CN108758713B - Double-head gas stove system and method - Google Patents

Abstract

The invention discloses a double-head gas stove system and a method, comprising a gas stove, 2 detection plates arranged on the gas stove, an infrared sensor and a gas sensor which are arranged on the lower surface of each detection plate, a controller and an alarm; the gas stove is connected with the gas inlet pipe, the electromagnetic valve is arranged on the gas inlet pipe, the cooking bench is provided with a groove, the groove is internally provided with a cylinder, the upper panel of the gas stove is provided with a strip-shaped opening, the strip-shaped opening is internally provided with a baffle plate for separating the two furnace ends, and the telescopic rod of the cylinder is connected with the baffle plate. The invention has the characteristics that the gas source can be cut off in time under the condition that the gas of 1 furnace end is burning, the gas of the other 1 furnace end flows out and the fire is extinguished, the gas is prevented from continuously leaking, and the danger of explosion and fire is also avoided.

Description

Double-head gas stove system and method

Technical Field

The invention relates to the technical field of gas equipment, in particular to a double-end gas stove system and a double-end gas stove method, which can discover and stop gas leakage in time and effectively avoid gas poisoning and fire.

Background

When people use the double-end gas stove, 2 stove heads are usually used together, so that the cooking efficiency is improved, and the cooking time is saved; however, the fire of one burner may be extinguished by the water overflowing from the pot, and a situation that one burner is burning and a large amount of gas in another burner is overflowing occurs, and as time goes on, the gas content in the room will increase continuously, and if this situation cannot be prevented, the occurrence of fire, explosion and other situations will be caused finally, which will cause harm to the human body and bring serious economic loss.

Disclosure of Invention

The invention aims to overcome the defect that danger exists in the use process of a double-end gas stove system in the prior art, and provides a double-end gas stove system and a method which can find and stop gas leakage in time and effectively avoid gas poisoning and fire.

In order to achieve the purpose, the invention adopts the following technical scheme:

a double-head gas stove system comprises a gas stove, 2 detection plates arranged on the gas stove, an infrared sensor and a gas sensor which are arranged on the lower surface of each detection plate, a controller and an alarm; gas range and intake-tube connection are equipped with the solenoid valve in the intake pipe, are equipped with the recess on the top of a kitchen range, are equipped with the cylinder in the recess, are equipped with the bar opening on the top panel of gas range, are equipped with the baffle that is used for separating two furnace ends in the bar opening, and the telescopic link and the baffle of cylinder are connected, and the controller is connected with 2 infrared sensor, 2 gas sensor, cylinder, solenoid valve and alarm electricity respectively.

2 infrared sensors respectively detect infrared signals in 2 burners, and 2 gas sensors respectively detect gas signals in 2 burners; the infrared signal and the gas signal are transmitted to the controller, the controller judges the gas combustion conditions of the two furnace ends, and if water overflows from the boiler, the fire on the corresponding furnace end is extinguished; the baffle is used for separating two furnace ends, and the danger that gas leaked from one furnace end is directly ignited by the fire of the other furnace end can be reduced.

If the coal gas of 1 furnace end is burning, the coal gas of the other 1 furnace end is flowing out and the fire is extinguished, the controller controls the electromagnetic valve to close;

if the gas of 2 burners is flowing out and the fire is extinguished, the controller controls the electromagnetic valve to be closed.

Therefore, the gas source can be cut off in time under the condition that the gas of 1 furnace end is burning, the gas of the other 1 furnace end flows out and the fire is extinguished, so that the gas is prevented from being leaked continuously, and the danger of explosion and fire is also avoided;

the gas source can be cut off in time under the condition that the gas of 2 burners flows out and the fire is extinguished, so that the gas is prevented from being leaked continuously; the occurrence of gas poisoning is avoided, and the safety of human bodies and properties is effectively guaranteed.

Preferably, the window further comprises a window and a windowing mechanism, the window comprises a window frame, a left window sash and a right window sash are arranged on the window frame, the windowing mechanism comprises an air bag arranged in the wall of the lower right corner of the window of a room where the gas stove is arranged, the lower end of the vertical rod is connected with one end of the air bag, a rope connected with the upper end of the vertical rod is connected with the lower right corner of the left window sash, the vertical rod is connected with the wall through a rotating shaft, the distance between the upper ends of the rotating shaft and the vertical rod is smaller than the distance between the lower ends of the rotating shaft and the vertical rod, and an ignition switch.

