CN108775604A - A kind of intelligent gas-burning stove of safety ignition - Google Patents

Abstract

The application provides a kind of safety ignition gas-cooker, including fuel gas pipeline, igniter and furnace end device, wherein the ignition electrode in igniter is arranged in ignition zone；Furnace end device includes multiple burners, and the position that electric spark is generated close to ignition electrode is arranged in ignition zone at least one burner；On burner or the fuel gas pipeline of burner connection is equipped with solenoid valve, and multiple solenoid valves and ignition knob are all connected with controller.In practical application, controller first detects the pressing action of ignition knob, and the corresponding solenoid valve of burner in ignition zone is opened after detecting that pressing action occurs, the burner being located in ignition zone is set first to obtain gas supply, and ignition, reduce total combustion gas burst size, avoids the flame for occurring larger in ignition point.

Description

A kind of intelligent gas-burning stove of safety ignition

Technical field

This application involves Smart Home technical field more particularly to a kind of intelligent gas-burning stoves of safety ignition.

Background technology

Common gas-cooker includes the components such as fuel gas pipeline, furnace end device and igniter, and typical ignition process is, The ignition knob in igniter is pushed, the combustion gas in fuel gas pipeline is made to be discharged at furnace end device, then by rotating igniting rotation Button makes the igniting needle-discharging in igniter, generates spark, the combustion gas for release of igniting.

After pushing ignition knob, combustion gas starts sustained release, and generates electricity from ignition knob to ignition electrode is pushed Spark will be separated by a period of time, and this period is different according to the operating habit of operating personnel, the different time is consumed, if the time It is longer, it is more likely that when ignition electrode generates electric spark, excessive combustion gas to be released from fuel gas pipeline so that lighting a fire Moment generates more fierce flame.In addition, in ignition process, each burning point in furnace end device releases combustion gas, and point Fiery needle-discharging produces pyrophoric position and is then in the region of a very little, such as close to the position of ignition knob, this also aggravates The flame that ignition point is formed.

It is interior in igniter in order to avoid in the fierce flame of ignition point generation, there is a kind of gas-cooker of automatic ignition Set motor.If executing ignition operation, operating personnel can drive igniting rotation by remote terminal or remote control control motor Button rotates, to complete ignition operation.This method only avoids burn operating personnel, and cannot reduce flame.If In primary igniting, electric spark fails combustion gas of igniting, and operating personnel need to control igniting again by remote control, are not easy to grasp Make.If cannot still light combustion gas after repeatedly generating electric spark, burst size of the combustion gas at furnace end device can be very big, is easy to The flame of bigger is generated during follow-up igniting, or even is exploded.

Invention content

This application provides a kind of intelligent gas-burning stoves of safety ignition, are easy out in ignition point with solving conventional gas stove The problem of showing larger flame and influencing operation.

The application provides a kind of intelligent gas-burning stove of safety ignition, including fuel gas pipeline, igniter and furnace end device； The igniter includes ignition knob and ignition electrode；Wherein, the furnace end device includes multiple connection fuel gas pipelines Burner, the ignition electrode is arranged in ignition zone, the position far from the ignition knob；In multiple burners at least There are one settings in the ignition zone, and the position of electric spark is generated close to the ignition electrode；On the burner or institute The fuel gas pipeline for stating burner connection is equipped with solenoid valve；

The intelligent gas-burning stove further includes the controller for connecting multiple solenoid valves and the ignition knob, with detection The pressing action of the ignition knob, and the corresponding electricity of the burner in the ignition zone is opened after pressing action generation Magnet valve.

In practical applications, controller first detects the pressing action of ignition knob, and after detecting that pressing action occurs The corresponding solenoid valve of burner in ignition zone is opened, the burner being located in multiple burners in ignition zone is made first to obtain Gas supply avoids the flame for occurring larger in ignition point to reduce the burst size of combustion gas.And the combustion in ignition zone Burner is able to maintain that after stable flame, then opens the corresponding solenoid valve of other burners successively, to complete ignition operation.Separately Outside, since user manipulates region point of distance flame range domain, the flame that gas-cooker is generated in ignition point is made not injure operator.

