CN103322600A - Intelligent controller for gas cooker - Google Patents

Abstract

The invention discloses an intelligent controller for a gas cooker, which belongs to the technical field of controllers and includes a control module, a gas flow solenoid valve, an air flow solenoid valve, an air flow sensor, and a gas flow sensor; the signal input end of the control module is connected to a potential The signal input end of the control module is connected to the signal output end of the air flow transmitter, the signal input end of the control module is connected to the signal output end of the gas flow sensor, and the signal output end of the control module is connected to the signal output end of the gas flow sensor. The control terminal of the gas flow solenoid valve is connected, and the signal output terminal of the control module is connected with the control terminal of the air flow solenoid valve. The invention can effectively reduce energy waste through the setting of the potentiometer switch, and adopts a control module at the same time, has a simple circuit structure and high stability.

Description

An intelligent controller for a gas cooker

technical field

The invention relates to an intelligent controller technology for a gas cooker, and specifically belongs to the technical field of controllers.

Background technique

In daily life, hotels, guesthouses, and restaurants all use gas cookers, but the existing gas cookers use manual spherical valves to control the gas flow, and it is difficult to accurately control the combustion temperature of the gas cooker. The manual ball valve will be slightly tightened, and the gas stove will often be accidentally extinguished, or the firepower will be too strong, resulting in waste of gas. During normal use, it is very inconvenient to frequently adjust the gas flow and the air intake of the blower.

Contents of the invention

Aiming at the shortcomings of the prior art, the technical problem to be solved by the present invention is to provide a highly stable and energy-saving gas cooker controller device. the

In order to achieve the above object, the technical solution adopted by the present invention is: an intelligent controller for a gas cooker, including a control module, a gas flow solenoid valve, an air flow solenoid valve, an air flow sensor, and a gas flow sensor;

The signal input end of the control module is connected to the air flow sensor and the gas flow sensor respectively, the first signal output end of the control module is connected to the control end of the gas flow solenoid valve, and the second signal output end of the control module is connected to the air flow sensor. The control terminals of the solenoid valve are connected, and the electromotive force threshold value of the signal output terminal of the control module is set.

The signal output terminals of the control module are respectively connected to the gas flow solenoid valve and the air flow solenoid valve. The signal output end of the gas flow sensor is connected to the first signal input end of the control module, and sends a control signal to the control end of the gas flow solenoid valve to control the gas flow solenoid valve. The signal output end of the air flow transmitter is connected to the second signal input end of the control module, the gas flow sensor collects the gas flow signal and transmits it to the control module, and the control module compares the collected gas flow signal with the set gas flow , and send a control signal to the control terminal of the gas flow solenoid valve through the signal output terminal of the control module to control the gas flow solenoid valve.

The signal output end of the air flow transmitter is connected to the second signal input end of the control module.

As a preferred solution, the potentiometer switch is connected to the third signal input terminal of the control module, the potentiometer switch is used to set the gas flow and air flow of the gas cooker, and the potentiometer switch is a push-button potentiometer switch or a digital potentiometer switch.

As a preferred solution, a fan is also included, and the control terminal of the fan is connected to the third output terminal of the control module.

The air flow sensor collects the air flow signal and transmits it to the control module. The control module compares the collected air flow signal with the set air flow, and sends a control signal to the air flow solenoid valve signal terminal to control the air flow solenoid valve; Whether the electromotive force of the signal output terminal has reached the threshold value, if the electromotive force of the signal output terminal of the control module has reached the threshold value, the data collected by the air flow sensor is still inconsistent with the air flow value set by the potentiometer switch, and the output terminal of the control module The control terminal outputs a control signal, and the fan delivers air to the gas cooker.

As a preferred solution, the control module is a single-chip microcomputer control module.

As a preferred solution, the potentiometer switch is a pointer-type precision multi-turn wire-wound potentiometer.

As a preferred solution, the potentiometer switch is a DIP8 digital potentiometer.

A gas stove and a combustion system, the combustion system includes a nozzle and an ejector, the nozzle is used to inject combustible gas into the ejector, one end of the ejector is provided with an air inlet, and the ejector uses In order to introduce the surrounding air and mix the combustible gas and air in the ejector, it also includes any one of the above-mentioned gas cooker intelligent controllers, the gas flow solenoid valve is connected to one end of the nozzle through the gas delivery pipeline, and the other end of the nozzle is connected to The gas flow sensor, the air flow solenoid valve and the air flow sensor are all arranged at the air inlet of the ejector.

Beneficial effects of the invention:

The invention provides an intelligent controller for a gas cooker, which can effectively reduce energy waste through the setting of a potentiometer switch, and simultaneously adopts a control module, has a simple circuit structure and high stability.

Description of drawings

Figure 1 is a schematic circuit diagram of an intelligent controller for a gas cooker;

Figure 2 is a structural diagram of the combustion system of the gas cooker;

Fig. 3 is a flow chart of the control of the intelligent controller of the gas cooker;

Among them, 1- is nozzle, 2- ejector, 3- air inlet.

Detailed ways

The present invention will be further described in conjunction with the accompanying drawings and specific embodiments.

As shown in Figure 1, an intelligent controller for a gas cooker includes a control module, a gas flow solenoid valve, an air flow solenoid valve, an air flow sensor, and a gas flow sensor;

The signal input end of the control module is connected to the air flow sensor and the gas flow sensor respectively, the first signal output end of the control module is connected to the control end of the gas flow solenoid valve, and the second signal output end of the control module is connected to the air flow sensor. The control terminals of the solenoid valve are connected, and the electromotive force threshold value of the signal output terminal of the control module is set.

