KR102555570B1 - Gas burner for detecting and following up of cookware fall accident - Google Patents

Abstract

The present invention relates to a gas range, and a plurality of sensor units acquires information about the position of the cookware relative to the pedestal for mounting the cookware and the amount of impact to the main body. Based on the information of the plurality of sensor units, the control unit determines that after the cooking utensil is placed on the pedestal and heating is started with the cooking utensil, the cooking utensil is in a position away from the pedestal, and the impact amount to the main body exceeds a predetermined accident limit. If so, a preset accident action is performed. According to this, it is possible to minimize damage caused by a cookware drop accident by quickly and accurately identifying whether a cookware drop accident has occurred and performing an appropriate accident action operation.

Description

Gas stove for detection and follow-up of cookware fall accidents {GAS BURNER FOR DETECTING AND FOLLOWING UP OF COOKWARE FALL ACCIDENT}

The present invention relates to a gas range that detects a fall accident caused by a cookware and performs a follow-up action.

While using a gas stove, a cooking utensil fall accident may occur frequently. If a cooking utensil fall accident occurs, it is highly likely to lead to secondary accidents such as burns caused by hot cookware or food splashing, or fire caused by a gas fire that has not yet been extinguished transferred to oil. Compared to other safety accidents that occur in space, the risk is recognized as much higher.

Once a fall accident occurs, prompt action is required from the user to minimize damage, but it is generally difficult for a user who is physically injured or in a state of mental panic to take appropriate action.

Accordingly, an object of the present invention is to quickly and accurately determine whether a cookware fall accident occurs, and to provide a gas range that minimizes physical damage and material damage by performing an appropriate accident action operation.

An object of the present invention is to quickly and accurately identify whether or not a cookware drop accident occurs, and to minimize damage caused by a cookware drop accident by performing an appropriate accident action operation, and to provide a gas range with improved responsiveness to a drop accident. is to do

An object of the present invention described above, the main body including a cradle capable of holding the cooking utensils, and a crater capable of heating the mounted cooking utensils using gas; a plurality of sensor units capable of acquiring information about the position of the cooking utensil with respect to the pedestal and the amount of impact to the main body; And based on the information of the plurality of sensors, after the cooking utensil is mounted on the pedestal and heating is started with the cooking utensil, the cooking utensil is in a position separated from the pedestal, and an accident in which an amount of impact to the main body is preset. If it is determined to exceed the limit, it can be achieved by a gas range including a control unit for performing a preset accident action operation.

According to this, it is possible to minimize damage caused by a cookware drop accident by quickly and accurately identifying whether a cookware drop accident has occurred and performing an appropriate accident action operation.

The control unit may perform the preset accident action when it is determined that the pattern of impact to the main body corresponds to the preset accident pattern.

According to this, since it is possible to more reliably identify whether a fall accident has occurred, it is possible to perform an accident action optimized for the situation.

The gas range further includes a communication unit communicating with a plurality of external devices, and the control unit handles an accident caused by an impact on the body among the plurality of external devices based on device information of the plurality of external devices. At least one capable electronic device is identified, and situation information about the accident is transmitted to the identified at least one electronic device.

According to this, by utilizing various Internet of Things (IoT) devices or external devices, it is possible to more quickly and effectively deal with a fall accident.

The gas stove further includes an output unit and a user input unit, and the control unit outputs information asking whether or not to process the accident, and identifies the situation information based on a user input received through the user input unit. transmitted to at least one electronic device.

According to this, it is possible to perform an accident action operation that meets the user's intention.

The gas stove further includes an audio receiver, and the control unit, when it is determined that the volume of sound received through the audio receiver exceeds a preset accident sound volume threshold, performs the preset accident action.

According to this, it is possible to further improve identification accuracy regarding whether a fall accident has occurred.

According to the present invention, it is possible to provide a gas range capable of minimizing damage caused by a cookware drop accident by quickly and accurately identifying the occurrence of a cookware drop accident and performing an appropriate accident action operation.

