CN205351380U - From single air supply gas control system of adjustable fire of taking power generation facility - Google Patents

Abstract

The utility model discloses a from single air supply gas control system of adjustable fire of taking power generation facility, include: parts such as a relief pressure valve, control valve, main burner, little flame, temperature difference power generation devices, controller, remote controller and rechargeable battery. The utility model discloses a from single air supply gas control system of adjustable fire of taking power generation facility is from taking temperature difference power generation devices and rechargeable battery, makes electric quantity keep balance at the in -process of system's operation, need not the external power that inserts, the problem that solution dry battery power supply time is short that can be fine.

Description

A kind of adjustable fire list source of the gas gas control system carrying TRT

Technical field

This utility model relates to fuel gas heating apparatus field, more specifically, is a kind of adjustable fire list source of the gas gas control system carrying TRT.

Background technology

It is that controller is powered that existing single source of the gas gas control system is typically with aneroid battery in the process that system is run.Once the control complicated operation of single source of the gas gas control system, then electric quantity consumption is big, causes that aneroid battery is short for service life, and battery altering frequency ratio is higher.Battery is often changed additionally, due to needs, cumbersome for the customer.

Utility model content

Owing to prior art also exists the problems referred to above, the utility model proposes a kind of adjustable fire list source of the gas gas control system carrying TRT, its object is to carry TRT by system, system operation keeps electric quantity balancing, it is not necessary to extraneous access power supply.

This utility model solves the problems referred to above by the following technical programs:

A kind of adjustable fire list source of the gas gas control system carrying TRT, including: an air relief valve, its input connects gas source, and its outfan connects a control valve；Described control valve, it controls the source of the gas input of a main burner and a little flare, and the input of this control valve connects the outfan of described air relief valve by gas pipeline, and described control valve includes the first outfan and the second outfan；Described main burner, it is connected with described first outfan of described control valve by described gas pipeline；Described little flare, it is connected with described second outfan of described control valve by described gas pipeline, and this little flare is used for described temperature difference electricity generation device heat supply and is used for lighting described main burner；One temperature difference electricity generation device, it connects described controller and electricity can be transferred to a controller；Described controller, it connects described control valve, described main burner, described little flare and described temperature difference electricity generation device respectively；One rechargeable battery, it is connected on described controller, and described rechargeable battery stores, by described controller, the electric energy that described TRT produces.

Described control valve includes the last one and inhales electromagnetic valve and a motor, wherein: described strong suction electromagnetic valve, it includes an input and two outfans, said two outfan is described first outfan of described control valve and described second outfan, and the described input of strong suction electromagnetic valve is connected with the outfan of described air relief valve；Described first outfan connects described main burner；Described second outfan connects described little flare；Described strong suction electromagnetic valve is connected with described controller, and this is inhaled by force electromagnetic valve and opens under the control of described controller or close input；Described motor, it is located at described first outfan, and described motor is connected with described controller, and described motor opens under the control of described controller or cuts out described first outfan.

Described little flare is provided with a flare up fire detector, and this flare up fire detector is one of thermocouple, ion probe or photo sensitive device, and described flare up fire detector connects described controller.

Described control valve includes a valve body, an electromagnetic valve, a motor and the swing arm driven by described motor, wherein: described valve body, which is provided with input and two outfans, said two outfan is described first outfan of described control valve and described second outfan, described input is lower than described second outfan, and described second outfan is positioned at the lower section of described first outfan；It is positioned at the port of the second outfan in described valve body and is provided with an air inlet ring, and be provided with projection corresponding to the port of described second outfan in described valve body, described protruding and keep a gap between described air inlet ring；The lower end of this projection is concordant with the lower end of described air inlet ring, and the upper end of this projection is concordant with the upper end of described air inlet ring；Described swing arm, it is connected to the lower section of described motor, and this swing arm moves up and down along described gap under the drive of described motor；Described swing arm is provided with a sealing lid, the diameter of described sealing lid more than the diameter in described gap, when described seal lid bear against the upper end of the upper end of described air inlet ring and described projection along with described swing arm time, the first outfan described in described seal cap sealing；Described electromagnetic valve, it is connected with described controller, and this electromagnetic valve is turned on and off under the driving of described controller, when described closed electromagnetic valve, described electromagnetic valve presses on the lower end of described air inlet ring and the lower end of described projection, the airtight described input of described electromagnetic valve；Described motor, it is connected with described controller, and this motor drives described swing arm to move up and down under the driving of described controller.

