CN110518528B - Power transmission line monitoring equipment based on cloud computing - Google Patents

Abstract

The invention discloses power transmission line monitoring equipment based on cloud computing, which comprises a plurality of power transmission racks and a control structure, wherein the control structure comprises a server, a signal receiver I, a signal emitter I, a signal receiver II, a signal emitter II, a controller and a camera. Has the advantages that: the invention can arrange the reciprocating movable seat at the power transmission line where the bird group often stands, the movement of the movable seat plays a role in driving standing birds, and simultaneously plays a role in removing accumulated snow on the power transmission line in snowy weather, thereby avoiding the damage of the power transmission line caused by excessive accumulated snow and large pressure.

Description

Power transmission line monitoring equipment based on cloud computing

Technical Field

The invention relates to power transmission line monitoring equipment, in particular to power transmission line monitoring equipment based on cloud computing.

Background

The transmission line can be divided into an overhead transmission line and a cable line; the overhead transmission line consists of parts such as a transmission line, an overhead ground wire, an insulator, a transmission frame, a grounding device and the like, and can connect a power plant, a substation and a user so as to facilitate the power utilization of the user.

Overhead transmission line has the part to be in the place that the bird crowd often appeared, often has the bird to stand on the transmission line, can produce a great burden to the transmission line when the bird of standing is more, easily causes the damage of transmission line to influence overhead transmission line's normal use.

Disclosure of Invention

The invention aims to solve the problems found in the background art, and provides power transmission line monitoring equipment based on cloud computing.

In order to achieve the purpose, the invention adopts the following technical scheme:

a power transmission line monitoring device based on cloud computing comprises a plurality of power transmission frames and a control structure, the control structure comprises a server, a signal receiver I, a signal emitter I, a signal receiver II, a signal emitter II, a controller and a camera, wherein each power transmission frame comprises three groups of insulators and three power transmission lines, three fixing frames are fixedly arranged between every two adjacent power transmission frames, the fixing frames are positioned right above the corresponding power transmission lines, each fixing frame is provided with a T-shaped groove, the side wall of the lower end of each T-shaped groove is symmetrically and fixedly provided with two strip-shaped sealing gaskets I, one side, close to each other, of each strip-shaped sealing gasket is abutted, a moving block is placed at the upper end part of each T-shaped groove, a moving seat is fixedly installed at the lower end of each moving block through a connecting thin rod, and an arc-shaped groove matched with the power transmission line is separately formed in the lower end part of each moving seat;

each power transmission frame is fixedly provided with a first air pump and a second air pump, the air outlet end of the first air pump is provided with a first air outlet pipe, the first air outlet pipe is communicated with two third air outlet pipes through two connecting pipes, one ends of the first air outlet pipe and the third air outlet pipe are located in corresponding T-shaped grooves, the air outlet end of the second air pump is provided with a second air outlet pipe, the second air outlet pipe is provided with two fourth air outlet pipes through two connecting pipes, and one ends of the second air outlet pipe and the fourth air outlet pipe are located in corresponding T-shaped grooves;

every the equal fixed mounting in upper end of power transmission frame has a mounting bracket, and controller, camera install on corresponding mounting bracket, still fixed mounting has battery and a solar energy electroplax on the mounting bracket, and controller, battery all with air pump one, air pump two, for the electricity is connected between the camera.

In the cloud-computing-based power transmission line monitoring device, the inner wall of the arc-shaped groove is fixedly adhered with insulating rubber.

In foretell transmission line monitoring facilities based on cloud, every two bar grooves have all been seted up on the lateral wall of mount, and bar groove and corresponding T-slot intercommunication, two equal symmetrical fixed paste has two sealed pad two of bar on the inner wall of bar groove, and two sealed pad two of bar one side that are close to each other offsets.

In the cloud-computing-based power transmission line monitoring device, the moving block is rotatably connected with a rotating shaft, and two ends of the rotating shaft respectively penetrate through the corresponding strip-shaped grooves and are fixedly provided with a fan blade.

In foretell transmission line monitoring facilities based on cloud, every the both ends of pivot are equal fixed mounting have one to hide dog one, every the both ends of pivot are still fixed respectively to be cup jointed sealed pad one, corresponding two sealed pad one is close to each other one side all with corresponding mount contact.

In the cloud computing-based power transmission line monitoring equipment, each connecting thin rod is fixedly sleeved with a blocking piece II, the upper surface of each blocking piece II is fixedly adhered with a sealing gasket II, and the upper surface of each sealing gasket II is in contact with the lower surface of the corresponding fixing frame.

In the cloud-computing-based power transmission line monitoring device, the fixing frame, the moving block, the connecting thin rod, the moving seat, the rotating shaft, the fan blades and the mounting frame are all provided with a layer of insulating layer on the surface.

