CN210006186U - engineering vehicle early warning identification system based on transmission line - Google Patents

Abstract

The utility model discloses a engineering vehicle early warning identification system based on transmission line, including overhead high tension transmission line, monitoring devices, network transmission system, central platform and control terminal, monitoring devices is used for gathering overhead high tension transmission line surrounding environment image information to transmit environment image information to central platform through network transmission system and handle, in order to judge whether engineering vehicle around the overhead high tension transmission line has the danger of touching the electric wire, and with the information transmission after handling to control terminal, control terminal has the early warning function, works as central platform sends it overhead high tension transmission line has when being touched dangerous information, control terminal sends early warning information, and the suggestion engineering vehicle has the danger of touching the electric wire, effectual detection and the early warning problem to the engineering vehicle around the current transmission line of having solved, easy and simple to handle, application scope , the maintenance cost is low, and the installation is swift, and the control point is many and with low costs.

Description

engineering vehicle early warning identification system based on transmission line

Technical Field

The utility model relates to an engineering vehicle early warning identification system field, concretely relates to engineering vehicle early warning identification system based on transmission line.

Background

The construction of a strong intelligent power grid with the characteristics of datamation, digitalization, automation and interaction is a safe, reliable and efficient transmission guarantee, is the direction of power science development and is particularly important for monitoring the power grid, a transmission line serving as a power transmission link has the characteristics of large dispersity, long distance, difficulty in inspection and maintenance and the like, meanwhile, due to the fact that the height of a transmission line circuit is different from that of a tower, the height of the electric wire of some transmission lines circuit is lower relative to the ground, the height of an engineering vehicle is larger, and the situation that the electric wire of the engineering vehicle is easily laid after the engineering vehicle is loaded with goods is easily generated, so that hidden dangers are generated on the safety of the transmission line circuit, and even if the existing detection equipment collects data, an alarm signal cannot be given to the other side to prompt, the popularization of the existing engineering vehicle is higher, so that the electric power demand is continuously increased, and the detection and early warning on the engineering vehicle are particularly important for early warning.

Meanwhile, when the current transmission line circuit adopts a camera to collect images, the angle is fixed like , the adjustment difficulty is high, the circuit special for is required to supply power, when the power failure condition occurs, the condition that data cannot be collected timely is easy to occur, some signal transmission also adopts limited transmission, the transmission distance is long and short, the current monitoring device needs to be searched when the current state of a certain point needs to be observed, the position of the camera cannot be found quickly and accurately, meanwhile, when the temperature is detected in a severe region, the working difficulty is high, the installation of the camera is troublesome, the installation efficiency is low, when the camera is checked at the rear end, a fixed-point display is adopted to observe in the prior art like , effective combination with a mobile phone and the like cannot be carried out, and therefore, remote monitoring around the transmission line becomes urgent work.

SUMMERY OF THE UTILITY MODEL

In order to solve certain or some technical problem that exists among the prior art, the utility model provides an kind of engineering vehicle early warning identification system based on transmission line, effectual solution to the detection and the early warning problem of the engineering vehicle around the current transmission line, easy and simple to handle, application scope , the flow expense is low, and the maintenance cost is low, and the installation is swift, and the control point is many and with low costs.

For solving the above-mentioned prior art problem, the utility model discloses a following scheme:

engineering vehicle early warning and identifying system based on transmission line, including overhead high voltage transmission line, monitoring device, network transmission system, central platform and control terminal;

the monitoring device is fixed on the overhead high-voltage transmission line and used for acquiring image information of the surrounding environment of the overhead high-voltage transmission line;

the network transmission system is in signal connection with the monitoring device and is used for transmitting the environmental image information acquired by the monitoring device to the central platform for processing;

the central platform is in signal connection with the control terminal and is suitable for processing the environment image information so as to judge whether engineering vehicles around the overhead high-voltage power transmission line are in danger of touching the electric wire or not and sending the processed information to the control terminal;

the control terminal has an early warning function, and when the central platform sends information that the overhead high-voltage transmission line is in danger of being touched to the central platform, the control terminal sends early warning information to prompt an engineering vehicle that the engineering vehicle is in danger of touching the electric wire;

the control terminal is suitable for being in signal connection with the monitoring device through the central platform, so that the shooting angle of the monitoring device is controlled.

, the monitoring device comprises a camera, a power supply system arranged on the camera, and a controller arranged on the camera and controlled by the central platform, wherein the controller supplies power to the camera through the power supply system, and the controller receives the command sent by the control terminal to the central platform and then adjusts the shooting angle of the camera.

