CN219629395U - Intelligent monitor for pot cover - Google Patents

Abstract

The utility model relates to an intelligent monitor for a pot cover, which comprises: a housing provided with an assembly cavity; the housing can be configured on a pot cover; the monitoring assembly is positioned in the assembly cavity; the monitoring component is configured to at least detect whether food in the cooker is about to overflow, and generate an overflow signal if the food is detected to overflow; the wireless communication module is positioned in the assembly cavity and is connected with the monitoring assembly; the wireless communication module can be in wireless connection with the intelligent device so as to at least send the overflow signal detected by the monitoring component to the intelligent device.

Description

Intelligent monitor for pot cover

Technical Field

The utility model relates to the technical field of cooking cookers, in particular to an intelligent monitor for a pot cover.

Background

At present, two methods for monitoring the cooking condition in the pot to prevent overflow exist, one is manual watching, the pot used in the method is not electrified and can be cleaned with ease, but a user stares at the condition in the pot on site, and the user experience is poor; the other is to use the cooker with a sensor on the cooker cover to cook food, the cooker cover is electrically connected with the cooker body, the cooker body is electrically connected with the cooker main machine, the main machine monitors the cooking state in the cooker through the sensor of the cooker cover, in this way, an electric connection structure is arranged between the cooker cover and the cooker body, and an electric coupler structure is arranged between the cooker body and the main machine, so that the cooker has a complex structure, is not easy to clean due to the electrified body in the cooker body, and meanwhile, has the leakage risk.

Disclosure of Invention

In view of the above analysis, the present utility model aims to provide an intelligent monitor for a pot cover, which is used for solving the above problems.

The aim of the utility model is mainly realized by the following technical scheme:

the utility model provides an intelligent monitor for a pot cover, which comprises:

a housing provided with an assembly cavity; the housing can be configured on a pot cover;

the monitoring assembly is positioned in the assembly cavity; the monitoring component is configured to at least detect whether food in the cooker is about to overflow, and generate an overflow signal if the food is detected to overflow;

the wireless communication module is positioned in the assembly cavity and is connected with the monitoring assembly; the wireless communication module can be in wireless connection with the intelligent device so as to at least send the overflow signal detected by the monitoring component to the intelligent device.

Further, the monitoring component comprises:

at least one sensor disposed within the assembly cavity, with a probe of the sensor extending from within the assembly cavity; the sensor comprises an anti-overflow sensor, wherein the anti-overflow sensor can detect whether food in the cooker is about to overflow or not, and if the food is about to overflow, an overflow signal is generated;

the control circuit board is connected with the sensor and the wireless communication module; the control circuit board is configured to at least be capable of receiving signals of the sensor and transmitting the received signals to the intelligent device through the wireless communication module after processing the signals;

and the power supply assembly is connected with the sensor, the control circuit board and the wireless communication module and is used for providing required electric energy for the sensor, the control circuit board and the wireless communication module.

Further, the probe of the overflow-proof sensor is an overflow-proof probe;

the overflow-preventing probe extends out of the assembly cavity and can extend into the cooker;

when the overflow prevention probe is in contact with food in the cooker, the overflow prevention sensor generates an overflow signal.

Further, the overflow prevention sensor comprises two overflow prevention probes;

when both the two anti-overflow probes are in contact with food in the cooker, the anti-overflow sensor generates an overflow signal.

Further, the sensor further comprises a temperature sensor;

the temperature sensor is configured to be capable of detecting the temperature in the cooker in real time, generating a temperature signal matched with the temperature in the cooker in real time, and sending the generated temperature signal to the control circuit board.

Further, the control circuit board is configured to send a temperature signal matched with a preset time point or/and a preset temperature point to the intelligent device according to the preset time point or/and the preset temperature point.

Further, the power supply assembly includes a battery or/and a power generating element:

the battery comprises a disposable battery or/and a rechargeable battery;

the power generating element comprises a thermoelectric power generating element or/and a steam power generating element.

Further, the wireless communication module comprises one or more of a mobile communication module, a Bluetooth communication module, a WiFi communication module, a near field communication module and an infrared communication module.

Further, the smart device includes a smart terminal, and

one or more of intelligent cookware and intelligent cooking range.

Further, the shell and the pot cover are integrally arranged; or alternatively, the process may be performed,

the shell is detachably arranged on the pot cover.

