TWM611728U - Gas stove equipment - Google Patents

Abstract

一種瓦斯爐設備包含一控制單元、一界定出一瓦斯通道的瓦斯管線、一用於開放或封閉該瓦斯通道的考克單元、一用於產生火花的點火單元，及一能受操作地轉動的旋鈕。當該控制單元判斷出一點火觸發條件符合時，該控制單元控制該考克單元在一點火期間內恆開放該瓦斯通道，並控制該點火單元在該點火期間內連續產生火花，以使該瓦斯爐設備從一不產生火焰的關閉狀態切換至一產生火焰的開啟狀態，並且，該點火觸發條件包含該旋鈕被轉動至一點火觸發角度，且不相關於該旋鈕是否受到按壓操作。A gas stove equipment includes a control unit, a gas pipeline that defines a gas passage, a cork unit for opening or closing the gas passage, an ignition unit for generating sparks, and an operatively rotating Knob. When the control unit determines that an ignition trigger condition is met, the control unit controls the Cork unit to constantly open the gas channel during an ignition period, and controls the ignition unit to continuously generate sparks during the ignition period to make the gas The furnace equipment is switched from a closed state where no flame is generated to an open state where a flame is generated, and the ignition trigger condition includes that the knob is turned to an ignition trigger angle, and is not related to whether the knob is pressed.

Description

瓦斯爐設備Gas stove equipment

本新型是有關於一種瓦斯爐設備，特別是指一種讓使用者在轉動旋鈕後無需繼續按壓旋鈕便能成功點火的瓦斯爐設備。This new model relates to a gas stove equipment, in particular to a gas stove equipment that allows users to successfully ignite without pressing the knob after turning the knob.

現有的瓦斯爐需要使用者轉動並持續按壓旋鈕一段時間才能成功點火，然而，使用者通常難以準確掌握按壓所需的時間，所以可能會發生按壓旋鈕的時間不足導致點火失敗的情形，因此，現有技術仍存在使用上的不便。Existing gas stoves require the user to turn and keep pressing the knob for a period of time to successfully ignite. However, it is usually difficult for the user to accurately grasp the time required to press the knob. Therefore, insufficient time to press the knob may cause ignition failure. Therefore, the existing The technology still has inconveniences in use.

本新型之目的，在於提供一種能克服現有技術之不便的瓦斯爐設備。The purpose of the present invention is to provide a gas stove equipment that can overcome the inconvenience of the prior art.

本新型瓦斯爐設備包含一控制單元、一界定出一瓦斯通道的瓦斯管線、一電連接該控制單元並用於受該控制單元控制地開放或封閉該瓦斯通道的考克單元、一電連接該控制單元且用於受該控制單元控制地產生火花的點火單元，及一能受操作地轉動的旋鈕。其中，當該控制單元判斷出一點火觸發條件符合時，該控制單元控制該考克單元在一點火期間內恆開放該瓦斯通道，並控制該點火單元在該點火期間內連續產生火花，以使該瓦斯爐設備從一不產生火焰的關閉狀態切換至一產生火焰的開啟狀態，並且，該點火觸發條件包含該旋鈕被轉動至一點火觸發角度且不相關於該旋鈕是否受到按壓操作。The new gas stove equipment includes a control unit, a gas pipeline that defines a gas passage, a cork unit electrically connected to the control unit and used to open or close the gas passage under the control of the control unit, and an electrical connection to the control unit. The unit is used for the ignition unit that generates sparks under the control of the control unit, and a knob that can be operated to rotate. Wherein, when the control unit determines that an ignition trigger condition is met, the control unit controls the Cork unit to constantly open the gas channel during an ignition period, and controls the ignition unit to continuously generate sparks during the ignition period, so that The gas stove equipment is switched from a closed state where no flame is generated to an open state where a flame is generated, and the ignition trigger condition includes that the knob is turned to an ignition trigger angle and is not related to whether the knob is pressed.

在本新型瓦斯爐設備的一些實施態樣中，當該控制單元判斷出該點火觸發條件符合時，該控制單元是在控制該考克單元開放該瓦斯通道的同時一併控制該點火單元開始連續產生火花。In some implementations of the new gas stove equipment, when the control unit determines that the ignition trigger condition is met, the control unit controls the Cock unit to open the gas channel while simultaneously controlling the ignition unit to start continuous Generate sparks.

在本新型瓦斯爐設備的一些實施態樣中，該瓦斯爐設備還包含一界定出一爐口的爐頭，以及一電連接該控制單元的溫度感測單元，並且，該控制單元根據該溫度感測單元的感測結果判斷該爐口的溫度是否在該點火期間結束前超過一溫度門檻值，並於判斷結果為是時控制該考克單元在該點火期間結束時繼續開放該瓦斯通道，以及控制該點火單元在該點火期間結束時停止產生火花。In some embodiments of the new gas stove equipment, the gas stove equipment further includes a furnace head that defines a furnace mouth, and a temperature sensing unit electrically connected to the control unit, and the control unit is based on the temperature The sensing result of the sensing unit judges whether the temperature of the furnace mouth exceeds a temperature threshold before the end of the ignition period, and when the judgment result is yes, the Cock unit is controlled to continue to open the gas passage at the end of the ignition period, And controlling the ignition unit to stop generating sparks at the end of the ignition period.

在本新型瓦斯爐設備的一些實施態樣中，該控制單元於判斷出該爐口的溫度未在該點火期間結束前超過該溫度門檻值時，控制該考克單元在該點火期間結束時封閉該瓦斯通道，以及控制該點火單元在該點火期間結束時停止產生火花。In some implementations of the new gas stove equipment, the control unit controls the Cork unit to close at the end of the ignition period when it determines that the temperature of the furnace mouth does not exceed the temperature threshold before the end of the ignition period The gas passage and control the ignition unit to stop generating sparks at the end of the ignition period.

在本新型瓦斯爐設備的一些實施態樣中，該溫度感測單元包括一設置於該爐頭而用於感測該爐口之溫度且電連接該控制單元的熱電偶。In some embodiments of the new gas stove equipment, the temperature sensing unit includes a thermocouple disposed on the furnace head for sensing the temperature of the furnace mouth and electrically connected to the control unit.

在本新型瓦斯爐設備的一些實施態樣中，該溫度感測單元還包括一電連接該控制單元的接觸式溫度感測器，該接觸式溫度感測器設置於該爐頭且向上凸伸出該爐口，並適用於以接觸的方式感測一鍋具之底部的溫度，並且，當該控制單元根據該接觸式溫度感測器的感測結果判斷出該鍋具的溫度超過另一溫度門檻值時，控制該考克單元封閉該瓦斯通道，以使該瓦斯爐設備切換至該關閉狀態。In some embodiments of the new gas stove equipment, the temperature sensing unit further includes a contact temperature sensor electrically connected to the control unit, and the contact temperature sensor is disposed on the furnace head and protrudes upward Out of the furnace mouth, and is suitable for sensing the temperature of the bottom of a pot in a contact manner, and when the control unit determines that the temperature of the pot exceeds another according to the sensing result of the contact temperature sensor When the temperature threshold is reached, the Cock unit is controlled to close the gas passage, so that the gas furnace equipment is switched to the closed state.