Description of the drawings

Fig. 1 is a kind of structural schematic diagram of the intelligent gas-burning stove of safety ignition of the application；

Fig. 2 is an a kind of exemplary block diagram of intelligent gas-burning stove of safety ignition of the application；

Fig. 3 is a kind of dimensional structure diagram of the intelligent gas-burning stove of safety ignition of the application；

Fig. 4 is a kind of partial structural diagram of the intelligent gas-burning stove of safety ignition of the application；

Fig. 5 is the partial structural diagram of the intelligent gas-burning stove of the application another kind safety ignition.

Specific implementation mode

Referring to Fig. 1, a kind of intelligent gas-burning stove of safety ignition provided by the present application, including fuel gas pipeline 1, igniter 2 And furnace end device 3.Wherein, the fuel gas pipeline 1 refers to being arranged inside gas-cooker, and the pipeline for being passed through combustion gas combines back Road, fuel gas pipeline 1 is in practical application, the supply line with combustion gas is connected, in order to realize connection and ensure fuel gas pipeline It is safe, manually master control valve should be equipped on fuel gas pipeline 1.

Igniter 2 is used to light the combustion gas in 3 region of furnace end device by generation point spark, it may also be used for was cooking The duration and degree of heating is adjusted in journey, therefore igniter 2 includes ignition knob 21 and ignition electrode 22, ignition knob 21 can built-in piezoelectricity The ignition electrode 22 of ceramic-type electronic striking principle ignition electrode 22 or battery electronic formula ignition principle.General operation is as follows, pushes And ignition knob 21 is rotated, after rotating by a certain angle, ignition electrode can be made while opening the gas supply of furnace end device 3 Electric spark, the combustion gas for release of igniting are generated at 22.The built-in sensor for examining the ignition knob 21 to act of ignition knob 21, such as Pressure sensor, range sensor, angular transducer etc..

As shown in figure 3, furnace end device 3 is used to provide burning place, including multiple combustions for burning for the combustion gas of release Burner 31, multiple burners 31 are connected to fuel gas pipeline 1, the combustion gas in fuel gas pipeline 1 are enable to be discharged by burner 31 Out, it contacts and burns with air.In order to preferably adjust the duration and degree of heating in cooking process, the heat distribution for making burning provide More uniformly, multiple burners 31 have specific arrangement rule, such as being circular layout in many levels.

Gas-cooker further includes controller 4, and the controller 4 is used to receive the data of each sensor detection, such as temperature sensing 21 corresponding sensor of device 5 and ignition knob, and corresponding judgement is made according to the detection data received, and to electricity The equal control units of magnet valve 32 send control instruction, so that control unit is generated corresponding action according to control instruction, such as realize electromagnetism The control of the on off state and opening degree of valve 32.

In order to meet the control requirement of gas-cooker, the controller 4 can be microprocessor, such as miniature control chip, Microcontroller, programmable logic controller (PLC) etc..Controller 4 can be with built-in or external communication module, eventually so as to the intelligence with user The information of detection is sent to intelligent terminal, so as to user by realization communication during each igniting between holding (such as mobile phone) Understand the operating status of gas-cooker.The information of transmission may include the duration of ignition, and the combustion gas after ignition success rate, and igniting supplies Answer pressure etc., user that can purposefully adjust gas pipeline operating parameter, such as supply pressure according to these information.

In technical solution provided by the present application, ignition electrode 22 is arranged far from the ignition zone 201 of ignition knob 21.This Apply for so-called ignition zone 201, refer to that the region of flame is formed according to gas-cooker structure setting at first in furnace end device 3, According to the difference of gas-cooker structure, the structure and quantity of ignition zone 201 are also different.For example, when gas-cooker has single furnace structure, Ignition zone 201 also only there are one, and when gas-cooker has double furnace structure, there are two ignition zone 201 then needs.Ignition zone 201 are arranged far from the position of ignition knob 21, can be to avoid user when implementing ignition operation, the fire of ignition point generation Flame is closer with user's hand distance, avoids hurting user.