Described little flare is provided with a flare up fire detector, and this flare up fire detector is thermocouple, and described flare up fire detector connects described controller.

Also including a remote controller, described remote controller sends controller described in an enabling signal remote control to start to start.

Being also associated with a touch screen on described controller, described touch screen is provided with multiple touch key-press, controls described controller by described touch screen.

Described controller is also associated with a remotely controlled button.

Described temperature difference electricity generation device includes a temperature-difference power generation module, and described temperature-difference power generation module is located near described little flare or main burner to receive the heat radiation of described little flare or main burner and to produce electric energy, and described temperature-difference power generation module connects described controller.

Described controller includes a step motor drive output port, a rechargeable battery powered charging port, a remote signal input port, a pair yard of study key-press input port, a touch key-press input port, a thermo-electric generation input port being connected with described temperature-difference power generation module, a little flare igniting output port, little flare flare up fire detection input port and a solenoid-driven output port.

Described temperature difference electricity generation device includes a temperature-difference power generation module, a little flare of thermo-electric generation, a thermo-electric generation little flare signal detector and the little flare igniter head of a thermo-electric generation, described temperature-difference power generation module, thermo-electric generation little flare signal detector and thermo-electric generation little flare igniter head are all connected with described controller, and the described little flare of thermo-electric generation is connected with described second outfan, described temperature-difference power generation module relies on the heat radiation generating that the little flare of described thermo-electric generation produces.

Described controller includes a step motor drive output port, one rechargeable battery powered charging port, one remote signal input port, a pair yard of study key-press input port, one touch key-press input port, one little flare igniting output port, one little flare flare up fire detection input port, one solenoid-driven output port, the one thermo-electric generation input port being connected with described temperature-difference power generation module, the temperature difference electricity generation device igniting port that one is connected with the little flare igniter head of described thermo-electric generation, the one temperature difference electricity generation device flare up fire input port being connected with the little flare signal detector of described thermo-electric generation.

Owing to have employed above-mentioned technological means, the adjustable fire list source of the gas gas control system carrying TRT of the present utility model carries temperature difference electricity generation device and rechargeable battery, the process that system is run make electricity keep balance, power supply is accessed, it is possible to the problem that well the solution dry cell power supply time is short without the external world.

Accompanying drawing explanation

Fig. 1 is the structural representation of first embodiment of the present utility model；

Fig. 2 is the local state schematic diagram during control valve closedown of first embodiment of the present utility model；

The partial schematic diagram of little flare connected by the valve that controls that Fig. 3 is first embodiment of the present utility model；

The partial schematic diagram of little flare and main burner connected by the valve that controls that Fig. 4 is first embodiment of the present utility model；

Fig. 5 is the structural representation of the second embodiment of the present utility model；

Fig. 6 is the local state schematic diagram during control valve closed mode of the second embodiment of the present utility model；

The partial schematic diagram of little flare connected by the valve that controls that Fig. 7 is the second embodiment of the present utility model；

The partial schematic diagram of little flare and main burner connected by the valve that controls that Fig. 8 is the second embodiment of the present utility model；

Fig. 9 is the structural representation of the 3rd embodiment of the present utility model；

Figure 10 is the structural representation of the 4th embodiment of the present utility model.

Figure 11 is the structural representation of the 5th embodiment of the present utility model.

Figure 12 is the structural representation of sixth embodiment of the present utility model.

Detailed description of the invention

Below in conjunction with detailed description of the invention, this utility model is described in detail.

Shown in Figure 1, Fig. 1 is the structural representation of first embodiment of the present utility model.The adjustable fire list source of the gas gas control system carrying TRT in this first embodiment, includes air relief valve 1, controls the parts such as valve 2, main burner 3, little flare 4, temperature difference electricity generation device 5, controller 6, rechargeable battery 7 and remote controller 8, touch screen 9 and remotely controlled button 10.