The windowing mechanism is arranged in the wall, so that chemical reaction between the gas bag and gas leaked from the air during ignition can be effectively avoided, and the safety of the invention in the use process is improved.

Preferably, an arc-shaped slideway is arranged in the wall, the air bag can extend along the arc-shaped slideway in an arc shape, and an opening matched with the swinging rod is arranged on one side of the arc-shaped slideway.

The arc-shaped slide way and the air bag can extend along the arc-shaped slide way in an arc shape, so that the swinging amplitude of the vertical rod is larger, the distance of the left window sash moving rightwards is longer, the pulling amplitude of the left window sash is larger, and more and faster outside air can enter a room.

Preferably, a left permanent magnet is arranged in the left part of the window frame, a left iron strip matched with the left permanent magnet is arranged in the left part of the left window sash, a right permanent magnet is arranged in the right part of the window frame, and a right iron strip matched with the right permanent magnet is arranged in the right part of the left window sash.

Magnetic attraction is generated between the left permanent magnet and the left iron bar, and magnetic attraction is generated between the right permanent magnet and the right iron bar, so that the window is tightly closed. The fan can accelerate the air exchange speed, thereby reducing the influence caused by gas leakage to a lower degree.

Preferably, the window further comprises a fan capable of blowing air to the outside of the window, and the fan is electrically connected with the controller.

A method of a double-ended gas burner system, comprising the steps of:

(6-1) an operator places the two pots on the stove frames of the 2 stove ends respectively, the controller controls the electromagnetic valves to be opened, the ignition switches of the 2 stove ends are manually opened, and coal gas is combusted in the 2 stove ends respectively;

(6-2) the controller controls the cylinder to drive the baffle plate to ascend, so that the baffle plate extends out of the upper panel;

2 infrared sensors respectively detect infrared signals in 2 burners, and 2 gas sensors respectively detect gas signals in 2 burners;

(6-3) transmitting the infrared signal and the gas signal to a controller, judging the gas combustion conditions of the two furnace ends by the controller, and if water overflows from the boiler, extinguishing the fire on the corresponding furnace end;

the infrared signal can be detected on the furnace head but the gas sensor can not be detected, which indicates that the gas in the furnace head is fully combusted; the gas sensor can be detected when no infrared signal is detected on the furnace end, which indicates that gas in the furnace end flows out and the fire is extinguished;

if the coal gas of 1 furnace end is burning, the coal gas of the other 1 furnace end is flowing out and the fire is extinguished, the controller controls the electromagnetic valve to close;

if the gas of 2 burners is flowing out and the fire is extinguished, the controller controls the electromagnetic valve to be closed.

Preferably, the gas stove further comprises a window and a windowing mechanism, the window comprises a window frame, a left window sash and a right window sash, the left window sash and the right window sash are arranged on the window frame, the windowing mechanism comprises an air bag arranged in a wall at the lower right corner of a room where the gas stove is arranged, a vertical rod with the lower end connected with one end of the air bag, a rope connected with the upper end of the vertical rod, the rope is connected with the lower right corner of the left window sash, the vertical rod is connected with the wall through a rotating shaft, the distance between the rotating shaft and the upper end of the vertical rod is smaller than the distance between the rotating shaft and the lower; the step of controlling the electromagnetic valve to close by the controller is replaced by the following steps:

the controller controls the electromagnetic valve to be closed, the controller controls the ignition switch of the air bag to be ignited, the air bag is detonated and unfolded, the air bag pushes the lower end of the vertical rod to move leftwards, the upper end of the vertical rod moves rightwards, and the vertical rod drives the left window sash to move rightwards.

Preferably, the window further comprises a fan capable of blowing air out of the window, the fan is electrically connected with the controller, and the window further comprises the following steps: the controller controls the fan to blow air out of the window.