Compared with the prior art, the utility model has at least one of the following advantages: the cooking food condition in the common non-electrified cookers used on cooking tops such as gas cookers and electromagnetic ovens can be monitored, and detected information is sent to the intelligent equipment, so that a user or the intelligent equipment can correspondingly adjust according to the food condition in the cookers, food overflow is avoided, cooking safety is improved, the intelligent monitor is located on the cooker cover, the cookers are non-electrified, and the cookers can be cleaned with confidence.

In the utility model, the technical schemes can be mutually combined to realize more preferable combination schemes. Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the utility model, like reference numerals being used to refer to like parts throughout the several views.

Fig. 1 is a cross-sectional view of a intelligent monitor for a pot cover applied to the pot cover in an embodiment.

Reference numerals:

1-a housing; 101-an assembly chamber; 2-a pot cover; 3-a monitoring component; 31-a sensor; 311-an overflow prevention sensor; 311 a-spill-resistant probe; 312-a temperature sensor; 32-a control circuit board; 33-a power supply assembly; 4-a wireless communication module.

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

In describing embodiments of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the term "coupled" should be interpreted broadly, for example, as being fixedly coupled, as being detachably coupled, as being integrally coupled, as being mechanically coupled, as being electrically coupled, as being directly coupled, as being indirectly coupled via an intermediate medium. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The terms "top," "bottom," "above … …," "below," and "on … …" are used throughout the description to refer to the relative positions of components of the device, such as the relative positions of the top and bottom substrates inside the device. It will be appreciated that the devices are versatile, irrespective of their orientation in space.

The working surface of the utility model can be a plane or a curved surface, and can be inclined or horizontal. For convenience of explanation, the embodiments of the present utility model are placed on a horizontal plane and used on the horizontal plane, and thus "up and down" and "up and down" are defined.

In one embodiment of the present utility model, an intelligent monitor for a pot cover (hereinafter referred to as intelligent monitor) is disclosed, as shown in fig. 1, comprising:

a housing 1 provided with an assembly chamber 101; the shell 1 can be arranged on the pot cover 2;

a monitoring assembly 3 located within the assembly chamber 101; the monitoring assembly 3 is configured to at least detect whether food in the cooker is about to overflow, and generate an overflow signal if the food is detected to overflow;

the wireless communication module 4 is positioned in the assembly cavity 101 and is connected with the monitoring component 3; the wireless communication module 4 can be connected with the intelligent device in a wireless way, so that at least the overflow signal detected by the monitoring component 3 can be sent to the intelligent device.

The pot is any pot which can use the pot cover 2, and is not limited by materials, functions, sizes and the like. The food mainly refers to food which can cause a pot overflow phenomenon in the cooking process, such as porridge, soup, rice and the like.

The intelligent equipment comprises an intelligent terminal and one or more of an intelligent cooker and an intelligent stove.

The intelligent terminal comprises a mobile phone, a tablet personal computer, a notebook computer, a desktop computer, an intelligent watch, an intelligent bracelet and the like, and the intelligent terminal belongs to equipment which can be used for knowing the conditions of food in a pot (such as whether food overflows or not, the temperature of the food and the like) by a user through the equipment. The user can monitor the condition of food in the pan in real time according to intelligent terminal to it carries out the operation next step according to the food condition in the pan.

The intelligent cooker is a cooker which can control at least one of heating, heating time, heating duration and the like, namely, the intelligent cooker can control the state of the intelligent cooker after receiving an overflow signal so as to control the heating state of food in the cooker in time, avoid food overflow, and improve cooking safety.

The intelligent stove comprises an intelligent electronic stove, an intelligent gas stove and the like, the intelligent stove can intelligently control the temperature or/and the switch of a heating source for heating the cooker, namely, after receiving an overflow signal, the intelligent stove can timely control the heating state of food in the cooker by controlling the temperature or/and the switch of the heating source, so that the food is prevented from overflowing, and the cooking safety is improved.

The intelligent monitor for the pot cover can be suitable for any pot cover. Preferably, the intelligent monitor for the pot cover is suitable for the pot cover which can be arranged in a separated mode, namely, the pot cover 2 and the pot are arranged in a separated mode, so that the pot and the pot cover 2 can be cleaned respectively, and the use body feeling of a user is improved.