在本新型瓦斯爐設備的一些實施態樣中，該考克單元包括電連接於該控制單元的一第一微動開關及一電磁閥，該第一微動開關用於在該旋鈕被轉動至該點火觸發角度時受該旋鈕所觸發地輸出一第一操作信號至該控制單元，且該電磁閥能在一開放該瓦斯通道的開放狀態及一封閉該瓦斯通道的封閉狀態之間切換。該控制單元是根據是否接收到該第一操作信號而判斷該點火觸發條件是否符合，並且，當該控制單元判斷出該點火觸發條件符合時，是藉由控制該電磁閥在該點火期間內恆操作於該開放狀態，以使得該瓦斯通道在該點火期間內維持開放。In some embodiments of the new gas stove equipment, the cork unit includes a first micro switch and a solenoid valve that are electrically connected to the control unit, and the first micro switch is used when the knob is turned to the ignition When the angle is triggered, a first operation signal is output to the control unit triggered by the knob, and the solenoid valve can be switched between an open state for opening the gas channel and a closed state for closing the gas channel. The control unit determines whether the ignition trigger condition is met based on whether the first operation signal is received, and when the control unit determines that the ignition trigger condition is met, it controls the solenoid valve to be constant during the ignition period. Operate in the open state so that the gas passage remains open during the ignition period.

在本新型瓦斯爐設備的一些實施態樣中，當該控制單元判斷出該旋鈕在該點火期間內被轉動至一關閉角度時，該控制單元控制該考克單元封閉該瓦斯通道，並同時控制該點火單元停止產生火花。In some implementations of the new gas stove equipment, when the control unit determines that the knob is turned to a closing angle during the ignition period, the control unit controls the Cork unit to close the gas channel and simultaneously controls The ignition unit stops producing sparks.

在本新型瓦斯爐設備的一些實施態樣中，該考克單元還包括一電連接於該控制單元的第二微動開關，該第二微動開關用於在該旋鈕非處於該關閉角度時受該旋鈕所觸發地輸出一第二操作信號至該控制單元，且該控制單元是根據是否持續接收到該第二操作信號而判斷該旋鈕是否被轉動至該關閉角度。In some embodiments of the new gas stove equipment, the cork unit further includes a second micro switch electrically connected to the control unit, and the second micro switch is used to receive the switch when the knob is not at the closing angle. The knob is triggered to output a second operation signal to the control unit, and the control unit determines whether the knob is rotated to the closing angle according to whether the second operation signal is continuously received.

本新型之功效在於：該控制單元能在判斷出該點火觸發條件符合時控制該考克單元在該點火期間恆開放該瓦斯通道以及控制該點火單元在該點火期間持續不斷地產生火花，以使得該瓦斯爐設備產生火焰，而且，該控制單元並不會根據旋鈕是否受到按壓操作來判斷該點火觸發條件是否符合，因此，當使用者想要利用該瓦斯爐設備點火時，只要將旋鈕轉動至點火觸發角度即可鬆手，而不需在將旋鈕轉動至點火觸發角度後還繼續按壓旋鈕一段時間，因此，該瓦斯爐設備不會產生因為按壓旋鈕時間不足而點火失敗的情形，因此能提高使用者操作旋鈕一次便成功點火的機率而更便於操作，故確實能克服現有技術之不便。The effect of the present invention is that the control unit can control the Cork unit to constantly open the gas channel during the ignition period and control the ignition unit to continuously generate sparks during the ignition period when it is determined that the ignition trigger condition is met, so that The gas stove device generates flames, and the control unit does not judge whether the ignition trigger condition is met according to whether the knob is pressed. Therefore, when the user wants to use the gas stove device to ignite, he only needs to turn the knob to The ignition trigger angle can be released, and there is no need to continue to press the knob for a period of time after turning the knob to the ignition trigger angle. Therefore, the gas stove equipment will not cause ignition failure due to insufficient pressing time of the knob, so it can improve the use It is more convenient to operate, so it can overcome the inconvenience of the prior art.

在本新型被詳細描述之前，應當注意在以下的說明內容中，類似的元件是以相同的編號來表示。在本新型被詳細描述之前應當注意：若未特別定義，則本專利說明書中所述的「電連接」亦泛指多個電子設備/裝置/元件之間彼此直接相連而形成的「直接電連接」，以及多個電子設備/裝置/元件之間還透過其他電子設備/裝置/元件彼此間接相連而形成的「間接電連接」。Before the present invention is described in detail, it should be noted that in the following description, similar elements are represented by the same numbers. Before this new model is described in detail, it should be noted that if there is no special definition, the "electrical connection" in this patent specification also refers to the "direct electrical connection" formed by directly connecting multiple electronic devices/devices/components to each other. ", and the "indirect electrical connection" between multiple electronic equipment/devices/components that are also indirectly connected to each other through other electronic equipment/devices/components.

同時參閱圖1及圖2，本新型瓦斯爐設備1之一實施例例如包含兩個爐頭11、兩條分別連接該兩爐頭11的瓦斯管線12、兩個分別對應該兩爐頭11的旋鈕13、兩個分別連接該兩瓦斯管線12且位置分別與該兩旋鈕13相對應的考克單元14、兩個分別對應該兩爐頭11的點火單元15、兩個分別對應該兩爐頭11的溫度感測單元16、一能供使用者進行定時設定操作的輸入單元17，以及一電連接該兩考克單元14、該兩點火單元15、該兩溫度感測單元16及該輸入單元17的控制單元18。Referring to Figures 1 and 2 at the same time, an embodiment of the new gas furnace equipment 1 includes, for example, two furnace heads 11, two gas pipelines 12 respectively connected to the two furnace heads 11, and two corresponding to the two furnace heads 11 respectively. Knob 13, two Cork units 14 respectively connected to the two gas pipelines 12 and positions corresponding to the two knobs 13, two ignition units 15 respectively corresponding to the two burner heads 11, and two respectively corresponding to the two burner heads The temperature sensing unit 16 of 11, an input unit 17 for the user to perform timing setting operations, and an electrical connection to the two cork units 14, the two ignition units 15, the two temperature sensing units 16 and the input unit 17 of the control unit 18.

在本實施例中，每一爐頭11界定出一對應該爐頭11的爐口110，並且，該爐頭11例如具有多個與該爐口110相互連通的瓦斯流入孔（圖未示）。In this embodiment, each furnace head 11 defines a furnace mouth 110 corresponding to the furnace head 11, and the furnace head 11 has, for example, a plurality of gas inflow holes (not shown) communicating with the furnace mouth 110. .