, the power supply system includes a solar panel and a battery, the battery is used for inputting power and storing, the camera and the controller are powered by the battery and/or the solar panel.

step by step, the monitoring device still includes and adjusts the seat, adjust the seat including fixing U type main support, bottom on overhead high tension transmission line's the shaft tower are fixed the bracing piece on the U type main support, are established the second bracing piece of U type main support side, solar cell panel fixes on the bracing piece, the battery is fixed on the second bracing piece, the battery is U type structure, the camera with the controller is established in the battery, solar cell panel with connect the transmission of electricity through the patch cord between the battery, the second bracing piece with be equipped with between the battery and pass through the universal regulator of controller control, the shooting angle of camera passes through universal regulator control.

, the U-shaped main support is connected with the overhead high-voltage transmission line through J-shaped screws, and the th support rod is a telescopic rod.

step by step, the bottom of battery is equipped with power source, power source is pin socket, be equipped with the sealing member on the pin socket, solar cell panel with pass through between the battery power source connects, by when power source position connects the sealing member blocks up.

step by step, power source's the outside is equipped with the holding ring of indent, the sealing member includes connector and the sealed lid that is formed by the rubber materials preparation, the end of connector is the locating ring, the locating ring cover is established on the holding ring, power source's port passes through sealed lid is sealed, sealed lid with be interference fit between the power source and connect.

, a GPS positioning module is arranged on the camera.

And , the control terminal comprises a PC client and/or a mobile phone APP client.

, the network transmission system is a 3G/4G/WIFI/OPGW optical fiber network.

, the lens of the camera is an ICR infrared filter, the horizontal field angle of the camera is 76.5 degrees, and the camera pixels on the camera are 400-1000 ten thousand pixels.

Compared with the prior art, the beneficial effects of the utility model reside in that:

monitoring devices installs on overhead high voltage transmission line, can gather in real time and handle the environment around high voltage transmission line, appear engineering vehicle in monitoring devices gathers the image and when discovering that engineering vehicle has the condition of touching circuit after handling through central platform, can send the warning to engineering vehicle through alarm system or central platform and the control terminal that sets up around monitoring devices, thereby make the realization current state that engineering vehicle can be timely, thereby make transmission line circuit safer, and can also detect overhead high voltage transmission line's surrounding environment through the collection terminal, thereby make rear end personnel can in time discover and solve the problem, moreover, the steam generator is simple in structure, and is easy and simple to handle, and convenient to control, application scope , long service life, equipment cost is low.

Drawings

FIG. 1 is a schematic diagram of the operation of the system of the present invention;

fig. 2 is a schematic structural view of the monitoring device of the present invention;

fig. 3 is a schematic view of the connection structure between the sealing element and the power interface of the present invention.

In the figure, an overhead high-voltage power transmission line 1, a monitoring device 2, a control terminal 3, a central platform 4, a network transmission system 5, a universal regulator 6, a storage battery 7, a camera 8, a controller 9, a tower 10, a power supply system 11, a solar cell panel 12, an th supporting rod 13, an adjusting seat 14, a U-shaped main bracket 15, a J-shaped screw 16, a patch cord 17, a second supporting rod 18, a sealing cover 19, a connecting body 20, a positioning ring 21, a positioning ring 22, a sealing piece 23 and a power supply interface 24 are arranged.

Detailed Description

The present invention will be described in with reference to the accompanying drawings and the detailed description, wherein it is to be understood that various embodiments or technical features described below can be combined arbitrarily to form new embodiments without conflict.

The warning identification system comprises an overhead high-voltage power transmission line 1, a monitoring device 2, a network transmission system 5, a central platform 4 and a control terminal 3, wherein the monitoring device 2 is fixed on the overhead high-voltage power transmission line 1 and used for collecting environmental image information around the overhead high-voltage power transmission line 1, the network transmission system 5 is in signal connection with the monitoring device 2 and used for transmitting the environmental image information collected by the monitoring device 2 to the central platform 4 for processing, the central platform 4 is in signal connection with the control terminal 3, the central platform 4 is suitable for processing the environmental image information so as to judge whether an engineering vehicle around the overhead high-voltage power transmission line 1 has danger of touching an electric wire and send the processed information to the control terminal 3, the control terminal 3 has a warning function, when the central platform 4 sends information that the overhead high-voltage power transmission line 1 has the danger of being touched by a universal camera through a power supply connector 14 or a power supply connector 18, the power supply connector 14 is arranged between a power supply connector 14 and a power supply connector 20, the power supply connector 14 is arranged on a power supply connector 20, the power supply connector 14 is arranged on the power transmission line 2, the power supply connector 14 is arranged on the power supply connector 14, the power supply connector 14 is arranged on the power supply connector 14, the power connector 14 is arranged on the power connector 14, the power supply connector 14, the power connector 14 is arranged on the power supply connector 14, the power supply connector 14 is arranged on the power connector 14, the power connector 14 is arranged on the power supply connector 14, the power connector 14 is arranged on the power connector 14, the power connector 2, the power connector 14 is arranged on the power connector 14, the power connector 2, the power connector 14, the power connector is arranged on the power connector 14, the power connector 2, the power connector 14, the power connector.

