CN219103052U - Gas stove - Google Patents

Abstract

The utility model discloses a gas stove. The gas stove comprises a stove head, a fire cover structure arranged on the stove head and an ignition controller; the ignition induction needle is arranged at the fire cover structure and is in communication connection with the ignition controller; one end of the air inlet structure is connected with the furnace end, and the other end of the air inlet structure is connected with a fuel gas supply pipe outside the gas stove and is used for conveying fuel gas for the furnace end; the detecting piece is arranged in the cabinet and is in communication connection with the ignition controller, and is used for detecting the wind speed or the air pressure in the cabinet and sending a detected wind speed or air pressure signal to the ignition controller; when the ignition induction needle cannot detect flame and the wind speed or the air pressure in the cabinet exceeds a preset range value, the ignition controller instructs the gas stove to ignite.

Description

Gas stove

Technical Field

The utility model relates to the technical field of kitchen electricity, in particular to a gas stove.

Background

With the improvement of life quality, more and more users use embedded cookers for cooking, and more than 90% of embedded cookers are burner systems with lower air inlet and need to supplement air from a cabinet door below a cooking bench. When the user kitchen range uses minimum fire, switch cabinet door or pull out the bowl basket this moment can cause cupboard internal pressure to drop suddenly, and the gas in the combustor is by the suck-back, leads to gas-cooker to take place to flame out, needs the manual knob that resets of user back to re-ignite, and forgets to observe whether flame is flame out when the user, then can directly lead to the unable normal completion of culinary art, user experience feels poor, and partial user still can mistake and need maintain for the kitchen range breaks down, leads to having increased after-sale cost.

Therefore, a gas range is needed to solve the above problems.

Disclosure of Invention

The utility model aims to solve one of the problems in the prior art to at least a certain extent, and therefore, the utility model provides a gas stove, when a cabinet door is opened or closed, and the gas stove is flameout, an ignition controller can automatically instruct the gas stove to re-ignite, so that the problem that the cooking possibly cannot be completed normally due to the fact that the gas stove can be re-ignited only manually in the prior art is solved.

The above object is achieved by the following technical scheme:

the utility model provides a gas-cooker, includes furnace end and installs fire lid structure on the furnace end still includes:

an ignition controller;

the ignition induction needle is arranged at the fire cover structure and is in communication connection with the ignition controller;

one end of the air inlet structure is connected with the furnace end, and the other end of the air inlet structure is connected with a fuel gas supply pipe outside the gas stove and is used for conveying fuel gas for the furnace end;

the detecting piece is arranged in the cabinet and is in communication connection with the ignition controller, and is used for detecting the wind speed or the air pressure in the cabinet and sending a detected wind speed or air pressure signal to the ignition controller;

when the ignition induction needle cannot detect flame and the wind speed or the air pressure in the cabinet exceeds a preset range value, the ignition controller instructs the gas stove to ignite.

Optionally, the detecting element is a pressure sensor or a wind speed sensor, the pressure sensor is used for detecting air pressure in the cabinet, and the wind speed sensor is used for detecting wind speed in the cabinet.

Optionally, the ignition controller is communicatively connected to the detecting member through a first wire.

Optionally, the ignition controller is communicatively connected to the ignition sense pin by a second wire.

Optionally, the air inlet structure comprises a plug valve, the plug valve is installed between the burner and the gas supply pipe outside the gas stove, a micro switch in the plug valve is in communication connection with the ignition controller, and the ignition controller can instruct the micro switch to be opened and closed.

Optionally, the ignition controller is communicatively connected to the micro switch via a third wire.

Optionally, the fire cover structure, the furnace end and the plug valve are all provided with two.

Optionally, the air inlet structure further comprises a gas inlet pipe and a self-suction electromagnetic valve arranged on the gas inlet pipe, the self-suction electromagnetic valve is in communication connection with the ignition controller, the ignition controller can instruct the self-suction electromagnetic valve to be opened and closed, one end of the gas inlet pipe is provided with an air inlet, and the other end of the gas inlet pipe extends out of the self-suction electromagnetic valve and is connected with the two plug valves.

