CN207962718U - A kind of biomass gasifying furnace automatic ignition device - Google Patents

Abstract

The utility model belongs to gasification furnace supporting technology field, more particularly to a kind of biomass gasifying furnace automatic ignition device, the magnetic induction sensor L1 triggerings output is connected to ignition controller Q1, the collector output of the ignition controller Q1 is connected to one end of the primary coil of ignition coil T1, the other end of the primary coil of the ignition coil T1 is connected to the emitter of ignition controller Q1, the utility model solves the prior art in the presence of the limitation due to existing its circuit structure of automatic sparking device, so as to cause the unstable problem of the fired state in work, stability with fired state, the stability of circuit triggering, convenience is high, the good advantageous effects of applicability.

Description

A kind of biomass gasifying furnace automatic ignition device

Technical field

The utility model belongs to gasification furnace supporting technology field more particularly to a kind of biomass gasifying furnace automatic ignition dress It sets.

Background technology

Currently, the straw fuel gas of gas furnace manufacture, belongs to green novel energy source, there is powerful vitality, since plant is fired The raw material that gas generates is agricultural crop straw, forest tree castoff, edible fungi residues, cattle and sheep animal manure and all inflammable substances, is a kind of Inexhaustible regenerated resources, however, in fuel in China's rural areas structure, have only straw fuel gas it is most economical, It is most convenient, most energy saving, most suitably used, it is not only safe to use, and also sanitation and hygiene, the prior art exist due to existing automatic ignition The limitation of its circuit structure of device, so as to cause the unstable problem of the fired state in work.

Utility model content

The utility model provides a kind of biomass gasifying furnace automatic ignition device, to solve to propose in above-mentioned background technology There is the limitation due to existing its circuit structure of automatic sparking device in the prior art, so as to cause unstable state of lighting a fire in work Fixed problem.

The technical issues of the utility model is solved is realized using following technical scheme：A kind of biomass gasifying furnace is automatic Igniter, including magnetic induction sensor L1, the magnetic induction sensor L1 triggerings output is connected to ignition controller Q1, described The collector output of ignition controller Q1 is connected to one end of the primary coil of ignition coil T1, the primary of the ignition coil T1 The other end of coil is connected to the emitter of ignition controller Q1, and the secondary coil output of the ignition coil T1 is connected to distribution Device KK1, the automatic ignition device further include power supply D1, and the anode output of the power supply D1 is connected to the one of current-limiting resistance R1 End, the other end output of the current-limiting resistance R1 are connected to one end of ammeter A1, and the other end output of the ammeter A1 connects It is connected to one end of switch K1, the other end output of the switch K1 is connected to one end of the primary coil of ignition coil T1.

Further, the distributor KK1 is output in igniting monitoring device.

Further, the secondary coil of the ignition coil T1 generates instantaneous pressure through ignition controller Q1 controls.

Advantageous effects：

1, this patent is connected to ignition controller Q1, the ignition control using magnetic induction sensor L1 triggering outputs Device Q1 collector output be connected to ignition coil T1 primary coil one end, the primary coil of the ignition coil T1 it is another One end is connected to the emitter of ignition controller Q1, and the secondary coil output of the ignition coil T1 is connected to distributor KK1, institute It further includes power supply D1 to state automatic ignition device, and the anode output of the power supply D1 is connected to one end of current-limiting resistance R1, the limit The other end output of leakage resistance R1 is connected to one end of ammeter A1, and the other end output of the ammeter A1 is connected to switch K1 One end, the switch K1 the other end output be connected to ignition coil T1 primary coil one end, due to this igniter Mainly it is made of magnetic induction sensor, electronic spark advance regulating device, distributor etc., when ignition operation, magnetic inductor magnetic flux hair Changing generates voltage signal, supplies ignition controller, and ignition controller is also known as electronic igniting controllor, electronic ignition component Or igniter, mainly it is made of light a fire dedicated integrated circuit and some auxiliary electronic elements.Its main function is according to magnetic The voltage signal of inductive pick-up output, controls the conducting and cut-off of ignition coil primary winding circuit, ignition coil is made to generate High-voltage electricity, to realize igniting, this improves the stability of fired state.

2, this patent magnetic induction sensor is made of rotor, stator, permanent magnet, sensor coil etc., since it passes through sense External permanent magnets are answered, ensure that the stability of circuit triggering.

3, this patent is connected to one end of current-limiting resistance R1, the current-limiting resistance R1 using the anode output of the power supply D1 Other end output be connected to one end of ammeter A1, the other end output of the ammeter A1 is connected to one end of switch K1, The other end output of the switch K1 is connected to one end of the primary coil of ignition coil T1, due to concatenated power supply D1, current limliting Resistance R1 and ammeter A1, simple and integrated due to its structure, so that it is not required to additional power source can light a fire, due to simplification External igniting, improve the convenience of operation.

