CN210891786U - Intelligence wind-gas ratio type ignition controller - Google Patents

Abstract

The utility model discloses an intelligent air-air ratio type ignition controller, which relates to the technical field of ignition controllers and comprises a high-voltage bag, a trigger circuit, an ion induction circuit, a nixie tube display screen circuit, a variable frequency power supply circuit, a current induction circuit, a proportional valve control circuit, a singlechip control circuit and a switch power supply circuit, wherein the outer wall of the high-voltage bag is electrically connected with the outer wall of the trigger circuit, the outer wall of the ion induction circuit is electrically connected with the outer wall of the singlechip control circuit, the opposite surface of the singlechip control circuit far away from the trigger circuit is electrically connected with a nixie tube display screen circuit, the opposite surface of the singlechip control circuit far away from the ion induction circuit is electrically connected with a switch power supply circuit, the outer wall of the variable frequency power supply circuit is electrically connected with the outer wall of the current induction circuit, and the outer wall of the current transformer is electrically connected with the outer wall of the variable frequency power supply circuit. The utility model discloses possess simple structure, convenient to use safety realizes the linkage of system's main power, ignition and gas valve.

Description

Intelligence wind-gas ratio type ignition controller

Technical Field

The utility model relates to an ignition controller technical field specifically is an intelligence wind gas ratio type ignition controller.

Background

The traditional gas stove generally controls an igniter and opens a gas valve through a mechanical device, the igniter needs an additional battery to provide power for a discharge terminal, resources are wasted, and the environment is polluted. In addition, the mechanically controlled gas valve is too complex in operation, the linkage of a system main power supply, ignition and the gas valve is not realized, and a certain safety is hidden because the gas valve needs to be opened in advance.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligence wind gas ratio type ignition controller possesses simple structure, convenient to use safety, realizes the advantage of the linkage of system's total power, ignition and gas valve, and the gas valve that has solved mechanical control is too complicated, does not realize the linkage of system's total power, ignition and gas valve when the operation, owing to need open the gas valve in advance, still has certain safe latent problem moreover.

The utility model discloses a solve above-mentioned technical problem, provide following technical scheme: an intelligent wind-gas proportioning type ignition controller comprises a high-voltage bag, a trigger circuit, an ion induction circuit, a nixie tube display screen circuit, a variable-frequency power supply circuit, a current induction circuit, a proportional valve control circuit, a single chip microcomputer control circuit and a switch power supply circuit, wherein the outer wall of the high-voltage bag is electrically connected with the outer wall of the trigger circuit, the outer wall of the ion induction circuit is electrically connected with the outer wall of the single chip microcomputer control circuit, the opposite surface of the single chip microcomputer control circuit, which is far away from the trigger circuit, is electrically connected with the nixie tube display screen circuit, the opposite surface of the single chip microcomputer control circuit, which is far away from the ion induction circuit, is electrically connected with the switch power supply circuit, the outer wall of the variable-frequency power supply circuit is electrically connected with the outer wall of the current induction circuit, the current induction circuit comprises a current, and the outer wall of the current transformer is electrically connected with the outer wall of the variable-frequency power supply circuit.

Further, the inside of high-voltage package includes bar magnet, primary coil and secondary coil are connected to the bar magnet, primary coil's outer wall electric connection has trigger circuit, secondary coil fixedly connected with ignition ceramic electrode needle.

Furthermore, the trigger circuit comprises a trigger diode inside, and the outer wall of the trigger diode is electrically connected with a single chip microcomputer control circuit.

Furthermore, the ion induction circuit comprises an acquisition circuit, an amplification circuit and a comparison circuit, wherein the acquisition circuit is electrically connected with the amplification circuit, the outer wall of the amplification circuit is electrically connected with the comparison circuit, and the outer wall of the comparison circuit is electrically connected with the single chip microcomputer control circuit.

Furthermore, the nixie tube display screen circuit comprises a nixie tube, a single chip microcomputer and a serial port circuit, wherein the outer wall of the nixie tube is electrically connected with the single chip microcomputer, the outer wall of the single chip microcomputer is electrically connected with the serial port circuit, and the outer wall of the serial port circuit is electrically connected with a single chip microcomputer control circuit.

Furthermore, the variable frequency power supply circuit comprises a rectifying circuit, a filter circuit, a first control circuit, a first drive circuit and an output circuit, wherein the outer wall of the rectifying circuit is electrically connected with the filter circuit, the outer wall of the filter circuit is electrically connected with the first control circuit and the first drive circuit, and the outer walls of the first control circuit and the first drive circuit are electrically connected with the output circuit.

