CN214478859U - Low-voltage distribution network line monitoring equipment - Google Patents

Abstract

The utility model provides a low voltage distribution network line monitoring equipment relates to the technical field of electric power monitoring, and comprises a device body, the device body top is equipped with the condensation chamber, the condensation chamber both sides are equipped with first condenser pipe and second condenser pipe, first condenser pipe and the second condenser pipe pass device body one side is equipped with first connecting pipe and second connecting pipe respectively, first connecting pipe and second connecting pipe one end are equipped with first fan and second fan, first fan and second fan one side are equipped with the curb plate, be equipped with first backup pad, second backup pad and third backup pad between the curb plate respectively, the second backup pad with the device body links to each other; and an air suction pipe and an air outlet pipe are arranged on the other side of the first fan and the second fan, and the air suction pipe and the air outlet pipe penetrate through the side plate. The utility model discloses stable in structure, the practicality is high.

Description

Low-voltage distribution network line monitoring equipment

Technical Field

The utility model belongs to the technical field of the electric power monitoring, concretely relates to low voltage distribution network line monitoring facilities.

Background

In the prior art, most low-voltage distribution network line monitoring equipment lacks a stable and efficient heat dissipation device when using, can effectively dispel the heat to equipment, prevents the damage of the components and parts that equipment leads to because of self high temperature, therefore needs a low-voltage distribution network line monitoring equipment that can dispel the heat.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a low voltage distribution network line monitoring facilities.

The utility model provides a following technical scheme:

a low-voltage distribution network line monitoring device comprises a device body, wherein a condensation chamber is arranged at the top of the device body, a first condensation pipe and a second condensation pipe are arranged on two sides of the condensation chamber, the first condensation pipe and the second condensation pipe penetrate through one side of the device body and are respectively provided with a first connecting pipe and a second connecting pipe, one ends of the first connecting pipe and the second connecting pipe are provided with a first fan and a second fan, side plates are arranged on one sides of the first fan and the second fan, a first supporting plate, a second supporting plate and a third supporting plate are respectively arranged between the side plates, and the second supporting plate is connected with the device body; the other side of the first fan and the second fan is provided with an air suction pipe and an air outlet pipe, the air suction pipe and the air outlet pipe penetrate through the side plate, the inner wall of the bottom of the device body is provided with a mounting block, the top of the mounting block is provided with at least one heat dissipation plate, the heat dissipation plate is connected with a third support plate, the third support plate is provided with at least one third air port, the third air port is arranged between the heat dissipation plates, air inlet cylinders are arranged on two sides of the heat dissipation plate and are aligned with the air suction pipe and the air outlet pipe, one side of the air inlet cylinders is provided with at least one spray head, the spray head is aligned with the third air port, the top of the third support plate is provided with an alarm and an electric leakage protection unit, the second support plate is arranged above the third support plate, the top of the second support plate is provided with a controller, the two sides of the controller are provided with second air ports, and the second air ports are arranged on the second support plate, the wind plates are arranged on two sides of the bottom of the second supporting plate, the first supporting plate is arranged above the second supporting plate, and the detection unit and the communication module are arranged on two sides of the top of the first supporting plate.

Preferably, at least one first air port is formed in the first support plate, a condensation pipe is arranged between the first air ports, and the condensation pipe is connected with the first support plate.

Preferably, the wind plate is an arc wind plate.

Preferably, the inner wall of the top of the device body is provided with a temperature sensor.

Preferably, a warning lamp and a trip switch are arranged on one side of the device body.

Preferably, at least one jack is arranged at two ends of the device body.

The utility model has the advantages that: the utility model relates to a rational in infrastructure, begin work through first fan and second fan, with the hot-air of first backup pad top between first backup pad and the second backup pad via first wind gap, again by the second wind gap of second backup pad both sides along the smooth third wind gap that gets into of aerofoil, again by the third wind gap enter into between a plurality of heating panels, enter into the air inlet section of thick bamboo via the shower nozzle, again by breathing pipe suction, in first fan send to the condensation chamber, the second fan inhales the export of outlet duct to air inlet section of thick bamboo opposite side with the air conditioning in the condensation chamber, again by the shower nozzle enter into between the heating panel, between third wind gap to first backup pad and second backup pad and third backup pad, form circulation process, the sustainability and the thermal diffusivity of device have been increased.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Labeled as: 1. the air conditioner comprises a condensation chamber, 2. a temperature sensor, 3. a first condensation pipe, 4. a second condensation pipe, 5. a device body, 6. a jack, 7. a warning lamp, 8. a first connecting pipe, 9. a trip switch, 10. a first fan, 11. a detection unit, 12. the condensation pipe, 13. a communication module, 14. a first air port, 15. a controller, 16. a first supporting plate, 17. a second connecting pipe, 18. a second fan, 19. a second supporting plate, 20. a second air port, 21. an air plate, 22. a third air port, 23. an electric leakage protection unit, 24. an alarm, 25. a third supporting plate, 26. a heat radiation plate, 27. an air suction pipe, 28. an air inlet cylinder, 29. a mounting block, 30. a spray head, 31. a side plate and 32. an air outlet pipe.

