CN112399737A - Flow monitoring device based on electric power automation system - Google Patents

Abstract

The invention belongs to the technical field of detection devices, and particularly relates to a flow monitoring device based on an electric power automatic system, aiming at the problems that the existing monitoring device is inconvenient to use and cannot be adjusted in height according to requirements, the heat dissipation and ventilation effects of the monitoring device are not good, and the service life and the monitoring efficiency of the monitoring device are greatly reduced. The height of the monitor can be adjusted according to the requirement, the monitor is convenient to use, the monitor can be effectively cooled, and the service life of the monitor is effectively prolonged.

Description

Flow monitoring device based on electric power automation system

Technical Field

The invention relates to the technical field of monitoring devices, in particular to a flow monitoring device based on an electric power automation system.

Background

The electric power system is an electric energy production and consumption system which consists of links such as a power plant, a power transmission and transformation line, a power supply and distribution station, power utilization and the like. The function of the device is to convert the primary energy of the nature into electric energy through a power generation device, and then supply the electric energy to each user through power transmission, power transformation and power distribution. In order to realize the function, the power system is also provided with corresponding information and control systems at each link and different levels, and the production process of the electric energy is measured, regulated, controlled, protected, communicated and scheduled so as to ensure that users obtain safe and high-quality electric energy. The main structures of the power system include a power source (power plants such as hydropower stations, thermal power plants, and nuclear power plants), a substation (a step-up substation, a load center substation, and the like), a power transmission and distribution line, and a load center. The power supply points are also mutually connected to realize the exchange and regulation of electric energy among different regions, thereby improving the safety and the economical efficiency of power supply. The network formed by the transmission line and the substation is usually called a power network. The information and control system of the power system consists of various detection devices, communication devices, safety protection devices, automatic control devices and automatic monitoring and dispatching systems. The structure of the power system should ensure reasonable coordination of power generation and consumption on the basis of advanced technical equipment and high economic benefit. When the power system is in use, the flow rate needs to be monitored.

But current monitoring devices uses inconveniently, can not be according to the regulation of demand just height, and is not very good to monitoring devices's heat dissipation and ventilation effect moreover, great reduction monitoring devices's life and monitoring efficiency.

Disclosure of Invention

The invention aims to solve the defects that the existing monitoring device is inconvenient to use, cannot adjust the height according to requirements, has poor heat dissipation and ventilation effects on the monitoring device, and greatly reduces the service life and the monitoring efficiency of the monitoring device.

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

a flow monitoring device based on an electric power automatic system comprises a box body, wherein a plurality of guide wheels are movably mounted at the bottom of the box body, a box cover is movably mounted at the top of the box body, a handle is fixedly mounted at the top of the box cover, a screw rod is rotatably mounted in the box body, a first driving motor is fixedly mounted at the right side of the box body, one end of a driving shaft is fixedly mounted on an output shaft of the first driving motor, the other end of the driving shaft is fixedly connected with one end of the screw rod, two mounting plates are symmetrically and spirally mounted on the screw rod, a placing box is slidably mounted in the box body and matched with the two mounting plates, two filter plates are symmetrically and fixedly mounted at the bottom of the placing box, a placing plate is fixedly mounted in the placing box, a plurality of through holes are formed in the placing plate, a monitor is fixedly mounted at the, place incasement symmetry fixed mounting and have two ventilation casees, a plurality of vent has all been seted up on two ventilation casees, all rotate to install the flabellum in two ventilation casees, the bottom fixed mounting who places the case has the second driving motor, fixed mounting has the actuating lever on the output shaft of second driving motor, the one end of installing two transmission shafts is rotated to the symmetry on the actuating lever, place on the bottom inner wall of case symmetry fixed mounting have two gear accelerating box, the other end of two transmission shafts is connected with two gear accelerating box respectively, the one end of installing the transfer line all rotates on two gear accelerating box, the other end of two transfer lines is connected with two flabellums rotation respectively, place incasement symmetry slidable mounting and have two bellows, equal fixed mounting has a plurality of shower nozzle on two bellows, two bellows all cooperate with the actuating lever.

Preferably, the top of two mounting panels all movable mounting have the one end of head rod, and the other end of two head rods all movable mounting is in the bottom of placing the case.

Preferably, the two baffles are respectively and movably provided with one end of a second connecting rod, and the other ends of the two second connecting rods are respectively and movably arranged on the two first connecting rods.

