CN111596587A - Multipurpose low-power consumption control device and method for real-time state monitoring - Google Patents

Abstract

The invention discloses a multipurpose low-power consumption control device and a method for real-time state monitoring, wherein the device comprises a mobile terminal, a central processing unit module, a universal serial bus module, a power management module and an alarm module; the invention enables the control device to optimize the power supply through the arrangement of the power supply management module, thereby reducing the power consumption of the device, enables the control device to carry out real-time state detection aiming at different types of equipment through the arrangement of the universal serial bus module, thereby improving the universality of the control device.

Description

Multipurpose low-power consumption control device and method for real-time state monitoring

Technical Field

The invention relates to the technical field of real-time state monitoring, in particular to a multipurpose low-power consumption control device and method for real-time state monitoring.

Background

With the rapid development of current scientific technology, electronic computers and numerical control equipment containing complex electronic systems become an essential part in daily production and life, however, most numerical control equipment works for a long time under high-temperature, humid and vibration environments, the aging and damage speeds of internal electrical elements are greatly accelerated, and faults are easy to occur, so that the maintenance work of the equipment is enhanced, the service life of the equipment can be prolonged, the normal production can be ensured, the equipment is checked regularly, if problems are found, the equipment is required to be processed in time, the normal operation of the equipment can be ensured, and the checking mainly aims at monitoring the real-time states of the electrical elements such as a main circuit board and the like in the equipment;

at present, the real-time state monitoring of electrical elements such as a main circuit board in equipment is generally carried out by a corresponding control device for real-time state monitoring, but most of the existing control devices for real-time state monitoring have complex structures and high energy consumption, a control panel and the control device are integrally installed, so that a user always keeps beside the control device to carry out real-time monitoring, the universality is poor, one control device cannot be suitable for different equipment to be monitored, in addition, the control method is also complex, the use is very inconvenient, the practicability is low, and the popularization is inconvenient.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide a multi-purpose low power consumption control device and method for real-time status monitoring, in which a mobile terminal inputs preset status parameters to a central processing unit module, the mobile terminal displays a real-time monitoring result of the control device, a comparison and analysis module in the central processing unit module compares and analyzes the real-time monitoring result, and a power management module enables the control device to optimally use a power source and a universal serial bus module enables the control device to perform real-time status detection on different types of devices.

In order to achieve the purpose of the invention, the invention is realized by the following technical scheme: a multipurpose low-power consumption control device for real-time state monitoring comprises a mobile terminal, a central processing unit module, a universal serial bus module, a power management module and an alarm module, wherein the mobile terminal is used for inputting parameters to the central processing unit module and receiving and displaying a monitoring result of the central processing unit module on a device to be monitored, the serial bus module is used for connecting the control device with the device to be monitored in a data connection mode, the central processing unit module is used for collecting data of the device to be monitored in a real-time state through the universal serial bus module conveniently, the power management module is used for managing power supply selection of the control device, the alarm module is used for alarming when the body of the control device is abnormal and the device to be monitored is abnormal, the central processing unit module is used for collecting the data of the device to be monitored in the real-time, the mobile terminal is characterized in that real-time state data are fed back to the mobile terminal, the universal serial bus module, the power management module and the alarm module are respectively connected with the central processing unit module, the central processing unit module comprises an information processing module, a state acquisition module, a self-checking module, a data storage module and a contrastive analysis module, the contrastive analysis module is respectively connected with the state acquisition module and the data storage module, the power management module comprises a power detection unit, a power switching unit, an external power interface and a solar storage battery, the power switching unit is respectively connected with the external power interface and the solar storage battery, the universal serial bus module comprises a data conversion unit, a USB2.0 interface and a USB3.0 interface, and the data conversion unit is respectively connected with the USB2.0 interface and the USB3.0 interface.

The further improvement lies in that: the mobile terminal is connected with the central processor module through a wireless network and comprises a display unit and an information input unit, the mobile terminal is a mobile phone and a notebook computer, the display unit is a display screen on the mobile phone and the notebook computer, and the information input unit is an input keyboard on the mobile phone and the notebook computer.

