CN210428521U - Handheld portable information management and control system of underground comprehensive pipe gallery - Google Patents

Abstract

The utility model belongs to the technical field of underground pipe gallery control, and relates to a handheld portable information management and control system for an underground pipe gallery; the main structure module includes: the system comprises a network signal receiving and transmitting module, a real-time dynamic prompting module, an in-corridor environment monitoring module, a personnel positioning module, an equipment remote control module, a remote flow approval module, a code scanning inspection module and an information output module; the system control processing module is in bidirectional electrical information connection with the data storage module; the data storage module is in electrical information connection with the real-time dynamic prompting module; the network signal transceiver module is in bidirectional electrical information connection with the data storage module; the corridor internal environment monitoring module, the personnel positioning module, the equipment remote control module, the remote process approval module, the code scanning inspection module and the information output module are in bidirectional electrical information connection with the network signal transceiving module; the design concept is scientific, the technical scheme is advanced, the control principle is reliable, the operation and the use are convenient, the real-time controllability is good, and the application environment is friendly.

Description

Handheld portable information management and control system of underground comprehensive pipe gallery

The technical field is as follows:

the utility model belongs to the technical field of utility tunnel control, a portable information management and control system is handed to utility tunnel is related to, and it is specially a portable information management and control equipment and system that is arranged in underground to concentrate the public tunnel piping lane of laying the municipal pipeline and carries out functions such as equipment control and personnel's communication.

Background art:

at present, with the continuous innovation of modern urban civilized construction and the progress requirement of beautiful environment, the running facilities and pipelines of cities tend to develop towards underground pipe networks or gathering directions. The intelligent urban underground comprehensive pipe gallery is a public tunnel which is used for laying municipal pipelines such as electric power, communication, radio and television, water supply, drainage, heating power, gas and the like in a centralized manner in the underground of a city, has outstanding effects on promoting and coordinating planning of various municipal pipelines, construction and solving the problems of repeated road surface excavation, dense overhead wire network, frequent pipeline accidents and the like, is one of important basic facilities for constructing the intelligent city, and is a civil engineering supported by the key part of the country. 22 days 1 month in 2017, the Ministry of urban and rural construction of housing printed the national building Standard design System of urban management corridors and the national building Standard design System of sponge City construction; 26 th 5 th month in 2017, the Ministry of urban and rural construction of housing and the national energy agency printed the suggestion of bringing propulsion power lines into urban underground comprehensive pipe gallery; in 2017, 20 days in 6 months, the ministry of urban and rural construction of housing demands to catch up the construction of the underground pipe gallery with high historical responsibility when promoting the television conference for constructing the urban underground pipe gallery; in 2017, 8 and 16, the Ministry of urban and rural construction of housing released "Notification about improving urban drainage and waterlogging prevention capability to promote the construction of urban underground comprehensive pipe gallery". These are enough to explain that the construction of city underground intelligent comprehensive pipe gallery is a very important part which is beneficial to ensuring city safety, improving city function, beautifying city landscape, and promoting city intensive high-efficiency and transformation development.

The control, routing inspection, environment monitoring and other technologies of the existing underground comprehensive pipe gallery management and control system still mainly rely on traditional camera monitoring and manual underground routing inspection, and the internet and internet of things technology are rarely used, so that the specific operation condition, safety condition and operation state of equipment and pipelines of the pipe gallery can not be updated and rapidly mastered in real time; when a worker patrols and examines the pipe gallery, the worker still mainly communicates and communicates through an interphone and a fixed telephone, and the pipe gallery cannot be managed and controlled at any time due to the fact that technical standards and systems adopted by a detection system, a monitoring system, an alarm system and the like of the existing pipe gallery are different, the adopted technical standards are different, a set of portable equipment and a system which can be connected with a network at any time and can receive data of each system are lacked; meanwhile, the shortcoming that rapid and accurate positioning cannot be carried out on workers in the pipe gallery exists, the safety of underground inspection workers and other workers cannot be well guaranteed, and the normal operation of intelligent monitoring underground equipment is not facilitated.