In the actual use process, the central platform 4 is a computer server, the images collected by the front end through the monitoring device 2 and transmitted by the network transmission system 5 can be identified, managed, stored, displayed and the like through equipment such as management platform software, a server and the like, the monitoring device 2 is a system front end collecting device which is arranged on the overhead high-voltage transmission line 1 and is in wireless connection with the central platform 4 through the network transmission system 5, the control terminal 3 is in wireless connection with the central platform 4, when the system is used, the monitoring device 2 is used for collecting the surrounding environment image information of the overhead high-voltage transmission line 1, including vehicles, animals, plants, pedestrians and flying objects flying in the sky, and among the detection objects, the engineering vehicles which are most difficult to find self dangers and easy to have accidents are too high body, especially after loading goods, the driver can hardly judge whether the line is touched by himself, therefore, when the monitoring device 2 sends the shot graph to the central platform 4 through the network transmission system 5, the central platform 4 can calculate and judge the vehicle height and the effective and safe driving height of the line in the shot image, and then the processed data is sent to the control terminal 3 for display, when the central platform 4 processes and judges that the engineering vehicle may cause touch danger to the circuit in the driving process, the early warning signal can be automatically sent to the early warning sounder such as a loudspeaker and the like around the monitoring device 2, the warning signal is sent through the sounder, so that the driver of the engineering vehicle can timely avoid accident sending, and can also send the early warning to personnel in the vehicle in the form of short message or telephone and the like, and can also send the warning to the client, the engineering vehicle is early-warned by a client, when a command is sent by a control terminal 3, the command is sent to a central platform 4 firstly and then sent to a monitoring device 2 through the central platform 4 for operation, when the running condition of an overhead high-voltage transmission line 1 running in a severe environment is monitored, the potential safety hazard under the transmission line can be concerned at any time, and the line inspection function is considered, particularly when the engineering vehicle passes through the overhead high-voltage transmission line 1, the current state of the engineering vehicle can be timely collected and judged, when the monitoring device 2 judges that the electric wire on the overhead high-voltage transmission line 1 is likely to be touched, early warning can be timely carried out, so that accidents are effectively avoided, the environment around the overhead high-voltage transmission line 1 can be monitored, other dangers can be prevented from being sent, or the electric wire can be timely processed when the accident occurs, the device has the advantages of simple overall structure, convenience in maintenance, high safety, wide application range and multiple application scenes, and can monitor off-line building construction, ultrahigh vegetation and the like; the operation is easy, and the operation can be performed before a computer in a conventional manner, and the user can pay attention at any time through mobile phone app client software or WeChat; the central platform 4 of the background can intelligently recognize and process images, discover hidden dangers of monitoring points and give early warning in time.

Preferably, the front-end collector of the monitoring device 2 is a camera 8, the camera 8 is further provided with a power supply system 11 and a controller 9 for controlling the camera 8, the controller 9 and the camera 8 are powered through the power supply system 11, the controller 9 receives an instruction sent by the control terminal 3 to the central platform 4 and then adjusts the shooting angle of the camera 8, the equipment cost is low, the maintenance cost is low, the installation is rapid, the camera is only required to be placed at a position to be monitored, the site construction can be completed in only 10 minutes, the monitoring points can be diversified, the cost is the same, the area which can be monitored by the video monitoring system is far larger, the application scenes are more, the building construction under the monitoring line, the vegetation is ultrahigh and the like, the operation is easy, besides the conventional operation before a computer, the remote control can be directly adopted through mobile phone app client software or WeChat to pay attention at any time, when the camera 8 is controlled, the control of the camera 8 is more convenient, the image acquisition is more flexible, the monitoring range is more , and the operation of the camera 8 with the power supply system 11 can be more stable.

step further, camera 8 and controller 9 accessible battery 7 or solar cell panel 12 supply power, also can carry out dual power supply through battery 7 and solar cell panel 12, thereby make the duration of camera 8 and controller 9 stronger, and stability is better, the condition that more difficult appearance camera 8 shut down for a long time takes place, the automatic rear end switch function of reunion camera 8, can make camera 8 realize the purpose of in time effectively gathering the image, and adopt solar cell panel 12 to carry out the solar energy power supply, energy consumption is littleer, the cost is lower, especially battery 7 can carry out the electric power storage to the light energy of solar cell panel 12 collection and handle, thereby make the utilization ratio of electric energy higher.

