Kitchen environment intelligent chip structure

By integrating a multi-functional smart chip for kitchen environments, several limitations of existing kitchen environment monitoring systems have been addressed, enabling efficient, safe, and reliable kitchen environment monitoring, and improving system scalability and user experience.

CN224480745UActive Publication Date: 2026-07-10XIAN SHISHEN ELECTRICAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAN SHISHEN ELECTRICAL TECH CO LTD
Filing Date
2025-05-30
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing kitchen environment monitoring systems suffer from limited functionality, poor compatibility, insufficient signal processing capabilities, limited communication protocols, lack of data security, weak power management, and lack of waterproofing and self-testing functions. This results in low system scalability and reliability, and makes them susceptible to damage from the kitchen environment.

Method used

It integrates a central processing unit, sensor interface module, communication module, storage module, power management module, encryption module, and self-test module, supporting multiple sensor interfaces, multiple communication protocols, waterproof design, data encryption and self-test functions, and optimizing signal processing and power management.

Benefits of technology

It improves the functionality, compatibility, and reliability of the kitchen environment monitoring system, ensures data security, reduces power consumption and extends service life, simplifies installation and maintenance, and enhances system stability and scalability.

✦ Generated by Eureka AI based on patent content.

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Abstract

This specification provides an intelligent chip structure for a kitchen environment, comprising a chip body integrating a central processing unit, a sensor interface module, a communication module, and a storage module. The sensor interface module connects to various kitchen environment sensors to acquire real-time data about the kitchen environment. The communication module transmits the acquired kitchen environment data to external devices and receives control commands from these devices. The storage module stores the kitchen environment data and preset environmental parameter thresholds. The central processing unit, connected to the sensor interface module, communication module, and storage module, analyzes and processes the acquired kitchen environment data and determines whether the kitchen environment is abnormal based on the preset environmental parameter thresholds. If an abnormality is detected, an alarm signal is sent to the external device via the communication module. This structure reduces cost and power consumption while improving functionality and compatibility.
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Description

Technical Field

[0001] This document relates to the field of smart home technology, and in particular to a smart chip structure for a kitchen environment. Background Technology

[0002] In the current era of rapid development of smart homes, the kitchen, as the core area of ​​family life, is becoming increasingly crucial in terms of its level of intelligence. Kitchen environment monitoring plays an irreplaceable role in ensuring family safety and improving quality of life. However, traditional kitchen environment monitoring systems often rely on multiple independent sensors and devices with limited functionality, poor compatibility, and complex installation, and lack effective data integration and intelligent analysis capabilities. Existing kitchen environment monitoring chips have many limitations: functionally, they are mostly single-module integrations, such as only supporting temperature monitoring or communication functions, making it difficult to meet the monitoring needs of multiple environmental parameters in the kitchen; signal processing capabilities are insufficient, and sensor interfaces lack signal amplification and filtering circuits, resulting in low data accuracy; communication compatibility is poor, supporting only a single communication protocol, unable to flexibly connect with multiple external devices, limiting system scalability; data security and privacy protection are lacking, lacking encryption functions, making kitchen environment data easily leaked; power management capabilities are weak, unable to operate at low power consumption, increasing usage costs; waterproof and self-testing functions are lacking, making them susceptible to damage from kitchen moisture, and unable to detect their own faults in a timely manner, reducing system reliability and ease of maintenance. Utility Model Content

[0003] This specification provides one or more embodiments of a smart chip structure for a kitchen environment, including:

[0004] A smart chip structure for a kitchen environment, characterized in that it includes a chip body, wherein the chip body integrates a central processing unit, a sensor interface module, a communication module and a storage module;

[0005] The sensor interface module is used to connect to various kitchen environment sensors, including temperature sensors, humidity sensors, gas leak sensors and smoke sensors, to obtain real-time data on the kitchen environment.

[0006] The communication module is used to send the acquired kitchen environment data to external devices and receive control commands from external devices;

[0007] The storage module is used to store kitchen environment data and preset environmental parameter thresholds;

[0008] The central processing unit is electrically connected to the sensor interface module, the communication module, and the storage module. It is used to analyze and process the acquired kitchen environment data and determine whether the kitchen environment is abnormal based on preset environmental parameter thresholds. If it is determined to be abnormal, it sends an alarm signal to an external device through the communication module.

[0009] Furthermore, the sensor interface module includes multiple different types of interfaces, each corresponding to a kitchen environment sensor, and each interface is equipped with a signal amplification circuit and a filtering circuit.

[0010] Furthermore, the communication module adopts wireless communication and supports multiple communication protocols such as Wi-Fi, Bluetooth, and ZigBee.

[0011] Furthermore, the surface of the chip body is provided with a waterproof coating.

[0012] Furthermore, the chip body also integrates a power management module for managing and distributing the chip's power.

[0013] Furthermore, the power management module includes a voltage regulation circuit, a current protection circuit, and a power switching circuit. The voltage regulation circuit is used to stabilize the voltage of the input power supply within the voltage range required by the chip. The current protection circuit is used to prevent overcurrent during chip operation. The power switching circuit is used to automatically switch to a backup power supply when the external power supply is unstable or interrupted.