Therefore, the handheld portable information management and control system for the underground comprehensive pipe gallery, which is supported by information technologies such as the internet of things, big data cloud computing and the mobile internet, is sought to be designed, so that all systems are comprehensively integrated, information receiving, pipe gallery equipment control and work reporting and approving are carried out through portable equipment at any time, personnel positioning is considered, matching integration linkage of alarming, entrance guard and the like is met, and the problem of various information islands is eliminated, and the handheld portable information management and control system for the underground comprehensive pipe gallery has important practical application value.

The invention content is as follows:

the utility model aims to overcome the shortcoming that prior art exists, seek the design and provide a handheld portable information management and control system of utility tunnel underground, make full use of big data technology, internet technology and internet of things, establish the portable management and control system who contacts each other conveniently, can hand-carry and insert the internet at any time, realize portable management and control to city utility tunnel data information.

In order to realize the above-mentioned purpose, the utility model relates to a handheld portable information management and control system major structure of utility tunnel includes: the system comprises a power supply device, a chip integrated circuit board, an SOC chip, an RAM storage device, a system flash memory device, a network transceiver, an NFC device, a touch control device, a sound receiving device, a scanning camera device, a screen display device, a sound output device, a vibration device, an illuminating device and an infrared signal emitting device; the power supply device and the chip integrated circuit board are in bidirectional electrical information connection, the chip integrated circuit board is in bidirectional electrical information connection with the SOC chip, the RAM storage device, the system flash memory device, the network transceiver and the NFC device, the touch control device, the sound receiving device and the scanning camera device are in unidirectional electrical information connection with the chip integrated circuit board and input data to the chip integrated circuit board, and the screen display device, the sound output device, the vibration device, the illuminating device and the infrared signal emitting device are in unidirectional electrical information connection with the chip integrated circuit board and receive output data of the chip integrated circuit board.

The utility model relates to a handheld portable information management and control system major structure module of utility tunnel includes: the system comprises a network signal receiving and transmitting module, a real-time dynamic prompting module, an in-corridor environment monitoring module, a personnel positioning module, an equipment remote control module, a remote flow approval module, a code scanning inspection module and an information output module; the network signal transceiver module can automatically search and receive and connect to network signals sent by a wireless network device which is fully covered in the pipe gallery so as to receive shared data information sent by other management and control systems and networking equipment in real time, and upload and update the data information of the system in real time, and the data information is consistent with the comprehensive management and control system; the real-time dynamic prompting module can enable a worker in the pipe gallery to receive the alarm information of nearby equipment at any time through the handheld equipment, so that the efficiency of the worker is improved; if dangerous conditions occur in the pipe gallery, the alarm notification can be obtained in real time, the pipe gallery can be emergently evacuated, and the safety of inspection workers is guaranteed; the corridor internal environment monitoring module can receive messages transmitted by various sensors such as a temperature and humidity sensor, a harmful gas sensor, a vibration sensor and the like in the comprehensive pipe corridor, and feeds back the messages acquired through compiling processing to workers in the pipe corridor through the real-time dynamic prompting module; the personnel positioning module can accurately calculate the positions of personnel holding the equipment through the positions of the equipment in a network, camera information data inside a pipe gallery and three-dimensional data, and can track and synchronize the positions in real time, so that the personnel in the gallery and the personnel outside the gallery can know the accurate coordinates of the personnel at any time, and the development, quantitative assessment and safety guarantee of the work are facilitated; the equipment remote control module can control various instruments and equipment and various pipelines in the pipe gallery in real time through a network-based remote control system, and controls the on and off of the equipment and the pipelines in the gallery, so that workers outside the gallery can accurately and quickly control the equipment in the gallery; the remote process approval module can edit the pictures or videos shot and recorded by the portable equipment into the process approval table at any time, upload the pictures or videos to the management and control system of the comprehensive pipe gallery, and make work approval on line by managers; the manager can also use the portable equipment to examine and approve the flow and check the work report at any time, so that unnecessary examination and approval procedures are reduced, and the work efficiency is improved; the code scanning inspection module can read the fault information of the equipment and the record of maintenance through scanning the unique two-dimensional code on each equipment, and can inquire whether spare parts are available in real time through a network, so that reference information is provided for the maintenance and the repair of the equipment in the corridor; the information output module can transmit audio and video data and various data stored or acquired in the portable equipment to other modules, systems or equipment of the underground pipe gallery through a network at any time, so that data sharing is realized, and the acquired information and data are integrally analyzed by utilizing a big data technology.