1 shows the operation of a gas range according to an embodiment of the present invention.
Figure 2 shows the configuration of the gas range of Figure 1.
Figure 3 shows an example of identifying whether or not the gas stove of Figure 1 is a fall accident caused by the cookware.
Figure 4 shows an example of performing a preset accident action operation when the gas range of Figure 1 falls by the cookware accident occurs.
Figure 5 shows an example of the gas range of Figure 1 performs a preset accident action based on the interaction with the user.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. This is to explain in detail to the extent that those skilled in the art can easily practice the invention, and thus, the technical spirit and scope of the present invention are not limited. .

1 shows the operation of a gas range according to an embodiment of the present invention.

As shown in FIG. 1, the gas range 1 is a device installed in a business or home kitchen for the purpose of cooking, and is a device that causes a gas fire by igniting a flame such as LPG or LNG supplied from an external gas supply source. .

The gas range 1 has a body 6 forming an outer shape. The main body 6 may be provided as a hexahedral frame, but is not limited thereto. At least one of the six sides of the main body 6 may be open.

The main body 6 supports other components of the gas range 1 disposed outside or inside. On the upper surface (71 in FIG. 3) of the main body 6, a first pedestal 61 for holding the cookware 2 and a first cooker for heating the cookware 2 mounted on the first pedestal 61 ( 62) is placed. The cookware 2 includes cookware for cooking food, such as a pot and a frying pan. The first crater 62 causes a gas fire by igniting a flame in the gas supplied from the gas supply source.

As shown in FIG. 1, the gas range 1 has two burners, in which a second bracket 63 and a second burner 64 are additionally provided on the sides of the first stand 61 and the second burner 62. It can be provided as a type. However, the gas range 1 may be provided in three or more types depending on the design method.

An ignition lever corresponding to the first cooking zone 62 may be disposed on the front side of the gas range 1 (72 in FIG. 3 ). Depending on the design method, the ignition lever may be provided on the top surface 71 or side surface (73 in FIG. 3) in addition to the front surface 72. The ignition lever may be implemented mechanically or electronically. When the user operates the ignition lever, a flame is ignited while gas is supplied, and a gas fire is generated in the first crater 62 . Since the ignition lever is provided to correspond to each cooking zone, the same number of ignition levers as the number of cooking zones may be provided.

The gas range 1 has a sensor unit (13 in FIG. 2). The sensor unit 13 may be provided in plurality, and each may be provided on at least one of the upper surface 71, the front surface 72, the side surface 73, and the inside of the main body 6.

The sensor unit 13 includes a position sensor ( 14 in FIG. 2 ) and an impact sensor ( 15 in FIG. 2 ). The position sensor 14 may detect the position of the cooking utensil 2 . The position sensor 14 may be implemented as an infrared sensor, a magnetic sensor, or the like. The impact sensor 15 may detect an impact applied to the main body 6 . The shock sensor 15 may be implemented as a vibration sensor, an acceleration sensor, or the like.

The gas range 1 may determine whether or not a fall accident by the cookware 2 has occurred based on the information acquired by the plurality of sensor units 13 . For example, the gas range 1 determines whether the cookware 2 is mounted on the first pedestal 61, and after heating is started by the first cooker 62, the cookware 2 is removed from the first pedestal 61. It is possible to determine whether the vehicle is in a deviated position and whether the amount of impact to the main body 6 exceeds a predetermined accident limit. The gas range 1 will be described in detail with reference to FIG. 3 for the process of determining whether or not a fall accident by the cookware 2 has occurred.

When the gas range 1 is determined to be a fall accident by the cookware 2, it may perform a preset accident action. An example of a preset accident action will be described in detail with reference to FIGS. 4 and 5 .

In this way, the gas range 1 according to the present embodiment can quickly and accurately perform the identification of the fall accident of the cookware 2 and the appropriate accident action operation, thereby preventing damage caused by the fall accident of the cookware 2. can be minimized. In particular, when a user is physically injured or mentally panicked due to a fall accident of the cookware 2, it may be difficult to take appropriate follow-up measures, but the gas range 1 according to the present embodiment is utilized. In this case, even in such a situation, an appropriate accident action can be immediately taken, so that the accident responsiveness can be further improved.

Figure 2 shows the configuration of the gas range of Figure 1.

