CN110570639A - Rapid state detection system and detection method - Google Patents

Abstract

A rapid status detection system comprising: the passive detector comprises a detection induction area, a detection circuit, a sensor and a first wireless communication module, wherein the detection induction area, the detection circuit, the sensor and the first wireless communication module are electrically connected; and the mobile controller is used for driving and controlling the passive detector and acquiring the original parameters, and comprises a second wireless communication module, a battery and a power transmission module, wherein the second wireless communication module is used for being in communication connection with the first wireless communication module through wireless communication, and the power transmission module is matched with the power receiving module. The invention provides a rapid state detection system and a detection method, a passive detector and a mobile controller carry out control and data exchange through wireless communication, and the system has high safety, high detection speed and high result precision.

Description

Rapid state detection system and detection method

[ technical field ] A method for producing a semiconductor device

the invention relates to the technical field of state detection, in particular to a rapid state detection system and a detection method.

[ background of the invention ]

The state detection among the prior art mostly relies on the active device to realize, the sensor must continuously supply power promptly, to some equipment that does not use at ordinary times, the active device needs additionally to set up supply circuit, adopt wired mode of connecting electric can make the electric energy supply increase complexity and cost, and need prevent danger such as electric leakage, and the mode that adopts built-in battery is also inconvenient to the battery replacement, also need constantly to monitor to the electric quantity, be in the same time precaution against electric quantity exhaust and can't work, use the battery still to have the explosion that the battery overcharges and produce the weeping and cause the device easily to corrode the problem. And need set up the interface in addition to data transmission for the process is loaded down with trivial details, and set up too much interface and can cause the applicable application environment of equipment to receive strict limitation, influences the use.

[ summary of the invention ]

In order to solve the defects in the prior art, the invention provides a rapid state detection system and a detection method, which have the advantages of high safety, high detection speed and high result precision.

In order to achieve the purpose, the invention adopts the specific scheme that:

A rapid status detection system comprising: the passive detector comprises a detection induction area, a detection circuit, a sensor and a first wireless communication module, wherein the detection induction area, the detection circuit, the sensor and the first wireless communication module are electrically connected, the sensor is fixedly arranged on a detection point and is used for acquiring original parameters of the detection point, the detection circuit comprises a power receiving module used for acquiring energy, and the first wireless communication module is used for sending the original parameters;

The mobile controller is used for driving and controlling the passive detector and acquiring the original parameters, and comprises a second wireless communication module, a battery and a power transmission module, wherein the second wireless communication module is used for being in communication connection with the first wireless communication module through wireless communication, and the power transmission module is matched with the power receiving module.

Preferably, the system further comprises a detection host, configured to obtain the raw parameters from the mobile controller through wireless communication, and process the raw parameters to obtain status parameters.

Preferably, the power transmission module and the power receiving module adopt a wireless power transmission technology to match.

preferably, the passive detector further comprises:

The control module and the data processing module are electrically connected with the detection circuit, the sensor and the first wireless communication module;

The mobile controller further includes:

the display module is used for displaying the current state of the mobile controller;

The input module is used for receiving a manual control instruction;

The processor and a storage module arranged on the processor, wherein the storage module is used for caching the original parameters;

The processor is used for writing the original parameters into the storage module, transmitting the current state to the display module and processing the manual control instruction.

preferably, the mobile controller further comprises a wireless charging module connected with an external wireless charger for supplying electric energy to the battery.

Preferably, the passive detector includes a passive connector disposed on the detection sensing area, the power receiving module is disposed on the passive connector, the mobile controller includes an active connector matched with the passive connector, and the power transmission module is disposed on the active connector.

Preferably, the detection host is electrically connected with a communicator for communicating with the mobile controller.

The invention also provides a rapid state detection method, which comprises the following steps:

s1, driving the passive detector by the motion controller;

S2, the mobile controller and the passive detector are connected through wireless communication;

And S3, the passive detector acquires the original parameters of the detection point and transmits the original parameters to the mobile controller through wireless communication.