As it is shown in figure 1, the input 11 of air relief valve 1 connects gas source, its outfan 12 connects control valve 2.

Described control valve 2 is for controlling the source of the gas input of main burner 3 and little flare 4.As it is shown in figure 1, described control valve 2 includes the last one inhales electromagnetic valve 21 and a motor 22.Described strong suction electromagnetic valve 21 includes an input 211 and two outfans 212 and 213, and said two outfan is described first outfan 212 of described control valve and described second outfan 213.The described input 211 of strong suction electromagnetic valve 21 is connected with the outfan 12 of described air relief valve；Described first outfan 212 connects described main burner 3；Described second outfan 213 connects described little flare 4.Described strong suction electromagnetic valve 21 is connected with described controller 6, and this is inhaled by force electromagnetic valve 21 and opens or close input 211 under the control of described controller 6.Described first outfan 212 is located at by described motor 22.Described motor 22 is connected with described controller 6, and described motor opens or cut out described first outfan 212 under the control of described controller.

Described main burner 3 is connected with described first outfan of described control valve 2 by described gas pipeline, and namely described main burner 3 is connected with strong the first outfan 212 inhaling electromagnetic valve.When opening the strong input 211 inhaling electromagnetic valve 21 of strong suction and the first outfan 212 when strong suction electromagnetic valve 21 and motor cooperation, described main burner 3 could feed combustion gas.Meanwhile, regulate the size of the bottom of motor 22 and the amount for combustion gas that regulates close to distance of the first outfan 212, thus the size of the flame of adjustable main burner.

The effect of described little flare 4 is to described temperature difference electricity generation device heat supply and for lighting described main burner.Described little flare 4 is connected with described second outfan 213 of described control valve 2 by described gas pipeline, and namely described little flare is connected with strong the second outfan 213 inhaling electromagnetic valve 22.When strong electromagnetic valve 21 of inhaling is started working, when opening the strong input 211 inhaling electromagnetic valve 21, described second outfan 213 connects described little flare 4, and described little flare 4 obtains the supply of combustion gas.As it is shown in figure 1, the position of little flare 4 is located between main burner 3 and temperature difference electricity generation device 5 and little flare 4 is close to described main burner 3 and temperature difference electricity generation device 5.Temperature difference electricity generation device 5 includes a temperature-difference power generation module.After little flare 4 is lighted, the temperature-difference power generation module of described temperature difference electricity generation device receives the heat radiation of little flare 4, provides thermal source to produce electric energy by little flare 4 for temperature difference electricity generation device.After main burner connects combustion gas, described little flare lights main burner 3.

As it is shown in figure 1, described temperature difference electricity generation device 4 is located at the rear side of little flare, when little flare burns, temperature difference electricity generation device 4 can receive the heat radiation of little flare.Temperature difference electricity generation device 4 includes a temperature-difference power generation module, and this temperature-difference power generation module includes a thermo-electric generation quasiconductor.Described temperature-difference power generation module connects described controller 6 and electricity can be transferred to a controller 6.

Described controller 6 includes rechargeable battery powered charging port 63, remote signal input port 64 of step motor drive output port 61, solenoid-driven output port 62, a pair yard of study key-press input port 65, touch key-press input port 66, thermo-electric generation input port 67, little flare igniting output port 68 and little flare flare up fire detection input port 69.Step motor drive output port 61 connects motor 22.Described solenoid-driven output port 62 connects strong suction electromagnetic valve 21.Described rechargeable battery powered charging port 63 connects described rechargeable battery 7, the electric energy that temperature difference electricity generation device 5 produces is transferred to described rechargeable battery 7 and stores.Remote signal input port 64 is for receiving the enabling signal that remote controller 8 sends.Code is learnt key-press input port 65 and is connected to remotely controlled button 10.Touch key-press input port 66 connects touch screen 9, for receiving the control signal that the touch key-press on touch screen 9 sends.Its connection temperature difference electricity generation device 5 of thermo-electric generation input port 67, is transferred to rechargeable battery 7 by the electric energy that temperature difference electricity generation device 5 produces.Little flare igniting output port 68 connects little flare, little flare igniting during for first installation.Its connection of detection input port 69 of little flare flare up fire is arranged on the flare up fire detector 41 at little flare place, and this flare up fire detector 41 is one of thermocouple, ion probe or photo sensitive device.