Hereinafter, with reference to Figure 2, each configuration of the gas range (1) will be described in detail. The gas range 1 includes an interface unit 7. The interface unit 7 transmits and receives data by connecting to the server 3, a plurality of external devices 5, etc. through a network 4. However, since it is not limited thereto, the interface unit 7 connects to various devices connected to the network 4.

The interface unit 7 includes a wired interface unit. The wired interface includes connectors or ports according to video and/or audio transmission standards, such as HDMI port, DisplayPort, DVI port, Thunderbolt, composite video, component video, super video, and SCART. includes The wired interface unit includes a connector or port according to a universal data transmission standard such as a USB port. The wired interface unit includes a connector or port to which an optical cable can be connected according to an optical transmission standard.

The wired interface unit includes connectors or ports according to network transmission standards such as Ethernet. For example, the wired interface unit is implemented as a LAN card connected to a router or gateway by wire.

The interface unit 7 includes a wireless interface unit. The wireless interface unit is implemented in various ways corresponding to the implementation form of the gas range (1). For example, the wireless interface unit uses wireless communication such as NFC, Bluetooth, Bluetooth, LE, radio frequency (RF), zigbee, Wi-Fi, and ultra-wideband (UWB) as a communication method. The wireless interface unit is implemented as a wireless communication module that performs wireless communication with an AP according to a Wi-Fi scheme or a wireless communication module that performs one-to-one direct wireless communication such as Bluetooth. The wireless interface unit transmits and receives data packets with the server 3 and the plurality of external devices 5 on the network 4 through wireless communication.

The gas range 1 includes a communication unit 11. The communication unit 11 includes a communication circuit and is connected to the server 3 and a plurality of external devices 5 to transmit video/audio signals. The communication unit 11 includes at least one configuration of a wired interface unit or a wireless interface according to a design method, and performs at least one function of the wired interface unit or the wireless interface.

The gas range 1 includes a user input unit 12. The user input unit 12 includes various types of input interfaces provided to be manipulated by the user in order to perform user input. User input unit 12 can be configured in various forms according to the type of gas range (1). For example, the user input unit 12 includes a mechanical or electronic ignition lever of the gas range 1, a button unit, a touch pad, and a touch screen installed on the display 18.

The gas range 1 includes a sensor unit 13. The sensor unit 13 may be implemented in plurality. The plurality of sensor units 13 include a position sensor 14 for obtaining a position sensor value of the cooking utensil 2, an impact sensor 15 for obtaining an impact sensor value applied to the main body 6, and A temperature sensor 16 that obtains a temperature sensor value related to temperature may be included. However, since it is not limited thereto, the plurality of sensor units 13 may further include a direction sensor, a gyro sensor, and the like.

The gas range 1 includes an output unit 17 . The output unit 17 may include at least one of a display 18 and an audio output unit 19 . The display 18 includes a display panel capable of displaying images on a screen. The display panel is provided with a light-receiving structure such as a liquid crystal type or a self-emitting structure such as an OLED type. The display 18 may further include additional components depending on the structure of the display panel. For example, if the display panel is a liquid crystal type, the display 18 includes a liquid crystal display panel, a backlight unit for supplying light, and a panel driving substrate for driving the liquid crystal of the liquid crystal display panel. The audio output unit 19 outputs various types of audio based on the audio signal. The audio output unit 19 is implemented with at least one speaker.

The gas range 1 includes an audio receiver 20. The audio receiver 20 receives various audio signals. The audio receiver 20 transmits the collected audio signals to the controller 9. The audio receiver 20 is implemented with at least one microphone.

The above communication unit 11, user input unit 12, sensor unit 13, output unit 17, etc. have been described as a separate configuration from the interface unit 7, but are included in the interface unit 7 according to the design method. can be configured.

The gas range 1 includes a storage unit 8. The storage unit 8 stores digitized data. The storage unit 8 includes a storage of non-volatile properties capable of preserving data regardless of whether or not power is provided. Storage includes flash-memory, hard-disc drive (HDD), solid-state drive (SSD), read only memory (ROM), and the like.

The storage unit 8 is loaded with data to be processed by the control unit 9 and includes a volatile memory that cannot retain data unless power is provided. The memory includes a buffer, random access memory (RAM), and the like.

