CN219030792U - Belt seam edge monitoring facilities - Google Patents
Belt seam edge monitoring facilities Download PDFInfo
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- CN219030792U CN219030792U CN202223332686.3U CN202223332686U CN219030792U CN 219030792 U CN219030792 U CN 219030792U CN 202223332686 U CN202223332686 U CN 202223332686U CN 219030792 U CN219030792 U CN 219030792U
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Abstract
The utility model discloses a belt joint edge monitoring device, which solves the technical problems of larger transmission delay and untimely treatment in the prior art, and belongs to the technical field of coal mine explosion-proof safety, and the specific technical scheme is as follows: including the flameproof housing, the flameproof housing closes through the upper cover plate lid, a plurality of explosion-proof horn mouths have been arranged to the back side of flameproof housing, parallel arrangement has fixed plate and card formula computer in the flameproof housing, first interface has been arranged on the fixed plate, this ampere of power and 5G communication unit, this ampere of power is connected with the power interface electricity, this ampere of power is main power supply unit, for whole monitoring facilities provides the power, card formula computer passes through the switch access connection with 5G communication unit, under mine environment, high definition digtal camera shoots the belt and passes into this analytical equipment with image information, according to speed information analysis seam change, analysis result after the processing shows through 5G wireless transmission to other service software, promote the construction of wisdom mine.
Description
Technical Field
The utility model belongs to the technical field of coal mine explosion-proof safety, and particularly relates to AI edge calculation and analysis equipment applied to mining powerful belt seam detection.
Background
The mining powerful belt is a main conveying tool for carrying coal mine coal production, the maintenance and the use of the belt are heavy in daily work, joints on the belt are weak points of stress in the process of conveying the powerful belt, and the scene of tearing of joint openings is easy to occur, so that belt damage causes belt conveying accidents. The belt seam changes under different conditions when loaded and unloaded, thereby causing hidden trouble that can not be found in the manual static inspection process.
Along with the promotion of intelligent construction of mines on coal mines, the construction and intelligent application of intelligent mines are gradually increased, the abnormality of a belt is usually checked in real time by adopting a mode of increasing high-definition cameras, more and more image acquisition equipment is installed in coal mines, high-definition acquisition necessarily means big data, high bandwidth is transmitted, the conditions of larger transmission delay and untimely treatment exist, and then how to solve the problem of lowering the bandwidth of the transmitted data and simultaneously rapidly analyzing and giving out results becomes a key technical point in application.
At present, no intelligent monitoring equipment of the type is adopted for manual static inspection, so that the whole process cannot be intelligent, the feedback of the edge state of the whole belt is slow, and the intelligent monitoring equipment cannot adapt to the requirements of modern coal mines.
Disclosure of Invention
The utility model provides belt joint edge monitoring equipment, which is used for solving the technical problems of relatively large transmission delay and untimely treatment in the prior art, and can analyze and track real-time change of a mining powerful belt in a mining environment under the condition of loading and unloading by carrying out AI (analog-digital) rapid analysis on an ingested high-definition belt image, so that the whole edge analysis efficiency and the utilization rate of a broadband are improved.
In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: a belt seam edge monitoring device comprises an explosion-proof shell, wherein the upper part of the explosion-proof shell is provided with an opening, the explosion-proof shell is covered by an upper cover plate, and dust and sundries are prevented from entering the explosion-proof shell.
A plurality of fixed feet are arranged on the front side of the flameproof shell, and the flameproof shell is supported by the fixed feet.
A plurality of explosion-proof horn mouths are arranged on the back side of the explosion-proof shell, and are connected with external equipment through the explosion-proof horn mouths, so that the explosion-proof horn mouths can play a good explosion-proof role to adapt to the requirements of underground environments.
The back side of the flameproof shell is provided with a plurality of fixing feet, and the flameproof shell is supported by the plurality of fixing feet.
A handle auxiliary plate is arranged on the left side face of the flameproof shell, and a handle is fixed through the handle auxiliary plate.
A handle auxiliary plate is arranged on the right side face of the flameproof shell, and a handle is fixed through the handle auxiliary plate.
The top of flameproof housing has arranged two apron pull rings, and two apron pull rings symmetrical arrangement through portable apron pull ring, can make things convenient for the staff to remove the upper cover plate.
The middle part of upper cover plate is equipped with the data plate, conveniently demonstrates product information.
The explosion-proof housing is internally provided with a fixing plate and a card type computer in parallel, the fixing plate is arranged in parallel with the card type computer, the fixing plate is arranged below the card type computer, the fixing plate is fixed in the explosion-proof housing, the card type computer is supported on the fixing plate through a plurality of upright posts, an interlayer is formed between the card type computer and the fixing plate, a first interface is arranged on the fixing plate, and the first interface is arranged in the interlayer.
