CN107477610A - A kind of igniter fire frequency target test device - Google Patents

Abstract

The invention discloses a kind of igniter fire frequency target test device,Include shell,The shell is arranged at the voltage induced element near ignition electrode,The voltage induced element is connected with the spark rate waveform changing circuit for detecting igniter spark rate and making spark rate waveform be converted to square wave,The spark rate waveform changing circuit be connected with for calculate spark rate waveform changing circuit square wave frequency and judge square wave frequency whether the CPU detection process circuits in igniter fire frequency scope up to standard,The CPU detection process circuit is connected with for prompting igniter fire frequency cue circuit whether up to standard,Igniter discharge voltage is caught by voltage induced element senses,And it is depressured by partial pressure,Signal isolation,Square-wave signal is exported after waveform conversion,Pass through CPU detection process circuit counting igniter fire frequencies,Judge whether spark rate is up to standard and shown by digital screen display circuit.

Description

A kind of igniter fire frequency target test device

[technical field]

The present invention relates to a kind of igniter fire frequency target test device.

[background technology]

Igniter fire underfrequency or it is too high when, do not comply with the technical requirements of igniter fire frequency.But use at present In the device of test household electrical appliance kitchen range high-tension ignition frequency, its test circuit poor anti jamming capability and unstable so that test Spark rate it is inaccurate, the shortcomings of easily producing erroneous judgement.

[content of the invention]

Instant invention overcomes the deficiency of above-mentioned technology, there is provided a kind of igniter fire frequency target test device, passes through Voltage induced element senses catch igniter discharge voltage, and are depressured by partial pressure, export square wave after the conversion of signal isolation, waveform Signal, by CPU detection process circuit counting igniter fire frequencies, judge whether spark rate is up to standard and by digital screen display Show that circuit is shown.

To achieve the above object, present invention employs following technical proposal：

A kind of igniter fire frequency target test device, includes shell 1, and the shell 1 is arranged at igniting Voltage induced element 2 near pin, the voltage induced element 2 are connected with for detecting igniter spark rate and making igniting frequency Rate waveform is converted to the spark rate waveform changing circuit 3 of square wave, and the spark rate waveform changing circuit 3 is connected with based on Calculate the square wave frequency of spark rate waveform changing circuit 3 and judge square wave frequency whether in igniter fire frequency scope up to standard CPU detection process circuit 4, the CPU detection process circuit 4 are connected with for prompting whether igniter fire frequency is up to standard to carry Show circuit 5.

The spark rate waveform changing circuit 3 includes and divided described in the division module 31 being connected with voltage induced element 2 Die block 31 has been sequentially connected with signal isolation module 32, waveform modular converter 33.

The voltage induced element 2 is provided with conductive pin.

Between the distance between described conductive pin and ignition electrode are 2 millimeters to 12 millimeters.

The division module 31 includes the resistance R1 that is connected with voltage induced element 2, the resistance R1 other ends respectively with resistance R2 one end, the connection of resistance R3 one end, the resistance R2 other ends are connected with signal isolation module 32, resistance R3 other ends ground connection.

The signal isolation module 32 is photoelectrical coupler, and photoelectrical coupler input positive terminal is connected with division module 31, Photoelectrical coupler input negative pole end ground connection, photoelectrical coupler output cathode end are connected with waveform modular converter 33, photoelectrical coupler Output negative pole end is grounded.

The waveform modular converter 33 includes triode Q1 and FET Q2, and triode Q1 emitter stages are electric with 5V respectively Source, the connection of resistance R4 one end, the resistance R4 other ends are connected with signal isolation module 32, and triode Q1 base stages pass through resistance R5 and letter Number isolation module 32 is connected, and triode Q1 colelctor electrodes are connected with electric capacity C1 one end, resistance R6 one end respectively, another terminations of electric capacity C1 Ground, the resistance R6 other ends are connected with resistance R7 one end, FET Q2 grids respectively, resistance R7 other ends ground connection, FET Q2 drain electrodes are connected by resistance R8 with 5V power supplys, and electric capacity is connected in parallel between FET Q2 drain electrodes and FET source electrode C2, FET Q2 drain electrode end are the output end of spark rate waveform changing circuit 3.