每一瓦斯管線12界定出一瓦斯通道120，且該瓦斯管線12例如具有一瓦斯輸入端以及相反於該瓦斯輸入端的一瓦斯輸出端（圖未示）。其中，該瓦斯輸入端適用於連接瓦斯供應業者的瓦斯供給管線或者一瓦斯桶，而該瓦斯輸出端則連接於對應的該爐頭11，以使得該瓦斯通道120與對應之爐頭11的該等瓦斯流入孔相互連通。藉此，在該瓦斯通道120開放的情況下，來自於瓦斯供給管線或者瓦斯桶的瓦斯氣體能夠從該瓦斯管線12的瓦斯輸入端進入該瓦斯通道120，並經由該瓦斯通道120被輸送至該瓦斯管線12的瓦斯輸出端而流出該瓦斯通道120，再經由該爐頭11的該等瓦斯流入孔流入該爐口110。另一方面，在該瓦斯通道120封閉的情況下，瓦斯氣體便無法從該瓦斯輸入端經由該瓦斯通道120被輸送至該瓦斯輸出端。Each gas pipeline 12 defines a gas channel 120, and the gas pipeline 12 has, for example, a gas input end and a gas output end (not shown) opposite to the gas input end. Wherein, the gas input end is suitable for connecting a gas supply pipeline or a gas barrel of a gas supplier, and the gas output end is connected to the corresponding burner 11, so that the gas channel 120 and the corresponding burner 11 Wait for the gas inflow holes to communicate with each other. Thereby, when the gas channel 120 is open, the gas from the gas supply line or the gas barrel can enter the gas channel 120 from the gas input end of the gas pipeline 12, and be transported to the gas channel 120 through the gas channel 120. The gas output end of the gas pipeline 12 flows out of the gas channel 120, and then flows into the furnace mouth 110 through the gas inflow holes of the furnace head 11. On the other hand, when the gas passage 120 is closed, the gas cannot be transported from the gas input end to the gas output end via the gas passage 120.

在本實施例中，每一旋鈕13例如被實施為一按壓式旋鈕（或稱「安全旋鈕」），但並不以此為限。更明確地說，當該旋鈕13處於一關閉角度時，該旋鈕13只有在受到按壓操作時才能夠被以一開啟方向（例如為順時針方向）轉動，也就是說，在該旋鈕13處於該關閉角度的情況下，使用者必需先按壓住該旋鈕13，才能夠將該旋鈕13以該開啟方向轉動。更詳細地說，在本實施例中，每一旋鈕13能夠在受到按壓操作的情況下從該關閉角度以該開啟方向被轉動至一點火觸發角度，並且，該點火觸發角度與該關閉角度之間的角度差可例如為90度，換句話說，在本實施例中，該旋鈕13只要從該關閉角度被以該開啟方向旋轉90度，便會被轉動至該點火觸發角度，但並不以此為限。補充說明的是，由於按壓式旋鈕的結構屬於現有技術且並非本專利說明書之重點，故在此不特別說明該等旋鈕13的細部結構。In this embodiment, each knob 13 is implemented as a push-type knob (or “safety knob”), for example, but it is not limited to this. More specifically, when the knob 13 is at a closing angle, the knob 13 can be turned in an opening direction (for example, clockwise) only when the knob 13 is pressed, that is, when the knob 13 is at the In the case of the closing angle, the user must first press the knob 13 to be able to rotate the knob 13 in the opening direction. In more detail, in this embodiment, each knob 13 can be rotated from the closing angle and the opening direction to an ignition trigger angle under the condition of being pressed, and the ignition trigger angle and the closing angle are different from each other. The angle difference between the two can be, for example, 90 degrees. In other words, in this embodiment, as long as the knob 13 is rotated 90 degrees from the closing angle in the opening direction, it will be rotated to the ignition trigger angle, but not Limit this. It is supplemented that, since the structure of the push-type knobs belongs to the prior art and is not the focus of this patent specification, the detailed structure of the knobs 13 is not specifically described here.

參閱圖3並配合參閱圖2，在本實施例中，每一考克單元14例如包括電連接於該控制單元18的一第一微動開關141、一第二微動開關142及一電磁閥143，其中，該第一微動開關141及該第二微動開關142的位置與對應的該旋鈕13互相配合，以致該第一微動開關141及該第二微動開關142能在對應之旋鈕13的轉動過程中各自被該旋鈕13所觸發。更詳細地說，該第一微動開關141是用於在對應之旋鈕13被轉動至該點火觸發角度時受該旋鈕13所觸發地輸出一第一操作信號至該控制單元18，而該第二微動開關142則是用於在對應之旋鈕13非處於該關閉角度時受該旋鈕13所觸發地輸出一第二操作信號至該控制單元18。換句話說，當該旋鈕13被轉動至該點火觸發角度時，便會觸發對應的該第一微動開關141輸出該第一操作信號至該控制單元18，另一方面，若該旋鈕13非處於該關閉角度，便會持續地觸發對應的該第二微動開關142輸出該第二操作信號至該控制單元18。更具體地舉例來說，該第一操作信號可例如被實施為一個脈波(Pulse)，而該第二操作信號則可例如被實施為一個固定電壓準位的直流電壓，但並不以此為限。Referring to FIG. 3 and in conjunction with FIG. 2, in this embodiment, each Cock unit 14 includes, for example, a first micro switch 141, a second micro switch 142, and a solenoid valve 143 that are electrically connected to the control unit 18. Wherein, the positions of the first micro switch 141 and the second micro switch 142 are matched with the corresponding knob 13 so that the first micro switch 141 and the second micro switch 142 can be rotated during the rotation of the corresponding knob 13 Each is triggered by the knob 13. In more detail, the first micro switch 141 is used to output a first operation signal to the control unit 18 when the corresponding knob 13 is turned to the ignition trigger angle, and is triggered by the knob 13 to output a first operation signal to the control unit 18. The micro switch 142 is used to output a second operation signal to the control unit 18 when the corresponding knob 13 is not at the closing angle and is triggered by the knob 13. In other words, when the knob 13 is turned to the ignition trigger angle, the corresponding first micro switch 141 will be triggered to output the first operation signal to the control unit 18. On the other hand, if the knob 13 is not in the position The closing angle will continuously trigger the corresponding second micro switch 142 to output the second operation signal to the control unit 18. More specifically, for example, the first operating signal can be implemented as a pulse, and the second operating signal can be implemented as a DC voltage with a fixed voltage level, but not so. Is limited.