The gas range 1 includes a control unit 9. The control unit 9 includes one or more hardware processors implemented as a CPU, chipset, buffer, circuit, etc. mounted on a printed circuit board, and may be implemented as a system on chip (SOC) depending on a design method. The controller 9 includes modules corresponding to various processes such as a demultiplexer, a decoder, a scaler, an audio digital signal processor (DSP), and an amplifier. Here, some or all of these modules are implemented as SOCs. For example, modules related to image processing such as a demultiplexer, a decoder, and a scaler may be implemented as an image processing SOC, and an audio DSP may be implemented as a separate chipset from the SOC.

According to various embodiments, the control unit 9, based on the information of the plurality of sensor units 13, after the cooking utensil 2 is mounted on the first pedestal 61 and heating is started with the first cooking zone 62 , When it is determined that the cooking utensil 2 is in a position separated from the first pedestal 61 and the amount of impact to the main body 6 exceeds the predetermined accident threshold, a predetermined accident action is performed.

Depending on the design method, the gas range 1 may include a configuration not shown in FIG. 2 . For example, the gas range 1 may include a power supply unit for supplying power required for each configuration. The power supply unit may be implemented as a battery unit for convenience of installation of the gas range 1.

Hereinafter, the server 3 and the plurality of external devices 5 provided to be communicable through the gas range 1 and the network 4 will be described. The server 3 has a server communication unit 31. The server communication unit 31 communicates with the gas range 1 and a plurality of external devices 5 through the network 4 . A detailed description of the server communication unit 31 is omitted because it overlaps with the communication unit 11 of the gas range 1.

The server 3 includes a server control unit 32 that controls each component. The server control unit 32 includes one or more hardware processors implemented as a CPU, chipset, buffer, circuit, etc. mounted on a printed circuit board, and may be implemented as a system on chip (SOC) depending on a design method. A detailed description of the server control unit 32 is omitted because it overlaps with the control unit 9 of the gas range 1.

Since the configuration of the server 3 is not limited to that shown in FIG. 2, the server 3 may further include a server storage unit and the like.

When the gas range 1, a plurality of external devices 5, etc. are implemented as IoT devices, the server 3 may serve as an IoT server, home server, office server, router, etc. that manages them.

The plurality of external devices 5 are provided to communicate with the gas range 1 and the server 3 through the network 4 . A plurality of external devices (5) can be implemented as an IoT device together with the gas range (1). For example, the plurality of external devices 5 may include a kitchen hood (51 in FIG. 4 ), a smart window (52 in FIG. 4 ) or a door, a sprinkler (53 in FIG. 4 ), and the like. As another example, the plurality of external devices 5 may include a TV, a smart phone, a tablet PC, a monitoring camera, and the like. As another example, the plurality of external devices 5 may include communication devices of external organizations such as a hospital (54 in FIG. 4) and a fire station (55 in FIG. 4).

The configuration of the plurality of external devices 5 may include at least one of the configurations of the gas range 1 of FIG. 2, or may be provided to include configurations other than the configuration of the gas range 1. For example, the kitchen hood 51 may include a kitchen hood main body, a fan, an interface unit, a storage unit, and a control unit.

Figure 3 shows an example of identifying whether or not the gas stove of Figure 1 is a fall accident caused by the cookware.

Hereinafter, assuming that the cookware 2 is mounted on the first pedestal 61 and heated by the first cooker 62, in the process of identifying whether or not a fall accident by the cookware 2 has occurred. explain about However, this is for convenience of description, so even when the cookware 2 is mounted on the second pedestal 63 and heated by the second cooker 64 or simultaneously mounted and heated on both sides, the following It is possible to identify whether a fall accident has occurred by following the same process as described.

Whether or not the control unit 9 of the gas range 1 is in a position away from the first pedestal 61 after the start of heating by the first cooker 62 based on the position sensor value obtained by the position sensor 14 can identify. The control unit 9 determines whether the cookware 2 is mounted on the first pedestal 61, whether the ignition lever is operated, whether gas is supplied to the first cooking zone 62, whether the temperature of the first cooking zone 62 rises, etc. Based on this, it is possible to discriminate whether or not to start heating by the first cooking zone 62 .