Further, the proportional valve control circuit comprises a second control circuit, a second driving circuit, a reset circuit, 3 valves and a gas stove gas pipeline, the output end of the second control circuit is electrically connected with the second driving circuit and the reset circuit, the input end of the second control circuit is electrically connected with a single chip microcomputer control circuit, the output ends of the second driving circuit and the reset circuit are electrically connected with a proportional valve, and the outer wall of the proportional valve is fixedly connected with the gas stove gas pipeline.

Furthermore, the single chip microcomputer control circuit comprises a single chip microcomputer chip, the output end of the single chip microcomputer chip is electrically connected with all the controllable circuits, and the input end of the single chip microcomputer chip is electrically connected with an output rectifying and filtering circuit.

Furthermore, the switching power supply circuit comprises a rectification filter circuit, a power conversion circuit, a PWM controller circuit and an output rectification filter circuit, the outer wall of the rectification filter circuit is electrically connected with the power conversion circuit, the outer wall of the power conversion circuit is electrically connected with the PWM controller circuit, the outer wall of the PWM controller circuit is electrically connected with the output rectification filter circuit, and the input end of the rectification filter circuit is electrically connected with a working power supply.

Compared with the prior art, this intelligence wind gas ratio type ignition controller possesses following beneficial effect:

the utility model discloses a set up the high-pressure package and avoided the too big damage of electric current this intelligent wind gas ratio type ignition controller, through setting up the convenient demonstration of charactron display screen circuit and observing, filter the power of inputing through working power supply through setting up variable frequency power supply circuit to in stably inputing this intelligent wind gas ratio type ignition controller, through single chip microcomputer chip control and the all control circuit of monitoring this intelligent wind gas ratio type ignition controller.

Drawings

FIG. 1 is a schematic view of a product structure of the present invention;

fig. 2 is a schematic view of a frame structure of the present invention;

fig. 3 is a schematic diagram of a connection structure of the variable frequency power supply circuit and the current sensing circuit of the present invention;

fig. 4 is a schematic structural diagram of the proportional valve control circuit of the present invention.

In the figure: 1. a high-voltage pack; 2. a trigger circuit; 3. an ion sensing circuit; 4. a nixie tube display screen circuit; 5. a variable frequency power supply circuit; 6. a current sensing circuit; 7. a proportional valve control circuit; 8. a singlechip control circuit; 9. a switching power supply circuit; 10. a magnetic bar; 11. a primary coil; 12. a secondary coil; 13. igniting a ceramic electrode needle; 14. a trigger diode; 15. An acquisition circuit; 16. an amplifying circuit; 17. a comparison circuit; 18. a digital display tube; 19. a single chip microcomputer; 20. a serial port circuit; 21. a rectifying circuit; 22. a filter circuit; 23. a first control circuit; 24. a first drive circuit; 25. an output circuit; 26. a current transformer; 27. a second control circuit; 28. a second drive circuit; 29. a reset circuit; 30. a proportional valve; 31. a gas pipeline of a gas stove; 32. a single chip microcomputer chip; 33. a rectification filter circuit; 34. a power conversion circuit; 35. A PWM controller circuit; 36. an output rectifying filter circuit; 37. and a working power supply.