另一方面，該電磁閥143設置於對應的該瓦斯管線12，而能夠受該控制單元18控制地開放或封閉對應之瓦斯管線12所界定出的瓦斯通道120。更詳細地說，該電磁閥143能受該控制單元18控制地在一開放狀態及一封閉狀態之間切換。其中，在該電磁閥143處於該開放狀態時，該電磁閥143開放該瓦斯通道120，而使得對應之瓦斯管線12的瓦斯輸入端與瓦斯輸出端之間彼此連通。另一方面，在該電磁閥143處於該封閉狀態時，該電磁閥143封閉該瓦斯通道120，而使得對應之瓦斯管線12的瓦斯輸入端與瓦斯輸出端之間彼此不連通。On the other hand, the solenoid valve 143 is disposed on the corresponding gas pipeline 12 and can be controlled by the control unit 18 to open or close the gas passage 120 defined by the corresponding gas pipeline 12. In more detail, the solenoid valve 143 can be switched between an open state and a closed state under the control of the control unit 18. Wherein, when the solenoid valve 143 is in the open state, the solenoid valve 143 opens the gas passage 120 so that the gas input end and the gas output end of the corresponding gas pipeline 12 communicate with each other. On the other hand, when the solenoid valve 143 is in the closed state, the solenoid valve 143 closes the gas passage 120, so that the gas input end and the gas output end of the corresponding gas pipeline 12 are not connected to each other.

在本實施例中，每一點火單元15例如被實施為一電子式的脈衝電弧點火器，且用於受該控制單元18控制地產生火花。並且，每一點火單元15是設置於對應的該爐頭11，而與該爐頭11所界定出之爐口110的位置相對應，並且，較佳地，該點火單元15例如是鄰近於對應之爐頭11所連接之瓦斯管線12的瓦斯輸出端。In this embodiment, each ignition unit 15 is implemented as an electronic pulse arc igniter, for example, and is used to generate sparks under the control of the control unit 18. Moreover, each ignition unit 15 is arranged on the corresponding furnace head 11, and corresponds to the position of the furnace mouth 110 defined by the furnace head 11, and preferably, the ignition unit 15 is adjacent to the corresponding furnace head 11, for example. The gas output end of the gas pipeline 12 connected to the burner 11.

在本實施例中，每一溫度感測單元16例如包括一電連接該控制單元18的熱電偶161（示於圖2），且該熱電偶161是設置於該溫度感測單元16所對應的該爐頭11，而用於感測該爐頭11所界定出之爐口110的溫度。In this embodiment, each temperature sensing unit 16 includes, for example, a thermocouple 161 (shown in FIG. 2) that is electrically connected to the control unit 18, and the thermocouple 161 is disposed corresponding to the temperature sensing unit 16. The furnace head 11 is used to sense the temperature of the furnace mouth 110 defined by the furnace head 11.

為了更清楚地描述本實施例之瓦斯爐設備1的運作方式，如圖2及圖3所示，在此將該兩爐頭11分別作為本實施例中的一爐頭11A及一爐頭11B。並且，該兩爐口110例如分別為一對應該爐頭11A的爐口110A及一對應該爐頭11B的爐口110B。該兩瓦斯管線12例如分別為一連接於該爐頭11A的瓦斯管線12A以及一連接於該爐頭11B的瓦斯管線12B。該兩瓦斯通道120例如分別為一對應該瓦斯管線12A的瓦斯通道120A以及一對應該瓦斯管線12B的瓦斯通道120B。該兩旋鈕13例如分別為一對應該爐頭11A的旋鈕13A以及一對應該爐頭11B的旋鈕13B。該兩考克單元14例如分別為一設置於該瓦斯管線12A且與該旋鈕13A位置相對應的考克單元14A，以及一設置於該瓦斯管線12B且與該旋鈕13B位置相對應的考克單元14B。該兩點火單元15例如分別為一對應該爐頭11A的點火單元15A以及一對應該爐頭11B點火單元15B。而該兩溫度感測單元16則例如分別為一對應該爐頭11A的溫度感測單元16A以及一對應該爐頭11B的溫度感測單元16B。In order to more clearly describe the operation mode of the gas stove device 1 of this embodiment, as shown in Figures 2 and 3, the two burner heads 11 are respectively referred to as a burner head 11A and a burner head 11B in this embodiment. . In addition, the two furnace ports 110 are, for example, a furnace port 110A corresponding to the furnace head 11A and a furnace port 110B corresponding to the furnace head 11B, respectively. The two gas pipelines 12 are, for example, a gas pipeline 12A connected to the burner 11A and a gas pipeline 12B connected to the burner 11B, respectively. The two gas passages 120 are, for example, a gas passage 120A corresponding to the gas pipeline 12A and a gas passage 120B corresponding to the gas pipeline 12B, respectively. The two knobs 13 are, for example, a knob 13A corresponding to the furnace head 11A and a knob 13B corresponding to the furnace head 11B, respectively. The two Cock units 14 are, for example, a Cock unit 14A disposed on the gas line 12A and corresponding to the position of the knob 13A, and a Cock unit disposed on the gas line 12B and corresponding to the position of the knob 13B. 14B. The two ignition units 15 are, for example, an ignition unit 15A corresponding to the furnace head 11A and an ignition unit 15B corresponding to the furnace head 11B, respectively. The two temperature sensing units 16 are, for example, a temperature sensing unit 16A corresponding to the furnace head 11A and a temperature sensing unit 16B corresponding to the furnace head 11B, respectively.

進一步地，如圖3所示，在本實施例中，該爐頭11A、該瓦斯管線12A、該旋鈕13A、該考克單元14A、該點火單元15A及該溫度感測單元16A例如是被共同包含於一瓦斯爐模組10（在此將其作為一瓦斯爐模組10A）中，另一方面，該爐頭11B、該瓦斯管線12B、該旋鈕13B、該考克單元14B、該點火單元15B及該溫度感測單元16B則例如是被共同包含於另一個瓦斯爐模組10（在此將其作為一瓦斯爐模組10B）中，換句話說，本實施例的該瓦斯爐設備1例如是包含兩個瓦斯爐模組10，然而，在其他實施例中，該瓦斯爐設備1也可例如是包含一個、三個或更多個瓦斯爐模組10，因此，該瓦斯爐模組10的實際數量並不以本實施例為限。Further, as shown in FIG. 3, in this embodiment, the burner 11A, the gas line 12A, the knob 13A, the cork unit 14A, the ignition unit 15A, and the temperature sensing unit 16A are, for example, shared Contained in a gas stove module 10 (herein referred to as a gas stove module 10A), on the other hand, the stove head 11B, the gas line 12B, the knob 13B, the cork unit 14B, the ignition unit 15B and the temperature sensing unit 16B are, for example, jointly included in another gas stove module 10 (here it is referred to as a gas stove module 10B), in other words, the gas stove device 1 of this embodiment For example, two gas stove modules 10 are included. However, in other embodiments, the gas stove device 1 may also include one, three or more gas stove modules 10, therefore, the gas stove module The actual number of 10 is not limited to this embodiment.

以下以圖3中的該瓦斯爐模組10A為例地說明本實施例之瓦斯爐設備1的運作方式，亦即說明該控制單元18對該瓦斯爐模組10A所實施的一控制方法。The following uses the gas stove module 10A in FIG. 3 as an example to illustrate the operation of the gas stove device 1 of this embodiment, that is, to explain a control method implemented by the control unit 18 on the gas stove module 10A.