Preferably, a bearing is fixedly mounted on the inner wall of the left side of the box body, and one end of the screw rod is fixedly connected with an inner ring of the bearing.

Preferably, two sliding grooves are symmetrically formed in the box body, limiting rods are fixedly arranged in the two sliding grooves, one ends of the supporting rods are slidably arranged on the two limiting rods, and the other ends of the two supporting rods are fixedly arranged on the placing box.

Preferably, fixed mounting has first drive gear on the actuating lever, and equal fixed mounting has first drive gear on two transmission shafts, and two first drive gears all mesh with first drive gear mutually.

Preferably, the two transmission rods are fixedly provided with second driving gears, the two fan blades are fixedly provided with second transmission gears, and the two second driving gears are respectively meshed with the two second transmission gears.

Preferably, a circular plate is fixedly installed on the driving rod, two connecting plates are symmetrically and slidably installed on the circular plate, and the two connecting plates are fixedly connected with the two blast boxes respectively.

Preferably, an elliptical groove is formed in the circular plate, one ends of the two fixing rods are symmetrically and slidably mounted in the elliptical groove, and the other ends of the two fixing rods are fixedly mounted on the two connecting plates respectively.

Preferably, the box is internally and symmetrically and fixedly provided with two supporting plates, the two supporting plates are provided with mounting grooves, the two mounting grooves are internally and slidably provided with connecting blocks, the two connecting blocks are fixedly provided with one ends of mounting rods, and the other ends of the two mounting rods are fixedly arranged on the two blast boxes respectively.

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

(1) the scheme is that the device is provided with a box body, a guide wheel, a screw rod, a bearing, a first driving motor, a driving shaft, a mounting plate, a first connecting rod, a placing box, a filter plate, a second connecting rod, a placing plate, a through hole, a monitor, a sliding groove, a limiting rod, a supporting rod, a baffle, a ventilation box, a ventilation opening, a fan blade, a second driving motor, a driving rod, a transmission shaft, a first driving gear, a first transmission gear, a gear accelerating box, a transmission rod, a second driving gear, a second transmission gear, a circular plate, an elliptical groove, a fixed rod, a connecting plate, a supporting plate, a mounting groove, a connecting block, a mounting rod, a blast box, a spray head, a box cover and a handle, wherein the driving shaft can be driven by the first driving motor to rotate, the driving shaft drives the screw rod to, the use is convenient;

(2) the scheme is that the device is provided with a box body, a guide wheel, a screw rod, a bearing, a first driving motor, a driving shaft, a mounting plate, a first connecting rod, a placing box, a filter plate, a second connecting rod, a placing plate, a through hole, a monitor, a sliding groove, a limiting rod, a supporting rod, a baffle, a ventilation box, a ventilation opening, fan blades, a second driving motor, a driving rod, a transmission shaft, a first driving gear, a first transmission gear, a gear accelerating box, a transmission rod, a second driving gear, a second transmission gear, a circular plate, an elliptical groove, a fixed rod, a connecting plate, a supporting plate, a mounting groove, a connecting block, a mounting rod, a blast box, a nozzle, a box cover and a handle, wherein the second driving motor drives the driving rod to rotate, the transmission rod drives the transmission rod to rotate, the transmission rod drives the fan blades to ventilate the placing, the use is very convenient, and the service life of the monitor is effectively prolonged.

The height of the monitor can be adjusted according to the requirement, the monitor is convenient to use, the monitor can be effectively cooled, and the service life of the monitor is effectively prolonged.

Drawings

Fig. 1 is a schematic structural diagram of a flow monitoring device based on an electric power automation system according to the present invention;

fig. 2 is a schematic structural diagram of a circular plate and an elliptical trough of a flow monitoring device based on an electric power automation system according to the present invention;

fig. 3 is a schematic structural diagram of a portion a of a flow monitoring device based on an electric power automation system according to the present invention;

fig. 4 is a schematic structural diagram of a part B of a flow monitoring device based on an electric power automation system according to the present invention;

fig. 5 is a schematic structural diagram of a portion C of a flow monitoring device based on an electric power automation system according to the present invention.