The further improvement lies in that: the information processing module comprises an information receiving unit, an information sending unit and an information conversion unit, and converts the real-time state data acquired by the real-time state acquisition module into chart-shaped information through the information conversion unit and sends the chart-shaped information to the mobile terminal through the information sending unit.

The further improvement lies in that: the real-time state acquisition module is connected with the data conversion unit and used for acquiring real-time state data of the temperature, the current and the voltage of each electrical element in the equipment to be monitored, and data transmitted in different USB interfaces are converted into universal data suitable for being acquired by the real-time state acquisition module through the data conversion unit in the state acquisition process.

The further improvement lies in that: the self-checking module is connected with the alarm module, the self-checking module is used for detecting the hardware, software and data connection running state of the control device, and the alarm module gives an alarm when the detection is abnormal.

The further improvement lies in that: the data storage module is used for recording and storing preset temperature state parameters, preset current state parameters and preset voltage state parameters input by the mobile terminal.

The further improvement lies in that: the comparison and analysis module is used for comparing and analyzing the real-time state data acquired by the real-time state acquisition module with the preset state parameters recorded in the data storage module and feeding back the result to the mobile terminal through the information processing module, and the alarm module gives an alarm if the comparison and analysis result is abnormal.

In order to achieve the purpose of the invention, the invention is realized by the following technical scheme: a multipurpose low power consumption control method for real time condition monitoring, comprising the steps of:

the method comprises the following steps: opening device

When the equipment needs to be monitored, firstly, the control device is powered on and started through an external power interface, and then the control device is connected with the equipment to be monitored through a corresponding USB interface according to the USB interface model of the equipment to be monitored;

step two: device self-test

According to the first step, after the control device is started, the control device detects hardware, software and data connection on the control device through a self-checking module, if the detection result is normal, the control device enters a standby state, and if the detection result is abnormal, an alarm module gives an alarm to prompt a user that the control device fails;

step three: inputting preset parameters

According to the second step, after the control device enters the standby state, inputting preset temperature state parameters, preset current state parameters and preset voltage state parameters into a data storage module in the central processor module through an information input unit of the mobile terminal, and recording and storing the preset temperature state parameters, the preset current state parameters and the preset voltage state parameters by the data storage module;

step four: real-time monitoring equipment

According to the third step, after a preset temperature state parameter, a preset current state parameter and a preset voltage state parameter are input into the data storage module, the control device enters a working state, real-time state data of the temperature, the current and the voltage of each electrical element in the equipment to be monitored are collected through a real-time state collection module on the central processor module, and then the collected real-time state data are converted into chart-shaped information through an information conversion unit and are sent to the mobile terminal through an information sending unit;

step five: analysis of monitoring results

According to the fourth step, after the real-time state data of the equipment is acquired by the real-time state acquisition module, the acquired real-time state data and preset state parameters recorded in the data storage module are contrastively analyzed by the contrast analysis module, and the result is fed back to the mobile terminal by the information processing module;

step six: closing device

When the equipment does not need to be monitored, the USB data connecting line between the control device and the equipment is disconnected, then the control device is closed, and then the external power supply of the equipment is disconnected.

The further improvement lies in that: in the first step, the control device is detected to be in a standby state or a working state by the power supply detection unit after the power supply is switched on, the solar storage battery is switched to supply power to the control device through the power supply switching unit if the detection result is in the standby state, and the external power supply interface is switched to supply power to the control device through the power supply switching unit if the detection result is in the working state.

The invention has the beneficial effects that: the invention comprises a mobile terminal, a central processing unit module, a universal serial bus module, a power management module and an alarm module, wherein preset state parameters are input into the central processing unit module through the mobile terminal, and a real-time monitoring result of a control device is displayed by the mobile terminal, so that a user of the control device can realize remote real-time state monitoring, the control device is convenient and fast, the real-time monitoring result is contrasted and analyzed through a contrast analysis module in the central processing unit module, so that the user can find abnormal states of equipment in time, the control device can optimize the use of a power supply through the arrangement of the power management module, thereby reducing the power consumption of the device, the control device can carry out real-time state detection aiming at different types of equipment through the arrangement of the universal serial bus module, thereby improving the universality of the control device, and simultaneously ensuring that the control device can normally carry out real-time state monitoring work, the control flow and the control method of the control device are simplified, the control of the main control board is portable through the mobile terminal, and the control device is convenient and fast to use, high in practicability and convenient to popularize.