Preferably, in step S1, the motion controller supplies power to the passive detector to drive the passive detector, and the passive detector starts to operate.

in step S2, the mobile controller and the passive detector perform bidirectional authentication through wireless communication, establish control and data transmission between the mobile controller and the passive controller, and if the authentication is successful, execute S3.

Preferably, the method further comprises the following steps:

the mobile controller processes and stores the received original data to obtain state parameters;

and/or

And the mobile controller sends the original parameters to a detection host, and the detection host processes and stores the original parameters to obtain state parameters.

According to the invention, the passive detector is used for acquiring the original parameters of the detection point, when the device is not used, the passive detector can be directly arranged on the detection point, an additional power supply mechanism is not needed, the complexity and the use cost of the device can be effectively reduced, the probability of danger occurrence is reduced, and the problem that a battery needs to be replaced does not exist. When the passive detector is used, the passive detector is activated through the handheld mobile controller, the passive detector is powered by adopting a wireless power transmission technology, the passive detector can work through electric energy provided by the mobile controller to obtain original parameters, the passive controller and the mobile controller are connected in a wireless transmission mode, an electric energy and data transmission interface does not need to be arranged, and the working process is simple and convenient.

[ description of the drawings ]

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of a detection system;

FIG. 2 is a block diagram of another embodiment of a detection system;

FIG. 3 is a block diagram of another embodiment of a detection system;

Fig. 4 is a flow chart of a detection method.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a block diagram of a detection system.

a rapid status detection system includes a passive detector and a motion controller.

The passive detector comprises a detection induction area, a detection circuit, a sensor and a first wireless communication module, wherein the detection induction area, the detection circuit, the sensor and the first wireless communication module are electrically connected, the sensor is fixedly arranged on a detection point and is used for acquiring original parameters of the detection point, the detection circuit comprises a power receiving module used for acquiring energy, and the first wireless communication module is used for sending the original parameters;

The mobile controller is used for driving and controlling the passive detector and obtaining original parameters, and comprises a second wireless communication module, a battery and a power transmission module, wherein the second wireless communication module is used for being in communication connection with the first wireless communication module through wireless communication, the power transmission module is used for being matched with the power receiving module to supply power to the passive detector, and the power transmission module of the mobile controller supplies power to the passive detector to drive and control the passive detector to work.

the sensor may be configured as a temperature sensor, a humidity sensor, a pressure sensor, a light sensor, or the like, according to the type of the raw parameter to be detected, and the raw parameter may be in the form of an analog signal or a digital signal according to the type of the sensor. The power receiving module obtains electric energy from the mobile controller after the passive detector is connected with the mobile controller, so that the mobile controller can activate the passive detector, supply power to the passive detector, start working of the sensor, detect original parameters, and obtain parameters of temperature, humidity, pressure and the like of a detection point.

The power transmission module and the power receiving module are matched by adopting a wireless power transmission technology, the power receiving module does not need to be in direct contact with the power transmission module, the power receiving module can be completely packaged, the passive detector can be completely packaged, an interface does not need to be arranged to transmit electric energy and data, and therefore the passive detector is better protected.

According to the invention, the passive detector is used for acquiring the original parameters of the detection point, when the passive detector is not used, the passive detector can be directly arranged on the detection point, an additional power supply mechanism is not needed, the complexity and the use cost of the device can be effectively reduced, and the probability of danger occurrence is reduced. When the portable passive detector is used, the passive detector is charged and activated through the handheld mobile controller, so that the passive detector can acquire original parameters, and the portable passive detector is convenient and quick to use.

further, referring to fig. 2, the passive detector further includes: the mobile controller comprises a control module and a data processing module, wherein the control module and the data processing module are electrically connected with a detection circuit, a sensor and a first wireless communication module, the data processing module acquires original parameters through the sensor and sends the original parameters to the control module, and the control module controls the first wireless communication module to send the original parameters to a second wireless communication module of the mobile controller.