Further , the monitoring device 2 further includes an adjusting seat 14, the controller 9 receives the command and then controls the adjusting seat 14, so that the change of the adjusting seat 14 controls the camera 8, the camera 8 is controlled more conveniently, the adjusting seat 14 is directly fixed on the tower 10 of the high-voltage transmission line 1 through a U-shaped main support 15, the structure is simpler and the cost is lower, the solar panel 12 is fixed on a support rod 13, the lighting area of the solar panel 12 is larger through a support rod 13, the storage battery 7 is fixed on a second support rod 18, the storage battery 7 is of a U-shaped structure, the camera 8 and the controller 9 are installed in a U-shaped groove of the storage battery 7, the structure is more compact, the overall size is smaller, the installation is more stable, the wiring between the camera 8 and the controller 9 and the storage battery 7 can adopt a built-in structure, the power supply is more convenient, a universal adjuster 6 controlled by the controller 9 is arranged between the second support rod 18 and the storage battery 7, the shooting angle of the camera 8 is adjusted through the adjuster 6, the camera 8 is controlled by the universal adjuster 6, the camera head is controlled by the universal adjuster, the camera head is more conveniently installed, and the solar panel can be installed at a higher control time, and the solar energy collection time can be controlled by a higher universal adjuster , and the solar panel can be controlled more conveniently.

Step is advanced again, and U type main support 15 is connected through J type screw 16 with overhead high tension transmission line 1 between, and is more stable when the locking is fixed, and the nut that appears J type screw 16 end immediately drops, also can fix the locking, and bracing piece 13 is telescopic rod structure, and it is more convenient to make solar cell panel 12's height control.

Step , power source 24 is located at the bottom of storage battery 7, which can make power source 24 have better waterproof performance, especially, it is combined with pin socket, which can make the area of contacting rain smaller, in order to prevent the entry of water vapor, sealing element 23 is set on pin socket, when power source 24 is not inserted into power line, sealing element 23 can block up and seal, thus making power source 24 have better sealing performance, more stable performance in transportation, even if it is not used for a long time, the service life of pin socket can be longer.

Further step, when sealing member 23 seals power source 24, only need cover power source 24 with sealing member 23, can realize sealing, and the position circle 21 cover of connector 20 end is established on holding ring 22, can be fixed through the locking that just can realize sealing member 23, make sealing member 23 more be difficult to drop, when need not seal, also connector 20 hangs sealed lid 19 on power source 24, so that subsequent in time seal, and be connected for interference fit between sealed lid 19 and the power source 24, the leakproofness is better after sealed, waterproof grade is higher, sealing member 23 is formed by rubber materials preparation, at the in-process of shutoff, scalable volume is bigger, elasticity is better, sealed effect is better.

, a GPS positioning module is further arranged on the camera 8, the GPS positioning module is embedded in the camera 8, and a rear-end worker can check information details of the area equipment at any time, such as browsing latest picture information and browsing real-time video of the equipment, so that people can find the camera 8 in the area needing to be checked more conveniently, the positioning is more accurate, and the speed is faster when the camera is required to be replaced.

, the control terminal 3 comprises a PC client and/or a mobile phone APP client, the control terminal 3 is lighter and more portable, installation is convenient, equipment cost and operation are lower, maintenance is easy and even maintenance-free, system software adopts a cloud processing technology and is suitable for storage and processing of big data, mobile phone APP client management software is supported, latest WeChat pushing technology is also supported, warning, fault, event and other categories can be accurately pushed, management is not burdened, all responsible parts , responsible persons and workers can install matched client software by using a computer in a monitoring center, or install the APP client by using a smart phone in the field, a 3G internet notebook can check whether illegal operation exists under a power transmission line at any time and any place, workload of routing inspection personnel is greatly reduced, safe operation and information management level of the line are improved, a user can command a camera through the PC client, or the user of the mobile phone client can directly take a picture through the PC client, or the user can take a picture through the mobile phone client, and the situation that people cannot take pictures in time when the engineering vehicle or other environmental situations are discovered through a backend is discovered, and the situation of the APP camera can be effectively captured 8 can be avoided.

