CN112700612A - Mine anti-theft mining monitoring equipment and operation system thereof - Google Patents

Abstract

The invention discloses a mine anti-theft mining monitoring device, which comprises a bottom shell and a cover plate, wherein a circuit board is arranged in the bottom shell; a battery is arranged below the circuit board; the battery is connected with the self-locking switch and the power supply management chip, the locking switch is connected with the voltage stabilizing chip, the power supply management chip is respectively connected with the downloading port and the control chip, the control chip is connected with the FLASH memory, the control chip is connected with the operational amplifier, the operational amplifier is connected with the high-precision microphone to collect surrounding sound information, and the control chip converts the sound information into digital data; the control chip is connected with the 4G module and uploads the digital data to the cloud server through the 4G module. The invention has low power consumption, and works for half a year after being charged once; the invention has small size, high sensitivity, strong calculation, high transmission speed and good waterproof performance. The invention also discloses a matched running system which comprises a lower computer, the Internet of things, the cloud server and the upper computer system and can conveniently control the monitoring equipment.

Description

Mine anti-theft mining monitoring equipment and operation system thereof

Technical Field

The invention relates to the field of anti-theft equipment, in particular to mine anti-theft mining monitoring equipment and an operation system thereof.

Background

China has abundant black marble and black bluestone resources. Along with the national control on mineral resources and the attention on natural environment, the quarry is gradually closed, and the ecological environment is gradually improved. However, some people are private, do not consider the relevant laws and regulations of the country, are stolen privately, and seriously damage the environment. Because the mountains in China are many and scattered, the traditional patrol work mainly depends on patrol, inspection or camera monitoring of a sky-eye system by workers one by one, so that real-time prevention and control are difficult to achieve, manpower and material resources are consumed, the time is long, the effect is not ideal, and safety danger exists.

Disclosure of Invention

The invention aims to provide a mine anti-theft mining monitoring device which can replace a manual patrol and a sky eye system, realize real-time prevention and control, reduce the labor cost and the material cost and has good anti-theft effect; another object of the present invention is to provide an operation system of a mine anti-theft mining monitoring apparatus, by which the mine anti-theft mining monitoring apparatus can be conveniently controlled.

In order to achieve the purpose, the invention adopts the technical scheme that: the mine anti-theft mining monitoring equipment comprises a bottom shell and a cover plate, wherein installation parts are arranged at four end corners in the bottom shell, and internal thread holes are embedded in the installation parts; the cover plate is provided with a through hole corresponding to the internal thread hole and is fixed through a screw in a penetrating way; the bottom shell is internally provided with a circuit board and an inserting part, and the circuit board is fixedly inserted into the inserting part through inserting ports at four corners of the circuit board; the bottom surface of the circuit board is provided with a battery box, and a battery is arranged in the battery box;

the circuit board is provided with a voltage stabilizing chip, a self-locking switch, a power supply management chip, a control chip, a FLASH memory, an operational amplifier, a high-precision microphone, a download port, a 4G module, a linear voltage stabilizing chip, an SIM card and an LED lamp; the LEDs are respectively an LED lamp I and an LED lamp II;

the battery is connected with the self-locking switch and the power management chip; the self-locking switch is connected with the voltage stabilizing chip; the power management chip is respectively connected with the download port and the control chip; the control chip is connected with the FLASH memory; the control chip is connected with the operational amplifier; the operational amplifier is connected with the high-precision microphone, ambient sound information is collected through the high-precision microphone, and the sound information is converted into digital data through the control chip; the control chip is connected with the 4G module, digital data are uploaded to the cloud server through the 4G module, the 4G module is connected with the LED lamp I, the LED lamp II and the SIM card respectively, and the LED lamp is connected with the linear voltage stabilizing chip.

Preferably, the model of the voltage stabilizing chip is RT9053 AZQW; the model of the power management chip is MT 9700; the model of the control chip is STM32F103CBT 6; the model of the operational amplifier is LMV321WG-7U 1; the model of the FLASH memory is W25Q16 JVSSIQ; the model of the high-precision microphone is GM 199767P; the model of the 4G module is ML 302; the model of the linear voltage stabilizing chip is HI7336-A U3; the model number of the battery is 18650, and the battery is connected in parallel to supply power.