In multiple burners 31, at least one burner 31 is arranged in ignition zone 201, and is produced close to ignition electrode 22 The position of raw electric spark.In the present embodiment, as shown in figure 4, in order to avoid forming larger flame, ignition zone 201 can be set That sets is as small as possible, such as only there are one burner 31 and an ignition electrodes 22 in ignition zone 201, in igniting, burner 31 for discharging combustion gas, and ignition electrode 22 then lights the combustion gas of release, and such structure is formed by flame in ignition point is Minimum, it is least easy to injure user；But if a burner 31 is only arranged in ignition zone 201, it is likely that due to releasing The gas quantity put is very little and is difficult to successful ignition, therefore, in another embodiment, can be arranged in the ignition zone 201 Multiple burners 31 (preferably 3) and an ignition electrode 22 are ensureing the smaller premise of the flame that ignition point is formed in this way Under, so that the gas quantity discharged when igniting is improved, convenient for igniting.

On burner 31 or the fuel gas pipeline 1 of the connection of burner 31 is equipped with solenoid valve 32, the connection control of multiple solenoid valves 32 Device 4 processed, to control the gas supply of multiple burners 31.In technical solution provided by the present application, multiple burners 31 correspond to Multiple solenoid valves 32, make to be mutually independent between multiple burners 31 or the relatively independent break-make by solenoid valve 32 in part And realize gas supply, it in order to realize the purpose, can be accomplished by the following way, for example, by solenoid valve 32 and burner 31 are set together, i.e., a solenoid valve 32 corresponds to a burner 31, and solenoid valve 32 can be arranged in fuel gas pipeline 1 and combustion On the position that burner 31 connects, to realize control independently of each other.

In another example solenoid valve 32 can be arranged on 31 corresponding fuel gas pipeline 1 of each section burner, exemplary, position A fuel gas pipeline 1, and the burner 31 other than ignition zone 201 are corresponded in the burner 31 in ignition zone 201 Another corresponding fuel gas pipeline 1, can be respectively set solenoid valve 32 on two kinds of fuel gas pipelines in this way, multiple burnings may be implemented Relatively independent control between mouth 31.

I.e. in the section Example of the application, as shown in Figure 2, Figure 4 shows, fuel gas pipeline 1 includes the first air supply pipe 11 and the Two air supply pipes 12 are located at burner 31 in ignition zone 201 and are connected to the first air supply pipe 11；Positioned at 201 outer burner of ignition zone 31 the second air supply pipes 12 of connection.

Further, it is respectively equipped with solenoid valve 32 on the first air supply pipe 11 and the second air supply pipe 12, solenoid valve 32 connects respectively Controller 4 is connect, so that unlatching opportunity of the control of controller 4 positioned at the first air supply pipe 11 and the solenoid valve 32 of the second air supply pipe 12. In practical application, as the generation of flame will produce higher temperature on burner 31, the temperature of generation is easy to make close to burning The component of mouth 31 generates thermal deformation, may influence the control process of solenoid valve 32, therefore by controlling setting in the first gas supply The solenoid valve 32 being arranged on pipe 11 and the second air supply pipe 12, can be to avoid generating high temperature, and then to solenoid valve 32 on burner 31 Action process have an impact.

In the present embodiment, controller 4 is also connected with ignition knob 21, to detect the pressing action of ignition knob 21, and under It presses and opens 31 corresponding solenoid valve 32 of burner in ignition zone 201 after work occurs.The inside of ignition knob 21 can be arranged Corresponding range sensor and angular transducer, when ignition knob 21 is pressed down, detection knob pushes wherein range sensor The distance moved, to detect pressing action.