Therefore, the invention has the following beneficial effects: the gas source can be cut off in time under the condition that the gas of 1 furnace end is burning, the gas of the other 1 furnace end flows out and the fire is extinguished, so that the gas is prevented from being leaked continuously, and the danger of explosion and fire is also avoided;

the gas source can be cut off in time under the condition that the gas of 2 burners flows out and the fire is extinguished, so that the gas is prevented from being leaked continuously; the occurrence of gas poisoning is avoided, and the safety of human bodies and properties is effectively guaranteed.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of a second cylinder and baffle of the present invention;

FIG. 3 is a schematic view of one configuration of the window and window opening mechanism of the present invention;

fig. 4 is a functional block diagram of the present invention.

In the figure: the device comprises a gas stove 1, a detection plate 2, a controller 3, an alarm 4, an air inlet pipe 5, an electromagnetic valve 6, a cylinder 7, a baffle 8, a fan 9, a windowing mechanism 16, a window 20, an infrared sensor 21, a gas sensor 22, an air bag 161, a vertical rod 162, a rope 163, a rotating shaft 164, an ignition switch 165, an arc-shaped slideway 166, a window frame 201, a left permanent magnet 202, a right permanent magnet 203, a left window sash 2011, a right window sash 2012, a left iron bar 20111 and a right iron bar 20121.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1

The embodiment shown in fig. 1 and 4 is a double-head gas cooker system, which comprises a gas cooker 1, 2 detection plates 2 arranged on the gas cooker, an infrared sensor 21 and a gas sensor 22 arranged on the lower surface of each detection plate, a controller 3 and an alarm 4; gas range and intake pipe 5 are connected, are equipped with solenoid valve 6 in the intake pipe, are equipped with the recess on the top of a kitchen range, are equipped with in the recess as shown in fig. 2 cylinder 7, are equipped with the bar opening on the top panel of gas range, are equipped with the baffle 8 that is used for separating two furnace ends in the bar opening, and the telescopic link and the baffle of cylinder are connected, as shown in fig. 4, the controller is connected with 2 infrared sensor, 2 gas sensor, cylinder, solenoid valve and alarm electricity respectively.

A method of a double-ended gas burner system, comprising the steps of:

step 100, an operator places two pots on a stove rack of 2 burners respectively, controls an electromagnetic valve to be opened through a controller, manually opens ignition switches of the 2 burners, and gas is combusted in the 2 burners respectively;

step 200, controlling the cylinder to drive the baffle plate to ascend by the controller, and enabling the baffle plate to extend out of the upper panel;

2 infrared sensors respectively detect infrared signals in 2 burners, and 2 gas sensors respectively detect gas signals in 2 burners;

step 300, transmitting the infrared signal and the gas signal to a controller, judging the gas combustion conditions of the two furnace ends by the controller, and if water overflows from the boiler, extinguishing the fire on the corresponding furnace end;

if the coal gas of 1 furnace end is burning, the coal gas of the other 1 furnace end is flowing out and the fire is extinguished, the controller controls the electromagnetic valve to close;

if the gas of 2 burners is flowing out and the fire is extinguished, the controller controls the electromagnetic valve to be closed.

Example 2

Embodiment 2 includes all the structure and method parts of embodiment 1, as shown in fig. 3, the window further includes a window 20 and a windowing mechanism 16, the window includes a window frame 201, a left window sash 2011 and a right window sash 2012 arranged on the window frame, the windowing mechanism includes an air bag 161 arranged in the wall of the lower right corner of the window of the room where the gas stove is arranged, a vertical bar 162 with the lower end connected with one end of the air bag, a rope 163 connected with the upper end of the vertical bar, the rope is connected with the lower right corner of the left window sash, the vertical bar is connected with the wall through a rotating shaft 164, the distance between the rotating shaft and the upper end of the vertical bar is smaller than the distance between the rotating shaft and the lower end of the vertical bar, and an. The wall is internally provided with an arc-shaped slideway 166, the air bag can extend along the arc-shaped slideway in an arc shape, and one side of the arc-shaped slideway is provided with an opening matched with the swinging rod.

A left permanent magnet 202 is arranged in the left portion of the window frame, a left iron bar 20111 matched with the left permanent magnet is arranged in the left portion of the left window sash, a right permanent magnet 203 is arranged in the right portion of the window frame, and a right iron bar 20121 matched with the right permanent magnet is arranged in the right portion of the left window sash. As shown in fig. 4, a fan 9 capable of blowing air to the outside of the window is further included, and the fan is electrically connected with the controller.