In the figure: 1 box body, 2 guide wheels, 3 screw rods, 4 bearings, 5 first driving motors, 6 driving shafts, 7 mounting plates, 8 first connecting rods, 9 placing boxes, 10 filter plates, 11 second connecting rods, 12 placing plates, 13 through holes, 14 monitors, 15 sliding chutes, 16 limiting rods, 17 supporting rods, 18 baffle plates, 19 ventilating boxes, 20 ventilating openings, 21 fan blades, 22 second driving motors, 23 driving rods, 24 driving shafts, 25 first driving gears, 26 first driving gears, 27 gear accelerating boxes, 28 driving rods, 29 second driving gears, 30 second driving gears, 31 circular plates, 32 elliptical grooves, 33 fixing rods, 34 connecting plates, 35 supporting plates, 36 mounting grooves, 37 connecting blocks, 38 mounting rods, 39 blast boxes, 40 spray heads, 41 box covers and 42 handles.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-5, a flow monitoring device based on an electric power automation system comprises a box body 1, a plurality of guide wheels 2 are movably mounted at the bottom of the box body 1, a box cover 41 is movably mounted at the top of the box body 1, a handle 42 is fixedly mounted at the top of the box cover 41, a screw rod 3 is rotatably mounted in the box body 1, a first driving motor 5 is fixedly mounted at the right side of the box body 1, one end of a driving shaft 6 is fixedly mounted on an output shaft of the first driving motor 5, the other end of the driving shaft 6 is fixedly connected with one end of the screw rod 3, two mounting plates 7 are symmetrically and threadedly mounted on the screw rod 3, a placing box 9 is slidably mounted in the box body 1, the placing box 9 is matched with the two mounting plates 7, two filter plates 10 are symmetrically and fixedly mounted at the bottom of the placing box 9, a, the monitor 14 is fixedly installed on the top of the placing plate 12, two baffles 18 are symmetrically and fixedly installed on the bottom of the placing box 9, the two baffles 18 are respectively matched with the two filter plates 10, two ventilating boxes 19 are symmetrically and fixedly installed in the placing box 9, a plurality of ventilating openings 20 are respectively formed in the two ventilating boxes 19, fan blades 21 are respectively and rotatably installed in the two ventilating boxes 19, a second driving motor 22 is fixedly installed on the bottom of the placing box 9, a driving rod 23 is fixedly installed on an output shaft of the second driving motor 22, one ends of two transmission shafts 24 are symmetrically and rotatably installed on the driving rod 23, two gear accelerating boxes 27 are symmetrically and fixedly installed on the inner wall of the bottom of the placing box 9, the other ends of the two transmission shafts 24 are respectively connected with the two gear accelerating boxes 27, one ends of transmission rods 28 are respectively and rotatably installed on the two gear accelerating boxes 27, and the other ends of the, two blast boxes 39 are symmetrically and slidably mounted in the placing box 9, a plurality of spray heads 40 are fixedly mounted on the two blast boxes 39, and the two blast boxes 39 are matched with the driving rod 23.

In this embodiment, the equal movable mounting in top of two mounting panels 7 has the one end of head rod 8, and the equal movable mounting of the other end of two head rods 8 is in the bottom of placing case 9 for the removal of two mounting panels 7 can drive and place the removal of case 9.

In this embodiment, the two baffles 18 are respectively and movably provided with one end of the second connecting rod 11, and the other ends of the two second connecting rods 11 are respectively and movably arranged on the two first connecting rods 8, so that the two baffles 18 can be driven to move when the two first connecting rods 8 move.

In this embodiment, a bearing 4 is fixedly installed on the inner wall of the left side of the box body 1, and one end of the screw rod 3 is fixedly connected with the inner ring of the bearing 4, so that smooth rotation of the screw rod 3 is ensured.

In this embodiment, two sliding grooves 15 are symmetrically formed in the box body 1, two limiting rods 16 are fixedly mounted in the two sliding grooves 15, one ends of the supporting rods 17 are slidably mounted on the two limiting rods 16, and the other ends of the two supporting rods 17 are fixedly mounted on the placing box 9, so that the stable movement of the placing box 9 is ensured.

In this embodiment, fixed mounting has first drive gear 25 on the actuating lever 23, and equal fixed mounting has first drive gear 26 on two transmission shafts 24, and two first drive gears 26 all mesh with first drive gear 25 mutually for actuating lever 23 can drive two transmission shafts 24 and rotate.