The operation principle of this first embodiment is described below in conjunction with Fig. 2 to Fig. 4.

(1), shown in Figure 2, when controlling valve and not working, strong electromagnetic valve 21 of inhaling closes input, and combustion gas cannot be introduced into little flare 4 and main burner 3.

(2), shown in Figure 3, after controller 6 receives the enabling signal of remote controller 8 or touch screen 9, controller 6 controls described control valve 2 and starts working, the strong electromagnetic valve 21 of inhaling now controlled in valve 2 comes into operation, and motor 22 does not work, the strong input 211 inhaling electromagnetic valve is opened, the first outfan 212 cuts out, the second outfan 213 is opened.Combustion gas is entered the second outfan 213 by the input 211 inhaling by force electromagnetic valve 21 after pressure maintaining valve 1, subsequently into little flare 4.Little flare 4 is lighted under the control of controller 6.After little flare 4 is ignited, being heated to temperature difference electricity generation device 5, after the temperature difference reaches certain value, described temperature difference electricity generation device produces electric energy and also electric energy is transferred to controller 6 simultaneously, by controller 6, electric energy is transferred to described rechargeable battery 7.

(3), shown in Figure 4, after little flare 4 is ignited, after the flare up fire detector 41 that controller 6 is connected by detecting input port with little flare flare up fire detects the signal of little flare, strong the first outfan 212 inhaling electromagnetic valve 21 opened by motor 22 in controller 6 drive control valve, combustion gas is simultaneously entered the first outfan 212 and the second outfan 213 by the input 211 inhaling by force electromagnetic valve 21, main burner 3 begins with combustion gas and enters, simultaneously, due to being located proximate to of little flare 4 and main burner 3, little flare 4 can light main burner 3.Temperature difference electricity generation device is produced heat radiation by main burner 3 simultaneously.

(4), when the signal regulating main burner 3 flame size that controller 6 receives remote controller 8 or touch screen 9 sends, controller 6 regulates the size of the first outfan 212 opening by drive stepping motor, the inlet of regulating gas is carried out, thus reaching to regulate the purpose of the flame size of main burner 3 by strengthening or reducing the opening of the first outfan 212.

(5), when after the end signal that controller receives remote controller 8 or touch screen 9 sends, controller controls strong electromagnetic valve 21 of inhaling and cuts out input 211, and controls motor 22 and close the first outfan 212, closes main burner 3 and little flare 4.

Shown in Figure 5, Fig. 5 is the structural representation of the second embodiment of the present utility model.The adjustable fire list source of the gas gas control system carrying TRT in this second embodiment, includes air relief valve 1, controls the parts such as valve 2, main burner 3, little flare 4, temperature difference electricity generation device 5, controller 6, rechargeable battery 7 and remote controller 8, touch screen 9 and remotely controlled button 10.The place different from first embodiment is in that, the control valve of the second embodiment is different from the control valve arrangement of first embodiment.

As it is shown in figure 5, described control valve 2 includes valve body 25, electromagnetic valve 23, motor 24 and the swing arm 26 driven by described motor.Described valve body 25 is provided with input 251 and two outfans 252 and 253, and said two outfan is described first outfan 252 of described control valve 2 and described second outfan 253.Wherein, described input 251 is lower than described second outfan 253, and described second outfan 253 is positioned at the lower section of described first outfan 252.The port being positioned at the second outfan 253 in described valve body is provided with an air inlet ring, and is provided with protruding 254 corresponding to the port of described second outfan 253 in described valve body.A gap is kept between described protruding 254 and described enterprising compression ring.The lower end of this projection 254 is concordant with the lower end 2532 of described air inlet ring, and the upper end of this projection 254 is concordant with the upper end 2531 of described air inlet ring.Described swing arm 26 is connected to the lower section of described motor 24, and this swing arm 26 moves up and down along described gap under the drive of described motor 24.Described swing arm 26 is provided with a sealing lid 27, the described diameter diameter more than described gap sealing lid 27, when described sealing lid 27 bear against the upper end 2531 of described air inlet ring and the described upper end of protruding 254 along with described swing arm 26, described sealing lid 27 seals described first outfan 252.Described electromagnetic valve 23 is connected with described controller 6, this electromagnetic valve 23 adhesive or release under the driving of described controller 6.When described electromagnetic valve 23 adhesive, described electromagnetic valve 23 presses on the lower end 2532 of described air inlet ring and the described lower end of protruding 254, the airtight described input 251 of described electromagnetic valve 23.Described motor 24 is connected with described controller 6, and this motor 24 drives described swing arm 26 to move up and down under the driving of described controller.

