CN216162129U - External looped netowrk cabinet dehumidification condensation prevention device - Google Patents

Abstract

The utility model discloses an external dehumidification and condensation prevention device for a ring main unit. The looped netowrk cabinet peripheral hardware integration box, runner dehydrating unit, dehumidification controller and photovoltaic power generation device, runner dehydrating unit includes runner dehumidifier, dehumidification system air inlet duct, dehumidification system exhaust wind channel and valve, photovoltaic power generation device includes photovoltaic board, photovoltaic controller, photovoltaic inverter, storage battery, integrated humidity transducer, keyboard circuit, drive circuit are drawn together to the dehumidification controller, integrated box is fixed in on the looped netowrk cabinet side crossbeam through dismantling the steel support. According to the utility model, the dehumidification controller in the external integrated box body outputs a signal to the external rotary wheel type dehumidifier for dehumidification according to the humidity information obtained by feedback, and the external photovoltaic power generation device is arranged to provide an independent power supply for the dehumidifier. The rotating wheel type dehumidification method and the device are external, convenient to operate and maintain, independently powered and controlled by the microcontroller.

Description

External looped netowrk cabinet dehumidification condensation prevention device

Technical Field

The utility model relates to the technical field of power equipment matching, in particular to a rotating wheel dehumidification device for a ring main unit.

Background

The outdoor ring main unit is easily affected by external environment in the operation process, so that the conditions of moisture, insulation reduction and the like are caused, and the condition of discharging is caused; more seriously, condensation is easily generated under the conditions of large temperature difference between day and night, wet and cold seasons and rainy seasons, so that the ring main unit generates partial discharge and ground arc striking, and finally, an insulation fault is developed into an arc explosion accident due to interphase short circuit, thereby causing power supply interruption and economic loss.

For the dehumidification technology of the high voltage switch cabinet, a heating dehumidification method, a semiconductor condensation method or a dehumidification method with both methods are mostly adopted at present, for example, the chinese patent publication numbers are: CN211320594U, published in 8/21/2020, which is a dehumidification device for electric power ring main units.

However, both of these dehumidification techniques have the following significant drawbacks:

1) the dehumidification equipment is uniformly arranged inside the ring main unit, and the failure can be processed only when the ring main unit is powered off, so that the unplanned power failure time of a 10kV power supply line is prolonged, the social benefit and the economic benefit are influenced, and the workload and the operation risk are increased.

2) Condensation dehumidification is easy to frost under the condition of low temperature and high humidity, and the dehumidification effect is almost zero.

3) The heating dehumidification method has the defects that the temperature is too high under the condition of high temperature and high humidity, and the accelerated insulation aging of equipment in the cabinet is easy to occur.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model provides the rotating wheel type dehumidification method and the rotating wheel type dehumidification device which are externally arranged, independently powered, convenient to operate and maintain and controlled by the microcontroller, so that the constant humidity in the ring main unit can be ensured, and the effects of dehumidification, moisture prevention and condensation prevention are achieved.

The technical scheme of the utility model is as follows: the looped netowrk cabinet peripheral hardware integration box, runner dehydrating unit, dehumidification controller and photovoltaic power generation device.

The rotary wheel dehumidification device comprises a rotary wheel type dehumidifier, a dehumidification system air inlet duct, a dehumidification system air outlet duct and a valve.

The photovoltaic power generation device comprises a photovoltaic panel, a photovoltaic controller, a photovoltaic inverter and a storage battery pack.

The dehumidification controller comprises a humidity sensor, a keyboard circuit and a driving circuit.

The integrated box body is fixed on a side beam of the ring main unit through a detachable steel support, and the protection grade is not lower than IP 4X.

One end of the air inlet duct and the exhaust duct of the dehumidification system is connected with the integrated box body, the other end of the air inlet duct and the exhaust duct is respectively connected with 2 preformed holes of the ring main unit, and the preformed holes of the ring main unit are provided with openable waterproof cover plates.

