gas burner assembly It makes possible a structure that is advantageous for his work, which where the burnt gas is without exposure to the hazard of the arcDiamonds manual controls can be dispensed with.

Here, further functions of the control equipment especially To control the delivery of gas to the burner body It is understood that he can undertake. In this way, the gas burner device's user-friendliness can be increased and its playing can be further automated. Especially the remote donanHml, if flame control electrode ignition atHmknHn ends A flame in EgD at a certain time interval after expiration if it does not detect the gas to be delivered to the burner body. It may be made for cutting. In this case, all gas It is not properly spread into the slit holes and this Therefore, it indicates that the gas is dispersed without burning. Alternative or additionally equipped with control, e.g. user, e.g. It can also give a warning notification visually or audibly.

These and other features, apart from the prompts, It also stands out from the explanations and drawings that every one feature at a time, or several at once. in the form of combinations of sub-claims in between carried out in the application example and in other areas may be, and to the advantage, protection here application that is requested, worthy of protection for themselves may show examples. The individual sub-subjects of the application These chapters are not divided into chapters or even subheadings. General validity of explanations with yalemjs at the bottom It cannot be filtered in terms of direction. Commenting on your drawing Other advantages and aspects of the invention derive from the claims and find it, open it with the help of the drawing in figure 1 below in the following description of preferred application examples has been revealed.

Detailed description of application examples The drawing in Figure 1 is a gas burner (10) according to the invention. shows a gas burner assembly (5) with this gas The burner (10) has a burner body (20). this burner body (20) has a gas inlet (22) and is adjacent to each other. it has a large number of gas outlet holes (25) located.

A certain amount and pressure through the gas inlet (22) gas a gas valve: actuated by the type and way known to can flow. This gas is a gas to be ignited and ignited. djsarE comes out from the draw holes (25). Gas with burning kmi gas burner (10) of a saucepan. or a fLanJn, ie cooking Alternatively, a su HsHtchsHnln or similar It can be used for HsltHlmasH. The burner body (20) is a It is made of conductive metal and also has a kind of chassis connection. it is grounded so that electricity is supplied to it. can flow through.

Ignition of the dHsrll gas through the gas outlets (20) An ignition electrode (30) is provided for this. a fired It is also necessary to control the flame propagation correctly. a flame control electrode 40 is provided. shown Like a flame control electrode (40), a D is attached to the burner body (30). distance and thus a distance d to the burner body (30). slightly further from the ignition electrode with

Here but only a schematic of the Drawing shown in figure 1 It is understood that it is the appearance. In any case but distance D is d greater than the distance, the difference being at least 10% to 30%. and from 100% to 200% depending on the conditions.

Both electrodes (30, 40) are connected to the corresponding spikes of the electrodes. when the gas burner (10) is operating, that is, essentially if a in the flame if the flame is lit on the gas outlets (25) is located in such a way that it can be found. flame control electrode (40) directly to an electrode connection (60), i.e. any electrical or electronic component alinmakstzHn connectmHsttr. The ignition electrode (30) is also it is connected to the electrode connection (60) in the same way. Ignition between the electrode (30) and the electrode connector (60), but a arc path (35). This arc path 35 is a first arc path. electrode (36) and a second arc path electrode (38) a discharge filled with gas placed in the spacer OdacHgt (37). This gas may be ambient air. First arc path electrode (36) to ignition electrode (30) it is connected. Second arc path electrode (38) electrode it is connected to the connector (60). Arc path electrodes (36, 38) gas between the arc path (35) from the gap voltage arc path electrodes when the less voltage is supplied (36, 38) provides the interruption of the electric current between.

Even a found current cannot be transferred. Thus, in this case the ignition electrode (30) remains without battery and voltage. if available if the voltage is higher than the gap voltage then the gas ionlasJr and arc path 35 become conductive. Here, more As mentioned before, many arc paths can be envisaged.

The gas burner assembly (5) is also equipped with a çjkDsE (75) it has control hardware (70). As shown in the drawing the electrode connection (60) of the gas burner (10) hardwareHmlnHn (70) is connected to the output (75).