In a second embodiment, the flare up fire detector 41 that described little flare 4 place is provided with is only thermocouple.Described flare up fire detector 41 connects described controller 6, and flare up fire feeds back to controller 6.

The operation principle of this second embodiment is described below in conjunction with Fig. 6 to Fig. 8.

(1), as shown in Figure 6, for the second embodiment of the present utility model control valve closed mode time local state schematic diagram.When controlling valve and not working, electromagnetic valve 23 presses on the lower end 2532 of the described bottom of protruding 254 and air inlet ring, is closed by the input 251 of valve body, and combustion gas cannot be introduced in valve body.

(2), shown in Figure 7, after controller 6 receives the enabling signal of remote controller 8 or touch screen 9, controller 6 controls described control valve 2 and starts working, now controlling motor 24 in valve 2 to move downward under the control of controller 6, motor 24 drives swing arm to compress described electromagnetic valve 23；Electromagnetic valve 23 starts adhesive after receiving controller 6 signal under the help of swing arm 26, owing to swing arm bear against described electromagnetic valve, the lid 27 that seals being located on swing arm bear against the upper end 2531 of described air inlet ring and the described upper end of protruding 254, first outfan 252 is sealed, now, input 251 is opened, the first outfan 252 cuts out, the second outfan 253 is opened.Combustion gas entered by input 251 after from the second outfan 253 go out arrival little flare 4.Little flare 4 is lighted under the control of controller 6.After little flare 4 is ignited, being heated to temperature difference electricity generation device 5, after the temperature difference reaches certain value, described temperature difference electricity generation device produces electric energy and also electric energy is transferred to controller 6 simultaneously, by controller 6, electric energy is transferred to described rechargeable battery 7.

(3), shown in Figure 8, after little flare 4 is ignited, after the flare up fire detector 41 that controller 6 is connected by detecting input port with little flare flare up fire detects the signal of little flare, motor 24 in controller 6 drive control valve drives swing arm 26 to move up, thus sealing the upper end of lid 27 disengaging protruding 254 and the upper end 2531 of air inlet ring, open the first outfan 252, combustion gas is simultaneously entered the first outfan 252 and the second outfan 253 by input 251, main burner 3 connects combustion gas, simultaneously, due to being located proximate to of little flare 4 and main burner 3, little flare 4 can light main burner 3.Temperature difference electricity generation device is produced heat radiation by little flare 4 simultaneously.

(4), when the signal regulating main burner 3 flame size that controller 6 receives remote controller 8 or touch screen 9 sends, controller 6 drives the size to regulate the first outfan 252 opening of the sealing lid on swing arm 26 by drive stepping motor 24, the inlet of regulating gas is carried out, thus reaching to regulate the purpose of the flame size of main burner 3 by strengthening or reducing the opening of the first outfan 252.

(5), when, after the end signal that controller receives remote controller 8 or touch screen 9 sends, controller controls electromagnetic valve 23 and cuts out input 251, closes main burner 3 and little flare 4.

Shown in Figure 9, Fig. 9 is the structural representation of the 3rd embodiment of the present utility model.3rd embodiment is different from the position differing only in temperature difference electricity generation device setting of first embodiment.In the first embodiment, little flare 4 is located between main burner 3 and temperature difference electricity generation device 5.And in order to temperature difference electricity generation device 5 better obtains heat, in the third embodiment, temperature difference electricity generation device 5 has been located at the side of main burner 3.Temperature difference electricity generation device is produced heat radiation by main burner 3 simultaneously.