Since most gas-cookers need the while of pushing to be rotated when ignition knob 21 is in igniting, by ignition knob 21 After rotating to certain angle, piezoelectric ceramics or ignition can just be made to form electric spark, therefore, in the present embodiment, angle Sensor can assist the rotational angle of range sensor detection ignition knob 21, to determine when to implement firing action, i.e., Generate the opportunity of electric spark.It should be noted that whether angular transducer can carry out ignition operation with auxiliary judgment user, If user is in the setting time after pushing ignition knob 21, in 10 seconds, ignition knob 21 is not rotated into predetermined angle, Then controller 4 sends out out code, and the solenoid valve opened is closed, and avoids combustion gas from being released for a long time, causes danger.

By above technical scheme it is found that the intelligent gas-burning stove provided by the present application in actual use, when user push When ignition knob 21, the sensor built in ignition knob 21 detects firing action, and firing action is sent to controller 4, Controller 4 sends open command to the solenoid valve 32 corresponding to the burner 31 being arranged in ignition zone 201, makes solenoid valve 32 In open state, combustion gas is discharged；User reaches predetermined rotation angle again to the rotation process of ignition knob 21 in ignition knob 21 After degree, ignition electrode 22 generates electric spark, so as to the combustion gas for release of igniting.Intelligent gas-burning stove provided by the present application can be in igniting The part burner 31 in multiple burners 31 is controlled by controller 4 first to light a fire, and reduces combustion gas burst size when igniting, Larger flame is formed to avoid ignition point.

Further include temperature sensor 5 in the section Example of the application, temperature sensor 5 is arranged in ignition zone 201 It is interior, to detect the temperature in ignition zone 201, the i.e. environment temperature of ignition zone 201.Since the application is in actual application In, lasting flame combustion can be formed in ignition zone 201, therefore the temperature in ignition zone 201 may be higher, therefore this reality Applying can select the suitable thermocouple with higher temperature variation range as temperature sensor 5 in example.

Temperature sensor 5 connects controller 4, so that controller 4 is judging that the temperature in ignition zone 201 is greater than or equal to When preset value, the 31 corresponding solenoid valve 32 of burner other than ignition zone 201 is opened.In the present embodiment, when ignition zone 201 After interior temperature is higher than preset value, then illustrate the flame that sustained combustion has been formed in ignition zone, controller 4 is to igniting at this time Solenoid valve 32 corresponding to burner 31 other than region 201 sends open command, so that other burners 31 can also discharge Combustion gas, to form stable flame subsequently to be cooked.

Due in practical applications, if do not form lasting flame in ignition zone 201, temperature be typically in compared with Low state, such as room temperature, i.e., will not be too high；And when foring lasting flame in ignition zone 201, in ignition zone 201 Temperature will rise rapidly higher temperature, such as 400-1000 DEG C, radiation temperature is also very high, is higher than 400 DEG C, therefore can In the range of the preset value of temperature is set above room temperature, such as 100 DEG C -200 DEG C, specific preset value can be according to temperature Distance determines between sensor 5 and burner 31.But preset value should not be too large, to reduce the temperature rise in ignition zone 201 The time consumed, to improve control efficiency.

It should be noted that after the burner 31 other than ignition zone 201 is ignited, controller 4 can generate stopping The instruction for detecting temperature, i.e., be no longer detected the temperature in ignition zone 201, until user is again carried out ignition operation, With prevent in cooking caused by temperature change influence gas supply in normal cooking process.In addition, due to carry out After primary culinary art, if user closes the fiery time is again turned on carry out ignition operation shortly after, ignition zone 201 at this time may be by Last time culinary art influences, and temperature is higher than preset value, in this case, can be corresponding with initial detecting temperature by being arranged Variable temperature preset value；For example, the temperature preset value could be provided as, the temperature got for the first time after ignition operation Value increases by 50 DEG C, i.e., after 50 DEG C of temperature rise in ignition zone 201, the burner 31 being then turned on other than ignition zone 201 Corresponding solenoid valve.