Control hardware 70 not shown in more detail It has the means of operation and means of storage where to be applied to storage devices by processing tools process codes are saved. In this way, the control equipment is below. can implement the functions described.

If the gas burner assembly (5) needs to be operated, it The time control equipment (70) is first described in more detail in the drawing. valves not shown so that the gas does not flow into the outlet (22) (25) It provides discharge output. Then the control gear (70) It gives an ignition voltage of about 10 kV on the ctkts (75). This The voltage of the arc path (35) is up to 400 V in the example presented. is much greater than the gap voltage, so the ignition voltage reaches the ignition electrode (30). This ignition voltage of the ignition electrode (30) to the burner body (20) is greater than an interval voltage, so that the ignition An arc is formed between the electrode (30) and the burner body (20).

This ignition voltage is connected to the flame control electrode (40) and the burner. is less than a gap voltage between body (20), this Therefore, an arc is formed on the flame control electrode (40). does not occur.

Between the ignition electrode (30) and the burner body (20) Thanks to the exposed arc, the gas dkDs holes (25) djsarE The exhaust gas is ignited. Control gear (70) current ignition çjkjs after a certain time interval passed with the voltage (75) turns off the voltage on it, so that after a measurement of only 230 V high. voltage fluctuate aka It is located on çlkHs (75). The maximum value is approx. $ k 325 This measuring voltage V is also the advantage of the arc path (35). interconnection, which can be up to 400 V here, so as to provide voltage, so that the ignition electrode (30) not reached by the measuring voltage. The measuring voltage is thus only the flame control electrode (40) is reached.

If the flame ignited on the ignition electrode (30) gas through the holes (25) to the djsarE ignition electrode (30) springs to the opposite end of the burner body (20) then the flame will also reach the flame control electrode (40). This the measuring voltage with the flame control electrode (40) in the case due to high density ionized and thus a current through a flame containing particles that have become conductive flows over the burner body (20) towards the chassis. This is akjm By the control equipment (70), the flame is lit by the whole burner body. (20), ie all gas outlet openings (25) in particular. it is determined to detect the propagation accurately. This In this case, the gas burner device (10) continues to operate.

On the other hand, for example, some gas on the burner body (20) An undesirable object blocking the drawing holes (25), for example, if food residues are found, then the flame electrode (40). In this case. burner* body (20) and flame control electrode (40). the disclosed ionized particles remain incomplete, therefore There is no current through the flame control electrode (40). This the status can be determined by the control hardware (70).

Controller Hml (70), from ignition voltage to measuring voltage Waiting for a certain time after the transition is made and then a current above a predetermined threshold control of the day through the flame control electrode (40) to be madeUlmJstJr. If that's the case then control. Equipped with (70) the flame is ignited correctly and all gas It determines that it is spread over the outflow holes (25). But If the current exceeds a predetermined threshold If it does, then the control equipment (70) is in the right direction of the flame. not emitted or possibly not fired at all. determines. In this case, the control gear (70) is for safety reasons. gas to the gas inlet (22) of the burner body (20) interrupts the transmission.

Control equipment] (70), in such a case a second ignition will attempt, i.e. ignition for a certain time also to give the voltage to çjkus (75) programmable. Then, whether the flame is ignited and springElEp springElmadEgE can be rechecked duly.

Furthermore, a warning signal can be given to the user.

The gas burner assembly (5) according to the invention thus ensures a reliable It can be operated autonomously in this way, so that the flame can be ignited and that you didn't fire. and right. somehow the yaleHP did not spread manual control can be omitted. Here, an error Ignition or flame propagation in the event of combustion of gas, accumulation and fire and explosion that may endanger or alternative, simply a disadvantage gas outlet, which can cause power generation uncontrolled coming out of its holes (25) there is no danger.