The mobile controller further includes:

The display module is used for displaying the current state of the mobile controller, and the display module can adopt a liquid crystal display screen, an organic light emitting diode display screen, an electronic ink screen or an indicator light and other display devices;

The input module is used for receiving a manual control instruction, and can adopt input devices such as a keyboard, a touch screen or a voice module and the like;

The system comprises a processor and a storage module arranged on the processor, wherein the storage module is used for caching original parameters, and the storage module can adopt storage media such as SSD, EMMC or FLASH and the like;

The processor is used for writing the original parameters into the storage module, transmitting the current state to the display module and processing the manual control instruction. The processor can adopt a microcontroller or a single chip microcomputer, such as STM32 or 80C 51.

The processor can carry out primary processing on the original parameters, for example, analog signals are converted into digital signals, original data detected by the sensor are written into the storage module, and one mobile controller can be matched with a plurality of passive controllers one by one, so that the original parameters can be backed up by utilizing the storage module to store the original parameters, and the data safety is improved. The current state may include a power-on state, a battery remaining amount, or signal on/off, etc. The input module may be used to control the mobile controller to turn on or off, as well as to input control parameters.

in the embodiment, when in use, the hand-held mobile controller is close to the passive detector to charge the passive controller through wireless power transmission, so that the passive detector works to acquire the original parameters of the detection point through the sensor, the data processing module acquires the original parameters through the sensor, and sends the original parameters to the control module, the control module controls the first wireless communication module to send the original parameters to the second wireless communication module of the mobile controller, the mobile controller receives the original parameters sent by the passive detector through wireless channel communication, the second wireless communication module receives the original parameters, the original parameters are processed and stored by a processor of the mobile controller, and the state parameters processed by the processor are displayed and output by a display module, wherein the state parameters can be detection success or detection failure, and further the original parameters can be displayed.

further, referring to fig. 3, in another embodiment, the fast status detection system may further include a detection host, configured to obtain the original parameters from the mobile controller, process the original parameters to obtain the status parameters, and the detection host is electrically connected to a communicator for communicating with the mobile controller. The communicator is connected with the second wireless communication module of the mobile controller in a wireless communication mode, transmits the original parameters to the detection host through wireless communication, manages or processes and stores the original parameters uploaded by the mobile controller through the detection host, and sets the working mode and the working parameters of the mobile controller through the detection host. The detection host can be a computer or a cloud server and the like.

the wireless communication mode mentioned in the application can adopt short-distance wireless data transmission technology, such as Bluetooth, ZigBee and the like, or can adopt a self-defined wireless communication protocol, so that the privacy of data during transmission is ensured, the safety of data transmission is ensured not to be easily tampered, and certainly, in other embodiments, wireless communication technologies such as WIFI or NB-IoT can also be adopted.

Further, passive detector is including setting up the passive connecting piece on detecting the induction zone, and the power receiving module sets up on passive connecting piece, and motion control ware includes the initiative connecting piece with passive connecting piece assorted, and the module setting of transmitting electricity is on the initiative connecting piece. The active connecting piece can be arranged as a protruding part, the passive connecting piece can be arranged as a recessed part, and the active connecting piece is inserted into the passive connecting piece to realize connection during use, so that the connection is convenient and fast. In order to further improve the wireless connection between the passive detector and the mobile controller, the stability of the wireless power transmission between the power receiving module and the power transmission module is improved, the charging efficiency and the efficiency of the wireless data transmission are improved, the active connecting piece and the passive connecting piece can be further connected in a magnetic attraction mode, and of course, other modes such as buckle connection, thread gluing connection, plugging or threaded connection can be further utilized.

further, the mobile controller further comprises a wireless charging module connected with an external wireless charger for supplying electric energy to the battery. Utilize wireless module of charging, mobile controller can conveniently charge through wireless charger, and synchronous mobile controller also need not utilize the interface to charge, and mobile controller also can be totally encapsulated, need not set up the interface and carry out the transmission of electric energy and data, thereby protect mobile controller better, thereby the passive detector and the mobile controller of this application all adopt wireless charging and wireless communication to make passive detector and mobile controller all can adopt the design of high protection, and the protection level improves greatly than traditional mode.