Optionally, the ignition controller is communicatively connected with the self-priming solenoid valve through a third wire.

Optionally, the fire lid structure includes outer fire lid and sets up the inboard interior fire lid of outer fire lid, ignition sense needle sets up outer fire lid with interior fire lid between.

Compared with the prior art, the utility model at least comprises the following beneficial effects:

the gas stove provided by the utility model comprises a stove head, a fire cover structure arranged on the stove head, an ignition controller, an ignition induction needle, an air inlet structure and a detection piece. The ignition sensing needle is mounted at the fire cover structure and is in communication connection with the ignition controller. One end of the air inlet structure is connected with the burner, and the other end is connected with a fuel gas supply pipe outside the gas stove and used for conveying fuel gas for the burner. The detecting piece is arranged in the cabinet and is in communication connection with the ignition controller, and is used for detecting the wind speed or the air pressure in the cabinet and sending a detected wind speed or air pressure signal to the ignition controller. When the ignition induction needle cannot detect flame and the air speed or air pressure in the cabinet exceeds a preset range value, the cabinet door is in the process of being opened or closed at the moment, flameout is caused, and the ignition controller instructs the gas stove to ignite at the moment, so that the problem that in the prior art, the cooking can not be completed normally due to the fact that the ignition induction needle can only be restarted manually is solved.

Drawings

Fig. 1 is a schematic structural view of a gas stove according to an embodiment of the present utility model.

In the figure:

1. an ignition controller;

2. an ignition induction needle;

3. a burner;

4. a detecting member;

5. a plug valve;

6. a self-priming electromagnetic valve;

7. an air inlet;

81. an outer fire cover; 82. an internal fire cover.

Detailed Description

The following examples illustrate the utility model, but the utility model is not limited to these examples. Modifications and equivalents of some of the technical features of the specific embodiments of the present utility model may be made without departing from the spirit of the present utility model, and they are all included in the scope of the claimed utility model.

Referring to fig. 1, the present utility model provides a gas stove, which includes a burner 3, a fire cover structure mounted on the burner 3, an ignition controller 1, an ignition sensing needle 2, an air inlet structure and a detecting member 4. The ignition sense needle 2 is mounted at the fire cover structure and is in communication with the ignition controller 1. One end of the air inlet structure is connected with the burner 3, and the other end is connected with a fuel gas supply pipe outside the gas stove and used for conveying fuel gas for the burner 3. The detecting member 4 is installed in the cabinet and is in communication with the ignition controller 1 for detecting the wind speed or air pressure in the cabinet and transmitting a detected wind speed or air pressure signal to the ignition controller 1. When the ignition induction needle 2 cannot detect flame and the air speed or air pressure in the cabinet exceeds a preset range value, the cabinet door is in the process of being opened or closed at the moment, flameout is caused, and the ignition controller 1 instructs the gas stove to ignite at the moment, so that the problem that in the prior art, the gas stove can only be restarted manually, and further cooking is possibly not completed normally is solved.

Optionally, the detecting member 4 is a pressure sensor for detecting air pressure in the cabinet or a wind speed sensor for detecting wind speed in the cabinet.

Optionally, the ignition controller 1 is communicatively connected to the detecting member 4 via a first wire to ensure stability of signal transmission.

Optionally, the ignition controller 1 is in communication with the ignition sense needle 2 via a second wire to ensure stability of signal transmission.

Optionally, the air inlet structure includes a plug valve 5, the plug valve 5 is installed between the burner 3 and the external fuel supply pipe of gas stove, the micro-gap switch in the plug valve 5 is in communication connection with the ignition controller 1, the ignition controller 1 can instruct the micro-gap switch to open and close, when the ignition induction needle 2 can not detect flame, and the wind speed or the air pressure in the cabinet exceeds the preset range value, the ignition controller 1 instructs the micro-gap switch to open, so that the gas can be smoothly conveyed to the burner 3.

Optionally, the ignition controller 1 is in communication connection with the micro switch through a third wire, so as to ensure the stability of signal transmission.