Drawings

FIG. 1 is a block diagram of the apparatus of the present invention;

fig. 2 is a flow chart of the method of the present invention.

Detailed Description

In order to further understand the present invention, the following detailed description will be made with reference to the following examples, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

The first embodiment is as follows:

according to fig. 1, the embodiment provides a multipurpose low-power consumption control device for real-time status monitoring, which comprises a mobile terminal, a central processing unit module, a universal serial bus module, a power management module and an alarm module, wherein the mobile terminal is used for inputting parameters into the central processing unit module and receiving and displaying monitoring results of the central processing unit module on a device to be monitored, the serial bus module is used for connecting the control device with the device to be monitored in a data mode so as to facilitate the central processing unit module to acquire real-time status data of the device to be monitored through the universal serial bus module, the power management module is used for managing power supply selection of the control device, the alarm module is used for alarming when a body of the control device is abnormal and the device to be monitored is abnormal, the central processing unit module is used for acquiring real-time status data of the device to be monitored and performing contrast, the mobile terminal is characterized in that real-time state data are fed back to the mobile terminal, the universal serial bus module, the power management module and the alarm module are respectively connected with the central processing unit module, the central processing unit module comprises an information processing module, a state acquisition module, a self-checking module, a data storage module and a contrastive analysis module, the contrastive analysis module is respectively connected with the state acquisition module and the data storage module, the power management module comprises a power detection unit, a power switching unit, an external power interface and a solar storage battery, the power switching unit is respectively connected with the external power interface and the solar storage battery, the universal serial bus module comprises a data conversion unit, a USB2.0 interface and a USB3.0 interface, and the data conversion unit is respectively connected with the USB2.0 interface and the USB3.0 interface.

The mobile terminal is connected with the central processor module through a wireless network and comprises a display unit and an information input unit, the mobile terminal is a mobile phone and a notebook computer, the display unit is a display screen on the mobile phone and the notebook computer, and the information input unit is an input keyboard on the mobile phone and the notebook computer.

The information processing module comprises an information receiving unit, an information sending unit and an information conversion unit, and converts the real-time state data acquired by the real-time state acquisition module into chart-shaped information through the information conversion unit and sends the chart-shaped information to the mobile terminal through the information sending unit.

The real-time state acquisition module is connected with the data conversion unit and used for acquiring real-time state data of the temperature, the current and the voltage of each electrical element in the equipment to be monitored, and data transmitted in different USB interfaces are converted into universal data suitable for being acquired by the real-time state acquisition module through the data conversion unit in the state acquisition process.

The self-checking module is connected with the alarm module, the self-checking module is used for detecting the hardware, software and data connection running state of the control device, and the alarm module gives an alarm when the detection is abnormal.

The data storage module is used for recording and storing preset temperature state parameters, preset current state parameters and preset voltage state parameters input by the mobile terminal.

The comparison and analysis module is used for comparing and analyzing the real-time state data acquired by the real-time state acquisition module with the preset state parameters recorded in the data storage module and feeding back the result to the mobile terminal through the information processing module, and the alarm module gives an alarm if the comparison and analysis result is abnormal.

Example two:

according to fig. 2, the present embodiment provides a multipurpose low power consumption control method for real-time status monitoring, comprising the following steps:

the method comprises the following steps:

the method comprises the following steps: opening device

When equipment needs to be monitored, firstly, a power supply is switched on for the control device through an external power supply interface, the control device is started, then the control device is connected with the equipment to be monitored through a corresponding USB interface according to the type of the USB interface of the equipment to be monitored, the control device is detected to be in a standby state or a working state by the power supply detection unit after the power supply is switched on, the solar storage battery is switched to supply power for the control device through the power supply switching unit when the detection result is in the standby state, and the external power supply interface is switched to supply power for the control device through the power supply switching unit when the detection result is in the working state;