An intrinsic safety power supply and a 5G communication unit are arranged on the fixed plate, the intrinsic safety power supply is electrically connected with the power interface, and is used as main power supply equipment for providing power for the whole monitoring equipment; the card type computer is connected with the 5G communication unit through the switch.
The card type computer is provided with a second interface, a third interface, a first USB interface, a second USB interface, a third USB interface, an HDMI interface and a network port, and is communicated with external communication equipment through the second interface, the third interface, the first USB interface, the second USB interface, the third USB interface, the HDMI interface and the network port.
The backup power supply is further arranged on the fixing plate, and when the electric quantity of the intrinsic safety power supply is insufficient, the backup power supply provides electric quantity supply, so that the normal operation of the equipment is ensured.
Compared with the prior art, the utility model has the following specific beneficial effects:
1. according to the utility model, an integrated design is adopted, and each functional component is installed in one explosion-proof shell as much as possible, so that the requirement of an underground installation space can be met, the installation is convenient and rapid, and the adjustability is good.
2. The utility model is arranged in a mine environment, and is connected with a high-definition camera aiming at the complex situation of the underground environment, the high-definition camera shoots a belt and transmits image information to analysis equipment, so that the image information is identified and analyzed, and joint change is analyzed according to speed information. The processed analysis result is transmitted to other service software for display through 5G wireless, and meanwhile, the processed analysis result can be locally displayed through a connection display, so that the construction of an intelligent mine can be better promoted.
Drawings
Fig. 1 is a perspective view of the present utility model.
Fig. 2 is a top view of the present utility model.
FIG. 3 is a schematic diagram of a connection structure between a fixed plate and a card type computer.
In the figure, 1 is an explosion-proof shell, 2 is an upper cover plate, 3 is a fixed pin, 4 is an explosion-proof horn mouth, 5 is a handle auxiliary plate, 6 is a cover plate pull ring, 7 is a nameplate, 8 is a fixed plate, 9 is a card type computer, 10 is a stand column, 11 is an intrinsic safety power supply, 12 is a 5G communication unit, 13 is a first interface, 14 is a second interface, 15 is a third interface, 16 is a first USB interface, 17 is a second USB interface, 18 is a third USB interface, 19 is an HDMI interface, 20 is a network port, and 21 is a backup power supply.
Detailed Description
In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.
As shown in fig. 1-3, the belt seam edge monitoring equipment comprises an explosion-proof shell 1, wherein an upper opening of the explosion-proof shell 1 is formed, the explosion-proof shell 1 is covered by an upper cover plate 2, and dust and sundries are prevented from entering the explosion-proof shell 1.
A plurality of fixing legs 3 are arranged on the front side of the flameproof housing 1, and the flameproof housing 1 is supported by the plurality of fixing legs 3.
The back side of flameproof housing 1 has arranged a plurality of explosion-proof horn mouth 4, links to each other with outside equipment through explosion-proof horn mouth 4, and explosion-proof horn mouth 4 can play better explosion-proof effect to adapt to the demand of environment in the pit.
A plurality of fixing legs 3 are arranged on the back side of the flameproof housing 1, and the flameproof housing 1 is supported by the plurality of fixing legs 3.
A handle auxiliary plate 5 is arranged on the left side surface of the flameproof housing 1, and the handle is fixed by the handle auxiliary plate 5.
A handle auxiliary plate 5 is arranged on the right side surface of the flameproof housing 1, and the handle is fixed by the handle auxiliary plate 5.
Two cover plate pull rings 6 are arranged at the top of the flameproof shell 1, the two cover plate pull rings 6 are symmetrically arranged, and the upper cover plate 2 can be conveniently moved by a worker through the portable cover plate pull rings 6.
The middle part of upper cover plate 2 is equipped with data plate 7, conveniently demonstrates product information.
The explosion-proof housing 1 is internally provided with a fixed plate 8 and a card type computer 9 in parallel, the card type computer 9 is a Raspberry Pi 4B computing core, the fixed plate 8 is arranged in parallel with the card type computer 9, the fixed plate 8 is arranged below the card type computer 9, the fixed plate 8 is fixed in the explosion-proof housing 1, the card type computer 9 is supported on the fixed plate 8 through a plurality of upright posts 10, an interlayer is formed between the card type computer 9 and the fixed plate 8, a first interface 13 is arranged on the fixed plate 8, and the first interface 13 is arranged in the interlayer.