Compared with the prior art, the utility model, utilize flourishing network technology and information transmission technology, solve inside staff of utility tunnel unable real time control piping lane equipment, communicate inconvenient and accurate real-time location difficult scheduling problem mutually, through structured comprehensive wiring system and computer network technology, can send and receive and control the function and the data of each system through portable information management and control system, make monitoring and control resources reach abundant sharing, realize concentrated, high-efficient, convenient management, constitute a powerful handheld portable information management and control system of utility tunnel; the design concept is scientific, the technical scheme is advanced, the control principle is reliable, the operation and the use are convenient, the real-time controllability is good, and the application environment is friendly.

Description of the drawings:

fig. 1 is the main structure diagram of the handheld portable information management and control system of the present invention.

Fig. 2 is a schematic block diagram of a main structure module of the handheld portable information management and control system according to the present invention.

Fig. 3 is a schematic block diagram of the main structure of the handheld portable information management and control system according to the present invention.

Fig. 4 is a schematic block diagram of the working principle of the main program of the handheld portable information management and control system according to the present invention.

The specific implementation mode is as follows:

specific embodiments of the present invention will be further described below by way of examples with reference to the accompanying drawings.

Example 1:

the handheld portable information management and control system major structure of utility tunnel that this embodiment relates to includes: the system comprises a power supply device 1, a chip integrated circuit board 2, an SOC chip 3, a RAM storage device 4, a system flash memory device 5, a network transceiver 6, an NFC device 7, a touch control device 8, a sound receiving device 9, a scanning camera device 10, a screen display device 11, a sound output device 12, a vibration device 13, an illuminating device 14 and an infrared signal emitting device 15; the power supply device 1 related to the present embodiment is bidirectionally electrically and information-connected to the chip integrated circuit board 2, the chip integrated circuit board 2 is bidirectionally electrically and information-connected to the SOC chip 3, the RAM storage device 4, the system flash memory device 5, the network transceiver 6, and the NFC device 7, the touch control device 8, the sound receiving device 9, and the scanning camera device 10 are unidirectionally electrically and information-connected to the chip integrated circuit board 2, and input data to the chip integrated circuit board 2, and the screen display device 11, the sound output device 12, the vibration device 13, the illumination device 14, and the infrared signal emitting device 15 are unidirectionally electrically and information-connected to the chip integrated circuit board 2, and receive output data of the chip integrated circuit board 2;

