CN202581407U - Ion induction ignition system applicable to oven - Google Patents

Abstract

The utility model discloses an ion induction ignition system applicable to an oven. The ion induction ignition system comprises a temperature control switch I, a pulse igniter, a relay I and an electromagnetic valve I, wherein one end of the temperature control switch I is connected with an anode of a power supply, and the other end of the temperature control switch I is connected with an L end of the pulse igniter; an ion induction ignition pin I is opposite to the L end of the pulse igniter; an N end of the pulse igniter is connected with a cathode of the power supply; a G end of the pulse igniter is grounded; an F end of the pulse igniter is connected with an input end of the relay I; an output end of the relay I is connected with the L end of the electromagnetic valve I; the N end of the electromagnetic valve I is connected with the cathode of the power supply; and the G end of the electromagnetic valve I is grounded. The ion induction ignition system applicable to the oven has the advantages that an ion induction system and the electromagnetic valve are connected in series, and high-voltage electric spark is generated by the ion induction system and a corresponding combustor during ignition, so the service life of an igniter is prolonged, using safety is improved, the combustor can be completely started by ignition at one time, and ignition rate is high; and a gas source is controlled by the electromagnetic valve, so safety performance is greatly improved, and energy is saved.

Description

A kind of ion inductive ignition system that is applied to baking box

[technical field]

The utility model relates to a kind of ignition system, especially relates to a kind of ion inductive ignition system that is applied to baking box.

[background technology]

Present employed baking box, its sparking mode mostly adopts spark ignition, and igniter is mainly piezoelectric ceramic ignitor and pulse igniter.Wherein piezoelectric ceramic ignitor is made up of piezo ceramic element, hammer, spring, igniting pin, high-voltage line, group inserted sheet, ignition burner and rotating shaft; Its course of work is: through the rotation of knob, group inserted sheet protruding end and the hammer nose that connect together with rotating shaft are withstood, along with rotating shaft rotates counterclockwise, move with spring behind group inserted sheet drive hammer and shrink.When rotating shaft rotated, the igniting blast tube was opened, and gas-flow is meanwhile dialled inserted sheet hammer is moved to extreme position to ignition burner; Dial inserted sheet and separate, spring reset, hammer bump piezoelectric ceramics with the hammer nose; Produce high-voltage spark, light female fire at once, drawing burner again.The piezoelectric ceramic ignitor cost is low, compact conformation, long service life, need not other power supply, but the every rotation of knob once, can only produce a spark, and lighting rate is not high, if igniting has some setbacks, needs repeatedly repetitive operation.Another kind of pulse igniter comprises battery, pulse switch, electronic component, igniting pin, high-tension coil; Wherein said pulse switch, battery, electronic component, high-tension coil, lead, igniting pin connect successively, and form a loop, and pulse switch also connects the knob of gas kitchen ranges simultaneously.Its course of work is: push-turn key, make with the pulse switch of knob interlock to be communicated with, and after the electronic component energising, high-tension coil produces electrion, passes to the igniting pin via lead, produces the continuous discharge igniting; Along with knob, air valve is opened, and combustion gas outflow burner is lighted.The advantage of pulse igniter is: produce continuously sparking during igniting, lighting rate is high, but a gas furnace only sets a cover high-tension coil and electronic component combination usually; Control all burner igniting; This is for the gas furnace with a plurality of burners, and when starting any one knob, not only corresponding burner produces high-voltage spark; Other burner that is not activated also simultaneously in arcing, has reduced the life-span of igniter; Especially when culinary art, the liquid of boiling over, steam can make the humidity of environment increase, and make such igniter be very easy to damage because of making moist; And its complex structure, installation, maintenance and change battery, therefore all unusual inconvenience be necessary to improve.

[utility model content]

In order to overcome the defective that above-mentioned prior art exists, a kind of ion inductive ignition system that is applied to baking box is provided, igniting is reliable, and simple structure can adapt in the frequent operation place it, uses like workplaces such as hotel, restaurants.

In order to solve the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of ion inductive ignition system that is applied to baking box comprises temperature detect switch (TDS) I, pulse igniter, relay I and electromagnetic valve I; Said temperature detect switch (TDS) I one end is connected with positive source, and its other end is connected with pulse igniter L end, ion inductive ignition pin I and the corresponding setting of pulse igniter L end; Said pulse igniter N end is connected with power cathode; Pulse igniter G holds ground connection, and said pulse igniter F end is connected with relay I input, and said relay I output is connected with electromagnetic valve I L end; Electromagnetic valve I N end is connected with power cathode, and electromagnetic valve I G holds ground connection.

Further, the said ion inductive ignition system that is applied to baking box also comprises temperature detect switch (TDS) II; Said temperature detect switch (TDS) II and temperature detect switch (TDS) I are connected in parallel; Temperature detect switch (TDS) II one end is connected with positive source, and its other end is connected with pulse igniter P end, ion inductive ignition pin II and the corresponding setting of pulse igniter P end; Said pulse igniter Q end is connected with relay II input; Said relay II output is connected with electromagnetic valve II L end, and electromagnetic valve II N end is connected with power cathode, and electromagnetic valve II G holds ground connection.

Compared with prior art, because the utility model adopts the ion induction system to connect with magnetic valve, only produce high-voltage spark during sparking with corresponding burner; Prolonged the service life of igniter; Increased safety in utilization, and once sparking gets final product 100% burner lighted, lighting rate is high; Because source of the gas through solenoid control, has increased security performance greatly, and energy savings.

[description of drawings]

Accompanying drawing described herein is the further understanding that is used to provide the utility model, constitutes the application's a part, but do not constitute improper qualification the utility model, in the accompanying drawings:

Fig. 1 is the circuit theory sketch map of the utility model.