The signal output terminals of the control module are respectively connected to the gas flow solenoid valve and the air flow solenoid valve. The signal output end of the gas flow sensor is connected to the first signal input end of the control module, and sends a control signal to the control end of the gas flow solenoid valve to control the gas flow solenoid valve. The signal output end of the air flow transmitter is connected to the second signal input end of the control module.

As a preferred solution, a potentiometer switch is also included, the potentiometer switch is connected to the third signal input terminal of the control module, and the potentiometer switch is used to set the gas flow rate and the air flow rate of the gas cooker.

As a preferred solution, a fan is also included, and the control terminal of the fan is connected to the third signal output terminal of the control module.

As a preferred solution, the control module is a single-chip microcomputer control module.

As a preferred solution, the potentiometer switch is a pointer-type precision multi-turn wire-wound potentiometer.

As a preferred solution, the potentiometer switch is a DIP8 digital potentiometer.

As shown in Figure 2, the combustion system structure diagram of the gas cooker.

A gas stove, including a combustion system, the combustion system includes a nozzle 1 and an ejector 2, the nozzle 1 is used to inject combustible gas into the ejector 2, and one end of the ejector 2 is provided with an air inlet 3. The injector 2 is used to introduce the surrounding air and mix the combustible gas and air in the injector 2, and also includes any one of the above-mentioned gas cooker intelligent controllers, and the gas flow solenoid valve is connected through the gas delivery pipeline One end of the nozzle 2, the other end of the nozzle 2 is connected to the gas flow sensor, the air flow solenoid valve is arranged at the air inlet 3 of the ejector 2, and the air flow solenoid valve and the air flow sensor are both arranged In the air inlet 3 of the ejector.

As shown in Figure 3, the gas cooker intelligent controller control flow chart,

Step 1: Start the control module, the main program detects the electric control position of the potentiometer, and reads the set value of gas flow and air flow. It also includes the following steps:

  In step A, the control module sends a control signal to the gas solenoid valve, and the gas solenoid valve executes the control signal;

  Step B, the control module sends a control signal to the air solenoid valve, and the air solenoid valve executes the control signal;

Step 2: The gas flow sensor collects the gas flow signal and transmits it to the control module. The control module compares the collected gas flow signal with the set gas flow, and judges whether the gas flow sensor detects the flow value is consistent with the potentiometer switch setting value. , if the detection value of the gas flow sensor is different from the setting value of the potentiometer switch, then perform step A; if the detection value of the gas flow sensor is the same as the setting value of the potentiometer switch, then perform step 5;

The air flow sensor collects the air flow signal and transmits it to the control module. The control module compares the collected air flow signal with the set air flow, and judges whether the air flow value detected by the air flow sensor is consistent with the set value of the potentiometer switch. If the air flow If the detection value of the sensor is different from the setting value of the potentiometer switch, then perform step 3. If the detection value of the air flow sensor is the same as the setting value of the potentiometer switch. Then go to step 5.

Step 3: Detect the electromotive force at the signal output terminal of the control module, and determine whether the air flow solenoid valve has reached the threshold value. If the electromotive force at the signal output terminal of the control module has reached the threshold value, and if the electromotive force at the signal output terminal of the control module has not reached the threshold value, then perform step B , if the electromotive force at the signal output terminal of the control module has reached the threshold value, then perform step 4,

Step 4: Turn on the fan and go to Step B.

Step 5: Detect the setting value of the potentiometer switch, and judge whether the setting value of the potentiometer has changed. If there is a change, perform step 1. If there is no change, then end.

Beneficial effects of the invention:

The invention provides an intelligent controller for a gas cooker, which can effectively reduce energy waste through the setting of a potentiometer switch, and simultaneously adopts a control module, has a simple circuit structure and high stability.

Claims (7)

1. A gas cooker intelligent controller is characterized in that it comprises a control module, a gas flow solenoid valve, an air flow solenoid valve, an air flow sensor, and a gas flow sensor; The signal input terminals of the control module are respectively connected to the air flow sensor, the gas flow sensor, The signal output terminals of the control module are respectively connected to the gas flow solenoid valve and the air flow solenoid valve. 2. The intelligent controller for the gas cooker according to claim 1, further comprising a fan, the control end of which is connected to the signal output end of the control module. 3. The intelligent controller for the gas cooker according to claim 1, further comprising a potentiometer switch connected to the signal input terminal of the control module. 4. The gas cooker intelligent controller according to claim 1, wherein the control module is a single-chip microcomputer control module. 5. The intelligent controller for the gas cooker according to claim 3, wherein the potentiometer switch is a pointer-type precision multi-turn wire-wound potentiometer. 6. The intelligent controller for the gas cooker according to claim 3, wherein the potentiometer switch is a DIP8 digital potentiometer. 7. A gas cooker, comprising a combustion system, the combustion system comprising a nozzle and an injector, the nozzle is used to inject combustible gas into the injector, and the injector is used to introduce the surrounding air and Combustible gas and air are mixed in the injector, and one end of the injector is provided with an air inlet, and it is characterized in that it also includes any one of 1~6 gas cooker intelligent controllers, and the gas flow solenoid valve is connected to the nozzle through the gas delivery pipeline One end, the other end of the nozzle is connected to the gas flow sensor, and the air flow solenoid valve and the air flow sensor are both arranged at the air inlet of the ejector.

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