The igniter fire frequency scope up to standard is between 20HZ in 5HZ.

The cue circuit 5 is digital screen display circuit.

The beneficial effects of the invention are as follows：

The precision of voltage induced element testing igniter discharge voltage of the present invention is high, and is vacantly connected between ignition electrode, Avoid being directly connected to make high-tension electricity damage component between the two, be depressured using line around power resistor, differential pressure drop is better achieved Pressure, is used as first-level buffer circuit drives triode by photoelectrical coupler, effectively prevents rear class measured signal to be interfered, carry High anti-jamming capacity, while FET has high-precision switching characteristic, switch time reaches ns levels, makes the square-wave signal of output More stable, CPU detection process circuits have accurate square wave rising edge, trailing edge recognition capability, can calculate igniter exactly Spark rate.

[brief description of the drawings]

Fig. 1 is schematic structural view of the invention；

Fig. 2 is the circuit diagram of voltage induced element of the present invention and spark rate waveform changing circuit.

[embodiment]

It is described in further detail below in conjunction with the accompanying drawings with embodiments of the present invention：

As depicted in figs. 1 and 2, a kind of igniter fire frequency target test device, includes shell 1, on the shell 1 Provided with the voltage induced element 2 being arranged near ignition electrode, the voltage induced element 2 is connected with for detecting igniter fire Frequency simultaneously makes spark rate waveform be converted to the spark rate waveform changing circuit 3 of square wave, and the spark rate waveform is changed electric Whether road 3 is connected with for calculating the square wave frequency of spark rate waveform changing circuit 3 and judging square wave frequency in igniter fire CPU detection process circuit 4 in frequency scope up to standard, the CPU detection process circuit 4 are connected with for prompting igniter fire Frequency cue circuit 5 whether up to standard, wherein the igniter fire frequency scope up to standard is between 20HZ in 5HZ.

The spark rate waveform changing circuit 3 includes and divided described in the division module 31 being connected with voltage induced element 2 Die block 31 has been sequentially connected with signal isolation module 32, waveform modular converter 33.

The division module 31 includes the resistance R1 that is connected with voltage induced element 2, the resistance R1 other ends respectively with resistance R2 one end, the connection of resistance R3 one end, the resistance R2 other ends are connected with signal isolation module 32, and resistance R3 other ends ground connection is described Signal isolation module 32 is photoelectrical coupler, and photoelectrical coupler input positive terminal is connected with division module 31, and photoelectrical coupler is defeated Enter negative pole end ground connection, photoelectrical coupler output cathode end is connected with waveform modular converter 33, photoelectrical coupler output negative pole termination Ground, the waveform modular converter 33 include triode Q1 and FET Q2, triode Q1 emitter stages respectively with 5V power supplys, electricity Hinder the connection of R4 one end, the resistance R4 other ends are connected with signal isolation module 32, triode Q1 base stages by resistance R5 and signal every Being connected from module 32, triode Q1 colelctor electrodes are connected with electric capacity C1 one end, resistance R6 one end respectively, electric capacity C1 other ends ground connection, The resistance R6 other ends are connected with resistance R7 one end, FET Q2 grids respectively, resistance R7 other ends ground connection, FET Q2 leakages Pole is connected by resistance R8 with 5V power supplys, and electric capacity C2, field are connected in parallel between FET Q2 drain electrodes and FET source electrode Effect pipe Q2 drain electrode ends are the output end of spark rate waveform changing circuit 3.

Operation principle is as follows：

Igniter is fixed, igniter fire pin is arranged near voltage induced element 2, be i.e. ignition electrode and voltage induced Element 2 vacantly connects, and initial igniter does ignition operation, igniter intermittence electrion, and discharge voltage reaches 10KV-20KV, High-tension electricity ionized air, voltage induced element 2 produce induced voltage, are carried out by the resistance R1 in division module 31 and resistance R2 Partial pressure, and isolated by the photoelectrical coupler U1 of signal isolation module 32 and export discharge signal, make in waveform modular converter 33 Triode Q1 conducting so that FET Q2 work, to CPU detection process circuit 4 export square-wave signal, CPU detection process Circuit 4 calculates the frequency of igniter high-tension ignition by the square-wave signal of output, and whether the spark rate for judging to calculate is in 5HZ To 20HZ scope up to standard, prompt lid test igniter spark rate whether up to standard finally by cue circuit 5, have high steady Qualitative and high anti-jamming capacity, erroneous judgement can be reduced, lift homogeneity of product and reliability.