對於該瓦斯爐模組10A，該控制單元18會持續判斷一點火觸發條件是否符合，且該點火觸發條件例如代表該旋鈕13A被轉動至該點火觸發角度。並且，在本實施例中，該控制單元18例如是根據是否接收到由該考克單元14A之第一微動開關141所輸出之第一操作信號而判斷該點火觸發條件是否符合，更明確地說，當該控制單元18接收到該第一操作信號時，該控制單元18便會根據該第一操作信號判定該點火觸發條件符合。For the gas stove module 10A, the control unit 18 will continue to determine whether an ignition trigger condition is met, and the ignition trigger condition, for example, represents that the knob 13A is turned to the ignition trigger angle. Moreover, in this embodiment, the control unit 18 judges whether the ignition trigger condition is met, for example, based on whether the first operation signal output by the first micro switch 141 of the cork unit 14A is received, or more specifically When the control unit 18 receives the first operation signal, the control unit 18 will determine that the ignition trigger condition is met according to the first operation signal.

當該控制單元18判斷出該點火觸發條件符合時，該控制單元18會控制該考克單元14A的電磁閥143在一點火期間內恆開放該瓦斯通道120A，以及控制該點火單元15A在該點火期間內持續不斷地產生火花。如此一來，瓦斯氣體便能經由該瓦斯通道120A流入該爐口110A與空氣混合且被該點火單元15A所連續產生的火花點燃，進而在該爐口110A產生持續燃燒的火焰，以使得該瓦斯爐設備1從一不產生火焰的關閉狀態切換至一產生火焰的開啟狀態。When the control unit 18 determines that the ignition trigger condition is met, the control unit 18 controls the solenoid valve 143 of the cork unit 14A to open the gas passage 120A during an ignition period, and controls the ignition unit 15A to perform the ignition. Sparks continue to be produced during this period. In this way, the gas can flow into the furnace port 110A through the gas channel 120A to mix with air and be ignited by the spark continuously generated by the ignition unit 15A, and then a continuous burning flame is generated at the furnace port 110A to make the gas The furnace device 1 is switched from a closed state in which no flame is generated to an open state in which flame is generated.

更詳細地說，在該旋鈕13A於該點火期間內未被轉動至該關閉角度的前提下，當該控制單元18判斷出該點火觸發條件符合時，該控制單元18會控制該考克單元14A的電磁閥143由該封閉狀態切換至該開放狀態且於該點火期間內恆操作於該開放狀態，以使得該瓦斯通道120A在該點火期間內維持開放。並且，當該點火觸發條件符合時，該控制單元18是在控制該電磁閥143切換至該開放狀態的同時一併控制該點火單元15A開始連續產生火花，也就是說，該控制單元18是在判斷出該點火觸發條件符合時同步地控制該電磁閥143開放該瓦斯通道120A以及控制該點火單元15A開始連續產生火花，所以，在不考慮控制信號傳遞延遲的情況下，該電磁閥143開放該瓦斯通道120A與該點火單元15A開始產生火花是彼此同步的。In more detail, under the premise that the knob 13A is not turned to the closing angle during the ignition period, when the control unit 18 determines that the ignition trigger condition is met, the control unit 18 will control the cork unit 14A The solenoid valve 143 is switched from the closed state to the open state and is constantly operated in the open state during the ignition period, so that the gas passage 120A remains open during the ignition period. Moreover, when the ignition trigger condition is met, the control unit 18 controls the solenoid valve 143 to switch to the open state and at the same time controls the ignition unit 15A to start continuous spark generation, that is, the control unit 18 is When it is judged that the ignition trigger condition is met, the solenoid valve 143 is synchronously controlled to open the gas passage 120A and the ignition unit 15A is controlled to start continuous spark generation. Therefore, regardless of the control signal transmission delay, the solenoid valve 143 is opened. The gas passage 120A and the ignition unit 15A start to generate sparks in synchronization with each other.

在本實施例中，該點火期間的時間長度可例如被實施為8秒，換句話說，該點火期間相當於是從該點火觸發條件符合的當下所起算的八秒鐘。然而，在其他實施例中，該點火期間可例如被實施為不同的時間長度，因此，該點火期間的時間長度並不以本實施例為限。In this embodiment, the time length of the ignition period can be implemented as 8 seconds, in other words, the ignition period is equivalent to eight seconds from the moment when the ignition trigger condition is met. However, in other embodiments, the ignition period may be implemented as a different time length, and therefore, the time length of the ignition period is not limited to this embodiment.

值得注意的是，該點火觸發條件與該旋鈕13A是否受到按壓操作並不相關，換言之，該控制單元18並不會根據該旋鈕13A是否受到按壓操作來判斷該點火觸發條件是否符合。也就是說，雖然使用者需要按壓住該旋鈕13A才能夠將處於該關閉角度的旋鈕13A轉動至該點火觸發角度，然而，一旦使用者將該旋鈕13A轉動至該點火觸發角度，無論使用者是否有繼續按壓住旋鈕13A，皆會使得該控制單元18判定該點火觸發條件符合，而使得該控制單元18在該點火期間內控制該電磁閥143恆開放該瓦斯通道120A，並控制該點火單元15A連續產生火花，也就是說，即便使用者將該旋鈕13A轉動至該點火觸發角度後就立刻鬆手，該瓦斯通道120A也仍會在該點火期間結束前維持開放，且該點火單元15A也仍會在該點火期間結束前連續地產生火花，藉此，本實施例的瓦斯爐設備1不但讓使用者在點火時無需持續按壓旋鈕13A而更加便利，且更能有效提高使用者操作旋鈕13A一次便成功點火的機率。It is worth noting that the ignition trigger condition is not related to whether the knob 13A is pressed. In other words, the control unit 18 does not determine whether the ignition trigger condition is met according to whether the knob 13A is pressed. In other words, although the user needs to press the knob 13A to turn the knob 13A at the closed angle to the ignition trigger angle, once the user rotates the knob 13A to the ignition trigger angle, no matter what the user Whether the knob 13A continues to be pressed will cause the control unit 18 to determine that the ignition trigger condition is met, so that the control unit 18 controls the solenoid valve 143 to constantly open the gas passage 120A during the ignition period and controls the ignition The unit 15A continuously generates sparks, that is, even if the user immediately releases the knob 13A after turning the knob 13A to the ignition trigger angle, the gas passage 120A will still remain open before the ignition period ends, and the ignition unit 15A will remain open. Sparks will still be continuously generated before the end of the ignition period. Therefore, the gas burner device 1 of this embodiment not only makes it more convenient for the user to keep pressing the knob 13A during ignition, but also effectively improves the user's operation of the knob 13A. The chance of a successful ignition in one shot.