Referring to fig. 4, fig. 4 is a flowchart of a fast status detection method. Based on the above detection system, the present invention further provides a rapid status detection method, which includes S1 to S3.

s1, driving the passive detector by using the motion controller; the power transmission module of the mobile controller supplies power to the power receiving module of the passive detector through wireless power transmission, the working state of the passive detector is activated, and the passive detector starts to work.

s2, the mobile controller and the passive detector are connected through wireless communication; wherein the mobile controller performs bidirectional authentication with the passive detector, and performs S3 if the authentication is successful. The two-way authentication can ensure the legality of the mobile controller and the passive detector, and further ensure the stability of connection and the safety of parameters. After the connection is verified successfully, control and data transmission between the mobile controller and the passive controller are established, the mobile controller and the passive detector are verified in a wireless communication mode, and after the connection is established, the mobile controller controls and exchanges data with the passive detector through wireless communication, wherein the wireless communication can be encrypted, and the safety of the data exchange is guaranteed. The bidirectional verification can also adopt a circuit-based mode, for example, when the electrical parameters such as voltage and power output by the mobile controller meet the requirements of the passive detector, the powered module of the passive detector is started, or a data processor is added in the passive detector, after the mobile controller is connected with the passive detector, the passive detector and the mobile controller mutually send verification messages, if the verification is passed, the connection with the passive detector is successful and the passive detector is activated, otherwise, the powered module is closed.

and S3, the passive detector acquires the original parameters of the detection point and transmits the original parameters to the mobile controller through wireless communication. The method includes the steps that the mobile controller approaches to the passive detector through step S1, the passive detector starts to work, the passive detector is connected with the mobile controller through wireless communication, meanwhile, the sensor obtains original parameters of a detection point, the data processing module obtains the original parameters through the sensor and sends the original parameters to the control module, the control module controls the first wireless communication module to send the original parameters to the second wireless communication module of the mobile controller, the mobile controller receives the original parameters sent by the passive detector through wireless channel communication, and the second wireless communication module receives the original parameters.

further, in this embodiment, the mobile controller processes and stores the received raw data to obtain the state parameters; specifically, the original parameters are processed and stored by a processor of the mobile controller, and the state parameters processed by the processor are displayed and output by a display module, wherein the state parameters can be detection success or detection failure, and further the original parameters can be displayed.

Or in another embodiment, the mobile controller may send the original parameters to the detection host, and the detection host processes and stores the original parameters to obtain the state parameters.

The invention is hereinafter developed in one of its application scenarios based on inflatable liferafts.

An inflatable life raft (hereinafter referred to as life raft) is a water surface life saving device, is formed by cutting and bonding waterproof rubber cloth, and can be inflated and expanded when in use and can float on the water surface. The life raft consists of a raft body, a compressed gas cylinder, a control valve and the like. The raft body is after the atmospheric gas, and compressed gas cylinder, control valve and other lifesaving goods and materials are deposited in glass steel container to settle on the ship, during the use, open the valve, compressed gas cylinder and raft body switch-on push glass steel container aquatic, glass steel container is automatic to be opened, and the raft body is aerifyd the inflation, floats in the surface of water, acceptable fleeing personnel. A liferaft is an emergency device which normally may not be used from production to scrapping. As a final life saving measure, however, it must be ensured that the liferaft is in a standby state, and once used, it is absolutely not allowed to have any abnormalities or malfunctions. Thus, the regular/irregular detection ensures that the liferaft works reliably becomes a rigorous and serious task. The conventional detection method is that after a ship enters a port, the life raft is detached from the ship and transported to a professional detection and maintenance mechanism for detection, a glass fiber reinforced plastic container is opened during detection, the raft body is inflated, whether the raft body leaks air or not is detected, meanwhile, a compressed gas cylinder is detected, whether the gas capacity of the compressed gas cylinder is normal or not and whether air leakage exists or not is detected, if the gas capacity is normal, the life raft is deflated again, packaged and loaded into the container, then transported to the port, and reloaded. This process is time consuming and labor intensive, the vessel must be docked at the port, both inoperable and require payment for the docking costs of the port, and the cost of the shipowner is greatly increased. As the most important life saving means, there are extremely strict requirements on the reliability thereof. The traditional detection method is low in efficiency, time-consuming and labor-consuming, and cannot meet the requirement of rapid detection.