Detailed Description

Referring to fig. 1-4, an intelligent air-fuel ratio type ignition controller comprises a high-voltage pack 1, a trigger circuit 2, an ion induction circuit 3, a nixie tube display screen circuit 4, a variable frequency power supply circuit 5, a current induction circuit 6, a proportional valve control circuit 7, a single chip microcomputer control circuit 8 and a switch power supply circuit 9, wherein the outer wall of the high-voltage pack 1 is electrically connected with the outer wall of the trigger circuit 2, the outer wall of the ion induction circuit 3 is electrically connected with the outer wall of the single chip microcomputer control circuit 8, and the opposite surface of the single chip microcomputer control circuit 8, which is far away from the trigger circuit 2, is electrically connected with the nixie tube display screen circuit 4. The inside of ion induction circuit 3 includes acquisition circuit 15, amplifier circuit 16 and comparison circuit 17, acquisition circuit 15 electric connection has amplifier circuit 16, amplifier circuit 16's outer wall electric connection has comparison circuit 17, comparison circuit 17's outer wall electric connection has singlechip control circuit 8, the inside of charactron display screen circuit 4 includes digital display tube 18, singlechip 19 and serial circuits 20, digital display tube 18's outer wall electric connection has singlechip 19, singlechip 19's outer wall electric connection has serial circuits 20, serial circuits 20's outer wall electric connection has singlechip control circuit 8, singlechip control circuit 8 keeps away from the opposite face electric connection of ion induction circuit 3 and has switching power supply circuit 9. In the present embodiment, the switching power supply circuit 9 includes a rectifying/smoothing circuit 33 and a power conversion circuit 34, PWM controller circuit 35 and output rectification filter circuit 36, the outer wall electric connection of rectification filter circuit 33 has power conversion circuit 34, the outer wall electric connection of power conversion circuit 34 has PWM controller circuit 35, the outer wall electric connection of PWM controller circuit 35 has output rectification filter circuit 36, the input electric connection of rectification filter circuit 33 has working power supply 37, switch circuit 9 controls this intelligence wind gas ratio type ignition controller on-off, the outer wall of variable frequency power supply circuit 5 and the outer wall electric connection of current induction circuit 6, the inside of current induction circuit 6 includes current transformer 26, the input electric connection of current transformer 26 has variable frequency power supply circuit 5, the outer wall of current transformer 26 and the outer wall electric connection of variable frequency power supply circuit 5.

The high-voltage package 1 is internally provided with a magnetic bar 10, a primary coil 11 and a secondary coil 12, the magnetic bar 10 is connected with the primary coil 11 and the secondary coil 12, the outer wall of the primary coil 11 is electrically connected with a trigger circuit 2, the secondary coil 12 is fixedly connected with an ignition ceramic electrode needle 13, the trigger circuit 2 is internally provided with a trigger diode 14, and the outer wall of the trigger diode 14 is electrically connected with a singlechip control circuit 8.

The variable frequency power supply circuit 5 comprises a rectifying circuit 21, a filter circuit 22, a first control circuit 23, a first drive circuit 24 and an output circuit 25, wherein the outer wall of the rectifying circuit 21 is electrically connected with the filter circuit 22, the outer wall of the filter circuit 22 is electrically connected with the first control circuit 23 and the first drive circuit 24, and the outer walls of the first control circuit 23 and the first drive circuit 24 are electrically connected with the output circuit 25. The proportional valve control circuit 7 comprises a second control circuit 27, a second driving circuit 28, a reset circuit 29, a proportional valve 30 and a gas stove gas pipeline 31, the output end of the second control circuit 27 is electrically connected with the second driving circuit 28 and the reset circuit 29, the input end of the second control circuit 27 is electrically connected with the singlechip control circuit 8, the output ends of the second driving circuit 28 and the reset circuit 29 are electrically connected with the proportional valve 30, and the outer wall of the proportional valve 30 is fixedly connected with the gas stove gas pipeline 31. The single chip microcomputer control circuit 8 comprises a single chip microcomputer chip 32, the output end of the single chip microcomputer chip 32 is electrically connected with all controllable circuits, the input end of the single chip microcomputer chip 32 is electrically connected with an output rectifying and filtering circuit 36, and the single chip microcomputer chip 32 controls and monitors all control circuits of the intelligent air-air ratio type ignition controller.

During the use, intelligence wind gas ratio type ignition controller passes through gas-cooker gas pipeline 31 and connects the gas-cooker, connects working power supply 37 through switching power supply circuit 9, makes this intelligence wind gas ratio type ignition controller circular telegram work, and this intelligence wind gas ratio type ignition controller's all control circuit are controlled and are monitored to singlechip chip 32, have avoided the too big damage of current-voltage this intelligence wind gas ratio type ignition controller through setting up high-voltage package 1.

It should be noted that, in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a reference structure" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents. The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides an intelligence wind gas ratio type ignition controller, includes high-pressure package (1), trigger circuit (2), ion-sensitive circuit (3), charactron display screen circuit (4), variable frequency power supply circuit (5), current induction circuit (6), proportional valve control circuit (7), single chip microcomputer control circuit (8) and switching power supply circuit (9), its characterized in that: the outer wall of the high-voltage package (1) is electrically connected with the outer wall of the trigger circuit (2), the outer wall of the ion induction circuit (3) is electrically connected with the outer wall of the singlechip control circuit (8), the opposite surface of the singlechip control circuit (8) far away from the trigger circuit (2) is electrically connected with a nixie tube display screen circuit (4), the opposite surface of the singlechip control circuit (8) far away from the ion induction circuit (3) is electrically connected with a switch power supply circuit (9), the outer wall of the variable frequency power supply circuit (5) is electrically connected with the outer wall of the current induction circuit (6), the current induction circuit (6) comprises a current transformer (26) inside, the input end of the current transformer (26) is electrically connected with a variable frequency power supply circuit (5), the outer wall of the current transformer (26) is electrically connected with the outer wall of the variable frequency power supply circuit (5).