In this embodiment, the two driving rods 28 are fixedly mounted with second driving gears 29, the two blades 21 are fixedly mounted with second transmission gears 30, and the two second driving gears 29 are respectively engaged with the two second transmission gears 30, so that the two driving rods 28 can drive the two blades 21 to rotate.

In this embodiment, the circular plate 31 is fixedly installed on the driving rod 23, the two connecting plates 34 are symmetrically and slidably installed on the circular plate 31, and the two connecting plates 34 are respectively and fixedly connected with the two blast boxes 39, so that the driving rod 23 can drive the two blast boxes 39 to move through the circular plate 31 and the two connecting plates 34.

In this embodiment, the circular plate 31 is provided with an elliptical groove 32, one ends of the two fixing rods 33 are symmetrically and slidably mounted in the elliptical groove 32, and the other ends of the two fixing rods 33 are respectively and fixedly mounted on the two connecting plates 34, so that the two connecting plates 34 can horizontally reciprocate.

In this embodiment, two backup pads 35 are symmetrically and fixedly mounted in the box body 1, mounting grooves 36 have been all opened on two backup pads 35, connecting blocks 37 are all slidably mounted in two mounting grooves 36, one end of a mounting rod 38 is fixedly mounted on two connecting blocks 37, and the other ends of two mounting rods 38 are respectively fixedly mounted on two blast boxes 39, so that the stable movement of the two blast boxes 39 is ensured.

Example two

Referring to fig. 1-5, a flow monitoring device based on an electric power automation system comprises a box body 1, a plurality of guide wheels 2 are movably mounted at the bottom of the box body 1, a box cover 41 is movably mounted at the top of the box body 1, a handle 42 is fixedly mounted at the top of the box cover 41 through welding, a screw rod 3 is rotatably mounted in the box body 1, a first driving motor 5 is fixedly mounted at the right side of the box body 1 through screws, one end of a driving shaft 6 is fixedly mounted on an output shaft of the first driving motor 5 through welding, the other end of the driving shaft 6 is fixedly connected with one end of the screw rod 3, two mounting plates 7 are symmetrically and threadedly mounted on the screw rod 3, a placing box 9 is slidably mounted in the box body 1, the placing box 9 is matched with the two mounting plates 7, two filter plates 10 are symmetrically and fixedly mounted at the bottom of, the placing plate 12 is provided with a plurality of through holes 13, the top of the placing plate 12 is fixedly provided with a monitor 14 by welding, the bottom of the placing box 9 is symmetrically and fixedly provided with two baffle plates 18 by welding, the two baffle plates 18 are respectively matched with the two filter plates 10, the placing box 9 is internally symmetrically and fixedly provided with two ventilating boxes 19 by welding, the two ventilating boxes 19 are respectively provided with a plurality of ventilating openings 20, the two ventilating boxes 19 are respectively and rotatably provided with fan blades 21, the bottom of the placing box 9 is fixedly provided with a second driving motor 22 by screws, an output shaft of the second driving motor 22 is fixedly provided with a driving rod 23 by welding, the driving rod 23 is symmetrically and rotatably provided with one end of two transmission shafts 24, the inner wall of the bottom of the placing box 9 is symmetrically and fixedly provided with two gear accelerating boxes 27 by welding, and the other ends of the two transmission shafts 24 are, the two gear acceleration boxes 27 are rotatably provided with one ends of the transmission rods 28, the other ends of the two transmission rods 28 are rotatably connected with the two fan blades 21 respectively, the two blast boxes 39 are symmetrically and slidably arranged in the placing box 9, the two blast boxes 39 are fixedly provided with a plurality of nozzles 40 through welding, and the two blast boxes 39 are matched with the driving rod 23.

In this embodiment, the equal movable mounting in top of two mounting panels 7 has the one end of head rod 8, and the equal movable mounting of the other end of two head rods 8 is in the bottom of placing case 9 for the removal of two mounting panels 7 can drive and place the removal of case 9.

In this embodiment, the two baffles 18 are respectively and movably provided with one end of the second connecting rod 11, and the other ends of the two second connecting rods 11 are respectively and movably arranged on the two first connecting rods 8, so that the two baffles 18 can be driven to move when the two first connecting rods 8 move.

In this embodiment, a bearing 4 is fixedly installed on the inner wall of the left side of the box body 1 by welding, and one end of the screw rod 3 is fixedly connected with the inner ring of the bearing 4, so that smooth rotation of the screw rod 3 is ensured.