the power supply device 1 adopts a 4200 milliampere-hour lithium battery, the standard discharge voltage is 3.7VDC, the charge cut-off voltage is 4.4VDC, and the discharge cut-off voltage is 2.75 VDC; the chip integrated circuit board 2 is a main circuit board of the handheld portable information management and control system, is provided with slots of the chips or is connected with the chips and the devices by lines, and is integrated with a signal antenna, a charging circuit, a charging socket and an earphone jack; the SOC chip 3 integration comprises a Central Processing Unit (CPU), an image processing unit (GPU), a communication baseband, a Digital Signal Processor (DSP), a GPS positioning chip, a Beidou positioning chip, an audio processing chip and a power management chip; the RAM storage device 4 adopts 8GB LPDDR4 memory particles, the frequency is 1600Mhz, the bandwidth is 25.6G/s, and the working voltage is 1.1V; the system flash device 5 adopts 128GB UFS2.0 flash particles, the bandwidth is 1450MB/s, the sequential reading speed is 350MB/s, the sequential writing speed is 150MB/s, the random reading speed is 19K IOPS, and the random writing speed is 14K IOPS; the network transceiver 6 comprises a WIFI module main control chip, a radio frequency circuit and a Bluetooth chip; the NFC device 7 meets the ISO14443A and B standards, the memory capacity is 32 kbytes, the communication speed is 424kbit/s, the working frequency is 13.56MHz, and ASK modulation is performed; the touch control device 8 is a resistance type touch outer screen, the light transmittance is more than 90%, the induction force is less than 127g force, the surface hardness is Moh type 7 grade, and the single-point touch service life is 3500 ten thousand times; the sound receiving device 9 comprises 2 high-fidelity noise-reduction microphones, the rated voltage is 3.2VDC, the rated current is 60mA, and the power is 220 mW; the scanning camera device 10 comprises an 800 ten thousand pixel front camera and a 1600 ten thousand pixel rear camera, the apertures are f2.2 and f1.8 respectively, and the sensor types are a back-illuminated CMOS and a BSI CMOS respectively; the screen display device 11 adopts 5.5-inch led backlight to display an inner screen, the contrast ratio is 1400:1, P3 is used for wide color gamut display, and the maximum brightness is 625cd/m 2; the sound output device 12 comprises 2 loudspeakers, the rated voltage is 3.2-4.2 VDC, the rated current is less than or equal to 250mA, the power is 2W, and the brightness is 2000-7500 mcd; the vibration device 13 adopts a linear vibration motor, the rated voltage is 3.2VDC, the rated current is less than or equal to 90mA, and the power is 260 mW; the lighting device 14 adopts 4 high-brightness LED lamp beads, the rated voltage is 3.7VDC, the rated current is 120-250 mA, and the power is 260 mW; the infrared signal emitting device 15 is an infrared diode, the rated voltage is 3.2-4.2 VDC, the rated current is less than or equal to 25mA, and the power is 60 mW.

When the handheld portable information management and control system of the utility tunnel related to the embodiment is applied, the power supply device 1 supplies power to the whole system through the chip integrated circuit board 2, the chip integrated circuit board 2 is responsible for connecting each device and carrying out data transmission, the SOC chip 3 is responsible for calculating, processing graphic data, processing audio data, receiving and sending communication signals and locating the position of the system, the RAM storage device 4 is responsible for storing the data which is being used, calculated and processed, the system flash memory device 5 is responsible for storing all data of the handheld portable information management and control system of the utility tunnel, the network transceiver 6 is responsible for receiving and sending network data and Bluetooth data, the NFC device 7 is responsible for receiving and sending near field communication data when in contact, the touch control device 8 is responsible for receiving the instruction of a user, the sound receiving device 9 is responsible for receiving sound data, and the scanning camera device 10 is responsible for collecting image data, the screen display device 11 is responsible for outputting visual data, the sound output device 12 is responsible for outputting sound data, the vibration device 13 is responsible for outputting vibration reminding data, the lighting device 14 is responsible for providing light, and the infrared signal emitting device 15 is responsible for outputting infrared data; it is specific, the handheld portable information management and control system of utility tunnel can send the instruction of the interior real-time data of transfer piping lane through touch control device 8, the instruction passes through chip integrated circuit board 2 and transmits for SOC chip 3, SOC chip 3 is after calculation translation, transmit the instruction for network transceiver 6 through chip integrated circuit board 2, network transceiver 6 downloads the real-time data of piping lane through the connecting network, and extract RAM storage device 4 simultaneously to system flash memory device 5 through chip integrated circuit board 2 storage, carry out the arithmetic processing by SOC chip 3, then report the real-time data information in the piping lane to the user through screen display device 11 and sound output device 12.