step two: device self-test

According to the first step, after the control device is started, the control device detects hardware, software and data connection on the control device through a self-checking module, if the detection result is normal, the control device enters a standby state, and if the detection result is abnormal, an alarm module gives an alarm to prompt a user that the control device fails;

step three: inputting preset parameters

According to the second step, after the control device enters the standby state, inputting preset temperature state parameters, preset current state parameters and preset voltage state parameters into a data storage module in the central processor module through an information input unit of the mobile terminal, and recording and storing the preset temperature state parameters, the preset current state parameters and the preset voltage state parameters by the data storage module;

step four: real-time monitoring equipment

According to the third step, after a preset temperature state parameter, a preset current state parameter and a preset voltage state parameter are input into the data storage module, the control device enters a working state, real-time state data of the temperature, the current and the voltage of each electrical element in the equipment to be monitored are collected through a real-time state collection module on the central processor module, and then the collected real-time state data are converted into chart-shaped information through an information conversion unit and are sent to the mobile terminal through an information sending unit;

step five: analysis of monitoring results

According to the fourth step, after the real-time state data of the equipment is acquired by the real-time state acquisition module, the acquired real-time state data and preset state parameters recorded in the data storage module are contrastively analyzed by the contrast analysis module, and the result is fed back to the mobile terminal by the information processing module;

step six: closing device

When the equipment does not need to be monitored, the USB data connecting line between the control device and the equipment is disconnected, then the control device is closed, and then the external power supply of the equipment is disconnected.

The multipurpose low-power consumption control device and the method for real-time state monitoring comprise a mobile terminal, a central processing unit module, a universal serial bus module, a power management module and an alarm module, preset state parameters are input into the central processing unit module through the mobile terminal, and a real-time monitoring result of the control device is displayed by the mobile terminal, so that a user of the control device can realize remote real-time state monitoring, the control device is very convenient and fast, the real-time monitoring result is contrastively analyzed through a contrast analysis module in the central processing unit module, so that the user can timely find out the abnormal state of equipment, the control device can optimally use a power supply through the arrangement of the power management module, thereby reducing the power consumption of the device, and the control device can carry out real-time state detection on different types of equipment through the arrangement of the universal serial bus module, the invention simplifies the control flow and method of the control device while ensuring the control device can normally carry out real-time state monitoring work, and controls the main control board through the mobile terminal in a portable way, thereby improving the universality of the control device, being convenient and fast to use, having higher practicability and being convenient to popularize.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a multipurpose low-power consumption controlling means for real-time status monitoring, includes mobile terminal, central processing unit module, universal serial bus module, power management module and alarm module, its characterized in that: the mobile terminal is used for inputting parameters into the central processing unit module and receiving and displaying a monitoring result of the central processing unit module on a device to be monitored, the serial bus module is used for carrying out data connection on the control device and the device to be monitored, the central processing unit module is convenient for carrying out real-time data acquisition on the device to be monitored through the universal serial bus module, the power supply management module is used for managing power supply selection of the control device, the alarm module is used for warning when the control device body is abnormal and the device to be monitored is abnormal, the central processing unit module is used for acquiring real-time data of the device to be monitored, carrying out contrastive analysis and simultaneously feeding back the real-time data to the mobile terminal, the universal serial bus module, the power supply management module and the alarm module are respectively connected with the central processing unit module, and the central processing unit module comprises, The device comprises a state acquisition module, a self-checking module, a data storage module and a contrastive analysis module, wherein the contrastive analysis module is respectively connected with the state acquisition module and the data storage module, the power management module comprises a power supply detection unit, a power supply switching unit, an external power supply interface and a solar storage battery, the power supply switching unit is respectively connected with the external power supply interface and the solar storage battery, the universal serial bus module comprises a data conversion unit, a USB2.0 interface and a USB3.0 interface, and the data conversion unit is respectively connected with the USB2.0 interface and the USB3.0 interface.