Detailed Description

As shown in fig. 1, the utility model relates to a low-voltage distribution network line monitoring device, including the device body 5, the top of the device body 5 is provided with a condensation chamber 1, two sides of the condensation chamber 1 are provided with a first condensation pipe 3 and a second condensation pipe 4, the first condensation pipe 3 and the second condensation pipe 4 pass through one side of the device body 5 and are respectively provided with a first connecting pipe 8 and a second connecting pipe 17, one end of the first connecting pipe 8 and one end of the second connecting pipe 17 are provided with a first fan 10 and a second fan 18, one side of the first fan 10 and one side of the second fan 18 are provided with a side plate 31, a first supporting plate 16, a second supporting plate 19 and a third supporting plate 25 are respectively arranged between the side plates 31, and the second supporting plate 19 is connected with the device body 5; an air suction pipe 27 and an air outlet pipe 32 are arranged on the other side of the first fan 10 and the second fan 18, the air suction pipe 27 and the air outlet pipe 32 penetrate through the side plate 31, a mounting block 29 is arranged on the inner wall of the bottom of the device body 5, at least one heat dissipation plate 26 is arranged on the top of the mounting block 29, the heat dissipation plate 26 is connected with the third support plate 25, at least one third air opening 22 is arranged on the third support plate 25, the third air opening 22 is arranged between the heat dissipation plates 26, air inlet cylinders 28 are arranged on two sides of the heat dissipation plates 26, the air inlet cylinders 28 are aligned with the air suction pipe 27 and the air outlet pipe 32, at least one spray head 30 is arranged on one side of the air inlet cylinders 28, the spray head 30 is aligned with the third air opening 22, an alarm 24 and an earth leakage protection unit 23 are arranged on the top of the third support plate 25, and the second support plate 19 is arranged above the third support plate 25, the top of the second supporting plate 19 is provided with a controller 15, two sides of the controller 15 are provided with second air ports 20, the second air ports 20 are arranged on the second supporting plate 19, two sides of the bottom of the second supporting plate 19 are provided with air plates 21, the first supporting plate 16 is arranged above the second supporting plate 19, and two sides of the top of the first supporting plate 16 are provided with a detection unit 11 and a communication module 13.

Specifically, as shown in fig. 1, the utility model includes a device body 5, a condensation chamber 1 is arranged on the top of the device body 5, a first condensation pipe 3 and a second condensation pipe 4 are arranged on two sides of the condensation chamber 1, the first condensation pipe 3 and the second condensation pipe 4 are respectively provided with a first connecting pipe 8 and a second connecting pipe 17 through one side of the device body 5, one end of the first connecting pipe 8 and one end of the second connecting pipe 17 are provided with a first fan 10 and a second fan 18, one side of the first fan 10 and one side of the second fan 18 are provided with side plates 31, a first supporting plate 16, a second supporting plate 19 and a third supporting plate 25 are respectively arranged between the side plates 31, and the second supporting plate 19 is connected with the device body 5; the other side of the first fan 10 and the second fan 18 is provided with an air suction pipe 27 and an air outlet pipe 32, the air suction pipe 27 and the air outlet pipe 32 penetrate through a side plate 31, the inner wall of the bottom of the device body 5 is provided with a mounting block 29, the top of the mounting block 29 is provided with at least one heat dissipation plate 26, the heat dissipation plate 26 is connected with a third support plate 25, the third support plate 25 is provided with at least one third air opening 22, the third air opening 22 is arranged between the heat dissipation plates 26, the two sides of the heat dissipation plate 26 are provided with air inlet cylinders 28, the air inlet cylinders 28 are aligned with the air suction pipe 27 and the air outlet pipe 32, one side of the air inlet cylinders 28 is provided with at least one spray head 30, the spray head 30 is aligned with the third air opening 22, the top of the third support plate 25 is provided with an alarm 24 and an electric leakage protection unit 23, a second support plate 19 is arranged above the third support plate 25, the top of the second support plate 19 is provided with a controller 15, the two sides of the controller 15 are provided with second air openings 20 arranged on the second support plate 19, two sides of the bottom of the second supporting plate 19 are provided with air plates 21, a first supporting plate 16 is arranged above the second supporting plate 19, and two sides of the top of the first supporting plate 16 are provided with a detection unit 11 and a communication module 13. When the temperature in the device body 5 is too high, the first fan 10 and the second fan 18 start to work, the hot air above the first supporting plate 16 enters between the first supporting plate 16 and the second supporting plate 19 through the first air opening 14, then smoothly enters the third air opening 22 along the air plate 21 through the second air openings 20 at two sides of the second supporting plate 19, then enters between the plurality of heat dissipation plates 26 through the third air opening 22, enters the air inlet cylinder 28 through the spray head 30, is sucked through the air suction pipe 27, and is sent into the condensation chamber 1 through the first fan 10, the second fan 18 sucks the cold air in the condensation chamber 1 into the outlet pipe 32 to the outlet at the other side of the air inlet cylinder 28, then enters between the heat dissipation plates 26 through the spray head 30, and enters between the first supporting plate and the second supporting plate through the third air opening 22, and forms a circulation process.