Example 2:

the handheld portable information management and control system major structure module of utility tunnel that this embodiment relates to includes: the system comprises a system control processing module, a data storage module, a network signal transceiving module, a real-time dynamic prompting module, an in-corridor environment monitoring module, a personnel positioning module, an equipment remote control module, a remote flow approval module, a code scanning inspection module and an information output module; the system control processing module is in bidirectional electrical information connection with the data storage module; the data storage module is in electrical information connection with the real-time dynamic prompting module; the network signal transceiver module is in bidirectional electrical information connection with the data storage module; the corridor internal environment monitoring module, the personnel positioning module, the equipment remote control module, the remote process approval module, the code scanning inspection module and the information output module are in bidirectional electrical information connection with the network signal transceiving module;

the system control processing module is used for controlling all modules of the whole system and carrying out operation processing on data of all modules of the system;

the data storage module is used for storing data generated by other modules and transmitting the data to the real-time dynamic prompting module for dynamic prompting;

the network signal transceiver module comprises a network signal receiving device, a data transmitting device, a data storage device and a power supply device; the system can automatically search and receive network signals sent by a wireless network device which is fully covered in the pipe gallery, receive data information sent by other modules in real time, and transmit control signals of the system control processing module to the other modules;

the real-time dynamic prompting module comprises a message receiving device, a message storage device, a message processing device, a message display device, a sound prompting device, a vibration device and a power supply device; the system can enable the staff in the pipe gallery to receive the work information and the nearby equipment alarm information at any time through the handheld equipment, so that the efficiency of the staff is improved; if dangerous conditions occur in the pipe gallery, the alarm notification can be obtained in real time, the pipe gallery can be emergently evacuated, and the safety of inspection workers is guaranteed;

the corridor internal environment monitoring module comprises a temperature sensing device, a humidity sensing device, a vibration sensing device, a harmful gas sensing device, a pressure sensing device, a noise sensing device, a luminosity sensing device, a signal transmission device, a signal receiving device, a signal decoding processing device, an information storage device and a power supply device; the system can receive messages transmitted by various sensors such as temperature and humidity sensors, harmful gas sensors, vibration sensors and the like distributed in the comprehensive pipe rack, and feeds back the obtained messages to workers in the pipe rack through a real-time dynamic prompting module;

the personnel positioning module comprises a network base station positioning device, a monitoring positioning device, a data operation device, a data storage device, a positioning information transmission device and a power supply device; the position of a person holding the equipment can be accurately measured and calculated through the position of the equipment in a network, camera information data inside a pipe gallery and three-dimensional data, and the position can be tracked and synchronized in real time, so that the staff in the gallery and the staff outside the gallery can know the accurate coordinates of the staff at any time, and the development, quantitative assessment and safety guarantee of work are facilitated;

the equipment remote control module comprises a wireless network connecting device, a keyboard input device, a touch input device, a graphic display device, a control signal processing device, a control signal storage device, a control signal transmission device and a power supply device; various instruments and various pipelines in the pipe gallery can be controlled in real time through a network-based remote control system, and the opening and closing of the instruments and the pipelines in the pipe gallery are controlled, so that workers outside the pipe gallery can control the equipment in the pipe gallery accurately and quickly;

the remote process approval module comprises a wireless network connecting device, a shooting device, a keyboard input device, a touch input device, an image-text display device, a file processing device, a storage device, a file transmission device and a power supply device; photos or videos shot and recorded by the portable equipment can be edited into the process approval table at any time, and uploaded to the comprehensive pipe rack management and control system, and the management personnel can conduct work approval on line; the manager can also use the portable equipment to examine and approve the flow and check the work report at any time, so that unnecessary examination and approval procedures are reduced, and the work efficiency is improved;

the code scanning inspection module comprises a wireless network connecting device, a shooting device, a two-dimensional code identification device, a bar code identification device, an image-text display device, a storage device, an equipment information transmission device and a power supply device; the fault information and the maintenance record of the equipment can be read by scanning the unique two-dimensional code on each equipment, and whether spare parts are available or not can be inquired in real time through a network, so that reference information can be provided for the maintenance and the repair of the equipment in the corridor;

the information output module comprises a network connecting device, an information storage device, an information coding device, an information transmission device and a power supply device; the audio and video data and various data stored or obtained in the portable equipment can be transmitted to other modules, systems or equipment of the underground pipe gallery through the network at any time, data sharing is achieved, and the obtained information and data are integrally analyzed by using a big data technology.