Shown in Figure 10, Figure 10 is the structural representation of the 4th embodiment of the present utility model.From the difference of the second embodiment, 4th embodiment is also only that the position that temperature difference electricity generation device is arranged is different.In the fourth embodiment, little flare 4 is located between main burner 3 and temperature difference electricity generation device 5.And in order to temperature difference electricity generation device 5 better obtains heat, in the fourth embodiment, temperature difference electricity generation device 5 has been located at the side of main burner 3.Temperature difference electricity generation device is produced heat radiation by main burner 3 simultaneously.

Shown in Figure 11, Figure 11 is the structural representation of the 5th embodiment of the present utility model.5th embodiment is distinctive in that with embodiment one and embodiment three: the temperature difference electricity generation device 5 of the 5th embodiment need not little flare or main burner heat supply.In the 5th embodiment, temperature difference electricity generation device 5 is to carry temperature-difference power generation module 51, the little flare of thermo-electric generation 52, thermo-electric generation little flare signal detector 53 and the little flare igniter head 54 of a thermo-electric generation.The heat radiation that described temperature-difference power generation module 51 is provided by the little flare 52 of thermo-electric generation produces electric energy.

As shown in figure 11, described temperature-difference power generation module 51, thermo-electric generation little flare signal detector 53 and thermo-electric generation little flare igniter head 54 are all connected with described controller 6, and the little flare of described thermo-electric generation 52 is connected with described second outfan 213 of described control valve.

Controller in the 5th embodiment includes a step motor drive output port 61, one solenoid-driven output port 62, one rechargeable battery powered charging port 63, one remote signal input port 64, a pair yard of study key-press input port 65, one touch key-press input port 66, one thermo-electric generation input port 67, one little flare igniting output port 68 and a little flare flare up fire detect input port 69 and temperature difference electricity generation device igniting port 610, one temperature difference electricity generation device flare up fire input port 611.Step motor drive output port 61 connects motor 22.Described solenoid-driven output port 62 connects strong suction electromagnetic valve 21.Described rechargeable battery powered charging port 63 connects described rechargeable battery 7, the electric energy that temperature difference electricity generation device 5 produces is transferred to described rechargeable battery 7 and stores.Remote signal input port 64 is for receiving the enabling signal that remote controller 8 sends.Code is learnt key-press input port 65 and is connected to remotely controlled button 10.Touch key-press input port 66 connects touch screen 9, for receiving the control signal that the touch key-press on touch screen 9 sends.Its connection temperature difference electricity generation device 5 of thermo-electric generation input port 67, is transferred to rechargeable battery 7 by the electric energy that temperature difference electricity generation device 5 produces.Little flare igniting output port 68 connects little flare igniter head, little flare igniting during for first installation.Its connection of detection input port 69 of little flare flare up fire is arranged on the flare up fire detector 41 at little flare place.Described temperature difference electricity generation device igniting port 610 connects the little flare igniter head 54 of thermo-electric generation, for the little flare igniting of thermo-electric generation.Described temperature difference electricity generation device flare up fire input port 611 connects the little flare signal detector 53 of described thermo-electric generation.

Shown in Figure 12, Figure 12 is the structural representation of sixth embodiment of the present utility model.This sixth embodiment is distinctive in that with embodiment two and embodiment four: the temperature difference electricity generation device 5 of this sixth embodiment need not little flare or main burner heat supply.In the sixth embodiment, temperature difference electricity generation device 5 is to carry temperature-difference power generation module 51, the little flare of thermo-electric generation 52, thermo-electric generation little flare signal detector 53 and the little flare igniter head 54 of thermo-electric generation.The heat radiation that described temperature-difference power generation module 51 is provided by the little flare 52 of thermo-electric generation produces electric energy.

As shown in figure 12, described temperature-difference power generation module 51, the little flare 52 that generates electricity, thermo-electric generation little flare signal detector 53 and thermo-electric generation little flare igniter head 54 are all connected with described controller 6, and the little flare of described thermo-electric generation 52 is connected with described second outfan 253 of described control valve.