Compared with the prior art, the invention has the advantages that:

1: the camera, the first signal receiver, the second signal receiver, the first signal emitter, the second signal emitter and the controller are matched, so that the work of the first air pump and the second air pump can be remotely controlled conveniently according to needs.

2: the movable block is driven to reciprocate by matching of the first air pump and the second air pump on the two adjacent power transmission frames, and the movable block moves by connecting the thin rod to drive the movable seat to move, so that the power transmission line is cleaned or driven, and more birds or accumulated snow are placed to break the power transmission line.

3: the setting of the first strip-shaped sealing gasket enables the T-shaped groove to be in a relatively closed environment, the first air pump and the second air pump can drive the moving block to move conveniently, the gap between the thin rod and the contact part of the first strip-shaped sealing gasket is shielded to a certain extent by the setting of the second shielding gasket and the second sealing gasket, and the sealing performance of the T-shaped groove is improved.

4: the movable block moves to drive the fan blades to move through the rotating shaft, certain rotation can be generated while the fan blades move, and the rotation of the fan blades plays a role in driving birds standing on the fixing frame; meanwhile, when the wind power is large, the wind power drives the fan blades to rotate and simultaneously generates a thrust force, so that the moving blocks are driven to move, and corresponding driving and cleaning effects can be achieved.

5: the arrangement of the strip-shaped sealing gasket II, the shielding block I and the sealing gasket I can improve the sealing performance of the T-shaped groove, and the air pump I and the air pump II can work better.

In summary, the invention can arrange the reciprocating movable seat at the power transmission line where the bird group often stands, the movement of the movable seat plays a role in driving standing birds, and simultaneously plays a role in removing accumulated snow on the power transmission line in snowy weather, so as to avoid damage to the power transmission line caused by excessive accumulated snow and high pressure.

Drawings

Fig. 1 is a schematic structural diagram of a power transmission line monitoring device based on cloud computing according to the present invention;

FIG. 2 is an enlarged view of the structure of part A in FIG. 1;

FIG. 3 is an enlarged view of the structure of part B in FIG. 2;

FIG. 4 is an enlarged view of the structure of the portion C in FIG. 2;

FIG. 5 is a structural side view of the shaft portion of FIG. 3;

FIG. 6 is a side view of the structure of a portion of the outlet duct of FIG. 4;

fig. 7 is a system flowchart of a control structure part in the power transmission line monitoring device based on cloud computing according to the present invention.

In the figure: 1 power transmission frame, 2 insulators, 3 power transmission lines, 4 fixed frames, 5T-shaped grooves, 6 moving blocks, 7 connecting thin rods, 8 moving seats, 9 air pump I, 10 air pump II, 11 air outlet pipe I, 12 connecting pipe I, 13 air outlet pipe III, 14 air outlet pipe II, 15 connecting pipe II, 16 strip-shaped grooves, 17 rotating shafts, 18 fan blades, 19 shielding block I, 20 sealing pad I, 21 shielding block II, 22 sealing pad II, 23 mounting frames, 24 solar panels, 25 controllers, 26 storage batteries and 27 cameras.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-7, a cloud computing-based power transmission line monitoring device includes a plurality of power transmission racks 1 and a control structure, where the control structure includes a server, a first signal receiver, a first signal emitter, a second signal receiver, a second signal emitter, a controller 25, and a camera 27;

the camera 27 generates a signal through transmission of the controller 25 and the signal emitter II, the signal receiver I transmits the received signal to the server, the server sends an instruction through the signal emitter II, the instruction is transmitted to the controller 25 through the signal receiver II, and the controller 25 is used for controlling the operation of the air pump I9 and the air pump II 10.

All contain three insulator 2 and three power transmission line 3 of group on every power transmission frame 1, fixed mounting has three mount 4 between two adjacent power transmission frames 1, and mount 4 is located corresponding power transmission line 3 directly over, has all seted up a T-slot 5 on every mount 4.

Two strip-shaped sealing gaskets I are symmetrically and fixedly arranged on the side wall of the lower end of the T-shaped groove 5, one side, close to each other, of each strip-shaped sealing gasket I is abutted, the T-shaped groove is in a relatively sealed environment due to the arrangement of the strip-shaped sealing gaskets I, and the moving block 6 is placed at the upper end part of each T-shaped groove 5.

The lower extreme of every movable block 6 has removal seat 8 through connecting thin pole 7 fixed mounting, and the lower tip of removing seat 8 separately be equipped with power transmission line 3 matched with arc recess, the inner wall of arc recess is fixed to be pasted and is had insulating rubber, removes the removal of seat 8 and can drive the bird that falls on power transmission line 3 on the one hand, can not produce great noise pollution simultaneously, removes the process and still plays clean effect to the surface of power transmission line 3.