The control unit 9 may determine whether the amount of impact to the main body 6 exceeds a predetermined accident limit. The control unit 9 may identify the amount of impact to the main body 6 based on the shock sensor value obtained by the shock sensor 15, and determine whether the identified amount of impact exceeds a preset accident threshold. .

Here, the impact amount may refer to an impact amount identified based on an impact sensor value obtained during a predetermined time from the time point at which the cookware 2 is identified as being in a position separated from the first support 61 . Accordingly, when the shock sensor values are obtained several times during a predetermined time period, the shock amount may be the total sum of the shock amounts by each shock sensor value. The predetermined accident limit value is applied to the main body 6 when the cooking utensil 2 falls from the separation position, and may include a reference impact amount measured in advance. Information on the reference impact amount may be stored in the storage unit 8 in advance.

The control unit 9 may identify that a fall accident by the cookware 2 has occurred when the identified impact exceeds a preset accident threshold. For example, it may be identified that the cookware 2 has been dropped while the user lifts or moves the cookware 2 during or after cooking.

On the other hand, if the identified impact amount does not reach the predetermined accident limit, the control unit 9 may identify that the fall accident by the cookware 2 has not occurred. For example, while the user moves the cookware 2 during or after cooking, the cookware 2 or a part of the body contacts or collides with the main body 6, but identifies that the cookware 2 has not been dropped. can do.

In this way, the control unit 9 according to the present embodiment controls specific conditions, for example, whether or not the cookware 2 is in a position away from the first pedestal 61 after the start of heating, and the amount of impact to the main body 6 By checking whether or not a predetermined accident threshold is exceeded, it is possible to quickly and accurately determine whether or not a fall accident by the cooking utensil 2 has occurred.

According to various embodiments, the control unit 9 determines whether the cooking utensil 2 is in a position away from the first pedestal 61 and whether the amount of impact to the main body 6 exceeds a predetermined accident threshold based on Thus, the type of fall accident can be identified. For example, the amount of impact identified when food is simply spilled due to a falling accident of the cooking utensil 2 may be different from the amount of impact identified when gas fire is transferred to flammable food such as cooking oil and causes an explosion.

In consideration of this difference, the control unit 9 identifies a simple drop accident when the amount of impact due to the fall accident of the cooking utensil 2 exceeds the first preset accident limit, but the second accident limit of the preset amount of impact If it exceeds , it can be identified that an explosion occurred due to a fall accident. The preset second accident limit value may be higher than the preset first accident limit value.

In this way, the control unit 9 according to the present embodiment determines whether or not the cooking utensil 2 is in a position away from the first pedestal 61 and whether or not the amount of impact exceeds a preset accident limit value for a fall accident. Since the type can be grasped, it is possible to perform an accident action operation more suitable for the situation caused by the fall accident.

According to various embodiments, the control unit 9 may further consider the pattern of impact to the main body 6 as a condition for identifying whether a fall accident has occurred. Here, the shock pattern may include a peak value pattern of shock sensor values, a frequency pattern, a pattern of feature points, and the like. That is, the control unit 9 may identify a pattern of impact, and determine whether or not a fall accident by the cookware 2 has occurred based on whether the identified pattern of impact corresponds to a preset accidental impact pattern. This is in consideration of the fact that when the cooking utensil 2 is dropped, a unique shock pattern to the main body 6, for example, a unique impact peak value pattern, a unique frequency pattern, and a unique pattern of feature points are generated. The storage unit 8 may measure a unique impact pattern caused by the fall of the cooking utensil 2 in advance and store it as a preset accident impact pattern. The preset accident impact pattern may be prepared according to the type of cookware 2, the height of fall, the direction of fall, and the like.

In this way, the control unit 9 according to the present embodiment may consider whether or not the pattern of impact to the main body 6 corresponds to a preset accident impact pattern in identifying whether or not a fall accident has occurred, so whether or not a fall accident has occurred. The identification accuracy or reliability of can be further improved.