when the passive detector is applied to the inflatable life raft, the detection sensing area of the passive detector is arranged outside the glass fiber reinforced plastic container, the detection circuit and the sensor are arranged inside the glass fiber reinforced plastic container, the sensor comprises a pressure sensor and a temperature and humidity sensor, the detection circuit and the sensor are matched to complete pressure measurement inside the gas cylinder, and temperature and humidity measurement, data conversion, parameter comparison and data output inside the raft barrel are carried out. The pressure sensor adopts an air pressure sensor M32JM-000102-200BG of the American TE company, has low power consumption, G1/4 threads, 250bar measuring range and 1.5 percent of precision; the resolution is 14bits, the effective length is 11bits, and the minimum identification unit is 0.01 bar; the temperature and humidity sensor adopts an HTU21D-B temperature and humidity sensor module of Humirel company of France, the temperature range is-40 ℃ to-105 ℃ plus or minus 0.3 ℃, the humidity range is 0-100%, and plus or minus 3% RH.

the mobile controller is a handheld mobile controller, so that the mobile controller is convenient for detection personnel to carry; the power supply to the passive detector is completed by the mobile controller approaching the passive detector, the control and data exchange are established by the wireless communication connection with the passive detector, the original parameters from the passive detector, such as the temperature and humidity parameter in the life raft barrel and the pressure parameter in the gas cylinder, are read, stored and displayed, the passive detector is charged and activated by the mobile controller, the passive detector starts to work to detect the parameters in the glass fiber reinforced plastic container and transmits the parameters to the mobile controller through wireless communication, in this way, the work consuming time and labor such as disassembly, transportation and reassembly is not needed any more when the life raft is detected, the passive detector is arranged in the life raft, the detection can be completed by charging and activating the passive detector by the mobile controller when the life raft is detected, the life raft can be detected regularly, the working reliability of the life raft is ensured, and excessive time cost is not needed, is simple and convenient.

At glass steel container internally mounted sensor and detection circuitry, set up in glass steel container's outside and detect the induction zone, be close to through mobile controller and detection induction zone and can be to the power supply of sensor and detection circuitry in the glass steel container, can read the sensor data in the glass steel container, carry out data exchange through radio communication. By adopting the method for detecting and transmitting the data, the existing raft body and the glass fiber reinforced plastic container can be completely sealed and waterproof, no interface is required to be additionally arranged for power supply and data transmission, and the mobile controller does not need to contact the life raft when detecting the life raft, so that the passive detector can be controlled and activated, the abrasion caused by frequent work of the plug-in contact type interface is avoided, the contact reliability is reduced, and the implementation of the detection process is influenced. The application solves various problems of internal power supply by arranging the passive detector on the life raft body to wirelessly communicate with the mobile controller and wirelessly charge, canceling the power supply circuit in the life raft body and using external wireless power supply instead, meanwhile, the passive detector and the mobile controller exchange data by adopting wireless communication, the problem of data transmission through an interface is solved, after the power supply mode and the data exchange mode are simplified, the power supply and communication interfaces are removed by adopting the wireless power supply technology and the wireless communication technology, make passive detector and mobile controller all can adopt the design of high protection, the protection level of waterproof, dustproof and salt fog prevention etc. improves greatly than traditional mode, has not only improved the protection level of equipment, more makes the adaptable more complicated and more abominable application environment of equipment to working process is simple and convenient, and operational reliability greatly improves.