In this embodiment, two sliding grooves 15 are symmetrically formed in the box body 1, the two sliding grooves 15 are both fixedly welded with limiting rods 16, the two limiting rods 16 are both slidably welded with one ends of the supporting rods 17, and the other ends of the two supporting rods 17 are both fixedly welded with the placing box 9, so that the stable movement of the placing box 9 is ensured.

In this embodiment, there is first drive gear 25 through welded fastening on the actuating lever 23, all installs first drive gear 26 through welded fastening on two transmission shafts 24, and two first drive gears 26 all mesh with first drive gear 25 mutually for actuating lever 23 can drive two transmission shafts 24 and rotate.

In this embodiment, the two transmission rods 28 are respectively fixedly provided with a second driving gear 29 by welding, the two fan blades 21 are respectively fixedly provided with a second transmission gear 30 by welding, and the two second driving gears 29 are respectively meshed with the two second transmission gears 30, so that the two transmission rods 28 can drive the two fan blades 21 to rotate.

In this embodiment, the circular plate 31 is fixedly installed on the driving rod 23 by welding, the two connecting plates 34 are symmetrically and slidably installed on the circular plate 31, and the two connecting plates 34 are respectively and fixedly connected with the two blast boxes 39, so that the driving rod 23 can drive the two blast boxes 39 to move through the circular plate 31 and the two connecting plates 34.

In this embodiment, an elliptical groove 32 is formed in the circular plate 31, one ends of two fixing rods 33 are symmetrically and slidably mounted in the elliptical groove 32, and the other ends of the two fixing rods 33 are fixedly mounted on the two connecting plates 34 by welding respectively, so that the two connecting plates 34 can horizontally reciprocate.

In this embodiment, the symmetry has two backup pads 35 through welded fastening installation in box 1, has all seted up mounting groove 36 on two backup pads 35, and equal slidable mounting has connecting block 37 in two mounting grooves 36, all installs the one end of installation pole 38 through welded fastening on two connecting blocks 37, and the other end of two installation poles 38 is installed on two bellows 39 through welded fastening respectively, has guaranteed the steady removal of two bellows 39.

In this embodiment, when the flow of the power system needs to be monitored, the case cover 41 is opened by the handle 42, the first driving motor 5 and the second driving motor 22 are connected to the power supply, the first driving motor 5 and the second driving motor 22 are started, the first driving motor 5 drives the driving shaft 6 to rotate, the driving shaft 6 drives the screw 3 to rotate, the screw 3 drives the two mounting plates 7 to move, the two mounting plates 7 drive the placing case 9 to move by the two first connecting rods 8, meanwhile, the two first connecting rods 8 drive the two baffles 18 to move by the two second connecting rods 11, the two filter plates 10 are opened, at this time, the second driving motor 22 drives the driving rod 23 to rotate, the driving rod 23 drives the two transmission shafts 24 to rotate by the first driving gear 25 and the two first transmission gears 26, the two transmission shafts 24 drive the two transmission shafts 28 to rotate by the two gear acceleration cases 27, the two transmission rods 28 drive the two fan blades 21 to rotate through the two second driving gears 29 and the two second transmission gears 30, the two fan blades 21 can effectively dissipate heat in the placing box 9 through rotation, meanwhile, the driving rod 23 drives the circular plate 31 to rotate, the circular plate 31 drives the two fixing rods 33 to move through the elliptical groove 32, the two fixing rods 33 drive the two connecting plates 34 to move, and the two connecting plates 34 drive the two blast boxes 39 to move, so that the monitor 14 on the placing plate 12 can be cooled, and the heat dissipation effect is effectively improved.

The above description is only a 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 as the technical solutions and the inventive concepts of the present invention in the technical scope of the present invention.