Furthermore, the cover plate is provided with a lamp hole relative to the first LED lamp and the second LED lamp and a through hole embedded with a transparent plate, and the through hole is aligned to the high-precision microphone.

Furthermore, the circuit board further comprises a first resistor, a second resistor, a third resistor, a fourth resistor, a sixth resistor, a fifth resistor and a capacitor; the resistor five is connected with the control chip, the resistor four and the resistor six are respectively connected with the operational amplifier, the resistor one is connected with the resistor two, the resistor three is respectively connected with the resistor one and the resistor two, the resistor one and the resistor two are respectively connected with the control chip, and the resistor two is also connected with the 4G module; and the capacitor is connected with the resistor five.

Furthermore, the circuit board further comprises a first internal antenna and a second internal antenna, and the first internal antenna and the second internal antenna are connected with the 4G module.

Furthermore, the circuit board also comprises a first triode, a second triode and a third triode; the first triode is connected with a second LED lamp, and the second triode is respectively connected with a 4G module and a third resistor; the tertiary pipe is connected with the 4G module.

Further, the model of the first tertiary pipe, the second tertiary pipe and the third tertiary pipe is S8050.

Furthermore, all openings on the monitoring equipment are adhered with water-proof sound-transmitting films.

An operation system of mine anti-theft mining monitoring equipment comprises a lower computer system, an Internet of things system, a cloud server system and an upper computer system;

the lower computer system comprises at least one mine anti-theft mining monitoring device, and is used for acquiring and uploading signals and primarily processing data by using a specific algorithm;

the Internet of things system transmits data, and the data are transmitted to the cloud server in real time through the wireless communication module;

the cloud server system performs data calculation and processing, and comprises the following steps:

firstly, a cloud server receives data transmitted by nodes of the Internet of things;

secondly, storing the transmitted data in a database;

thirdly, analyzing big data by using a database, and calculating and counting the data by combining a deep learning algorithm in the field of artificial intelligence;

the upper computer system can acquire information from the cloud server in real time, check and manage the equipment, and transmit alarm information to the command center through a PC client system, an APP mobile terminal system or a mobile phone short message.

According to the mine anti-theft mining monitoring equipment, the internal module is designed with low power consumption, one-time charging is realized, continuous operation is carried out for more than half a year, and the maintenance workload is reduced; the device has small integral size, is convenient to be buried outdoors, adopts a high-precision industrial sensor as a data acquisition module, has high sensitivity, strong calculation capacity and high transmission speed, and can effectively detect wide-frequency and low-amplitude environmental information within the range of 100 meters. In order to meet the requirements of field work, the equipment adopts the water-proof sound-transmitting film for waterproof treatment, so that the waterproof performance is improved, and the adaptability to humid environments such as rainy and snowy weather is enhanced. The operation system of the mine anti-theft mining monitoring equipment can be used for conveniently controlling the mine anti-theft mining monitoring equipment.

Drawings

FIG. 1 is a schematic perspective view of a listening device of the present invention;

FIG. 2 is a schematic diagram of the structure of the housing of the monitoring device of the present invention;

FIG. 3 is a schematic diagram of the circuit board structure of the present invention;

FIG. 4 is a schematic diagram of a circuit structure of a circuit board;

FIG. 5 is a flow chart of the operation of the operating system of the present invention;

FIG. 6 is a schematic view of the monitoring system functional options of the present invention;