Example 3:

each module of the handheld portable information management and control system of the underground comprehensive pipe gallery related to the embodiment realizes the function of the system by operating a computer program module; the related computer program modules mainly comprise: the system comprises a network signal transceiving program module, a real-time dynamic prompting program module, an in-corridor environment monitoring program module, a personnel positioning program module, an equipment remote control program module, a remote process approval program module, a code scanning inspection program module and an information output program module.

When the network signal transceiving module executes the network signal transceiving program module, the following operation steps are realized:

step 1, the program module receives a transceiving instruction sent by a system and confirms that the network signal transceiving module is connected to a wireless network (including but not limited to wireless WIFI signals and mobile phone network signals such as 2G, 3G, 4G or 5G);

step 2, the program module judges the receiving and sending instruction received in the step 1 as a signal receiving instruction or a signal sending instruction;

step 3, if the received instruction of the program module is a receiving instruction, receiving data information sent by the outside, and storing the information in a memory;

step 4, if the program module receives the instruction as an instruction, the program module receives data information sent by other modules in the system and sends the information to the equipment or the system specified by the instruction through the network;

step 5, the program module sends the received data information to the corresponding module according to the receiving instruction;

and 6, feeding back a signal of the sent data information to the system by the program module according to the sending command.

When the real-time dynamic prompt module executes the real-time dynamic prompt program module, the following operation steps are realized:

step 1, the program module sends a request to a system to receive alarm information and fault information instructions of nearby equipment, instruments and pipelines, the system transmits the instructions to an environment monitoring module in the corridor, and the environment monitoring module in the corridor transmits the request to a network signal transceiver module;

step 2, the program module receives the alarm information and fault information data of nearby equipment, instruments and pipelines sent by the environment monitoring program module in the corridor;

step 3, the program module carries out visualization processing on the received data information, so that the received alarm information or fault information and geographical position of the equipment, instruments and pipelines are displayed in a map and transmitted to a display screen for display;

step 4, the program module carries out tabular processing on the received data information, so that the received alarm information or fault information, geographical position information and reason preliminary judgment information of the equipment, the instrument and the pipeline are arranged in a table according to the distance and are transmitted to a display screen for displaying;

and step 5, passively receiving alarm information with high emergency danger levels (including but not limited to temperature, harmful gas concentration, pipe gallery vibration amplitude and the like exceeding a safety standard range) in the pipe gallery sent by the environment monitoring program module in the gallery, transmitting the alarm information to a display screen to be displayed in a pop-up message mode, and prompting the staff to evacuate to a safety position as soon as possible.

When the environment monitoring program module in the corridor is executed by the environment monitoring module in the corridor, the following operation steps are realized:

step 1, the program module receives and identifies a receiving instruction sent by a system, and transmits the instruction to a network signal transceiving module after processing;

step 2, a network signal transceiving program module receives the information transmitted by various sensors such as a temperature and humidity sensor, a harmful gas sensor, a vibration sensor and the like in the comprehensive pipe gallery, which is requested to be received by the program module;

step 3, the program module compiles and compares various received sensor information to judge whether the sensor information exceeds a reasonable range;

step 4, the program module transmits the compiled and compared sensor information to a system, and transmits information which exceeds a reasonable numerical range and needs to give an alarm in time to a real-time dynamic prompting module;

and 5, the program module repeatedly executes the program steps from the step 1 to the step 4 every 10 minutes.

When the personnel positioning module executes the personnel positioning program module, the following operation steps are realized:

step 1, the program module receives a personnel positioning instruction sent by a system, sends the instruction to a network signal transceiving module and requests to receive fuzzy positioning information of personnel handheld equipment in a corridor and monitoring information in a pipe corridor;

step 2, the program module receives fuzzy positioning information of the personnel handheld equipment in the corridor in the wireless network and the monitoring information in the pipe gallery after the fuzzy positioning, which are sent by the network signal transceiving module;

step 3, the program module determines the range of the section where the person in the corridor is located according to the fuzzy positioning information of the hand-held equipment of the person in the corridor in the wireless network;

step 4, analyzing the interval range of the person in the corridor determined in the step 3 by the program module to obtain a reference object and a distance of the person in the corridor in the monitoring data of the interval range, and calculating the distance data through the monitoring data;

step 5, the program module calculates the acquired data to obtain the accurate geographic position of the personnel in the corridor;

and 6, the program module marks the positioning data of the personnel in the corridor in the three-dimensional data of the pipe corridor.