2. The intelligent air-to-air ratio type ignition controller according to claim 1, characterized in that: the high-voltage package (1) is characterized in that the high-voltage package comprises a magnetic bar (10), a primary coil (11) and a secondary coil (12), the magnetic bar (10) is connected with the primary coil (11) and the secondary coil (12), the outer wall of the primary coil (11) is electrically connected with a trigger circuit (2), and the secondary coil (12) is fixedly connected with an ignition ceramic electrode needle (13).

3. The intelligent air-to-air ratio type ignition controller according to claim 1, characterized in that: the trigger circuit (2) comprises a trigger diode (14) inside, and the outer wall of the trigger diode (14) is electrically connected with a single chip microcomputer control circuit (8).

4. The intelligent air-to-air ratio type ignition controller according to claim 1, characterized in that: the ion induction circuit (3) is characterized in that the ion induction circuit comprises an acquisition circuit (15), an amplification circuit (16) and a comparison circuit (17), wherein the acquisition circuit (15) is electrically connected with the amplification circuit (16), the outer wall of the amplification circuit (16) is electrically connected with the comparison circuit (17), and the outer wall of the comparison circuit (17) is electrically connected with a single chip microcomputer control circuit (8).

5. The intelligent air-to-air ratio type ignition controller according to claim 1, characterized in that: the inside of charactron display screen circuit (4) includes charactron (18), singlechip (19) and serial circuits (20), the outer wall electric connection of charactron (18) has singlechip (19), the outer wall electric connection of singlechip (19) has serial circuits (20), the outer wall electric connection of serial circuits (20) has singlechip control circuit (8).

6. The intelligent air-to-air ratio type ignition controller according to claim 1, characterized in that: the variable frequency power supply circuit (5) comprises a rectifying circuit (21), a filter circuit (22), a first control circuit (23), a first driving circuit (24) and an output circuit (25), wherein the outer wall of the rectifying circuit (21) is electrically connected with the filter circuit (22), the outer wall of the filter circuit (22) is electrically connected with the first control circuit (23) and the first driving circuit (24), and the outer walls of the first control circuit (23) and the first driving circuit (24) are electrically connected with the output circuit (25).

7. The intelligent air-to-air ratio type ignition controller according to claim 1, characterized in that: the proportional valve control circuit (7) is characterized in that the proportional valve control circuit comprises a second control circuit (27), a second drive circuit (28), a reset circuit (29), a proportional valve (30) and a gas stove gas pipeline (31), the output end of the second control circuit (27) is electrically connected with the second drive circuit (28) and the reset circuit (29), the input end of the second control circuit (27) is electrically connected with a single chip microcomputer control circuit (8), the output ends of the second drive circuit (28) and the reset circuit (29) are electrically connected with the proportional valve (30), and the outer wall of the proportional valve (30) is fixedly connected with the gas stove gas pipeline (31).

8. The intelligent air-to-air ratio type ignition controller according to claim 1, characterized in that: the single chip microcomputer control circuit (8) comprises a single chip microcomputer chip (32), the output end of the single chip microcomputer chip (32) is electrically connected with all controllable circuits, and the input end of the single chip microcomputer chip (32) is electrically connected with an output rectifying and filtering circuit (36).

9. The intelligent air-to-air ratio type ignition controller according to claim 1, characterized in that: the switch power supply circuit (9) is characterized in that the switch power supply circuit comprises a rectification filter circuit (33), a power conversion circuit (34), a PWM controller circuit (35) and an output rectification filter circuit (36), the outer wall of the rectification filter circuit (33) is electrically connected with the power conversion circuit (34), the outer wall of the power conversion circuit (34) is electrically connected with the PWM controller circuit (35), the outer wall of the PWM controller circuit (35) is electrically connected with the output rectification filter circuit (36), and the input end of the rectification filter circuit (33) is electrically connected with a working power supply (37).

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