Every is connected all fixedly on the pin 7 and has been cup jointed one and hide dog two 21, every upper surface that hides dog two 21 all fixed paste has a sealed pad two 22, and the lower surface contact of the upper surface of sealed pad two 22 and corresponding mount 4, the lower extreme of connecting pin 7 passes two sealed pads one of bar, the contact part can produce certain clearance, the setting that shelters from block two 21 and sealed pad two 22 plays certain effect of sheltering from to this clearance, improves the leakproofness of T-slot 5.

Each power transmission frame 1 is fixedly provided with a first air pump 9 and a second air pump 10, the air outlet end of the first air pump 9 is provided with a first air outlet pipe 11, the first air outlet pipe 11 is communicated with two third air outlet pipes 13 through two first connecting pipes 12, one ends of the first air outlet pipe 11 and the third air outlet pipe 13 are located in corresponding T-shaped grooves 5, the air outlet end of the second air pump 10 is provided with a second air outlet pipe 14, the second air outlet pipe 14 is provided with a fourth air outlet pipe through two second connecting pipes 15, and one ends of the second air outlet pipe 14 and the fourth air outlet pipe are located in corresponding T-shaped grooves 5;

the fixing frame 4 is provided with a groove for placing the first air outlet pipe 11, the first connecting pipe 12, the third air outlet pipe 13, the second air outlet pipe 14, the fourth air outlet pipe and the second connecting pipe 15, and a sealing ring is fixedly adhered to the inner wall of the groove.

Two strip-shaped grooves 16 are formed in the side wall of each fixing frame 4, the strip-shaped grooves 16 are communicated with the corresponding T-shaped grooves 5, two strip-shaped sealing gaskets are symmetrically and fixedly adhered to the inner walls of the two strip-shaped grooves 16, one sides, close to each other, of the two strip-shaped sealing gaskets are abutted, the strip-shaped grooves 16 are in a relatively sealed state due to the arrangement of the two strip-shaped sealing gaskets, and therefore the T-shaped grooves 5 are in a relatively sealed state as far as possible.

The movable block 6 is rotatably connected with a rotating shaft 17, two ends of the rotating shaft 17 penetrate through the corresponding strip-shaped grooves 16 respectively and are fixedly provided with fan blades 18, when the position of the fan blades 18 is provided with large wind, the fan blades 18 can rotate, meanwhile, a thrust force is generated to the fan blades, and when the thrust force is large, the two fan blades 18 can be driven to move together, so that the movable block 6 is driven to move.

The equal fixed mounting in both ends of every pivot 17 has one to hide dog one 19, the both ends of every pivot 17 still fixedly cup joints sealed pad one 20 respectively, the sealed one side that 20 is close to each other of corresponding two sealed pads all contacts with corresponding mount 4, the pivot 17 passes the sealed two joints each other of corresponding two bars and can produce certain clearance, it plays certain effect of sheltering from to the clearance of this contact segment to shelter from piece one 19 and sealed pad one 20 to improve the leakproofness of bar groove 16.

The upper end of each power transmission frame 1 is fixedly provided with a mounting frame 23, the controller 25 and the camera 27 are mounted on the corresponding mounting frames 23, the mounting frame 23 is further fixedly provided with a storage battery 26 and a solar panel 24, and the controller 25 and the storage battery 26 are electrically connected with the first air pump 9, the second air pump 10 and the camera 27.

The surface of mount 4, movable block 6, connect pin 7, remove seat 8, pivot 17, flabellum 18 and mounting bracket 23 all installs the one deck insulating layer, and the setting of insulating layer avoids the security under the thunderstorm weather of mount 4, movable block 6, connection pin 7, remove seat 8, pivot 17, flabellum 18 and mounting bracket 23.

Further, unless otherwise specifically stated or limited, the above-described fixed connection is to be understood in a broad sense, and may be, for example, welded, glued, or integrally formed as is conventional in the art.

In the invention, when a camera 27 shoots that birds stand on the power transmission line 3 or snow on the surface of the power transmission line 3 needs to be cleaned, driving or cleaning operation (the first air pump 9 and the second air pump 10 on the adjacent power transmission frames 1) is completed through mutual matching of the first air pump 9 and the second air pump 10, gas blown out when the first air pump 9 (taking the left side as an example) works generates a thrust force on the moving block 6, so that the moving block 6 moves towards the direction far away from the first air pump 9, the moving block 6 moves to drive the moving seat 8 to move through connecting the thin rod 7, so that the driving or cleaning effect is realized, when the moving block 6 moves and approaches to the second air pump 10 (the right side) on the other power transmission frame 1, the moving block 6 can move to the original position by closing the first air pump 9 and opening the second air pump 10, and the moving block 6 can reciprocate through matching of the first air pump 9 and the second air pump 10, the purpose of driving or cleaning is achieved.