in the figure: 1. the LED lamp comprises a bottom shell, 11 mounting parts, 12 internal thread holes, 2 cover plates, 21 lamp holes, 22 through holes, 23 screws, 24 through holes, 3 circuit boards, 4 battery boxes, 41 batteries, 5 voltage stabilizing chips, 51 self-locking switches, 52 power management chips, 53 control chips, 54 FLASH memories, 55 operational amplifiers, 56 high-precision microphone heads, 57 download ports, 58.4G modules, 59 linear voltage stabilizing chips, 60 SIM cards, 61.LED lamp I, 62 LED lamp II, 63 resistor I, 64 resistor II, 65 resistor III, 66 resistor IV, 67 resistor V, 68 resistor VI, 69 capacitor, 70 triode I, 71 triode II, 72 triode III, 73 built-in antenna I, 74 built-in antenna II.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, the mine anti-theft mining monitoring equipment comprises a bottom shell 1 and a cover plate 2, wherein mounting parts 11 are arranged at four end corners in the bottom shell 1, and internal thread holes 12 are embedded in the mounting parts 11; the cover plate 2 is provided with a through hole 22 corresponding to the internal thread hole 12 and is fixed by a screw 23 in a penetrating way; a circuit board 3 is arranged in the bottom shell 1 and is provided with an inserting part, and the circuit board 3 is inserted and fixed with the inserting part through inserting ports at four corners of the circuit board; a battery box 4 is arranged on the bottom surface of the circuit board 3, and a battery 41 is arranged in the battery box 4;

the circuit board 3 is provided with a voltage stabilizing chip 5, a self-locking switch 51, a power management chip 52, a control chip 53, a FLASH memory 54, an operational amplifier 55, a high-precision microphone 56, a download port 57, a 4G module 58, a linear voltage stabilizing chip 59, an SIM card 60 and an LED lamp; the LEDs are respectively a first LED lamp 61 and a second LED lamp 62;

the battery 41 is connected with the self-locking switch 51 and the power management chip 52; the self-locking switch 51 is connected with the voltage stabilizing chip 5; the power management chip 52 is respectively connected with the download port 57 and the control chip 53; the control chip 53 is connected with a FLASH memory 54; the control chip 53 is connected with an operational amplifier 55; the operational amplifier 55 is connected with the high-precision microphone 56, ambient sound information is collected through the high-precision microphone 56, and the sound information is converted into digital data through the control chip 53; the control chip 53 is connected with a 4G module 58, digital data are uploaded to the cloud server through the 4G module 58, the 4G module 58 is respectively connected with a first LED lamp 61, a second LED lamp 62 and an SIM card 60, and the first LED lamp 61 is connected with a linear voltage stabilizing chip 59.

The model of the voltage stabilizing chip 5 is RT9053 AZQW; the model of the power management chip 52 is MT 9700; the model of the control chip 53 is STM32F103CBT 6; the model of the operational amplifier 55 is LMV321WG-7U 1; the model of the FLASH memory 54 is W25Q16 JVSSIQ; the model of the high-precision microphone 56 is GM 199767P; the model of the 4G module 58 is ML 302; the model of the linear voltage stabilizing chip 59 is HI7336-A U3; the model number of the battery 41 is 18650, and the battery has two sections which are connected in parallel to supply power.

The cover plate 2 is provided with a lamp hole 21 corresponding to the first LED lamp 61 and the second LED lamp 62, and a through hole 24 embedded with a transparent plate, wherein the through hole 24 is aligned with the high-precision microphone 56.

The circuit board 3 further comprises a first resistor 63, a second resistor 64, a third resistor 65, a fourth resistor 66, a sixth resistor 68, a fifth resistor 67 and a capacitor 69; the fifth resistor 67 is connected with the control chip 53, the fourth resistor 66 and the sixth resistor 68 are respectively connected with the operational amplifier 55, the first resistor 63 is connected with the second resistor 64, the third resistor 65 is respectively connected with the first resistor 63 and the second resistor 64, the first resistor 63 and the second resistor 64 are respectively connected with the control chip 53, and the second resistor 64 is also connected with the 4G module 58; the capacitor 69 is connected to a resistor five 67.

The circuit board 3 further comprises a first internal antenna 73 and a second internal antenna 74, and the first internal antenna 73 and the second internal antenna 74 are connected with the 4G module 58.

The circuit board 3 further comprises a first triode 70, a second triode 71 and a third triode 72; the first triode 70 is connected with the second LED lamp 62, and the second triode 71 is respectively connected with the 4G module 58 and the third resistor 65; the tertiary pipe three 72 is connected to the 4G module 58.

The model of the first tertiary pipe 70, the second tertiary pipe 71 and the third tertiary pipe 72 is S8050.