[0014] Furthermore, the chip body also integrates an encryption module for encrypting the data transmitted by the communication module.

[0015] Furthermore, the sensor interface module also includes at least one spare interface for connecting a newly added kitchen environment sensor, and the electrical parameters and signal processing circuit of the spare interface are compatible with the existing sensor interface.

[0016] Furthermore, the chip body also integrates a self-test module, which is used to test the functions of its various modules when the chip starts up. If an abnormality is detected, a self-test failure signal is sent to an external device through the communication module.

[0017] Furthermore, the communication module also includes a near-field communication (NFC) unit, which is used to enable rapid pairing and data transmission between the chip and near-field devices, and the NFC unit supports one-way and two-way communication modes.

[0018] This invention integrates a central processing unit, sensor interface module, communication module, storage module, power management module, encryption module, and self-test module to form a compact structure, reducing cost and power consumption while improving functionality and compatibility, thus meeting the needs of smart kitchen environmental monitoring and safety management.

[0019] The above description is merely an overview of the technical solution of this utility model. In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, and to make the above and other objects, features and advantages of this utility model more obvious and understandable, specific embodiments of this utility model are given below. Attached Figure Description

[0020] To more clearly illustrate the technical solutions in one or more embodiments of this specification or in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in this specification. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0021] Figure 1 This is a schematic diagram illustrating the composition of a smart chip structure for a kitchen environment, provided for one or more embodiments of this specification. Detailed Implementation

[0022] To enable those skilled in the art to better understand the technical solutions in one or more embodiments of this specification, the technical solutions in one or more embodiments of this specification will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this specification, and not all of the embodiments. Based on one or more embodiments of this specification, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of this document.

[0023] According to an embodiment of this utility model, a smart chip structure for a kitchen environment is provided. Figure 1 This specification provides a schematic diagram of the composition of a smart chip structure for a kitchen environment, as shown in one or more embodiments. Figure 1 As shown, the kitchen environment intelligent chip structure according to an embodiment of the present utility model specifically includes: a chip body, wherein the chip body integrates a central processing unit 10, a sensor interface module 20, a communication module 30 and a storage module 40.

[0024] The sensor interface module 10 is used to connect to various kitchen environment sensors, including but not limited to temperature sensors, humidity sensors, gas leak sensors and smoke sensors, to obtain real-time data on the kitchen environment.

[0025] The sensor interface module is a crucial component for connecting the chip to external sensors. It supports various types of kitchen environment sensors, including multiple different types of interfaces. Each interface corresponds to a specific kitchen environment sensor, such as temperature sensors, humidity sensors, gas leak sensors, and smoke sensors. Each interface is equipped with signal amplification and filtering circuits to improve signal transmission quality and stability. The signal amplification circuit amplifies the weak signals output by the sensors to a level suitable for chip processing, while the filtering circuit effectively removes noise from the signal, ensuring data accuracy. Furthermore, the sensor interface module includes at least one spare interface for connecting to new kitchen environment sensors that may be developed in the future. The electrical parameters and signal processing circuitry of this spare interface are compatible with existing sensor interfaces, ensuring the chip's scalability and future compatibility.

[0026] The communication module is used to send the acquired kitchen environment data to external devices and receive control commands from external devices.

[0027] The communication module is a crucial component for data transmission between the chip and external devices. Employing wireless communication, it supports multiple protocols including Wi-Fi, Bluetooth, and ZigBee, enabling flexible communication with various external devices. This allows the chip to connect to smart home systems, mobile devices, or other smart devices, enhancing system compatibility and scalability. The communication module also includes a Near Field Communication (NFC) unit for rapid pairing and data transfer between the chip and nearby devices, supporting both one-way and two-way communication modes to meet communication needs in different scenarios. Furthermore, the communication module integrates an encryption module to encrypt transmitted data, ensuring the security and privacy of kitchen environment data.

[0028] The storage module stores kitchen environmental data and preset environmental parameter thresholds. The stored kitchen environmental data facilitates comprehensive analysis and processing of subsequent sensor data, helping users better understand trends in the kitchen environment. The storage module also supports data read and write operations, allowing users to view and update data at any time. Furthermore, the storage module has a data backup function to ensure that data is not lost in the event of chip failure.

[0029] The central processing unit is electrically connected to the sensor interface module, the communication module, and the storage module. It is used to analyze and process the acquired kitchen environment data and determine whether the kitchen environment is abnormal based on preset environmental parameter thresholds. If it is determined to be abnormal, it sends an alarm signal to an external device through the communication module.

[0030] The chip body also integrates a power management module for managing and distributing power to the chip. This power management module includes a voltage regulation circuit, a current protection circuit, and a power switching circuit. The voltage regulation circuit stabilizes the input power supply voltage within the chip's required range, ensuring stable operation under different power conditions. The current protection circuit prevents overcurrent during operation, protecting the chip's safety. The power switching circuit automatically switches to a backup power supply when the external power supply is unstable or interrupted, ensuring continuous chip operation. This design not only improves the chip's stability under different operating conditions but also extends its lifespan and reduces inconvenience and costs caused by power supply issues.