接著，在該控制單元18判斷出該點火觸發條件符合之後，該控制單元18還根據該溫度感測單元16A之熱電偶161的感測結果判斷該爐口110A的溫度是否在該點火期間結束前超過一溫度門檻值。若該控制單元18判斷的結果為是，則代表該爐口110A已產生持續燃燒的火焰，亦即已成功被點燃，此時，該控制單元18控制該考克單元14A的電磁閥143在該點火期間結束時繼續開放該瓦斯通道120A，以及控制該點火單元15A在該點火期間結束時停止產生火花，藉此使得該爐口110A在該點火期間結束後能繼續維持具有火焰的狀態。另一方面，若該控制單元18判斷出該爐口110A的溫度未在該點火期間結束前超過該溫度門檻值，則代表該爐口110A並未產生持續燃燒的火焰，亦即未被成功點燃，此時，該控制單元18控制該考克單元14A的電磁閥143在該點火期間結束時封閉該瓦斯通道120，以及控制該點火單元15A在該點火期間結束時停止產生火花，以避免瓦斯氣體在該爐口110A未產生火焰的情況下繼續從該爐口110A洩出。Then, after the control unit 18 determines that the ignition trigger condition is met, the control unit 18 also determines whether the temperature of the furnace port 110A is before the end of the ignition period according to the sensing result of the thermocouple 161 of the temperature sensing unit 16A A temperature threshold is exceeded. If the result of the judgment of the control unit 18 is yes, it means that the furnace port 110A has produced a continuous burning flame, that is, it has been successfully ignited. At this time, the control unit 18 controls the solenoid valve 143 of the Cork unit 14A in the At the end of the ignition period, the gas passage 120A continues to be opened, and the ignition unit 15A is controlled to stop sparking at the end of the ignition period, so that the furnace port 110A can continue to maintain a flame state after the ignition period ends. On the other hand, if the control unit 18 determines that the temperature of the furnace port 110A has not exceeded the temperature threshold value before the end of the ignition period, it means that the furnace port 110A has not produced a continuous burning flame, that is, it has not been successfully ignited. At this time, the control unit 18 controls the solenoid valve 143 of the Cock unit 14A to close the gas passage 120 at the end of the ignition period, and controls the ignition unit 15A to stop sparking at the end of the ignition period to avoid gas. In the case where no flame is generated in the furnace port 110A, the leakage from the furnace port 110A is continued.

另外，在該控制單元18判斷出該點火觸發條件符合之後，該控制單元18還判斷該旋鈕13A是否在該點火期間內被轉動至該關閉角度，並且，在本實施例中，該控制單元18係根據是否在該點火期間結束之前皆有持續接收到由該考克單元14A之第二微動開關142所輸出的第二操作信號，來判斷該旋鈕13A是否在該點火期間內被轉動至該關閉角度。更詳細地說，只要該旋鈕13A非處於該關閉角度，該考克單元14A的第二微動開關142便會受該旋鈕13A觸發地持續輸出該第二操作信號，因此，在本實施例中，若該控制單元18在該點火期間內的任一時間點未接收到該第二操作信號，該控制單元18便會判定該旋鈕13A在該點火期間內被轉動至該關閉角度，此時，該控制單元18即時地控制該考克單元14A的電磁閥143封閉該瓦斯通道120A，並同時控制該點火單元15A停止產生火花，以使該瓦斯爐設備1操作於不產生火焰的關閉狀態。In addition, after the control unit 18 determines that the ignition trigger condition is met, the control unit 18 also determines whether the knob 13A is turned to the closing angle during the ignition period, and, in this embodiment, the control unit 18 According to whether the second operation signal output by the second micro switch 142 of the cork unit 14A is continuously received before the end of the ignition period, it is judged whether the knob 13A is turned to the off during the ignition period angle. In more detail, as long as the knob 13A is not at the closing angle, the second micro switch 142 of the Cock unit 14A will be triggered by the knob 13A to continuously output the second operation signal. Therefore, in this embodiment, If the control unit 18 does not receive the second operation signal at any point in the ignition period, the control unit 18 will determine that the knob 13A has been turned to the closing angle during the ignition period. At this time, the The control unit 18 immediately controls the solenoid valve 143 of the cork unit 14A to close the gas passage 120A, and at the same time controls the ignition unit 15A to stop sparking, so that the gas furnace device 1 operates in a closed state where no flame is generated.

並且，在該控制單元18判斷出該爐口110A的溫度在該點火期間結束之前超過該溫度門檻值後（亦即判斷出該爐口110A被成功點燃後），該控制單元18例如會針對該爐口110A持續燃燒的時間進行計時，並且，當該控制單元18判斷出該爐口110A持續燃燒的累計時間達到一強制熄火時間門檻值時，該控制單元18便會控制該考克單元14A的電磁閥143封閉該瓦斯通道120A，以使該瓦斯爐設備1切換至不產生火焰的關閉狀態。其中，該強制熄火時間門檻值例如被預設為兩個小時，然而，該強制熄火時間門檻值能被使用者透過該輸入單元17進行調整，而被設定為小於兩個小時的其他時間長度。Moreover, after the control unit 18 determines that the temperature of the furnace port 110A exceeds the temperature threshold before the end of the ignition period (that is, after it is determined that the furnace port 110A is successfully ignited), the control unit 18 will, for example, respond to the The continuous burning time of the furnace port 110A is counted, and when the control unit 18 determines that the cumulative time of the continuous burning of the furnace port 110A reaches a mandatory flameout time threshold, the control unit 18 will control the Cock unit 14A The solenoid valve 143 closes the gas passage 120A, so that the gas stove device 1 is switched to a closed state where no flame is generated. Wherein, the mandatory flameout time threshold is preset to, for example, two hours. However, the forced flameout time threshold can be adjusted by the user through the input unit 17 and set to other time lengths less than two hours.

以上即為該瓦斯爐模組10A在本實施例中的運作方式，並且，該瓦斯爐模組10B的運作方式與該瓦斯爐模組10A完全相同，故本實施例不再重述該瓦斯爐模組10B的運作方式。The above is the operation mode of the gas stove module 10A in this embodiment, and the operation mode of the gas stove module 10B is exactly the same as the gas stove module 10A, so this embodiment will not repeat the gas stove. Mode of operation of module 10B.