The fixed plate 8 is provided with an intrinsic safety power supply 11 and a 5G communication unit 12, the intrinsic safety power supply 11 is electrically connected with a power interface, and the intrinsic safety power supply 11 is a main power supply device and provides power for the whole monitoring device; the card computer 9 is connected with the 5G communication unit 12 through a switch access. The exchanger is a gigabit exchanger, and the card type computer 9 and the 5G communication unit 12 both provide gigabit broadband network interfaces, and simultaneously allow high-definition image large data stream equipment access and common hundred megapieces of equipment access of external access.
The card type computer 9 is provided with a second interface 14, a third interface 15, a first USB interface 16, a second USB interface 17, a third USB interface 18, an HDMI interface 19 and a network port 20, and is communicated with external communication equipment through the second interface 14, the third interface 15, the first USB interface 16, the second USB interface 17, the third USB interface 18, the HDMI interface 19 and the network port 20.
The backup power supply 21 is further arranged on the fixed plate 8, the backup power supply 21 is 10000mAH nickel-hydrogen batteries, and under the condition that the intrinsic safety power supply 11 is powered off, uninterrupted power supply for two hours can be ensured, and normal operation of equipment is ensured.
The processing equipment disclosed by the utility model is arranged in the flameproof shell 1 for flameproof protection, after the high-definition camera of the shot belt is connected with the analysis equipment, the joint image can be analyzed and identified, joint change is analyzed according to speed information, AI (automatic identification) rapid analysis is performed on the high-definition belt image in the existing edge calculation mode, the analysis result of core calculation can be transmitted to other service software for display in a 5G wireless mode, and meanwhile, the analysis result can be locally displayed through being connected with a display, so that the construction of an intelligent mine can be better promoted.
The utility model avoids occupying the wide band of the network port 20 due to the AI processing of the edge calculation, reduces the load of the underground network, ensures the safe transmission of the ring network data and ensures the normal operation of other systems.
The utility model relies on the existing disclosed computer program to realize the complete function, and the defined function can be completely realized with the help of the known computer processing method, therefore, the utility model does not relate to the updating of algorithm and computer program, but only relates to the improvement of structure.
The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.
Claims (2)
1. The belt seam edge monitoring equipment is characterized by comprising an explosion-proof shell (1), wherein the upper part of the explosion-proof shell (1) is provided with an opening, and the explosion-proof shell (1) is covered by an upper cover plate (2);
a plurality of fixing feet (3) are arranged on the front side of the flameproof shell (1);
a plurality of explosion-proof horn nozzles (4) are arranged on the back side of the explosion-proof shell (1), and a plurality of fixing feet (3) are arranged on the back side of the explosion-proof shell (1);
a handle auxiliary plate (5) is arranged on the left side surface of the flameproof shell (1);
a handle auxiliary plate (5) is arranged on the right side surface of the flameproof shell (1);
two cover plate pull rings (6) are arranged at the top of the explosion-proof shell (1), the two cover plate pull rings (6) are symmetrically arranged, and a nameplate (7) is arranged in the middle of the upper cover plate (2);
the anti-explosion device is characterized in that a fixing plate (8) and a card type computer (9) are arranged in the anti-explosion shell (1) in parallel, the fixing plate (8) and the card type computer (9) are arranged in parallel, the fixing plate (8) is arranged below the card type computer (9), the fixing plate (8) is fixed in the anti-explosion shell (1), the card type computer (9) is supported on the fixing plate (8) through a plurality of upright posts (10), an intrinsic safety power supply (11) and a 5G communication unit (12) are arranged on the fixing plate (8), a first interface (13) is arranged on the fixing plate (8), and a second interface (14), a third interface (15), a first USB interface (16), a second USB interface (17), a third USB interface (18), an HDMI interface (19) and a network port (20) are arranged on the card type computer (9).
2. Belt seam edge monitoring device according to claim 1, characterized in that the stationary plate (8) is further provided with a backup power supply (21).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223332686.3U CN219030792U (en) | 2022-12-13 | 2022-12-13 | Belt seam edge monitoring facilities |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223332686.3U CN219030792U (en) | 2022-12-13 | 2022-12-13 | Belt seam edge monitoring facilities |
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Publication Number | Publication Date |
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CN219030792U true CN219030792U (en) | 2023-05-16 |
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CN202223332686.3U Active CN219030792U (en) | 2022-12-13 | 2022-12-13 | Belt seam edge monitoring facilities |
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CN (1) | CN219030792U (en) |
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- 2022-12-13 CN CN202223332686.3U patent/CN219030792U/en active Active
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