Optionally, two fire cover structures, the burner 3 and the plug valve 5 are provided, so that a user can perform cooking operation.

Optionally, the air inlet structure further comprises a gas inlet pipe and a self-priming electromagnetic valve 6 arranged on the gas inlet pipe, the self-priming electromagnetic valve 6 is in communication connection with the ignition controller 1, the ignition controller 1 can instruct the self-priming electromagnetic valve 6 to be opened and closed, and when the ignition induction needle 2 cannot detect flame and the wind speed or the air pressure in the cabinet exceeds a preset range value, the ignition controller 1 instructs the self-priming electromagnetic valve 6 to be closed, so that the fuel gas can be smoothly conveyed to the burner 3. One end of the gas inlet pipe is provided with a gas inlet 7 (the gas inlet 7 is connected with a gas supply pipe outside the gas stove), and the other end extends out of the self-priming electromagnetic valve 6 and is connected with the two plug valves 5.

Optionally, the ignition controller 1 is communicatively connected to the self-priming solenoid valve 6 via a third wire to ensure stability of signal transmission.

Alternatively, the fire cover structure includes an outer fire cover 81 and an inner fire cover 82 provided inside the outer fire cover 81, and the ignition sense needle 2 is provided between the outer fire cover 81 and the inner fire cover 82.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. The utility model provides a gas-cooker, its characterized in that includes furnace end (3) and installs the fire lid structure on furnace end (3), still includes:

an ignition controller (1);

the ignition induction needle (2) is arranged at the fire cover structure and is in communication connection with the ignition controller (1);

one end of the air inlet structure is connected with the furnace end (3), and the other end of the air inlet structure is connected with a fuel gas supply pipe outside the gas stove and is used for conveying fuel gas for the furnace end (3);

the detecting piece (4) is arranged in the cabinet and is in communication connection with the ignition controller (1) and is used for detecting the wind speed or the air pressure in the cabinet and sending a detected wind speed or air pressure signal to the ignition controller (1);

when the ignition induction needle (2) cannot detect flame and the wind speed or the air pressure in the cabinet exceeds a preset range value, the ignition controller (1) instructs the gas stove to ignite.

2. A gas cooker according to claim 1, characterized in that the detecting member (4) is a pressure sensor for detecting the gas pressure in the cabinet or a wind speed sensor for detecting the wind speed in the cabinet.

3. A gas stove according to claim 1, characterized in that the ignition controller (1) is in communication with the detecting member (4) via a first wire.

4. A gas stove according to claim 1, characterized in that the ignition controller (1) is in communication with the ignition sense pin (2) via a second wire.

5. A gas stove according to any one of claims 1-4, characterized in that the gas inlet structure comprises a plug valve (5), the plug valve (5) being mounted between the burner (3) and the gas supply pipe outside the gas stove, a micro switch in the plug valve (5) being in communication with the ignition controller (1), the ignition controller (1) being capable of commanding the micro switch to open and close.

6. The gas range according to claim 5, characterized in that the ignition controller (1) is communicatively connected to the micro switch via a third wire.

7. The gas stove according to claim 6, characterized in that the fire cover structure, the burner (3) and the plug valve (5) are provided with two.

8. The gas stove according to claim 7, characterized in that the gas inlet structure further comprises a gas inlet pipe and a self-priming electromagnetic valve (6) arranged on the gas inlet pipe, the self-priming electromagnetic valve (6) is in communication connection with the ignition controller (1), the ignition controller can instruct the self-priming electromagnetic valve (6) to be opened and closed, one end of the gas inlet pipe is provided with a gas inlet (7), and the other end of the gas inlet pipe extends out of the self-priming electromagnetic valve (6) and is connected with the two plug valves (5).

9. The gas range according to claim 8, characterized in that the ignition controller (1) is communicatively connected to the self-priming solenoid valve (6) by a third wire.

10. A gas cooker according to any one of claims 1 to 4, characterized in that the fire cover structure comprises an outer fire cover (81) and an inner fire cover (82) provided inside the outer fire cover (81), the ignition sense needle (2) being provided between the outer fire cover (81) and the inner fire cover (82).

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