In order to improve the waterproof performance and enhance the adaptability to the humid environments such as rain and snow weather, all the openings on the monitoring equipment are adhered with water-proof sound-transmitting films.

When the monitoring equipment works, the monitoring equipment is automatically controlled by an operating system installed in a circuit board 3, the system is powered by a battery 41, is stabilized by a voltage stabilizing chip 5 and supplies power to the whole system, the high-precision microphone 56 collects surrounding sound information, the control chip 53 digitizes the sound information by using a convolutional neural network algorithm, uploads digitized data to a cloud server through a 4G module 58, performs big data analysis on the cloud server, is matched with a sound template, and feeds back results to an upper computer system.

As shown in fig. 5, an operation system of a mine anti-theft mining monitoring device includes a lower computer system, an internet of things system, a cloud server system and an upper computer system;

the lower computer system comprises at least one mine anti-theft mining monitoring device, the signals are collected and uploaded, the data are preliminarily processed by using a specific algorithm, and the interference of wind noise, rain noise and bird noise in collected sound sources can be effectively eliminated;

the Internet of things system transmits data, and the data are transmitted to the cloud server in real time through the wireless communication module;

the cloud server system performs data calculation and processing, and comprises the following steps:

firstly, a cloud server receives data transmitted by nodes of the Internet of things;

secondly, storing the transmitted data in a database;

thirdly, analyzing big data by using a database, and calculating and counting the data by combining a deep learning algorithm in the field of artificial intelligence;

the upper computer system can acquire information from the cloud server in real time, check and manage the equipment, and transmit alarm information to the command center through a PC client system, an APP mobile terminal system or a mobile phone short message.

The operation system of the mine anti-theft mining equipment adopts a high-precision sensor to collect the environmental information of a delayed opening, the collected environmental information is uploaded to a cloud server through a wireless 4G network, meanwhile, the collected data is subjected to feature extraction, processing, analysis and similarity matching operation at the cloud server end, the probability of suspected illegal mining behaviors is calculated, the probability data and the collected sound data are sent to a PC end and a mobile end through an Internet network, workers can receive early warning information in real time, meanwhile, on-site recording can be played, and further judgment can be carried out manually.

Further, the monitoring system interface of the operation system of the mine anti-theft mining equipment consists of a control management interface, a real-time embedded Baidu map display, an alarm level display and a 12-hour alarm information bar chart, and can be monitored at a PC (personal computer) end in real time. And has the functions of historical information viewing, alarm statistics and the like. As shown in fig. 6, the functions of the operating system include: firstly, remote listening; second, hundred degree map; thirdly, power saving processing is carried out; fourthly, remotely saving electricity; fifthly, sharing the sound records; sixthly, downloading the recording; seventhly, listening for free at long distance; eighthly, vibration anti-theft reminding.

Claims (9)

1. The utility model provides a mine theftproof is adopted and is monitored equipment which characterized in that: the anti-theft door comprises a bottom shell (1) and a cover plate (2), wherein installation parts (11) are arranged at four end corners in the bottom shell (1), and internal thread holes (12) are embedded in the installation parts (11); the cover plate (2) is provided with a through hole (22) corresponding to the internal thread hole (12) and is fixed through a screw (23); the bottom shell (1) is internally provided with a circuit board (3) and is provided with an inserting part, and the circuit board (3) is fixedly inserted with the inserting part through inserting ports at four corners of the circuit board; a battery box (4) is arranged on the bottom surface of the circuit board (3), and a battery (41) is arranged in the battery box (4);

the circuit board (3) is provided with a voltage stabilizing chip (5), a self-locking switch (51), a power management chip (52), a control chip (53), a FLASH memory (54), an operational amplifier (55), a high-precision microphone (56), a downloading port (57), a 4G module (58), a linear voltage stabilizing chip (59), an SIM card (60) and an LED lamp; the LEDs are respectively a first LED lamp (61) and a second LED lamp (62);

the battery (41) is connected with the self-locking switch (51) and the power management chip (52); the self-locking switch (51) is connected with the voltage stabilizing chip (5); the power management chip (52) is respectively connected with the download port (57) and the control chip (53); the control chip (53) is connected with a FLASH memory (54); the control chip (53) is connected with an operational amplifier (55); the operational amplifier (55) is connected with the high-precision microphone (56), ambient sound information is collected through the high-precision microphone (56), and the sound information is converted into digital data through the control chip (53); control chip (53) are connected 4G module (58), upload to the cloud server through 4G module (58) digital data, LED lamp (61), LED lamp two (62) and SIM card (60) are connected respectively to 4G module (58), linear steady voltage chip (59) is connected in LED lamp (61).