In this embodiment, the mobile controller may further be connected to the detection host via wireless communication, and may transmit the raw parameter data obtained by the passive detector to the detection host, and may process and store the history data of the passive detector via the detection host, and manage the production and detection data of the liferaft.

In this embodiment, every group passive detector has solitary identification code, mobile controller charges through the wireless and activates the back to passive detector, mobile controller passes through wireless communication with passive detector and establishes being connected, and carry out two-way verification, mobile controller can carry out the identification verification to passive detector's solitary identification code in the verification process, if verify through then connect into power mobile controller and realize the data control and the exchange to passive detector, the validity that mobile controller and passive detector are connected can be ensured through the verification of identification code, and then ensure the stability of connecting and the security of parameter. The mobile controller can store detection data of different detected devices according to different identification codes, the detection data of the passive detector can be conveniently called and inquired according to the independent identification code of the passive detector, and the detection host can analyze the detection data obtained by the different passive detectors respectively, for example, a change curve is drawn according to all historical data, risk early warning is carried out according to current data, or all detected device data are transversely compared to obtain a change model, and the like. The identification code can be set manually.

It should also be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

the previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. a rapid status detection system, comprising:

the passive detector comprises a detection induction area, a detection circuit, a sensor and a first wireless communication module, wherein the detection induction area, the detection circuit, the sensor and the first wireless communication module are electrically connected, the sensor is fixedly arranged on a detection point and is used for acquiring original parameters of the detection point, the detection circuit comprises a power receiving module used for acquiring energy, and the first wireless communication module is used for sending the original parameters;

The mobile controller is used for driving and controlling the passive detector and acquiring the original parameters, and comprises a second wireless communication module, a battery and a power transmission module, wherein the second wireless communication module is used for being in communication connection with the first wireless communication module through wireless communication, and the power transmission module is matched with the power receiving module.

2. a rapid status detection system as claimed in claim 1, wherein the rapid status detection system further comprises a detection host for obtaining the raw parameters from the mobile controller through wireless communication and processing the raw parameters to obtain status parameters.

3. The rapid status detection system of claim 1, wherein the power transmitting module and the power receiving module employ wireless power transmission techniques.

4. a rapid status detection system as claimed in claim 1,

the passive detector further comprises:

The control module and the data processing module are electrically connected with the detection circuit, the sensor and the first wireless communication module;

The mobile controller further includes:

The display module is used for displaying the current state of the mobile controller;

the input module is used for receiving a manual control instruction;

the processor and a storage module arranged on the processor, wherein the storage module is used for caching the original parameters;

The processor is used for writing the original parameters into the storage module, transmitting the current state to the display module and processing the manual control instruction.

5. The rapid status detection system of claim 4, wherein the mobile controller further comprises a wireless charging module coupled to an external wireless charger for providing power to the battery.

6. The rapid status detection system of claim 1, wherein the passive detector comprises a passive connector disposed on the detection sensing area, the power receiving module is disposed on the passive connector, the motion controller comprises an active connector matching the passive connector, and the power transmitting module is disposed on the active connector.

7. The system as claimed in claim 2, wherein the detection host is electrically connected with a communicator for communicating with the mobile controller.

8. A rapid state detection method is characterized by comprising the following steps:

S1, driving the passive detector by the motion controller;

S2, the mobile controller and the passive detector are connected through wireless communication;

and S3, the passive detector acquires the original parameters of the detection point and transmits the original parameters to the mobile controller through wireless communication.

9. The fast state detection method of claim 8,

In step S1, the motion controller supplies power to the passive detector to drive the passive detector, and the passive detector starts to operate.

in step S2, the mobile controller and the passive detector perform bidirectional authentication through wireless communication, establish control and data transmission between the mobile controller and the passive controller, and if the authentication is successful, execute S3.

10. the rapid status detection method according to claim 8, further comprising the steps of:

The mobile controller processes and stores the received original data to obtain state parameters;

and/or

And the mobile controller sends the original parameters to a detection host, and the detection host processes and stores the original parameters to obtain state parameters.