, the network transmission system 5 is a combination transmission of or more in 3G/4G/WIFI/OPGW optical fiber network, and after wireless network transmission is adopted, wiring troubles are effectively eliminated, installation is more convenient, and cost is lower.

, the camera 8 adopts day and night switching mode, and the camera lens of the camera 8 is ICR infrared filter type, so that the camera 8 can effectively collect images of environment and vehicles in day and night, especially can be clearer when collecting images at night, the horizontal field angle of the camera 8 is 76.5 degrees, the camera pixels on the camera 8 are 400-1000 ten thousand pixels, the shooting quantity in fixed time can be set according to specific conditions, and the waterproof grade of the monitoring device 2 is IP65 protection grade, so that the outdoor environment adaptability is stronger, and the details of the shot pictures are more clear.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (8)

1. The engineering vehicle early warning and identifying system based on the power transmission lines comprises an overhead high-voltage power transmission line, a monitoring device, a network transmission system, a central platform and a control terminal, wherein the monitoring device is fixed on the overhead high-voltage power transmission line and used for collecting image information of the surrounding environment of the overhead high-voltage power transmission line, the network transmission system is in signal connection with the monitoring device and used for transmitting the image information of the environment collected by the monitoring device to the central platform for processing, the central platform is in signal connection with the control terminal, the central platform is suitable for processing the image information of the environment so as to judge whether engineering vehicles around the overhead high-voltage power transmission line are in danger of touching the power lines or not, and sends the processed information to the control terminal, the control terminal has an early warning function, when the central platform sends the information of touching the danger to the overhead high-voltage power transmission line, the control terminal sends early warning information to prompt the engineering vehicles that the engineering vehicles are in danger of touching the power lines, the control terminal is suitable for being in signal connection with the monitoring device through the central platform and the control terminal to control the shooting angle of the monitoring device, and is characterized in that the monitoring device receives the solar camera through a power supply system and a power supply camera, and a control camera, the solar energy camera, and a control camera, and a solar energy camera are used for receiving camera, and a solar energy camera are used for receiving camera, wherein the solar energy camera, and a solar energy camera are used for receiving camera, and a solar energy.
2. 2. The engineering vehicle early warning and recognition system based on power transmission lines according to claim 1, wherein the monitoring device further comprises a adjusting seat, the adjusting seat comprises a U-shaped main support fixed on a tower of the overhead high voltage power transmission line, a support rod with the bottom fixed on the U-shaped main support, and a second support rod arranged on the side of the U-shaped main support , the solar panel is fixed on the support rod, the storage battery is fixed on the second support rod, the storage battery is of a U-shaped structure, the camera and the controller are arranged in the storage battery, the solar panel and the storage battery are connected through a patch cord for power transmission, a universal adjuster controlled through the controller is arranged between the second support rod and the storage battery, and the shooting angle of the camera is controlled through the universal adjuster.
3. 3. The engineering vehicle early warning and recognition system based on power transmission lines according to claim 2, wherein the U-shaped main support is connected with the overhead high voltage power transmission line through J-shaped screws, and the support rod is a telescopic rod.
4. 4. The engineering vehicle early warning identification system based on transmission line of claim 2, characterized in that a power interface is provided at the bottom of the battery, the power interface is a pin jack, a sealing element is provided on the pin jack, the solar panel is connected with the battery through the power interface, and the power interface is blocked by the sealing element when connected.
5. 5. The engineering vehicle early warning and recognition system based on power transmission lines according to claim 4, wherein a -concave positioning ring is arranged on the outer side of the power supply interface, the sealing element comprises a connecting body and a sealing cover, the connecting body is made of rubber materials, the end of the connecting body is provided with the positioning ring, the positioning ring is sleeved on the positioning ring, the port of the power supply interface is sealed through the sealing cover, and the sealing cover is in interference fit connection with the power supply interface.
6. 6. The engineering vehicle early warning and identification system based on transmission lines according to claim 2, wherein the camera is provided with a GPS positioning module.
7. 7. The electric transmission line based construction vehicle warning identification system of any one of claims 1-6 and , wherein the control terminal comprises a PC client and/or a mobile phone APP client.
8. 8. The engineering vehicle early warning and identification systems based on electric transmission lines according to claim 1, wherein the network transmission system is a 3G/4G/WIFI/OPGW optical fiber network.

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