2. The mine anti-theft mining monitoring equipment according to claim 1, wherein the model of the voltage stabilizing chip (5) is RT9053 AZQW; the model of the power management chip (52) is MT 9700; the model of the control chip (53) is STM32F103CBT 6; the model of the operational amplifier (55) is LMV321WG-7U 1; the model of the FLASH memory (54) is W25Q16 JVSIQ; the model of the high-precision microphone (56) is GM 199767P; the model of the 4G module (58) is ML 302; the model of the linear voltage stabilizing chip (59) is HI7336-A U3; the model number of the battery (41) is 18650, and the battery has two sections which are connected in parallel to supply power.

3. The mine anti-theft mining monitoring device according to claim 2, characterized in that the cover plate (2) is provided with lamp holes (21) corresponding to the first LED lamp (61) and the second LED lamp (62), and a through hole (24) embedded with a transparent plate, wherein the through hole (24) is aligned with the high-precision microphone (56).

4. The mine anti-theft mining monitoring device according to claim 2, characterized in that the circuit board (3) further comprises a first resistor (63), a second resistor (64), a third resistor (65), a fourth resistor (66), a sixth resistor (68), a fifth resistor (67) and a capacitor (69); the resistance five (67) is connected with the control chip (53), the resistance four (66) and the resistance six (68) are respectively connected with the operational amplifier (55), the resistance one (63) is connected with the resistance two (64), the resistance three (65) is respectively connected with the resistance one (63) and the resistance two (64), the resistance one (63) and the resistance two (64) are respectively connected with the control chip (53), and the resistance two (64) is also connected with the 4G module (58); the capacitor (69) is connected with a resistor five (67).

5. The mine anti-theft mining monitoring device according to claim 2, characterized in that the circuit board (3) further comprises a first internal antenna (73) and a second internal antenna (74), and the first internal antenna (73) and the second internal antenna (74) are connected with the 4G module (58).

6. The mine anti-theft mining monitoring device according to claim 2, characterized in that the circuit board (3) further comprises a first triode (70), a second triode (71) and a third triode (72); the first triode (70) is connected with a second LED lamp (62), and the second triode (71) is respectively connected with the 4G module (58) and the third resistor (65); the tertiary pipe III (72) is connected with the 4G module (58).

7. The mine anti-theft mining monitoring equipment according to claim 6, wherein the type of the first tertiary pipe (70), the second tertiary pipe (71) and the third tertiary pipe (72) is S8050.

8. The mine anti-theft mining monitoring device according to any one of claims 1 to 7, wherein a water-proof sound-transmitting film is attached to all the openings of the monitoring device.

9. An operation system of mine anti-theft mining monitoring equipment is characterized by comprising a lower computer system, an Internet of things system, a cloud server system and an upper computer system;

the lower computer system comprises at least one mine anti-theft mining monitoring device, and is used for acquiring and uploading signals and primarily processing data by using a specific algorithm;

the Internet of things system transmits data, and the data are transmitted to the cloud server in real time through the wireless communication module;

the cloud server system performs data calculation and processing, and comprises the following steps:

firstly, a cloud server receives data transmitted by nodes of the Internet of things;

secondly, storing the transmitted data in a database;

thirdly, analyzing big data by using a database, and calculating and counting the data by combining a deep learning algorithm in the field of artificial intelligence;

the upper computer system can acquire information from the cloud server in real time, check and manage the equipment, and transmit alarm information to the command center through a PC client system, an APP mobile terminal system or a mobile phone short message.

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