Specifically, as shown in fig. 1, at least one first air opening 14 is formed in the first support plate 16, a condenser tube 12 is disposed between the first air openings 14, the condenser tube 12 is connected to the first support plate 16, and the condenser tube 12 has an effect of enhancing heat dissipation. The air plate 21 is an arc-shaped air plate, and the arc-shaped air plate plays a role in guiding air. The inner wall of the top of the device body 5 is provided with a temperature sensor 2, and after the temperature sensor 2 senses that the temperature in the device body 5 is too high, the fan and the condensation chamber 1 start to work. A warning lamp 7 and a tripping switch 9 are arranged on one side of the device body 5, the warning lamp 7 plays a role in reminding, and the tripping switch 9 plays a role in protecting a circuit. At least one jack 6 is arranged at two ends of the device body 5, and the jacks 6 are convenient for mounting and connecting the device body 5.

The utility model discloses a theory of operation is: the utility model discloses a device body 5, when the temperature was too high in the device body 5, first fan 10 and second fan 18 begin work, with the hot-air of first backup pad 16 top between 14 to first backup pad 16 and the second backup pad 19 via first wind gap, again by second wind gap 20 of 19 both sides of second backup pad along the aerofoil 21 get into third wind gap 22 smoothly, again by third wind gap 22 enter into between a plurality of heating panels 26, enter into an air inlet section of thick bamboo 28 via shower nozzle 30, again by breathing pipe 27 inhales, in first fan 10 reaches condensation chamber 1, second fan 18 inhales the export of outlet duct 32 to an air inlet section of thick bamboo 28 opposite side with the air conditioning in condensation chamber 1, again by shower nozzle 30 enter into between the heating panel 26, between first backup pad and second backup pad and the third backup pad via third wind gap 22, form the circulation process.

To sum up, the utility model relates to a rational in infrastructure, begin work through first fan and second fan, with the hot-air of first backup pad top between first backup pad and the second backup pad via first wind gap, get into the third wind gap smoothly along the aerofoil by the second wind gap of second backup pad both sides again, again enter into between a plurality of heating panels by the third wind gap, enter into an air inlet section of thick bamboo via the shower nozzle, inhale by the breathing pipe again, in first fan send to the condensation chamber, the export of outlet duct to an air inlet section of thick bamboo opposite side is inhaled to the air conditioning of second fan in with the condensation chamber, again enter into between the heating panel by the shower nozzle, between first backup pad and second backup pad and the third backup pad via the third wind gap, form circulation process, the sustainability and the thermal diffusivity of device have been increased.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A low voltage distribution network line monitoring equipment which characterized in that: the device comprises a device body, wherein a condensation chamber is arranged at the top of the device body, a first condensation pipe and a second condensation pipe are arranged on two sides of the condensation chamber, the first condensation pipe and the second condensation pipe penetrate through one side of the device body and are respectively provided with a first connecting pipe and a second connecting pipe, one end of the first connecting pipe and one end of the second connecting pipe are provided with a first fan and a second fan, side plates are arranged on one sides of the first fan and the second fan, a first supporting plate, a second supporting plate and a third supporting plate are respectively arranged between the side plates, and the second supporting plate is connected with the device body; the other side of the first fan and the second fan is provided with an air suction pipe and an air outlet pipe, the air suction pipe and the air outlet pipe penetrate through the side plate, the inner wall of the bottom of the device body is provided with a mounting block, the top of the mounting block is provided with at least one heat dissipation plate, the heat dissipation plate is connected with a third support plate, the third support plate is provided with at least one third air port, the third air port is arranged between the heat dissipation plates, air inlet cylinders are arranged on two sides of the heat dissipation plate and are aligned with the air suction pipe and the air outlet pipe, one side of the air inlet cylinders is provided with at least one spray head, the spray head is aligned with the third air port, the top of the third support plate is provided with an alarm and an electric leakage protection unit, the second support plate is arranged above the third support plate, the top of the second support plate is provided with a controller, the two sides of the controller are provided with second air ports, and the second air ports are arranged on the second support plate, the wind plates are arranged on two sides of the bottom of the second supporting plate, the first supporting plate is arranged above the second supporting plate, and the detection unit and the communication module are arranged on two sides of the top of the first supporting plate.

2. A low voltage distribution network line monitoring device according to claim 1, characterized in that: the air conditioner is characterized in that at least one first air port is formed in the first supporting plate, a condensation pipe is arranged between the first air ports, and the condensation pipe is connected with the first supporting plate.

3. A low voltage distribution network line monitoring device according to claim 1, characterized in that: the air plate is an arc-shaped air plate.

4. A low voltage distribution network line monitoring device according to claim 1, characterized in that: the inner wall of the top of the device body is provided with a temperature sensor.

5. A low voltage distribution network line monitoring device according to claim 1, characterized in that: a warning lamp and a tripping switch are arranged on one side of the device body.

6. A low voltage distribution network line monitoring device according to claim 1, characterized in that: at least one jack is arranged at two ends of the device body.

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