補充說明的是，配合參閱圖4，在另一實施例中，每一溫度感測單元16可例如更包含一可受壓力而縮短並且電連接該控制單元18的接觸式溫度感測器162，該接觸式溫度感測器162例如是呈直立狀地設置在對應的爐頭11，並且向上凸伸出該爐頭11所界定出的爐口110。更詳細地說，該接觸式溫度感測器162例如具有一壓縮彈簧（圖未示），並且，當一鍋具5被放置於該爐頭11上時，該鍋具5會將該接觸式溫度感測器162下壓，而使得該接觸式溫度感測器162向下縮短並使該壓縮彈簧被壓縮，此時，該壓縮彈簧受壓縮所產生的反作用力會使得該接觸式溫度感測器162的頂端緊密接觸該鍋具5的底部，而使得該接觸式溫度感測器162能夠以直接接觸的方式感測該鍋具5底部的溫度。並且，在另該實施例中，該控制單元18例如會根據該接觸式溫度感測器162的感測結果判斷該鍋具5的溫度是否超過另一溫度門檻值（例如攝氏270度，但不以此為限），並且於判斷結果為是時控制對應的電磁閥143封閉對應的瓦斯通道120以使該瓦斯爐設備1切換至關閉狀態，以避免鍋具空燒或者油溫過高而導致火災。It is supplemented that, in conjunction with FIG. 4, in another embodiment, each temperature sensing unit 16 may further include a contact temperature sensor 162 that can be shortened under pressure and is electrically connected to the control unit 18. The contact temperature sensor 162 is, for example, vertically arranged on the corresponding furnace head 11 and protrudes upward from the furnace mouth 110 defined by the furnace head 11. In more detail, the contact temperature sensor 162 has, for example, a compression spring (not shown), and when a pot 5 is placed on the stove 11, the pot 5 will The temperature sensor 162 is pressed down, so that the contact temperature sensor 162 is shortened downward and the compression spring is compressed. At this time, the reaction force generated by the compression spring will cause the contact temperature sensor to be compressed. The top of the pot 162 closely contacts the bottom of the pot 5, so that the contact temperature sensor 162 can sense the temperature of the bottom of the pot 5 in a direct contact manner. In addition, in another embodiment, the control unit 18 will determine whether the temperature of the pot 5 exceeds another temperature threshold (for example, 270 degrees Celsius, but not This is the limit), and when the judgment result is yes, the corresponding solenoid valve 143 is controlled to close the corresponding gas passage 120 to switch the gas stove device 1 to the closed state, so as to prevent the pot from being empty or the oil temperature is too high. Fire.

綜上所述，該瓦斯爐設備1的控制單元18能在判斷出該點火觸發條件符合時控制電磁閥143在點火期間恆開放該瓦斯通道120以及控制該點火單元15在點火期間持續不斷地產生火花，以使得該瓦斯爐設備1產生火焰，而且，該控制單元18並不會根據旋鈕13是否受到按壓操作來判斷該點火觸發條件是否符合，因此，當使用者想要利用該瓦斯爐設備1點火時，只要將旋鈕13從關閉角度轉動至點火觸發角度即可鬆手，而不需在將旋鈕13轉動至點火觸發角度後還繼續按壓旋鈕13一段時間，因此，該瓦斯爐設備1不會產生因為按壓旋鈕時間不足而點火失敗的情形，因此能提高使用者操作旋鈕13一次便成功點火的機率而更便於操作，故確實能達成本新型之目的。In summary, the control unit 18 of the gas furnace device 1 can control the solenoid valve 143 to open the gas passage 120 during the ignition period and control the ignition unit 15 to continuously generate the gas during the ignition period when it determines that the ignition trigger condition is met. Sparks, so that the gas stove device 1 generates flames, and the control unit 18 does not determine whether the ignition trigger condition is met according to whether the knob 13 is pressed. Therefore, when the user wants to use the gas stove device 1 When igniting, just turn the knob 13 from the closing angle to the ignition trigger angle to let go. There is no need to press the knob 13 for a period of time after turning the knob 13 to the ignition trigger angle. Therefore, the gas stove device 1 will not produce Because the time for pressing the knob is insufficient and the ignition fails, the probability that the user can successfully ignite by operating the knob 13 one time is improved, and the operation is more convenient, so it can indeed achieve the purpose of new cost.

惟以上所述者，僅為本新型之實施例而已，當不能以此限定本新型實施之範圍，凡是依本新型申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾，皆仍屬本新型專利涵蓋之範圍內。However, the above are only examples of the present model, and should not be used to limit the scope of implementation of the present model, all simple equivalent changes and modifications made in accordance with the patent scope of the present model application and the contents of the patent specification still belong to This new patent covers the scope.

1:瓦斯爐設備 10、10A、10B:瓦斯爐模組 11、11A、11B:爐頭 110、110A、110B:爐口 12、12A、12B:瓦斯管線 120、120A、120B:瓦斯通道 13、13A、13B:旋鈕 14、14A、14B:考克單元 141:第一微動開關 142:第二微動開關 143:電磁閥 15、15A、15B:點火單元 16、16A、16B:溫度感測單元 161:熱電偶 162:接觸式溫度感測器 17:輸入單元 18:控制單元 5:鍋具1: Gas stove equipment 10, 10A, 10B: Gas stove module 11, 11A, 11B: burner 110, 110A, 110B: furnace mouth 12, 12A, 12B: Gas pipeline 120, 120A, 120B: Gas channel 13, 13A, 13B: knob 14, 14A, 14B: Cork unit 141: The first micro switch 142: The second micro switch 143: Solenoid valve 15, 15A, 15B: ignition unit 16, 16A, 16B: temperature sensing unit 161: Thermocouple 162: Contact temperature sensor 17: Input unit 18: control unit 5: Cookware

本新型之其他的特徵及功效，將於參照圖式的實施方式中清楚地呈現，其中： 圖1是本新型瓦斯爐設備之一實施例的一立體示意圖； 圖2是該實施例的一俯視示意圖； 圖3是該實施例的一硬體方塊示意圖；及 圖4是一側視示意圖，示例性地繪示本新型瓦斯爐設備之另一實施例所包含的一接觸式溫度感測器，以及一放置於該實施例上的鍋具。 The other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, among which: Figure 1 is a three-dimensional schematic diagram of an embodiment of the new gas stove equipment; Figure 2 is a schematic top view of the embodiment; FIG. 3 is a schematic diagram of a hardware block diagram of the embodiment; and Fig. 4 is a schematic side view, exemplarily showing a contact temperature sensor included in another embodiment of the new gas stove device, and a pot placed on the embodiment.

1:瓦斯爐設備 1: Gas stove equipment

10、10A、10B:瓦斯爐模組 10, 10A, 10B: Gas stove module

11、11A、11B:爐頭 11, 11A, 11B: burner

110、110A、110B:爐口 110, 110A, 110B: furnace mouth

12、12A、12B:瓦斯管線 12, 12A, 12B: Gas pipeline

120、120A、120B:瓦斯通道 120, 120A, 120B: Gas channel

13、13A、13B:旋鈕 13, 13A, 13B: knob

14、14A、14B:考克單元 14, 14A, 14B: Cork unit

15、15A、15B:點火單元 15, 15A, 15B: ignition unit

16、16A、16B:溫度感測單元 16, 16A, 16B: temperature sensing unit

161:熱電偶 161: Thermocouple

17:輸入單元 17: Input unit

18:控制單元 18: control unit

Claims (9)