The movable block 6 drives the fan blades 18 to move through the rotating shaft 17 when moving, the fan blades 18 can rotate in the moving process, the fan blades 18 rotate to drive birds standing on the fixing frame 4, when the air pump I9 and the air pump II 10 are in an out-of-operation state, if the fan blades 18 are located, large wind can also drive the fan blades 18 to rotate and move, the fan blades 18 move to drive the movable block 6 through the rotating shaft 17 and can also move together, and finally the movable base 8 is driven to move, so that a cleaning or driving effect is achieved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. The cloud computing-based power transmission line monitoring equipment comprises a plurality of power transmission frames (1) and a control structure, and is characterized in that the control structure comprises a server, a signal receiver I, a signal emitter I, a signal receiver II, a signal emitter II, a controller (25) and a camera (27), each power transmission frame (1) comprises three groups of insulators (2) and three power transmission lines (3), three fixing frames (4) are fixedly installed between every two adjacent power transmission frames (1), the fixing frames (4) are located right above the corresponding power transmission lines (3), each fixing frame (4) is provided with a T-shaped groove (5), the side walls of the lower ends of the T-shaped grooves (5) are symmetrically and fixedly provided with two strip-shaped sealing gaskets I, one sides of the strip-shaped sealing gaskets close to each other are abutted against each other, a moving block (6) is placed at the upper end part of each T-shaped groove (5), the lower end of each moving block (6) is fixedly provided with a moving seat (8) through a connecting thin rod (7), and the lower end part of each moving seat (8) is separately provided with an arc-shaped groove matched with the power transmission line (3);

each power transmission frame (1) is fixedly provided with a first air pump (9) and a second air pump (10), the air outlet end of the first air pump (9) is provided with a first air outlet pipe (11), the first air outlet pipe (11) is communicated with two third air outlet pipes (13) through two first connecting pipes (12), one ends of the first air outlet pipe (11) and the third air outlet pipe (13) are located in the corresponding T-shaped grooves (5), the air outlet end of the second air pump (10) is provided with a second air outlet pipe (14), the second air outlet pipe (14) is provided with a fourth air outlet pipe through two second connecting pipes (15), and one ends of the second air outlet pipe (14) and the fourth air outlet pipe are located in the corresponding T-shaped grooves (5);

every equal fixed mounting in upper end of power transmission frame (1) has a mounting bracket (23), and controller (25), camera (27) install on corresponding mounting bracket (23), still fixed mounting has battery (26) and a solar energy electroplax (24) on mounting bracket (23), and is the electricity between controller (25), battery (26) all and air pump (9), air pump two (10), camera (27).

2. The cloud-computing-based power transmission line monitoring device according to claim 1, wherein insulating rubber is fixedly adhered to the inner wall of the arc-shaped groove.

3. The cloud computing-based power transmission line monitoring equipment according to claim 1, wherein two strip-shaped grooves (16) are formed in the side wall of each fixing frame (4), the strip-shaped grooves (16) are communicated with corresponding T-shaped grooves (5), two strip-shaped sealing gaskets II are symmetrically and fixedly adhered to the inner walls of the two strip-shaped grooves (16), and one sides of the two strip-shaped sealing gaskets, which are close to each other, are abutted.

4. The cloud-computing-based power transmission line monitoring device according to claim 3, wherein the moving block (6) is rotatably connected with a rotating shaft (17), and two ends of the rotating shaft (17) respectively penetrate through the corresponding strip-shaped grooves (16) and are fixedly provided with a fan blade (18).

5. The cloud-computing-based power transmission line monitoring device according to claim 4, wherein a blocking piece I (19) is fixedly mounted at each of two ends of each rotating shaft (17), a sealing gasket I (20) is further fixedly sleeved at each of two ends of each rotating shaft (17), and one side, close to each other, of each corresponding sealing gasket I (20) is in contact with the corresponding fixing frame (4).

6. The cloud-computing-based power transmission line monitoring equipment as claimed in claim 1, wherein each connecting slender rod (7) is fixedly sleeved with a second blocking piece (21), the upper surface of each second blocking piece (21) is fixedly adhered with a second sealing gasket (22), and the upper surface of each second sealing gasket (22) is in contact with the lower surface of the corresponding fixed frame (4).

7. The cloud-computing-based power transmission line monitoring device according to claim 4, wherein an insulating layer is mounted on the surfaces of the fixed frame (4), the moving block (6), the connecting thin rod (7), the moving seat (8), the rotating shaft (17), the fan blades (18) and the mounting frame (23).

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