Description of reference numerals: 1-temperature detect switch (TDS) I; The 2-pulse igniter; 3-relay I; The 4-electromagnetic valve I; 5-ion inductive ignition pin I; 6-temperature detect switch (TDS) II; 7-ion inductive ignition pin II; 8-relay II; The 9-electromagnetic valve II.

[specific embodiment]

The embodiment of the utility model is described below in conjunction with accompanying drawing 1.

A kind of ion inductive ignition system that is applied to baking box; Comprise temperature detect switch (TDS) I 1, pulse igniter 2, relay I 3 and electromagnetic valve I 4, said temperature detect switch (TDS) I 1 one ends are connected with positive source, and its other end is connected with pulse igniter 2L end; Ion inductive ignition pin I 5 and the corresponding setting of pulse igniter 2L end; Said pulse igniter 2N end is connected with power cathode, and pulse igniter 2G holds ground connection, and said pulse igniter 2F end is connected with relay I 3 inputs; Said relay I 3 outputs are connected with electromagnetic valve I 4L end; Electromagnetic valve I 4N end is connected with power cathode, and electromagnetic valve I 4G holds ground connection, the IGNITION CONTROL of gas burner in the temperature detect switch (TDS) I 1 control baking box.

Also comprise temperature detect switch (TDS) II 6 as another kind of preferred version; Said temperature detect switch (TDS) II 6 is connected in parallel with temperature detect switch (TDS) I 1; Temperature detect switch (TDS) II 6 one ends are connected with positive source, and its other end is connected with pulse igniter 2P end, ion inductive ignition pin II 7 and the corresponding setting of pulse igniter 2P end; Said pulse igniter 2Q end is connected with relay II 8 inputs; Said relay II 8 outputs are connected with electromagnetic valve II 9L end, and electromagnetic valve II 9N end is connected with power cathode, and electromagnetic valve II 9G holds ground connection.The IGNITION CONTROL of infrared ray burner in the temperature detect switch (TDS) II 6 control baking boxs.

Operation principle: in the time need the gas burner in the baking box being lighted, during closed baking box temperature detect switch (TDS) I 1, ion inductive ignition pin I 5 beginning high-voltage pulses igniting; The energising of relay I 3 delivery outlets; Electromagnetic valve I 4 is closed son and is opened, and begins to the burner supply combustion gas that is connected, after burner is lighted; Ion inductive ignition pin I 5 responds to the control system that uploads to signal pulse igniter 2 through ion, and ion inductive ignition pin I 5 stops igniting.In ten seconds, do not light burner relay I like ion inductive ignition pin I 5

3 delivery outlets cut off the power supply automatically, and electromagnetic valve I 4 is closed sub-auto-closing, stop to the burner supply combustion gas that is connected.

In the time need the infrared ray burner in the baking box being lighted, during closed baking box temperature detect switch (TDS) II 6, ion inductive ignition pin II 7 beginning high-voltage pulses igniting; The energising of relay II 8 delivery outlets; Electromagnetic valve II 9 is closed son and is opened, and begins to the burner supply combustion gas that is connected, after burner is lighted; Ion inductive ignition pin II 7 responds to the control system that uploads to signal pulse igniter 2 through ion, and ion inductive ignition pin II 7 stops igniting.Do not light burner in ten seconds like ion inductive ignition pin II 7, relay II 8 delivery outlets cut off the power supply automatically, and electromagnetic valve II 9 is closed sub-auto-closing, stop to the burner supply combustion gas that is connected.

When opening baking box temperature detect switch (TDS) I 1 with temperature detect switch (TDS) II 6, the The whole control system outage, electromagnetic valve I 4 and electromagnetic valve II 9 close sub-auto-closing, stop to the burner supply combustion gas that is connected, burner extinguishes.When burner in combustion process during undesired extinguishing, ion inductive ignition pin I 5 or ion inductive ignition pin II 7 light a fire again, till burner is lighted.Do not light gas apparatus in ten seconds like ion inductive ignition pin, the relay delivery outlet cuts off the power supply automatically, and magnetic valve closes sub-auto-closing, stops to the burner supply combustion gas that is connected.

The above in the spiritual category that does not break away from the utility model creation, is familiar with the protection domain that this technological various simple covert and modification that those skilled in the art did still belongs to the utility model only in order to the convenient the utility model of explaining.

Claims (2)

1. ion inductive ignition system that is applied to baking box; Comprise temperature detect switch (TDS) I (1), pulse igniter (2), relay I (3) and electromagnetic valve I (4); It is characterized in that: said temperature detect switch (TDS) I (1) one end is connected with positive source, and its other end is connected with pulse igniter (2) L end, ion inductive ignition pin I (5) and the corresponding setting of pulse igniter (2) L end; Said pulse igniter (2) N end is connected with power cathode; Pulse igniter (2) G holds ground connection, and said pulse igniter (2) F end is connected with relay I (3) input, and said relay I (3) output is connected with electromagnetic valve I (4) L end; Electromagnetic valve I (4) N end is connected with power cathode, and electromagnetic valve I (4) G holds ground connection.

2. the ion inductive ignition system that is applied to baking box according to claim 1; It is characterized in that: also comprise temperature detect switch (TDS) II (6), said temperature detect switch (TDS) II (6) and temperature detect switch (TDS) I (1) are connected in parallel, and temperature detect switch (TDS) II (6) one ends are connected with positive source; Its other end is connected with pulse igniter (2) P end; Ion inductive ignition pin II (7) and the corresponding setting of pulse igniter (2) P end, said pulse igniter (2) Q end is connected with relay II (8) input, and said relay II (8) output is connected with electromagnetic valve II (9) L end; Electromagnetic valve II (9) N end is connected with power cathode, and electromagnetic valve II (9) G holds ground connection.

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