The opening and closing that solenoid valve 32 can also be controlled by way of delayed start-up, i.e., in the section Example of the application, The controller 4 goes back built-in timer, so that controller 4 is opening 31 corresponding solenoid valve 32 of burner in ignition zone 201 Afterwards, the 31 corresponding solenoid valve 32 of burner other than ignition zone 201 is opened by preset time.Inside most of controller 4 It is designed with timer, it, can be after the igniting of the burner 31 in ignition zone 201, when by presetting by the timer Between open other positions on solenoid valve 32 so that the flame in ignition zone 201 is transmitted to the burner 31 in other regions On, realization automatically controls flame.Timer can also realize that the delay of solenoid valve 32 is opened, so as in ignition zone 201 It after combustion gas in space residing for interior and ignition zone 201 is all burnt, then realizes that flame transmits, avoids the formation of larger fire Flame.

Further, controller 4 also detects the spinning movement of ignition knob 21, so that the timer built in controller 4 exists The maximum rotation angle of ignition knob 21 starts timing when more than or equal to predetermined angle.The so-called maximum rotation of the present embodiment Angle refers in an ignition operation, and user is to the maximum angle of 21 applied turning effort of ignition knob, due in routine In culinary art, ignition knob 21 also has the function of adjusting flame size, therefore ignition electrode 22 can generate electric spark often in point After fiery knob 21 reaches certain angle, therefore, in the present embodiment, it can be come by the rotation angle of detection ignition knob 21 Judge whether to produce electric spark, and after producing electric spark, then start timing, is then turned on until by preset time Burner 31 in other regions.In the application, preset time interval is unsuitable long, as long as being formd in ignition zone 201 Steady and sustained flame allows users to be smoothed out follow-up culinary art to reduce the stand-by period.It is exemplary, preset time Interval can be 2-5 seconds.

In the section Example of the application, fuel gas pipeline 1 is equipped with baroceptor 6, is fired with detecting in fuel gas pipeline 1 Air pressure force value.In the present embodiment, baroceptor 6 can be arranged on the main pipe rail of fuel gas pipeline 1, can export electricity The air gauge or air pressure sensing chip of subsignal, to examine the gas supply pressure in fuel gas pipeline 1 by baroceptor 6.Gas Pressure sensor 6 is also connected with controller 4, so that controller 4 detects that the atmospheric pressure value in fuel gas pipeline 1 is believed by baroceptor 6 Breath, and according to the opening degree of 31 corresponding solenoid valve 32 of burner in the gas pressure force value of detection adjustment ignition zone 201.

Since in practical applications, the supply pressure of gas is bigger, then the flame generated on burner 31 is bigger, accordingly The burner 31 in easier other regions of igniting, but on the one hand excessive supply pressure is not easy to carry out automatically controlling, it is another Aspect is also easy to form larger flame in igniting, injures user.Therefore in the present embodiment by detecting gas pressure force value, Control program can be automatically determined out according to gaseous-pressure, to ensure that it is most suitable that the flame size in ignition zone 201 maintains In the range of.

In the section Example of the application, as shown in Figure 1, shown in Figure 5, the multiple burners 31 being located at outside ignition zone 201 On or multiple burners 31 connection fuel gas pipeline 1 be equipped with multiple solenoid valves 32, controller 4 according to ignition zone 201, apart from ascending sequence, open and are located at 201 outer burner of ignition zone, 31 corresponding solenoid valve 32.I.e. in this implementation In example, after the burner 31 in ignition zone 201 is lighted, the burner 31 nearest apart from ignition zone 201 is first opened, then press Range opens the burner 31 in other positions successively from sequence from the distant to the near, to make flame transmit successively, makes burning more Add steady, safety.

It should be noted that in the present embodiment, opening burner 31 can need not be one as unit of single burner 31 One ground is opened, and can whole burners 31 other than ignition zone 201 be divided into multiple regions, then with multiple regions Between priority open the burner 31 in each region successively, wherein the priority in each region be according to ignition zone The distance between 201 determinations, i.e. the nearlyr priority of distance is higher.In such region division mode, each region can be with The branch of a fuel gas pipeline 1 is corresponded to, a solenoid valve 32 is set in each branch, so that controller 4 lights each region Sequence is controlled.