According to various embodiments, whether the pattern of impact and the preset accident impact pattern correspond may be determined by considering the degree of similarity between them. For example, the control unit 9 may identify that a fall accident has occurred when the degree of similarity between the impact pattern and the preset accident impact pattern exceeds a predetermined threshold value.

The similarity judgment may utilize an artificial intelligence (AI) model. AI models can be created through machine learning. This learning may be performed, for example, in the gas range 1 itself where the artificial intelligence model is performed, or may be performed through a separate server 3. The learning algorithm may include, for example, supervised learning, unsupervised learning, semi-supervised learning or reinforcement learning, but in the above example Not limited. The artificial intelligence model may include a plurality of artificial neural network layers. Artificial neural networks include deep neural networks (DNNs), convolutional neural networks (CNNs), recurrent neural networks (RNNs), restricted boltzmann machines (RBMs), deep belief networks (DBNs), bidirectional recurrent deep neural networks (BRDNNs), It may be one of deep Q-networks or a combination of two or more of the foregoing, but is not limited to the foregoing examples. The artificial intelligence model may include, in addition or alternatively, software structures in addition to hardware structures.

As described above, according to the present embodiment, since the degree of similarity between the impact pattern and the preset accident impact pattern can be considered, situation responsiveness can be improved by expanding the range of determining whether a fall accident has occurred.

According to various embodiments, the control unit 9 may further consider the pattern of impact to the main body 6 in determining the type of fall accident. For example, since the pattern of impact identified when the food is simply spilled due to a falling accident of the cooking utensil 2 may be different from the pattern of impact identified when the food is exploded, the control unit 9 determines that the pattern of impact is first. In the case of corresponding to the accidental impact pattern threshold, it is identified as a simple drop accident occurrence, but in the case where the impact pattern corresponds to the second accidental impact pattern threshold, it can be identified as an explosion caused by a falling accident. The preset threshold of the second accident impact pattern may be different from the preset threshold of the first accident impact pattern.

As described above, the control unit 9 according to the present embodiment may further consider a unique shock pattern for each type of fall accident, and thus further improve identification accuracy of the type of fall accident and situational responsiveness.

According to various embodiments, the controller 9 may identify the temperature change amount based on the temperature sensor value obtained by the temperature sensor 16 . The control unit 9 may identify that a drop accident has occurred by the cookware 2 when the identified temperature change amount exceeds a preset accident temperature threshold. This is in consideration of the fact that the temperature of the main body 6 may change when heated food is spilled or a fire or explosion occurs due to the fall of the cookware 2 during or after cooking. A temperature change caused by food or the like spilled from the cooking utensil 2 may be measured in advance and stored in the storage unit 8 as a predetermined accident temperature limit.

In this way, the control unit 9 according to the present embodiment can further improve the accuracy of identification of whether or not a fall accident has occurred since the control unit 9 according to the present embodiment can further consider the amount of temperature change to identify whether or not a fall accident has occurred.

According to various embodiments, the control unit 9 may further consider the amount of temperature change even when determining the type of fall accident. For example, since the amount of temperature change when food is simply spilled may be different from the amount of temperature change in case of fire or explosion, the controller 9 identifies a case where the temperature change amount corresponds to the first accident temperature threshold as a simple drop accident, but the temperature change amount When the amount of change corresponds to a preset second accident temperature threshold that is different from the preset first accident temperature threshold, it may be identified that a fire or an explosion has occurred due to a fall accident.

In this way, the control unit 9 according to the present embodiment can identify the fall accident type by further considering the amount of temperature change, so that the identification accuracy of the fall accident type can be further improved.

According to various embodiments, the control unit 9 may further consider the volume of sound when identifying whether a fall accident has occurred. For example, the control unit 9 may identify that a falling accident by the cookware 2 has occurred when it is determined that the volume of the sound received through the audio receiver 20 exceeds a predetermined accident sound volume limit. . In FIG. 3, the audio receiving unit 20 is shown as being disposed singly on the front surface 72 of the main body 6, but is not limited thereto, so it is disposed on the upper surface 71, the side surface 73, etc., or as two or more. may be placed.

In the storage unit 8 , a sound of a volume that may be generated by a collision between the cookware 2 and the main body 9 in the event of a fall accident may be stored as a preset accident sound volume limit.