Further preferably, the intelligent monitor is detachably arranged on the pot cover 2, that is, the shell 1 is detachably arranged on the pot cover 2, on one hand, the intelligent monitor can be detached and then cleaned when the pot cover 2 is cleaned, so that water flow is prevented from penetrating into the intelligent monitor, and the use effect and the service life of the intelligent monitor are prevented from being influenced; on the other hand, the intelligent monitor is conveniently applied to different pot covers 2, the use flexibility and the use range of the intelligent monitor are improved, and the use effect of the intelligent monitor is improved. The shell 1 and the pot cover 2 can be connected in a detachable mode such as screw connection, clamping connection, buckling connection, magnetic attraction and the like.

Of course, in practical application, the housing 1 of the intelligent detector and the handle end 21 of the pot cover 2 may be integrally formed, and at this time, preferably, the assembly cavity 101 is a sealed space, so as to avoid the influence of liquid infiltration on the use of the intelligent detector.

According to one embodiment of the utility model, the control assembly 3 comprises:

at least one sensor 31, wherein the sensor 31 is arranged in the assembling cavity 101, and a probe of the sensor 31 extends out of the assembling cavity 101 to be used for detecting the food state in the cooker; the sensor 31 comprises an anti-overflow sensor 311, wherein the anti-overflow sensor 311 can detect whether food in the cooker is about to overflow, and generates an overflow signal if the food is detected to overflow;

a control circuit board 32 connected to the sensor 31 and the wireless communication module 4; the control circuit board 32 is configured to at least be capable of receiving the signal of the sensor 31, and to transmit the received signal to the intelligent device through the wireless communication module 4 after processing;

and the power supply assembly 33 is connected with all the power utilization components in the intelligent monitor such as the sensor 31, the control circuit board 32, the wireless communication module 4 and the like so as to provide the power utilization components with required electric energy.

After receiving the detection signal (i.e. the signal generated by the detection of the sensor) processed by the control circuit board 32, the intelligent terminal reminds the user of the condition of food in the cooker through the modes of text popup, sound, vibration and the like, so as to prompt the user to perform the next operation. The intelligent cookware or intelligent stove receives the detection signal processed by the control circuit board 32, and generates a corresponding control instruction to control the intelligent cookware or intelligent stove to perform a corresponding action according to the food condition in the cookware, for example, when the food in the cookware is about to overflow, the power supply for controlling the intelligent cookware or intelligent stove is turned off, or the temperature of a heating source of the cookware is reduced, so that the food in the cookware is prevented from overflowing.

The probe of the anti-overflow sensor 311 is an anti-overflow probe 311a, the anti-overflow probe 311a extends out of the assembly cavity 101 and can extend into the pot, and the anti-overflow probe 311a is in sealing connection with the housing 1 (i.e. the cavity wall of the assembly cavity 101) so as to ensure the air tightness of the assembly cavity 101. Illustratively, the spill-proof probe 311 is a metal probe to detect changes in electrical signals that contact food.

When the overflow prevention probe 311a contacts food in the cooker, the overflow prevention sensor generates an overflow signal and transmits the overflow signal to the control circuit board 32.

In order to improve the accuracy of the overflow prevention sensor 311, the overflow prevention sensor comprises two overflow prevention probes 311a, and when the two overflow prevention probes 311a are in contact with food in the cooker, the overflow prevention sensor 311 generates an overflow signal.

The sensor further includes a temperature sensor 312, where the temperature sensor 312 is configured to detect the temperature in the pot in real time, generate a temperature signal in real time that matches the temperature in the pot, and send the generated temperature signal to the control circuit board 32.

The control circuit board 32 sends the processed temperature signal to the intelligent device, so that a user can know the temperature in the cooker in real time through the intelligent terminal, monitor the temperature change of food in the cooker better, and perform the next cooking operation according to the temperature change of the food, thereby achieving better cooking effect; after the intelligent cookware or the intelligent cooking stove receives the processed temperature signals, corresponding control instructions are generated to control the intelligent cookware or the intelligent cooking stove to perform more intelligent temperature control according to the real-time temperature of food in the cookware, so that better cooking effect is achieved.

Preferably, the control circuit board 32 is configured to send a temperature signal matched with the preset time point or/and the preset temperature point to the intelligent device according to the preset time point or/and the preset temperature point, that is, the control circuit board 32 sends a temperature signal to the intelligent device once at a certain time interval or temperature interval, if the temperature signal is sent too frequently, the energy consumption is larger, the environment is not protected enough, and the duration of the intelligent monitor is affected.

According to one embodiment of the utility model, the power supply assembly 4 comprises a battery or/and a power generating element.