The step controller of example 1 controlling the solenoid valve to close is replaced by the steps of:

the controller controls the electromagnetic valve to be closed, the controller controls the ignition switch of the air bag to be ignited, the air bag is detonated and unfolded, the air bag pushes the lower end of the vertical rod to move leftwards, the upper end of the vertical rod moves rightwards, the vertical rod drives the left window sash to move rightwards, and the controller controls the fan to blow air outwards of the window.

It should be understood that this example is for illustrative purposes only and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (4)

1. A method of a double-head gas stove system is characterized in that the double-head gas stove system comprises a gas stove (1), 2 detection plates (2) arranged on the gas stove, an infrared sensor (21) and a gas sensor (22) arranged on the lower surface of each detection plate, a controller (3) and an alarm (4); the gas stove is connected with a gas inlet pipe (5), the gas inlet pipe is provided with an electromagnetic valve (6), the cooking bench is provided with a groove, a cylinder (7) is arranged in the groove, a strip-shaped opening is arranged on an upper panel of the gas stove, a baffle (8) for separating two furnace ends is arranged in the strip-shaped opening, a telescopic rod of the cylinder is connected with the baffle, and the controller is respectively and electrically connected with the 2 infrared sensors, the 2 gas sensors, the cylinder, the electromagnetic valve and the alarm; the window comprises a window frame (201), a left window sash (2011) and a right window sash (2012) which are arranged on the window frame, the windowing mechanism comprises an air bag (161) arranged in the wall of the lower right corner of the window of a room where the gas stove is located, a vertical rod (162) with the lower end connected with one end of the air bag, and a rope (163) connected with the upper end of the vertical rod, wherein the rope is connected with the lower right corner of the left window sash, the vertical rod is connected with the wall through a rotating shaft (164), the distance between the rotating shaft and the upper end of the vertical rod is smaller than the distance between the rotating shaft and the lower end of the vertical rod, and an ignition switch (165) of the air bag is electrically connected with; an arc-shaped slideway (166) is arranged in the wall, the air bag can extend along the arc-shaped slideway in an arc shape, and one side of the arc-shaped slideway is provided with an opening matched with the swinging rod; the method comprises the following steps:

(1-1) an operator puts the two pots on the stove frames of the 2 burners respectively, controls the electromagnetic valves to be opened through the controller, manually opens the ignition switches of the 2 burners, and gas is combusted in the 2 burners respectively;

(1-2) controlling the cylinder to drive the baffle plate to ascend by the controller, so that the baffle plate extends out of the upper panel;

2 infrared sensors respectively detect infrared signals in 2 burners, and 2 gas sensors respectively detect gas signals in 2 burners;

(1-3) transmitting the infrared signal and the gas signal to a controller, judging the gas combustion conditions of the two furnace ends by the controller, and if water overflows from the boiler, extinguishing the fire on the corresponding furnace end;

if the coal gas of 1 furnace end is burning, the coal gas of the other 1 furnace end is flowing out and the fire is extinguished, the controller controls the electromagnetic valve to close;

if the gas of 2 burners is flowing out and the fire is extinguished, the controller controls the electromagnetic valve to be closed.

2. The method of a double-headed gas range system according to claim 1, wherein a left permanent magnet (202) is provided in the left portion of the window frame, a left iron bar (20111) cooperating with the left permanent magnet is provided in the left portion of the left sash, a right permanent magnet (203) is provided in the right portion of the window frame, and a right iron bar (20121) cooperating with the right permanent magnet is provided in the right portion of the left sash.

3. The method of the double-ended gas range system according to claim 1, further comprising a fan (9) blowing air to the outside of the window, the fan being electrically connected to the controller; also comprises the following steps: the controller controls the fan to blow air out of the window.

4. The method of the double-headed gas range system according to claim 1, 2 or 3, wherein the controller controlling the closing of the solenoid valves comprises the specific steps of:

the controller controls the electromagnetic valve to be closed, the controller controls the ignition switch of the air bag to be ignited, the air bag is detonated and unfolded, the air bag pushes the lower end of the vertical rod to move leftwards, the upper end of the vertical rod moves rightwards, and the vertical rod drives the left window sash to move rightwards.

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