Claims (10)

1. The utility model provides a flow monitoring device based on electric power automation system, including box (1), a serial communication port, the bottom movable mounting of box (1) has a plurality of leading wheel (2), the top movable mounting of box (1) has case lid (41), the top fixed mounting of case lid (41) has handle (42), screw rod (3) are installed to the box (1) internal rotation, the right side fixed mounting of box (1) has first driving motor (5), fixed mounting has the one end of drive shaft (6) on the output shaft of first driving motor (5), the other end of drive shaft (6) and the one end fixed connection of screw rod (3), symmetrical screw thread is installed two mounting panels (7) on screw rod (3), slidable mounting has in box (1) places case (9), place case (9) and cooperate with two mounting panels (7), the bottom symmetry fixed mounting who places case (9) has two filter plates (10), a placing plate (12) is fixedly arranged in the placing box (9), a plurality of through holes (13) are formed in the placing plate (12), a monitor (14) is fixedly arranged at the top of the placing plate (12), two baffle plates (18) are symmetrically and fixedly arranged at the bottom of the placing box (9), the two baffle plates (18) are respectively matched with the two filter plates (10), two ventilating boxes (19) are symmetrically and fixedly arranged in the placing box (9), a plurality of ventilating openings (20) are respectively formed in the two ventilating boxes (19), fan blades (21) are respectively rotatably arranged in the two ventilating boxes (19), a second driving motor (22) is fixedly arranged at the bottom of the placing box (9), a driving rod (23) is fixedly arranged on an output shaft of the second driving motor (22), one end of two transmission shafts (24) is symmetrically and rotatably arranged on the driving rod (23), two gear accelerating boxes (27) are symmetrically and fixedly arranged on the inner wall of the bottom of the placing box (, the other end of two transmission shafts (24) is connected with two gear acceleration boxes (27) respectively, all rotate the one end of installing transfer line (28) on two gear acceleration boxes (27), the other end of two transfer line (28) rotates with two flabellum (21) respectively and is connected, place symmetrical slidable mounting in case (9) and have two blast boxes (39), equal fixed mounting has a plurality of shower nozzle (40) on two blast boxes (39), two blast boxes (39) all cooperate with actuating lever (23).

2. Flow monitoring device according to claim 1, characterised in that the top of each of the two mounting plates (7) is movably mounted with one end of a first connecting rod (8), and the other end of each of the two first connecting rods (8) is movably mounted at the bottom of the placing box (9).

3. The flow monitoring device based on the electric power automation system as claimed in claim 1, characterized in that one end of the second connecting rod (11) is movably mounted on each of the two baffles (18), and the other end of the two second connecting rods (11) is movably mounted on the two first connecting rods (8) respectively.

4. The flow monitoring device based on the electric power automation system as claimed in claim 1, wherein a bearing (4) is fixedly installed on the inner wall of the left side of the box body (1), and one end of the screw rod (3) is fixedly connected with the inner ring of the bearing (4).

5. The flow monitoring device based on the electric power automation system as claimed in claim 1, wherein two sliding grooves (15) are symmetrically formed in the box body (1), limiting rods (16) are fixedly mounted in the two sliding grooves (15), one ends of the supporting rods (17) are slidably mounted on the two limiting rods (16), and the other ends of the two supporting rods (17) are fixedly mounted on the placing box (9).

6. The flow monitoring device based on the electric power automation system as claimed in claim 1, wherein the driving rod (23) is fixedly provided with a first driving gear (25), the two transmission shafts (24) are fixedly provided with first transmission gears (26), and the two first transmission gears (26) are meshed with the first driving gear (25).

7. The flow monitoring device based on the electric power automation system as claimed in claim 1, characterized in that a second driving gear (29) is fixedly mounted on each of the two transmission rods (28), a second transmission gear (30) is fixedly mounted on each of the two fan blades (21), and the two second driving gears (29) are respectively meshed with the two second transmission gears (30).

8. The flow monitoring device based on the electric power automation system as claimed in claim 1, characterized in that the driving rod (23) is fixedly provided with a circular plate (31), the circular plate (31) is symmetrically and slidably provided with two connecting plates (34), and the two connecting plates (34) are respectively fixedly connected with two blast boxes (39).

9. The flow monitoring device based on the electric power automation system as claimed in claim 8, wherein the circular plate (31) is provided with an elliptical groove (32), one end of two fixing rods (33) is symmetrically and slidably mounted in the elliptical groove (32), and the other end of the two fixing rods (33) is fixedly mounted on the two connecting plates (34), respectively.

10. The flow monitoring device based on the electric power automation system as claimed in claim 1, wherein two support plates (35) are symmetrically and fixedly mounted in the box body (1), each of the two support plates (35) is provided with a mounting groove (36), each of the two mounting grooves (36) is slidably mounted with a connecting block (37), each of the two connecting blocks (37) is fixedly mounted with one end of a mounting rod (38), and the other ends of the two mounting rods (38) are respectively and fixedly mounted on two blower boxes (39).

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