Controller in the sixth embodiment includes a step motor drive output port 61, one solenoid-driven output port 62, one rechargeable battery powered charging port 63, one remote signal input port 64, a pair yard of study key-press input port 65, one touch key-press input port 66, one thermo-electric generation input port 67, one little flare igniting output port 68 and a little flare flare up fire detect input port 69 and temperature difference electricity generation device igniting port 610, one temperature difference electricity generation device flare up fire input port 611.Step motor drive output port 61 connects motor 24.Described solenoid-driven output port 62 connects electromagnetic valve 23.Described rechargeable battery powered charging port 63 connects described rechargeable battery 7, the electric energy that temperature difference electricity generation device 5 produces is transferred to described rechargeable battery 7 and stores.Remote signal input port 64 is for receiving the enabling signal that remote controller 8 sends.Code is learnt key-press input port 65 and is connected to remotely controlled button 10.Touch key-press input port 66 connects touch screen 9, for receiving the control signal that the touch key-press on touch screen 9 sends.Its connection temperature difference electricity generation device 5 of thermo-electric generation input port 67, is transferred to rechargeable battery 7 by the electric energy that temperature difference electricity generation device 5 produces.Little flare igniting output port 68 connects little flare igniter head, little flare igniting during for first installation.Its connection of detection input port 69 of little flare flare up fire is arranged on the flare up fire detector 41 at little flare place.Described temperature difference electricity generation device igniting port 610 connects the little flare igniter head 54 of thermo-electric generation, lights a fire for the little flare 52 of thermo-electric generation.Described temperature difference electricity generation device flare up fire input port 611 connects the little flare signal detector 53 of described thermo-electric generation.

Should be understood that these embodiments are merely to illustrate this utility model rather than limit scope of the present utility model.In addition, it is to be understood that after having read the content that this utility model is lectured, this utility model can be made various changes or modifications by those skilled in the art, and these equivalent form of values fall within the application appended claims limited range equally.

Claims (12)

1. the adjustable fire list source of the gas gas control system carrying TRT, it is characterised in that including:

One air relief valve, its input connects gas source, and its outfan connects a control valve；

Described control valve, it controls the source of the gas input of a main burner and a little flare, and the input of this control valve connects the outfan of described air relief valve by gas pipeline, and described control valve includes the first outfan and the second outfan；

Described main burner, it is connected with described first outfan of described control valve by described gas pipeline；

Described little flare, it is connected with described second outfan of described control valve by described gas pipeline, and this little flare is used for a temperature difference electricity generation device heat supply and is used for lighting described main burner；

Described temperature difference electricity generation device, it connects described controller and electricity can be transferred to a controller；

Described controller, it connects described control valve, described main burner, described little flare and described temperature difference electricity generation device respectively；

One rechargeable battery, it is connected on described controller, and described rechargeable battery stores, by described controller, the electric energy that described TRT produces.

2. the adjustable fire list source of the gas gas control system carrying TRT according to claim 1, it is characterised in that described control valve includes the last one and inhales electromagnetic valve and a motor, wherein:

Described strong suction electromagnetic valve, it includes an input and two outfans, and said two outfan is described first outfan of described control valve and described second outfan, and the described input of strong suction electromagnetic valve is connected with the outfan of described air relief valve；Described first outfan connects described main burner；Described second outfan connects described little flare；Described strong suction electromagnetic valve is connected with described controller, and this is inhaled by force electromagnetic valve and opens under the control of described controller or close input；

Described motor, it is located at described first outfan, and described motor is connected with described controller, and described motor opens under the control of described controller or cuts out described first outfan.

3. the adjustable fire list source of the gas gas control system carrying TRT according to claim 2, it is characterized in that, described little flare is provided with a flare up fire detector, this flare up fire detector is one of thermocouple, ion probe or photo sensitive device, and described flare up fire detector connects described controller.