As such, since the control unit 9 according to the present embodiment can identify whether or not a fall accident has occurred based on the loudness of the sound received through the audio receiver 20, the accuracy of identifying whether or not a fall accident has occurred can be further improved. there is.

According to various embodiments, the control unit 9 may consider the size of the sound received through the audio receiver 20 in determining the type of fall accident. For example, if the sound volume exceeds the first accident sound volume limit, the control unit 9 identifies it as a simple fall accident, but the sound volume is different from the first accident sound volume limit and the preset second accident. If the sound volume threshold is exceeded, it can be identified as a fire or explosion caused by a fall accident.

In this way, the control unit 9 according to the present embodiment can identify the fall accident type by further considering the loudness of the sound, so that the identification accuracy of the fall accident type can be further improved.

Figure 4 shows an example of performing a preset accident action operation when the gas range of Figure 1 falls by the cookware accident occurs.

When the control unit 9 of the gas range 1 identifies that a fall accident by the cookware 2 has occurred, it may perform a preset accident action operation. For example, the controller 9 may identify at least one external device capable of handling or correcting a fall accident among the plurality of external devices 5 based on device information of the plurality of external devices 5 .

Device information of the plurality of external devices 5 may be previously stored in the storage unit 8 in the form of a lookup table or the like. The device information may include information about a device name, an installed location, a function to be performed, and the like. For example, the device information of the kitchen hood 51 includes information about the function of the kitchen hood 51 installed in the kitchen and discharging internal air to the outside, and device information about the smart window 52 or door. may include information that the smart window 52 or door is installed on a wall or door, and is provided for dispensing bets or entering and exiting the user. In addition, the device information on the sprinkler 53 may include information that the sprinkler 53 is installed on the ceiling of the kitchen and the living room and functions to extinguish fire by emitting fire extinguishing fluid.

Accordingly, the control unit 9 may determine an external device corresponding to a fall accident by utilizing previously secured device information, and perform a preset accident action in conjunction with the determined external device. For example, if food is spilled due to a fall accident, the control unit 9 determines whether the kitchen hood 51, the smart window 52 or the door can deal with or handle the current situation based on previously secured device information. It is identified as an optimal device, and situational information about a fall accident can be transmitted to the kitchen hood 51, the smart window 52, or the door. Circumstance information about the accident may include information about whether or not the cookware has a fall accident and the type of the fall accident. The kitchen hood 51, the smart window 52, or the door may receive accident situation information and perform an operation for processing or rectifying the accident. The kitchen hood 51 rotates a fan to discharge internal air to the outside, and the smart window 52 or door performs an opening operation to discharge contaminated bets.

As another example, if a fire or explosion occurs due to a fall accident, the control unit 9 sends the sprinkler 53 in addition to the above-described kitchen hood 51, smart window 52, or door based on device information to provide accident situation information. can transmit. The sprinkler 53, together with the kitchen hood 51, the smart window 52, or the door, may operate based on the received accident situation information, for example, by emitting fire extinguishing fluid to suppress the flames.

As another example, in the case of a fire or explosion, the controller 9 may transmit accident situation information to an external institution, such as a hospital 54 or a fire station 55 . Of course, it can be done together with the action operation of the preceding devices.

As such, the control unit 9 according to the present embodiment can perform a preset accident action corresponding to a fall accident by utilizing device information, so that necessary follow-up actions can be actively performed even without a user's active response. . Furthermore, since an appropriate accident action can be performed according to the type of fall accident, the accident can be more quickly and effectively rectified through measures optimized for the situation.

Figure 5 shows an example of the gas range of Figure 1 performs a preset accident action based on the interaction with the user.

The control unit 9 may transmit accident situation information to the plurality of external devices 5 after confirming the state and intention of the user 10 . Specifically, when identifying that a fall accident by the cookware 2 has occurred (S41), the control unit 9 may inquire about the state of the user 10 (S42). A status query, for example, "How is your current status?" A user interface including a question such as a question may be output through the display 18 or a question sound may be output through the audio output unit 19 .