When the equipment remote control module executes the equipment remote control program module, the following operation steps are realized:

step 1, the program module receives a specific control instruction sent by a system;

step 2, the program module compiles the received system control instruction to form a specific and definite control instruction for the equipment or the pipeline to be controlled;

step 3, the program module transmits the control instruction to a controller of the equipment or the pipeline needing to be remotely controlled through the network signal transceiving module, and after the controller of the equipment or the pipeline is controlled, the control result is fed back to the equipment remote control module;

step 4, the program module receives feedback control information through the network signal transceiver module;

and 5, transmitting the feedback control information to the system by the program module, and executing the next remote control instruction.

When the remote process approval module executes the remote process approval program module, the following operation steps are realized:

step 1, the program module receives an editing instruction sent by a system and edits a process approval table according to the instruction of a user;

step 2, compiling the edited process approval table into a network transmission signal by the program module, transmitting the network transmission signal to a comprehensive pipe gallery management and control system through a network signal transceiver module, and carrying out online process approval by a manager through a computer or a portable device;

step 3, the program module receives a process approval result sent by the comprehensive pipe gallery management and control system through the network signal receiving and sending module, and compiles the approval result into characters;

and 4, transmitting the written process approval result to the system by the program module.

When the code scanning inspection module executes the code scanning inspection program module, the following operation steps are realized:

step 1, after receiving a code scanning instruction sent by a system, a program module controls to start the camera equipment of the handheld equipment;

step 2, the program module prompts a user to carry out two-dimensional code scanning on the two-dimensional code of the target equipment aligned by the camera until the scanning is finished;

step 3, the program module decodes the scanned two-dimensional code to obtain basic parameter information of the equipment, the current equipment operation state, historical fault information and maintenance records;

step 4, the program module inquires the spare part inventory condition of the equipment through the network signal transceiver module;

and step 5, the program module executes the next code scanning inspection instruction.

When the information output module executes the information output program module, the following operation steps are realized:

step 1, the program module receives an information output instruction sent by a system;

step 2, the program module calls information data related in the instruction to perform data compression and compilation;

step 3, the program module transmits the compiled data information to a receiving device or a system specified by a system instruction through a network signal transceiving module;

and 4, executing the next information output instruction by the program module.

Claims (2)

1. The utility model provides a handheld portable information management and control system of utility tunnel which characterized in that major structure includes: the system comprises a power supply device, a chip integrated circuit board, an SOC chip, an RAM storage device, a system flash memory device, a network transceiver, an NFC device, a touch control device, a sound receiving device, a scanning camera device, a screen display device, a sound output device, a vibration device, an illuminating device and an infrared signal emitting device; the power supply device related to the embodiment is in bidirectional electrical information connection with a chip integrated circuit board, the chip integrated circuit board is in bidirectional electrical information connection with an SOC chip, an RAM storage device, a system flash memory device, a network transceiver and an NFC device, a touch control device, a sound receiving device and a scanning camera device are in unidirectional electrical information connection with the chip integrated circuit board and input data to the chip integrated circuit board, and a screen display device, a sound output device, a vibration device, a lighting device and an infrared signal sending device are in unidirectional electrical information connection with the chip integrated circuit board and receive output data of the chip integrated circuit board;