2. A multipurpose low power consumption control device for real time condition monitoring according to claim 1, characterized by: the mobile terminal is connected with the central processor module through a wireless network and comprises a display unit and an information input unit, the mobile terminal is a mobile phone and a notebook computer, the display unit is a display screen on the mobile phone and the notebook computer, and the information input unit is an input keyboard on the mobile phone and the notebook computer.

3. A multipurpose low power consumption control device for real time condition monitoring according to claim 1, characterized by: the information processing module comprises an information receiving unit, an information sending unit and an information conversion unit, and converts the real-time state data acquired by the real-time state acquisition module into chart-shaped information through the information conversion unit and sends the chart-shaped information to the mobile terminal through the information sending unit.

4. A multipurpose low power consumption control device for real time condition monitoring according to claim 1, characterized by: the real-time state acquisition module is connected with the data conversion unit and used for acquiring real-time state data of the temperature, the current and the voltage of each electrical element in the equipment to be monitored, and data transmitted in different USB interfaces are converted into universal data suitable for being acquired by the real-time state acquisition module through the data conversion unit in the state acquisition process.

5. A multipurpose low power consumption control device for real time condition monitoring according to claim 1, characterized by: the self-checking module is connected with the alarm module, the self-checking module is used for detecting the hardware, software and data connection running state of the control device, and the alarm module gives an alarm when the detection is abnormal.

6. A multipurpose low power consumption control device for real time condition monitoring according to claim 1, characterized by: the data storage module is used for recording and storing preset temperature state parameters, preset current state parameters and preset voltage state parameters input by the mobile terminal.

7. A multipurpose low power consumption control device for real time condition monitoring according to claim 1, characterized by: the comparison and analysis module is used for comparing and analyzing the real-time state data acquired by the real-time state acquisition module with the preset state parameters recorded in the data storage module and feeding back the result to the mobile terminal through the information processing module, and the alarm module gives an alarm if the comparison and analysis result is abnormal.

8. A multipurpose low-power consumption control method for real-time state monitoring is characterized by comprising the following steps:

the method comprises the following steps: opening device

When the equipment needs to be monitored, firstly, the control device is powered on and started through an external power interface, and then the control device is connected with the equipment to be monitored through a corresponding USB interface according to the USB interface model of the equipment to be monitored;

step two: device self-test

According to the first step, after the control device is started, the control device detects hardware, software and data connection on the control device through a self-checking module, if the detection result is normal, the control device enters a standby state, and if the detection result is abnormal, an alarm module gives an alarm to prompt a user that the control device fails;

step three: inputting preset parameters

According to the second step, after the control device enters the standby state, inputting preset temperature state parameters, preset current state parameters and preset voltage state parameters into a data storage module in the central processor module through an information input unit of the mobile terminal, and recording and storing the preset temperature state parameters, the preset current state parameters and the preset voltage state parameters by the data storage module;

step four: real-time monitoring equipment

According to the third step, after a preset temperature state parameter, a preset current state parameter and a preset voltage state parameter are input into the data storage module, the control device enters a working state, real-time state data of the temperature, the current and the voltage of each electrical element in the equipment to be monitored are collected through a real-time state collection module on the central processor module, and then the collected real-time state data are converted into chart-shaped information through an information conversion unit and are sent to the mobile terminal through an information sending unit;

step five: analysis of monitoring results

According to the fourth step, after the real-time state data of the equipment is acquired by the real-time state acquisition module, the acquired real-time state data and preset state parameters recorded in the data storage module are contrastively analyzed by the contrast analysis module, and the result is fed back to the mobile terminal by the information processing module;

step six: closing device

When the equipment does not need to be monitored, the USB data connecting line between the control device and the equipment is disconnected, then the control device is closed, and then the external power supply of the equipment is disconnected.

9. A multipurpose low power consumption control device for real time condition monitoring according to claim 8, characterized by: in the first step, the control device is detected to be in a standby state or a working state by the power supply detection unit after the power supply is switched on, the solar storage battery is switched to supply power to the control device through the power supply switching unit if the detection result is in the standby state, and the external power supply interface is switched to supply power to the control device through the power supply switching unit if the detection result is in the working state.

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