4, this patent is simple and reliable, lights a fire especially suitable for gasification furnace instantaneous pressure.

Description of the drawings

Fig. 1 is a kind of circuit diagram of biomass gasifying furnace automatic ignition device of the utility model.

Specific implementation mode

The utility model is described further below in conjunction with attached drawing：

In figure：L1- magnetic induction sensors, Q1- ignition controllers, T1- ignition coils, KK1- distributors, D1- power supplys, R1- Current-limiting resistance, A1- ammeters, K1- switches.

Embodiment：

The present embodiment：As shown in Figure 1, a kind of biomass gasifying furnace automatic ignition device, including magnetic induction sensor L1, institute It states magnetic induction sensor L1 triggering output and is connected to the collector output of ignition controller Q1, the ignition controller Q1 and be connected to The other end of one end of the primary coil of ignition coil T1, the primary coil of the ignition coil T1 is connected to ignition controller Q1 Emitter, the ignition coil T1 secondary coil output is connected to distributor KK1, the automatic ignition device further includes electricity The anode output of source D1, the power supply D1 are connected to one end of current-limiting resistance R1, and the other end output of the current-limiting resistance R1 connects It is connected to one end of ammeter A1, the other end output of the ammeter A1 is connected to one end of switch K1, and the switch K1's is another One end output is connected to one end of the primary coil of ignition coil T1.

The distributor KK1 is output in igniting monitoring device.

The secondary coil of the ignition coil T1 generates instantaneous pressure through ignition controller Q1 controls.

Operation principle：

This patent is connected to ignition controller Q1, the ignition controller by magnetic induction sensor L1 triggering outputs Q1 collector output be connected to ignition coil T1 primary coil one end, the primary coil of the ignition coil T1 it is another End is connected to the emitter of ignition controller Q1, and the secondary coil output of the ignition coil T1 is connected to distributor KK1, described Automatic ignition device further includes power supply D1, and the anode output of the power supply D1 is connected to one end of current-limiting resistance R1, the current limliting The other end output of resistance R1 is connected to one end of ammeter A1, and the other end output of the ammeter A1 is connected to switch K1's One end, the other end output of the switch K1 is connected to one end of the primary coil of ignition coil T1, due to this igniter master It to be made of magnetic induction sensor, electronic spark advance regulating device, distributor etc., when ignition operation, magnetic inductor magnetic flux occurs Variation, generate voltage signal, supply ignition controller, ignition controller be also known as electronic igniting controllor, electronic ignition component or Igniter is mainly made of light a fire dedicated integrated circuit and some auxiliary electronic elements.Its main function is according to magnetic strength The voltage signal of inductive sensing device output, controls the conducting and cut-off of ignition coil primary winding circuit, so that ignition coil is generated high Piezoelectricity, to realize that igniting, the utility model solve the prior art and exist due to its circuit knot of existing automatic sparking device The limitation of structure, so as to cause the unstable problem of the fired state in work, stability, circuit triggering with fired state The advantageous effects that stability, convenience are high, applicability is good.

Using the technical solution of the utility model or those skilled in the art technical solutions of the utility model inspiration Under, similar technical solution is designed, and reach above-mentioned technique effect, it is to fall into the scope of protection of the utility model.

Claims (3)

1. a kind of biomass gasifying furnace automatic ignition device, which is characterized in that including magnetic induction sensor L1, the magnetic induction passes The collector output that sensor L1 triggering outputs are connected to ignition controller Q1, the ignition controller Q1 is connected to ignition coil T1 Primary coil one end, the other end of the primary coil of the ignition coil T1 is connected to the emitter of ignition controller Q1, The secondary coil output of the ignition coil T1 is connected to distributor KK1, and the automatic ignition device further includes power supply D1, described The anode output of power supply D1 is connected to one end of current-limiting resistance R1, and the other end output of the current-limiting resistance R1 is connected to ammeter One end of A1, the other end output of the ammeter A1 are connected to one end of switch K1, and the other end output of the switch K1 connects It is connected to one end of the primary coil of ignition coil T1.

2. a kind of biomass gasifying furnace automatic ignition device according to claim 1, which is characterized in that the distributor KK1 is output in igniting monitoring device.

3. a kind of biomass gasifying furnace automatic ignition device according to claim 1, which is characterized in that the ignition coil The secondary coil of T1 generates instantaneous pressure through ignition controller Q1 controls.