The voltage induced element 2 is provided with the electrion of conductive pin, preferably inductive ignition pin, the conductive pin with Between the distance between ignition electrode is 2 millimeters to 12 millimeters, avoid damaging survey to hypotelorism between conductive pin and ignition electrode Trial assembly put in component, too far and reduce detection frequency accuracy.

The cue circuit 5 is digital screen display circuit, more intuitively checks the test result of igniter.

Claims (9)

1. A kind of 1. igniter fire frequency target test device, it is characterised in that：Include shell (1), set on the shell (1) There is the voltage induced element (2) being arranged near ignition electrode, the voltage induced element (2) is connected with for detecting igniter point Fiery frequency simultaneously makes spark rate waveform be converted to the spark rate waveform changing circuit (3) of square wave, and the spark rate waveform turns Circuit (3) is changed to be connected with for calculating spark rate waveform changing circuit (3) square wave frequency and judging square wave frequency whether in point CPU detection process circuit (4) in firearm spark rate scope up to standard, the CPU detection process circuit (4) are connected with for carrying Show igniter fire frequency cue circuit whether up to standard (5).
2. A kind of 2. igniter fire frequency target test device according to claim 1, it is characterised in that：The igniting frequency It is suitable that rate waveform changing circuit (3) includes division module (31) division module (31) being connected with voltage induced element (2) It is secondary to be connected with signal isolation module (32), waveform modular converter (33).
3. A kind of 3. igniter fire frequency target test device according to claim 2, it is characterised in that：The voltage sense Element (2) is answered to be provided with conductive pin.
4. A kind of 4. igniter fire frequency target test device according to claim 3, it is characterised in that：The conductive pin Between the distance between ignition electrode is 2 millimeters to 12 millimeters.
5. A kind of 5. igniter fire frequency target test device according to claim 2, it is characterised in that：The partial pressure mould Block (31) includes the resistance R1 that is connected with voltage induced element (2), the resistance R1 other ends respectively with resistance R2 one end, resistance R3 mono- End connection, the resistance R2 other ends are connected with signal isolation module (32), resistance R3 other ends ground connection.
6. A kind of 6. igniter fire frequency target test device according to claim 2, it is characterised in that：The signal every It is photoelectrical coupler from module (32), photoelectrical coupler input positive terminal is connected with division module (31), photoelectrical coupler input Negative pole end is grounded, and photoelectrical coupler output cathode end is connected with waveform modular converter (33), photoelectrical coupler output negative pole termination Ground.
7. A kind of 7. igniter fire frequency target test device according to claim 2, it is characterised in that：The waveform turns Mold changing block (33) includes triode Q1 and FET Q2, and triode Q1 emitter stages connect with 5V power supplys, resistance R4 one end respectively Connect, the resistance R4 other ends are connected with signal isolation module (32), and triode Q1 base stages pass through resistance R5 and signal isolation module (32) connect, triode Q1 colelctor electrodes are connected with electric capacity C1 one end, resistance R6 one end respectively, electric capacity C1 other ends ground connection, resistance The R6 other ends are connected with resistance R7 one end, FET Q2 grids respectively, resistance R7 other ends ground connection, and FET Q2 drain electrodes are logical Cross resistance R8 to be connected with 5V power supplys, electric capacity C2, field-effect are connected in parallel between FET Q2 drain electrodes and FET source electrode Pipe Q2 drain electrode ends are spark rate waveform changing circuit (3) output end.
8. A kind of 8. igniter fire frequency target test device according to claim 1, it is characterised in that：The igniter Spark rate scope up to standard is between 20HZ in 5HZ.
9. A kind of 9. igniter fire frequency target test device according to claim 1, it is characterised in that：The prompting electricity Road (5) is digital screen display circuit.