the power supply device adopts a 4200 milliampere-hour lithium battery, the standard discharge voltage is 3.7VDC, the charge cut-off voltage is 4.4VDC, and the discharge cut-off voltage is 2.75 VDC; the chip integrated circuit board is a main circuit board of the handheld portable information management and control system, is provided with slots of the chips or is connected with the chips and the devices by lines, and is integrated with a signal antenna, a charging circuit, a charging socket and an earphone jack; the SOC chip integration comprises a Central Processing Unit (CPU), an image processing unit (GPU), a communication baseband, a Digital Signal Processor (DSP), a GPS positioning chip, a Beidou positioning chip, an audio processing chip and a power management chip; the RAM storage device adopts 8GBLPDDR4 memory particles, the frequency is 1600Mhz, the bandwidth is 25.6G/s, and the working voltage is 1.1V; the system flash device adopts 128GB UFS2.0 flash particles, the bandwidth is 1450MB/s, the sequential reading speed is 350MB/s, the sequential writing speed is 150MB/s, the random reading speed is 19K IOPS, and the random writing speed is 14K IOPS; the network transceiver comprises a WIFI module main control chip, a radio frequency circuit and a Bluetooth chip; the NFC device meets ISO14443A and B standards, the memory capacity is 32 kbytes, the communication speed is 424kbit/s, the working frequency is 13.56MHz, and ASK modulation is performed; the touch control device is a resistance type touch outer screen, the light transmittance is more than 90%, the induction force is less than 127g force, the surface hardness is Moh type 7 grade, and the single-point touch service life is 3500 ten thousand times; the sound receiving device comprises 2 high-fidelity noise-reducing microphones, the rated voltage is 3.2VDC, the rated current is 60mA, and the power is 220 mW; the scanning camera device comprises an 800 ten thousand pixel front camera and a 1600 ten thousand pixel rear camera, the apertures are f2.2 and f1.8 respectively, and the sensor types are a back-illuminated CMOS and a BSI CMOS respectively; the screen display device adopts a 5.5-inch led backlight to display an inner screen, the contrast ratio is 1400:1, P3 is used for wide color gamut display, and the maximum brightness is 625cd/m 2; the sound output device comprises 2 loudspeakers, the rated voltage is 3.2-4.2 VDC, the rated current is less than or equal to 250mA, the power is 2W, and the brightness is 2000-7500 mcd; the vibration device adopts a linear vibration motor, the rated voltage is 3.2VDC, the rated current is less than or equal to 90mA, and the power is 260 mW; the lighting device adopts 4 high-brightness LED lamp beads, the rated voltage is 3.7VDC, the rated current is 120-250 mA, and the power is 260 mW; the infrared signal emitting device is an infrared diode, the rated voltage is 3.2-4.2 VDC, the rated current is less than or equal to 25mA, and the power is 60 mW.

2. The handheld portable information management and control system of utility tunnel of claim 1, characterized in that: when the handheld portable information management and control system of the underground comprehensive pipe gallery is applied, a power supply device supplies power to the whole system through a chip integrated circuit board, the chip integrated circuit board is responsible for connecting all devices and carrying out data transmission, an SOC chip is responsible for calculating, processing graphic data, processing audio data, receiving and sending communication signals and positioning the position of the system, an RAM storage device is responsible for storing data which is being used, calculated and processed, a system flash memory device is responsible for storing all data of the handheld portable information management and control system of the whole underground comprehensive pipe gallery, a network receiving and sending device is responsible for receiving and sending network data and Bluetooth data, an NFC device is responsible for receiving and sending data of near field communication when in contact, a touch control device is responsible for receiving instructions of a user, a sound receiving device is responsible for receiving sound data, a scanning camera device is responsible for collecting image data, and a screen display device, the sound output device is responsible for outputting sound data, the vibration device is responsible for outputting vibration reminding data, the lighting device is responsible for providing light rays, and the infrared signal sending device is responsible for outputting infrared data; it is specific, the handheld portable information management and control system of utility tunnel can send the instruction of the interior real-time data of transfer piping lane through touch control device, the instruction passes through chip integrated circuit board and transmits for the SOC chip, the SOC chip is after calculating the translation, transmit the instruction for network transceiver through chip integrated circuit board, network transceiver downloads the real-time data of piping lane through the connecting network, and through chip integrated circuit board storage to system's flash memory device extraction simultaneously to RAM storage device, carry out the arithmetic processing by the SOC chip, then report the real-time data information in the piping lane to the user through screen display device and sound output device.

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