By above technical scheme it is found that safety ignition gas-cooker provided by the present application, including fuel gas pipeline 1, igniter 2 And furnace end device 3, wherein the ignition electrode 22 in igniter 2 is arranged in ignition zone 201；Furnace end device 3 includes multiple The position that electric spark is generated close to ignition electrode 22 is arranged in ignition zone 201 in burner 31, at least one burner 31；Combustion On burner 31 or the fuel gas pipeline 1 of the connection of burner 31 is equipped with solenoid valve 32, and multiple solenoid valves 32 and ignition knob 21 are equal Connect controller 4.

In practical application, controller 4 first detects the pressing action of ignition knob 21, and after detecting that pressing action occurs The 31 corresponding solenoid valve 32 of burner in ignition zone 201 is opened, makes to be located in ignition zone 201 in multiple burners 31 Burner 31 first obtains gas supply, and lights a fire, and to reduce the burst size of combustion gas, avoids the fire for occurring larger in ignition point Flame.And the burner 31 in ignition zone 201 is able to maintain that after stable flame, then to open other burners 31 successively right The solenoid valve 32 answered, to meet culinary art demand.In addition, manipulating the ignition zone 201 in region far from user by being arranged, make combustion gas The flame that stove is generated in ignition point will not injure operator.

Claims (8)

1. a kind of intelligent gas-burning stove of safety ignition, including fuel gas pipeline, igniter and furnace end device；The igniter Including ignition knob and ignition electrode；Wherein, the furnace end device includes the burner of multiple connection fuel gas pipelines, feature It is, the ignition electrode is arranged in ignition zone, the position far from the ignition knob；In multiple burners at least One is arranged in the ignition zone, and the position of electric spark is generated close to the ignition electrode；It is on the burner or described The fuel gas pipeline of burner connection is equipped with solenoid valve；

The intelligent gas-burning stove further includes the controller for connecting multiple solenoid valves and the ignition knob, described in detection The pressing action of ignition knob, and the corresponding electromagnetism of the burner in the ignition zone is opened after pressing action generation Valve.

2. intelligent gas-burning stove according to claim 1, which is characterized in that the intelligent gas-burning stove further includes being arranged described In ignition zone, the temperature sensor for detecting the ignition zone；The temperature sensor connects the controller, so that The controller is opened when judging that the temperature in the ignition zone is greater than or equal to preset value other than the ignition zone The corresponding solenoid valve of the burner.

3. intelligent gas-burning stove according to claim 1, which is characterized in that the controller built-in timer makes the control Device processed is being opened in the ignition zone, and after the corresponding solenoid valve of the burner, the seed region is opened by preset time The corresponding solenoid valve of the burner other than domain.

4. intelligent gas-burning stove according to claim 3, which is characterized in that the controller also detects the ignition knob Spinning movement so that timer built in the controller the ignition knob maximum rotation angle more than or equal to pre- If starting timing when angle.

5. intelligent gas-burning stove according to claim 1, which is characterized in that be equipped in the fuel gas pipeline for detecting combustion gas The baroceptor of pressure value；The baroceptor connects the controller, makes the controller according to the gas pressure of detection Force value adjusts the opening degree of the corresponding solenoid valve of the burner in the ignition zone.

6. intelligent gas-burning stove according to claim 1, which is characterized in that the fuel gas pipeline includes the first air supply pipe and the Two air supply pipes are located at the burner in the ignition zone and are connected to first air supply pipe；The institute outside the ignition zone It states burner and is connected to second air supply pipe.

7. intelligent gas-burning stove according to claim 6, which is characterized in that first air supply pipe and second air supply pipe On be equipped with solenoid valve, the solenoid valve is separately connected controller, when so that the controller controlling the unlatching of the solenoid valve Machine.

8. intelligent gas-burning stove according to claim 1, which is characterized in that the multiple burners being located at outside the ignition zone On or the fuel gas pipeline of multiple burners connection on, be equipped with multiple solenoid valves, the controller according to the seed region The corresponding solenoid valve of the burner being located at outside the ignition zone is opened apart from ascending sequence in domain.