Claims (1)

REQUIREMENTS - A burner body (20) with multiple side-by-side gas exhaust holes (25), - an ignition electrode (30) - a flame control electrode (40) and - the gas burner device (10) on a control assembly (70) It is a gas burner device (10) having a common electrical electrode connection for the electrodes (30, 40), and its feature is; - the ignition electrodes (30) are connected to the electrode connection (60) via at least one arc path (35) and the flame control electrode (40) is directly connected to the electrode connection (60), - and the ignition electrode (30) and the flame control electrode (40) be placed adjacent to the burner body (20) and even so that the ignition electrode (30) has a smaller gap voltage than the flame control electrode (40) towards the burner body (20), - the ignition electrode (30) of the ignition electrode (30) ) should have a different pointed tip from the flame control electrode (40) in order to achieve the smaller gap voltage. It is a gas burner device (10) according to will, and its feature is; Characterized by the fact that the ignition electrode (30) has a sharper electrode tip than the flame control electrode (40) - a burner body (20) with a large number of adjacent gas churn HsH holes (25), - an ignition electrode (30), - a flame It is a gas burner device (10) having a control electrode (40) and a common electric electrode connection for the electrodes (30, 40) on a control equipment (70) of the gas burner device (10), and its feature is; - the ignition electrodesEnD (30) are connected to the electrode connection (60) via at least one arc path (35) and the flame control electrode (40) is directly connected to the electrode connection (60) - and the ignition electrode (30) and the flame control electrode (40) is located adjacent to the burner body (20) and even so that the ignition electrode (30) has a smaller gap voltage than the flame* control electrode (40) towards the burner* body (20), - the ignition electrode (30) (30) is placed in the burner body (20) with less distance from the flame control electrode (40) in order to reach the smaller gap voltage. It is a gas burner device (10) according to one of the previous claims, and its feature is; It is characterized in that the ignition electrode (30) has a distance of 3 mm to 5 mm, preferably about 4 mm, from the burner body (20). It is a gas burner device (10) according to one of the previous claims, and its feature is; it is characterized in that the flame control electrode (40) has a distance of 5 mm to 7 mm, preferably about 6 mm, from the burner body (20). It is a gas burner device (10) according to one of the previous claims, and its feature is; an arc path 35 constructed as a gas-filled discharge gap between a first arc path electrode 36 and a second arc path electrode 38, the first arc path electrode 36 connected to the ignition electrode 30 and the second arc path electrode 38 It is a gas burner device (10) according to one of the claims 1 to 5, where the path electrode (38) is connected to the electrode connection (60). characterized in that an arc path 35 is constructed as an electronic component. It is a gas burner device (10) according to one of the previous claims, and its feature is; Gas burner device according to one of the previous claims, which is connected to the burner body (20) of the ignition electrode (30) and the flame control electrode (40), and its feature is; It is characterized in that the ignition electrode (30) and the flame control electrode (40) have positions at rest and/or positions on the burner body (20) in their respective distal regions. It is a gas burner device (10) according to one of the previous claims, and its feature is; It is characterized in that the arc path has a range voltage of 250 V to 450 V. Gas burner device according to one of the previous claims: (10), and it is characterized in that the pointed ends of the flame control electrodes (40) are placed in such a way that the flame is inside the flame when it is on the gas burner device (10). - It is a gas burner assembly (5) having a gas burner device (10) according to one of the previous claims, and its feature is; - the control equipment (70) has an outlet (75) made for connecting the electrode connections (60) of a gas burner assembly (10) It is made to provide an ignition voltage with an ignition voltage higher than the gap voltage of the flame control electrode (40) and smaller than the gap voltage of the flame control electrode (40) to the burner body, - control equipment (70), gas burner device) (10), burning on the arc path For the determination of a flame smaller than the arc voltage, yalemEs is for determining a measuring voltage above dc(75). It is a gas burner assembly (5) according to claim 12, and its feature is; It is characterized in that the ignition voltage is between 8 kV and 12 kV, preferably up to 10 kV. It is a gas burner assembly (5) according to request 12 or 13, and its feature is; It is characterized in that the measuring voltage is between 200 V and 260 V, preferably up to 230 V. It is a gas burner assembly (5) according to one of the claims 12 to 14, and its feature is; it is made for the control hardware (70) to give the ignition starter for the ignition of the gas burner device (10) at the specified time intervals and then to give the measurement voltage and thus to control a flame burning on the gas burner device (10).