The rotary wheel type dehumidifier is arranged in an integrated box outside the ring main unit and is an external condensation removing device of the ring main unit, a wet air inlet of the dehumidifier is connected with a wet air outlet of a space in the ring main unit, and a dry air outlet of the dehumidifier is connected into a dry air inlet in the ring main unit from the opposite angle side of the wet air outlet of the ring main unit. And the water vapor generated by the dehumidifier is discharged out of the integrated box from the lower part by the reserved water pipe.

The looped netowrk cabinet has the chevron shape roof, the photovoltaic board install in the top of looped netowrk cabinet chevron shape roof.

The looped netowrk cabinet installs the ventilation hole, the ventilation hole adopts waterproof louver, and the inside lining wire net takes the totally-enclosed apron of can opening. When the external dehumidification system normally operates, the cover plate is closed; when the external dehumidification system is dismantled and overhauled, the cover plate is opened for natural ventilation dehumidification.

According to the utility model, the humidity in the ring main unit is acquired through the humidity sensor, and whether the rotary wheel type dehumidifier is started for dehumidification is judged according to whether the humidity value is in the application range. Photovoltaic power generation devices arranged on the top surface of the ring main unit and in the integrated box body provide independent power supplies for the dehumidifier and the controller.

The device is a safe and reliable dehumidification anti-condensation device developed on the premise of not changing the original structure of the ring main unit and the arrangement mode of parts in the ring main unit. The method has the advantages that: the integrated box body, the photovoltaic element, the air pipe and other parts are all arranged on the shell of the ring main unit through a bracket; an openable waterproof cover plate is reserved in an air inlet hole and an air exhaust hole reserved in the ring main unit (if the air pipe is removed, the openable waterproof cover plate is closed); the power supply is taken from a photovoltaic power generation device outside the ring main unit, but not from a secondary circuit inside the ring main unit. Therefore, the operation, the overhaul, the dismounting, the reassembling and the like of the dehumidifying device can be carried out on the premise of not influencing the operation of the ring main unit. The advantages are two: the device is through using the dehumidifier constantly to take out the internal steam of cabinet and filtering and drying, consequently can keep the cabinet air dry, even the outdoor environment at night leads to looped netowrk cabinet outer wall low temperature, and the cabinet air high temperature that leads to because of the looped netowrk cabinet operation has the difference in temperature, also can not form condensation or frost in the cabinet. The advantages are three: the rotary dehumidifier is a moisture absorption dehumidifier, and the air in the cabinet which is extracted for dehumidification is not heated, so that the high temperature of components in the cabinet, which is caused by dehumidification by a built-in heater, is avoided from causing insulation aging.

Drawings

FIG. 1 is a schematic view of an external dehumidifying and anti-condensation device when looking at a ring main unit,

FIG. 2 is a schematic view of an external dehumidifying and anti-condensation device for a side view ring main unit,

figure 3 is a flow chart of a dehumidification method of a solar-powered rotary dehumidifier,

figure 4 is a schematic diagram of a detection circuit of a rotary dehumidifier and dehumidifier,

in the figure, 1 is a ring main unit, 2 is a solar photovoltaic panel, 3 is an integrated box body, 4 is a steel bracket of the integrated box body, 5 is a humidity sensor, 6 is a valve, 7 is an openable waterproof cover plate, 8 is a dehumidification system exhaust air duct, 9 is a photovoltaic controller, 10 is a photovoltaic inverter, 11 is a storage battery set, 12 is a rotary dehumidifier, 13 is a dehumidification controller, 14 is a vent hole, 15 is a dehumidification system air inlet duct, 16 is a keyboard circuit, and 17 is a drain pipe.

Detailed Description

The utility model is described in detail below with reference to fig. 1-4, and a box 3, a rotary dehumidifier, a dehumidification controller 13, and a photovoltaic power generation device are integrated outside the ring main unit 1.

The rotary wheel dehumidification device comprises a rotary wheel dehumidifier 12, a dehumidification system air inlet duct 15, a dehumidification system air outlet duct 8 and a valve 6.