4. the adjustable fire list source of the gas gas control system carrying TRT according to claim 1, it is characterised in that described control valve includes a valve body, an electromagnetic valve, a motor and the swing arm driven by described motor, wherein:

Described valve body, which is provided with input and two outfans, said two outfan is described first outfan of described control valve and described second outfan, and described input is lower than described second outfan, and described second outfan is positioned at the lower section of described first outfan；It is positioned at the port of the second outfan in described valve body and is provided with an air inlet ring, and be provided with projection corresponding to the port of described second outfan in described valve body, described protruding and keep a gap between described air inlet ring；The lower end of this projection is concordant with the lower end of described air inlet ring, and the upper end of this projection is concordant with the upper end of described air inlet ring；

Described swing arm, it is connected to the lower section of described motor, and this swing arm moves up and down along described gap under the drive of described motor；Described swing arm is provided with a sealing lid, and the diameter of described sealing lid is more than the diameter in described gap, when described sealing lid bear against the upper end of described air inlet ring upper end and described projection along with described swing arm, and the first outfan described in described seal cap sealing；

Described electromagnetic valve, it is connected with described controller, and this electromagnetic valve is adhesive or release under the driving of described controller, and when described electromagnetic valve adhesive, described electromagnetic valve presses on the lower end of described air inlet ring lower end and described projection, the airtight described input of described electromagnetic valve；

Described motor, it is connected with described controller, and this motor drives the described upper and lower motion of swing arm under the driving of described controller.

5. the adjustable fire list source of the gas gas control system carrying TRT according to claim 4, it is characterised in that described little flare is provided with a flare up fire detector, and this flare up fire detector is thermocouple, described flare up fire detector connects described controller.

6. the adjustable fire list source of the gas gas control system carrying TRT according to any one of claim 1,2 or 4, it is characterised in that also include a remote controller, described remote controller sends controller described in an enabling signal remote control to start to start.

7. the adjustable fire list source of the gas gas control system carrying TRT according to any one of claim 1,2 or 4, it is characterized in that, being also associated with a touch screen on described controller, described touch screen is provided with multiple touch key-press, controls described controller by described touch screen.

8. the adjustable fire list source of the gas gas control system carrying TRT according to any one of claim 1,2 or 4, it is characterised in that be also associated with a remotely controlled button on described controller.

9. the adjustable fire list source of the gas gas control system carrying TRT according to claim 1, it is characterized in that, described temperature difference electricity generation device includes a temperature-difference power generation module, described temperature-difference power generation module is located near described little flare or main burner to receive the heat radiation of described little flare or main burner and to produce electric energy, and described temperature-difference power generation module connects described controller.

10. the adjustable fire list source of the gas gas control system carrying TRT according to claim 9, it is characterized in that, described controller includes a step motor drive output port, a rechargeable battery powered charging port, a remote signal input port, a pair yard of study key-press input port, a touch key-press input port, a thermo-electric generation input port being connected with described temperature-difference power generation module, a little flare igniting output port, little flare flare up fire detection input port and a solenoid-driven output port.

11. the adjustable fire list source of the gas gas control system carrying TRT according to claim 1, it is characterized in that, described temperature difference electricity generation device includes a temperature-difference power generation module, the one little flare of thermo-electric generation, one thermo-electric generation little flare signal detector and the little flare igniter head of thermo-electric generation, described temperature-difference power generation module, thermo-electric generation little flare signal detector and thermo-electric generation little flare igniter head are all connected with described controller, and the described little flare of thermo-electric generation is connected with described second outfan, described temperature-difference power generation module relies on the heat radiation generating that the little flare of described thermo-electric generation produces.

12. the adjustable fire list source of the gas gas control system carrying TRT according to claim 11, it is characterized in that, described controller includes a step motor drive output port, one rechargeable battery powered charging port, one remote signal input port, a pair yard of study key-press input port, one touch key-press input port, one little flare igniting output port, one little flare flare up fire detection input port, one solenoid-driven output port, the one thermo-electric generation input port being connected with described temperature-difference power generation module, the temperature difference electricity generation device igniting port that one is connected with the little flare igniter head of described thermo-electric generation, the one temperature difference electricity generation device flare up fire input port being connected with the little flare signal detector of described thermo-electric generation.