The battery comprises a disposable battery or/and a rechargeable battery, the disposable battery can be a dry battery or a button battery, the assembly cavity 101 is provided with a battery compartment for assembling the disposable battery, and the shell 1 is provided with a cover plate capable of opening or closing the battery compartment; and the shell 1 is provided with a charging plug for charging the rechargeable battery, wherein the charging plug can be a DC plug, a Type-C plug and the like, so that the rechargeable battery is connected with a mains supply for charging.

The power generation element comprises a temperature difference power generation element or/and a steam power generation element, namely, the temperature difference or steam is used for generating power, so that the energy generated by food cooking can be converted into electric energy, and the power generation element is more environment-friendly.

Preferably, the power supply assembly further comprises a power storage element, and the power storage element is connected with the power generation element. The power generation element can directly provide the required electric energy for the intelligent monitor, the residual electric energy which is not used by the intelligent monitor is stored in the electric storage element, or the electric energy is stored in the electric storage element, and the electric storage element provides the required electric energy for the intelligent monitor. It should be noted that the power storage element may also directly provide the required electric energy for the intelligent monitor.

According to one embodiment of the present utility model, the wireless communication module 4 includes one or more of a mobile communication module, a bluetooth communication module, a WiFi communication module, a near field communication module, and an infrared communication module.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. An intelligent monitor for pot cover, which is characterized by comprising:

a housing provided with an assembly cavity; the housing can be configured on a pot cover;

the monitoring assembly is positioned in the assembly cavity; the monitoring component is configured to at least detect whether food in the cooker is about to overflow, and generate an overflow signal if the food is detected to overflow;

the wireless communication module is positioned in the assembly cavity and is connected with the monitoring assembly; the wireless communication module can be in wireless connection with the intelligent device so as to at least send the overflow signal detected by the monitoring component to the intelligent device.

2. The intelligent monitor for a pot cover according to claim 1, wherein the monitoring assembly comprises:

at least one sensor disposed within the assembly cavity, with a probe of the sensor extending from within the assembly cavity; the sensor comprises an anti-overflow sensor, wherein the anti-overflow sensor can detect whether food in the cooker is about to overflow or not, and if the food is about to overflow, an overflow signal is generated;

the control circuit board is connected with the sensor and the wireless communication module; the control circuit board is configured to at least be capable of receiving signals of the sensor and transmitting the received signals to the intelligent device through the wireless communication module after processing the signals;

and the power supply assembly is connected with the sensor, the control circuit board and the wireless communication module and is used for providing required electric energy for the sensor, the control circuit board and the wireless communication module.

3. The intelligent monitor for pot cover according to claim 2, wherein the probe of the overflow preventing sensor is an overflow preventing probe;

the overflow-preventing probe extends out of the assembly cavity and can extend into the cooker;

when the overflow prevention probe is in contact with food in the cooker, the overflow prevention sensor generates an overflow signal.

4. The intelligent monitor for a pot cover according to claim 3, wherein the overflow preventing sensor comprises two overflow preventing probes;

when both the two anti-overflow probes are in contact with food in the cooker, the anti-overflow sensor generates an overflow signal.

5. The intelligent monitor for a pot cover according to claim 2, wherein the sensor further comprises a temperature sensor;

the temperature sensor is configured to be capable of detecting the temperature in the cooker in real time, generating a temperature signal matched with the temperature in the cooker in real time, and sending the generated temperature signal to the control circuit board.

6. The intelligent monitor for a pot cover according to claim 5, wherein the control circuit board is configured to send a temperature signal matched with a preset time point or/and a preset temperature point to the intelligent device according to the preset time point or/and the preset temperature point.

7. The intelligent monitor for a pot cover according to claim 2, wherein the power supply assembly comprises a battery or/and a power generation element:

the battery comprises a disposable battery or/and a rechargeable battery;

the power generating element comprises a thermoelectric power generating element or/and a steam power generating element.

8. The intelligent monitor for pot cover according to any one of claims 1 to 7, wherein the wireless communication module comprises one or more of a mobile communication module, a bluetooth communication module, a WiFi communication module, a near field communication module, and an infrared communication module.

9. The intelligent monitor for a pot cover according to claim 8, wherein the intelligent device comprises an intelligent terminal, and

one or more of intelligent cookware and intelligent cooking range.

10. The intelligent monitor for a pot cover according to claim 1, wherein the housing is integrally provided with the pot cover; or alternatively, the process may be performed,

the shell is detachably arranged on the pot cover.