The photovoltaic power generation device comprises a solar photovoltaic panel 2, a photovoltaic controller 9, a photovoltaic inverter 10 and a storage battery pack 11.

The dehumidification controller comprises an integrated humidity sensor 5, a keyboard circuit 16 and a driving circuit.

As shown in fig. 3, the humidity sensor 5 is connected to the microcontroller 13 to collect the humidity in the ring main unit 1, and the keyboard circuit 16 is connected to the dehumidification controller 13 to reset the system and set the upper and lower humidity limits.

The solar photovoltaic panel 2 is connected with the storage battery pack 11 through the photovoltaic controller 9, so that the collection and storage of electric power are realized. The photovoltaic inverter 10 is connected to the storage battery pack 11, and converts the voltage of the storage battery pack 11 into a voltage usable by the rotary dehumidifier 12.

The rotary dehumidifier 12 is connected with the microcontroller 13 through a driving circuit, and the moist air in the ring main unit 1 is extracted through the dehumidification system air inlet duct 15, and is dried by the rotary dehumidifier 12 and then returns to the ring main unit 1 along the dehumidification system air outlet duct 8.

The ring main unit 1 is provided with a gable roof, and the photovoltaic panel 2 is arranged above the gable roof of the ring main unit 1.

The looped netowrk cabinet installs ventilation hole 14, the ventilation hole adopts waterproof louver, and the inside lining wire net takes the totally-enclosed apron that can open. When the external dehumidification system normally operates, the cover plate is closed; when the external dehumidification system is dismantled and overhauled, the cover plate is opened for natural ventilation dehumidification.

Claims (3)

1. An external looped network cabinet dehumidification and condensation prevention device is characterized in that a box body, a rotating wheel dehumidification device, a dehumidification controller and a photovoltaic power generation device are integrated outside the looped network cabinet,

the integrated box body is fixed on the outer side surface of the ring main unit through a steel bracket;

the photovoltaic panel is fixed on the outer side of the ring main unit roof through a steel bracket;

the rotary wheel dehumidification device comprises a rotary wheel type dehumidifier, a dehumidification system air inlet duct, a dehumidification system air outlet duct and a valve;

a photovoltaic controller, a photovoltaic inverter, a storage battery pack and a dehumidification controller are arranged in the integrated box body;

at least one drainage pipeline is arranged on the integrated box body;

at least 2 humidity sensors are arranged inside the ring main unit;

4 ventilation holes are reserved on two sides of the ring main unit box body symmetrically at least.

2. The external ring main unit dehumidification and condensation prevention device as claimed in claim 1, wherein the rotary dehumidifier is configured to dehumidify moist air entering from an air inlet duct of the dehumidification system; the dehumidified dry air enters the ring main unit through the exhaust air duct of the dehumidification system and is recycled;

the protection grade of the integrated box body is not lower than IP4X, and the shell of the box body needs to be grounded;

the humidity sensor is used for detecting the environment humidity inside the closed ring main unit body;

the drainage pipeline is used for discharging condensed water generated by the rotary dehumidifier out of the integrated box body;

the photovoltaic panel is used for converting the collected solar energy into electric energy, storing the electric energy through the photovoltaic controller and the storage battery pack, and supplying power to the dehumidification controller and the rotary dehumidifier by using the inverter;

the ventilation holes are made of waterproof shutters, lined with steel wire meshes and provided with openable fully-closed cover plates; when the external dehumidification system normally operates, the cover plate is closed; when the external dehumidification system is dismantled and overhauled, the cover plate is opened for natural ventilation dehumidification.

3. The external ring main unit dehumidification and condensation prevention device as claimed in claim 1, wherein when the humidity inside the main unit is higher than a preset humidity upper limit value, the local control terminal module controls the dehumidification module to start to operate;

when the humidity in the cabinet is lower than a preset humidity lower limit value, the local control terminal module controls the dehumidification module to stop working;

when the humidity in the cabinet is higher than the preset lower limit value of the humidity but lower than the preset upper limit value of the humidity, the dehumidification module keeps the current working state.

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