一種瓦斯爐設備，包含： 一控制單元； 一瓦斯管線，界定出一瓦斯通道； 一考克單元，電連接該控制單元，並用於受該控制單元控制地開放或封閉該瓦斯通道； 一點火單元，電連接該控制單元且用於受該控制單元控制地產生火花；及 一旋鈕，能受操作地轉動； 其中，當該控制單元判斷出一點火觸發條件符合時，該控制單元控制該考克單元在一點火期間內恆開放該瓦斯通道，並控制該點火單元在該點火期間內連續產生火花，以使該瓦斯爐設備從一不產生火焰的關閉狀態切換至一產生火焰的開啟狀態，並且，該點火觸發條件包含該旋鈕被轉動至一點火觸發角度且不相關於該旋鈕是否受到按壓操作。 A gas stove equipment, including: A control unit; A gas pipeline defines a gas channel; A Cork unit, electrically connected to the control unit, and used to open or close the gas channel under the control of the control unit; An ignition unit electrically connected to the control unit and used to generate sparks under the control of the control unit; and A knob that can be turned by operation; Wherein, when the control unit determines that an ignition trigger condition is met, the control unit controls the Cork unit to constantly open the gas channel during an ignition period, and controls the ignition unit to continuously generate sparks during the ignition period, so that The gas stove equipment is switched from a closed state where no flame is generated to an open state where a flame is generated, and the ignition trigger condition includes that the knob is turned to an ignition trigger angle and is not related to whether the knob is pressed. 如請求項1所述的瓦斯爐設備，其中，當該控制單元判斷出該點火觸發條件符合時，該控制單元是在控制該考克單元開放該瓦斯通道的同時一併控制該點火單元開始連續產生火花。The gas furnace equipment according to claim 1, wherein, when the control unit determines that the ignition trigger condition is met, the control unit controls the Cock unit to open the gas passage while simultaneously controlling the ignition unit to start continuous Generate sparks. 如請求項1所述的瓦斯爐設備，還包含一界定出一爐口的爐頭，以及一電連接該控制單元的溫度感測單元，並且，該控制單元根據該溫度感測單元的感測結果判斷該爐口的溫度是否在該點火期間結束前超過一溫度門檻值，並於判斷結果為是時控制該考克單元在該點火期間結束時繼續開放該瓦斯通道，以及控制該點火單元在該點火期間結束時停止產生火花。The gas stove equipment according to claim 1, further comprising a furnace head defining a furnace mouth, and a temperature sensing unit electrically connected to the control unit, and the control unit is based on the sensing of the temperature sensing unit As a result, it is judged whether the temperature of the furnace mouth exceeds a temperature threshold before the end of the ignition period, and when the judgment result is yes, the Cork unit is controlled to continue to open the gas channel at the end of the ignition period, and the ignition unit is controlled to Stop sparking at the end of this ignition period. 如請求項3所述的瓦斯爐設備，其中，該控制單元於判斷出該爐口的溫度未在該點火期間結束前超過該溫度門檻值時，控制該考克單元在該點火期間結束時封閉該瓦斯通道，以及控制該點火單元在該點火期間結束時停止產生火花。The gas furnace device according to claim 3, wherein the control unit controls the Cork unit to close at the end of the ignition period when it determines that the temperature of the furnace mouth does not exceed the temperature threshold before the end of the ignition period The gas passage and control the ignition unit to stop generating sparks at the end of the ignition period. 如請求項3所述的瓦斯爐設備，其中，該溫度感測單元包括一設置於該爐頭而用於感測該爐口之溫度且電連接該控制單元的熱電偶。The gas stove device according to claim 3, wherein the temperature sensing unit includes a thermocouple disposed on the furnace head for sensing the temperature of the furnace mouth and electrically connected to the control unit. 如請求項5所述的瓦斯爐設備，其中，該溫度感測單元還包括一電連接該控制單元的接觸式溫度感測器，該接觸式溫度感測器設置於該爐頭且向上凸伸出該爐口，並適用於以接觸的方式感測一鍋具之底部的溫度，並且，當該控制單元根據該接觸式溫度感測器的感測結果判斷出該鍋具的溫度超過另一溫度門檻值時，控制該考克單元封閉該瓦斯通道，以使該瓦斯爐設備切換至該關閉狀態。The gas stove apparatus of claim 5, wherein the temperature sensing unit further includes a contact temperature sensor electrically connected to the control unit, and the contact temperature sensor is disposed on the furnace head and protrudes upward Out of the furnace mouth, and is suitable for sensing the temperature of the bottom of a pot in a contact manner, and when the control unit determines that the temperature of the pot exceeds another according to the sensing result of the contact temperature sensor When the temperature threshold is reached, the Cock unit is controlled to close the gas passage, so that the gas furnace equipment is switched to the closed state. 如請求項1所述的瓦斯爐設備，其中： 該考克單元包括電連接於該控制單元的一第一微動開關及一電磁閥，該第一微動開關用於在該旋鈕被轉動至該點火觸發角度時受該旋鈕所觸發地輸出一第一操作信號至該控制單元，且該電磁閥能在一開放該瓦斯通道的開放狀態及一封閉該瓦斯通道的封閉狀態之間切換； 該控制單元是根據是否接收到該第一操作信號而判斷該點火觸發條件是否符合，並且，當該控制單元判斷出該點火觸發條件符合時，是藉由控制該電磁閥在該點火期間內恆操作於該開放狀態，以使得該瓦斯通道在該點火期間內維持開放。 The gas stove equipment described in claim 1, wherein: The cork unit includes a first micro switch and a solenoid valve electrically connected to the control unit. The first micro switch is used to output a first micro switch triggered by the knob when the knob is turned to the ignition trigger angle. The operation signal is sent to the control unit, and the solenoid valve can switch between an open state in which the gas passage is opened and a closed state in which the gas passage is closed; The control unit determines whether the ignition trigger condition is met based on whether the first operation signal is received, and when the control unit determines that the ignition trigger condition is met, it controls the solenoid valve to be constant during the ignition period. Operate in the open state so that the gas passage remains open during the ignition period. 如請求項7所述的瓦斯爐設備，其中，當該控制單元判斷出該旋鈕在該點火期間內被轉動至一關閉角度時，該控制單元控制該考克單元封閉該瓦斯通道，並同時控制該點火單元停止產生火花。The gas stove apparatus according to claim 7, wherein, when the control unit determines that the knob is turned to a closing angle during the ignition period, the control unit controls the Cork unit to close the gas passage and simultaneously controls The ignition unit stops producing sparks. 如請求項8所述的瓦斯爐設備，其中，該考克單元還包括一電連接於該控制單元的第二微動開關，該第二微動開關用於在該旋鈕非處於該關閉角度時受該旋鈕所觸發地輸出一第二操作信號至該控制單元，且該控制單元是根據是否持續接收到該第二操作信號而判斷該旋鈕是否被轉動至該關閉角度。The gas stove apparatus according to claim 8, wherein the cork unit further includes a second micro switch electrically connected to the control unit, and the second micro switch is configured to be affected by the knob when the knob is not at the closing angle. The knob is triggered to output a second operation signal to the control unit, and the control unit determines whether the knob is rotated to the closing angle according to whether the second operation signal is continuously received.

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