In response to this, the user 10 may inform the gas range 1 of their status as a response to the question (S43). When the response UI of the user 10 is displayed together with the question UI, the user 10 may select his or her status through the response UI by touch or the like. Alternatively, the user 10 may notify his or her status through speech. When the user's voice is received through the audio receiver 20, the control unit 9 can recognize the state of the user 10 by performing voice recognition.

Speech recognition processing includes a speech-to-text (STT) process of converting spoken speech into text data, and an identification and execution process of identifying the meaning of the text data and performing an operation according to the identified meaning. Voice recognition processing can be all executed in the gas range 1, but considering the system load and required storage capacity, at least some of the processes are performed by the server 3 communicatively connected to the gas range 1 through a network. is carried out For example, the server 3 performs the STT processing process, and the gas range 1 performs the command identification and execution process. Alternatively, the server 3 performs both the STT processing process and the command identification and execution process, and the gas range 1 may only receive results from the server 3. Of course, a plurality of external devices 5 may be utilized under the IoT environment.

The controller 9 may identify the user status and transmit accident situation information to the external device 5 as described with reference to FIG. 4 . However, in consideration of the fact that there may be cases where the user 10 directly wants to deal with the problem without external help, the control unit 9 inquires whether support for handling the accident is necessary (S44), and asks the user 10 for information on this. A response is received (S45). Since the method of inquiring or receiving a response overlaps with the method of inquiring about the state of the user 10 (S42) and receiving a response (S43), a detailed description thereof will be omitted.

If the user 10 requests external help, the accident situation information is transmitted to the external device 5, but if the user 10 does not request external help, the accident situation information is sent to the external device 5. do not transmit

In this way, the control unit 9 according to the present embodiment can perform an accident action operation that meets the intention of the user 10, and thus can provide a more optimized action for the user.

Above, the present invention has been described in detail through preferred embodiments, but the present invention is not limited thereto and may be variously practiced within the scope of the claims.

1: gas stove
2: Cookware
3: server
4: network
5: body
7: interface unit
8: storage unit
9: control unit
10: User

Claims (5)

On a gas stove,
A main body including a pedestal on which cookware can be mounted, and a crater capable of heating the mounted cookware using gas;
a plurality of sensor units capable of obtaining information about the position of the cooking utensil with respect to the pedestal and an impact to the main body; and
Based on the information of the plurality of sensors, after the cooking utensil is mounted on the pedestal and heating is started with the crater, the cooking utensil is in a position separated from the pedestal, and the amount of impact to the main body is preset When it is determined that the accident threshold is exceeded, a control unit for identifying that a fall accident caused by the cookware has occurred and performing a preset accident action in response to the fall accident,
The control unit,
Identifying an impact pattern caused by an impact on the main body among a plurality of impact patterns on the main body based on information of the plurality of sensor units;
Identifying the type of the fall accident corresponding to the identified impact pattern among the plurality of types of the fall accident by the cookware;
Performing at least one accident action operation corresponding to the type of the identified fall accident among the plurality of types of accident action operation corresponding to the plurality of types of fall accidents;
The information of the plurality of sensors includes a sensor value due to an impact on the main body,
The control unit,
Identify patterns of peak values, frequencies, and feature points for the sensor values;
Identifying the impact pattern corresponding to the pattern of the identified peak value, frequency, and feature point among the plurality of impact patterns for the main body;
A plurality of impact patterns for the main body, the gas range provided according to the type of the cooking utensils, the falling height and the falling direction. delete According to claim 1,
Further comprising a communication unit for communicating with a plurality of external devices,
The control unit,
Based on the device information of the plurality of external devices, at least one electronic device capable of performing the accident action in response to a fall accident by the cooking utensil caused by an impact on the main body among the plurality of external devices identify,
A gas range for transmitting situation information about the fall accident to the identified at least one electronic device. According to claim 3,
Further comprising an output unit and a user input unit,
The control unit,
Outputting information asking whether or not to handle the fall accident;
A gas range for transmitting the situation information to the identified at least one electronic device based on the user input received through the user input unit. According to claim 1,
Further comprising an audio receiver,
The control unit, when it is determined that the volume of the sound received through the audio receiver exceeds a predetermined accident sound volume limit, the gas range for performing the accident action operation.

Images