[0031] The chip body also integrates a self-test module, which is used to test the functionality of its various modules when the chip starts up. The self-test module performs functional tests on the central processing unit, sensor interface module, communication module, storage module, power management module, and encryption module through a series of preset test programs. If an abnormality is detected, a self-test failure signal is sent to an external device through the communication module so that the user can repair or replace it in a timely manner.

[0032] The surface of the chip body is covered with a waterproof coating.

[0033] In one embodiment, a temperature compensation module is also integrated within the chip. This module automatically adjusts the operating parameters of each module within the chip based on changes in the chip's operating environment, thereby ensuring the chip's performance stability and measurement accuracy under different temperature conditions.

[0034] This invention integrates a central processing unit, sensor interface module, communication module, storage module, power management module, encryption module, and self-test module to form a compact structure, reducing cost and power consumption while improving functionality and compatibility, thus meeting the needs of smart kitchen environmental monitoring and safety management.

[0035] This smart chip for kitchen environments features a highly integrated design that significantly reduces system complexity and cost, simplifies installation and maintenance, and makes the deployment of kitchen environment monitoring systems more convenient and efficient. Optimized signal processing and communication capabilities ensure data accuracy and reliability, while enhancing compatibility and connectivity with external devices, providing users with a superior user experience. Furthermore, data encryption effectively protects user data security and privacy, allowing users to use the monitoring system with confidence. The low-power design and power management module not only extend the chip's lifespan but also reduce inconvenience and costs caused by power supply issues, further improving system reliability and stability. The addition of a waterproof coating and self-test module enhances the chip's adaptability and reliability in kitchen environments, reducing the risk of monitoring interruptions due to environmental factors or equipment malfunctions. Overall, this smart chip structure, through its innovative design and functional integration, significantly improves the performance and user experience of kitchen environment monitoring systems, providing strong technical support for the development of smart kitchens.

[0036] In summary, this smart chip structure for kitchen environments, through innovative design and functional integration, enhances the performance of kitchen environment monitoring systems, providing users with a convenient, safe, reliable, and economical user experience. It has significant practical value and broad application prospects.

[0037] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this utility model.

Claims

1. A smart chip structure for a kitchen environment, characterized in that, The chip includes a main body, which integrates a central processing unit, a sensor interface module, a communication module, and a storage module. The sensor interface module is used to connect to various kitchen environment sensors, including temperature sensors, humidity sensors, gas leak sensors and smoke sensors, to obtain real-time data on the kitchen environment. The communication module is used to send the acquired kitchen environment data to external devices and receive control commands from external devices; The storage module is used to store kitchen environment data and preset environmental parameter thresholds; The central processing unit is electrically connected to the sensor interface module, the communication module, and the storage module. It is used to analyze and process the acquired kitchen environment data and determine whether the kitchen environment is abnormal based on preset environmental parameter thresholds. If it is determined to be abnormal, it sends an alarm signal to an external device through the communication module.

2. The smart chip structure for a kitchen environment according to claim 1, characterized in that, The sensor interface module includes multiple different types of interfaces, each corresponding to a kitchen environment sensor, and each interface is equipped with a signal amplification circuit and a filtering circuit.

3. The smart chip structure for a kitchen environment according to claim 1, characterized in that, The communication module uses wireless communication and supports multiple communication protocols such as Wi-Fi, Bluetooth, and ZigBee.

4. The smart chip structure for a kitchen environment according to claim 1, characterized in that, The surface of the chip body is covered with a waterproof coating.

5. The smart chip structure for a kitchen environment according to claim 1, characterized in that, The chip body also integrates a power management module for managing and distributing the chip's power.

6. The smart chip structure for a kitchen environment according to claim 5, characterized in that, The power management module includes a voltage regulation circuit, a current protection circuit, and a power switching circuit. The voltage regulation circuit is used to stabilize the voltage of the input power supply within the voltage range required by the chip. The current protection circuit is used to prevent overcurrent during chip operation; the power switching circuit is used to automatically switch to backup power when the external power supply is unstable or interrupted.

7. The smart chip structure for a kitchen environment according to claim 1, characterized in that, The chip body also integrates an encryption module for encrypting the data transmitted by the communication module.

8. The smart chip structure for a kitchen environment according to claim 1, characterized in that, The sensor interface module also includes at least one spare interface for connecting a newly added kitchen environment sensor, and the electrical parameters and signal processing circuit of the spare interface are compatible with the existing sensor interface.

9. The smart chip structure for a kitchen environment according to claim 1, characterized in that, The chip body also integrates a self-test module, which is used to test the functions of its various modules when the chip starts up. If an abnormality is detected, a self-test failure signal is sent to an external device through the communication module.

10. The smart chip structure for a kitchen environment according to claim 1, characterized in that, The communication module also includes a near-field communication (NFC) unit, which is used to enable rapid pairing and data transmission between the chip and near-field devices, and supports one-way and two-way communication modes.