KR20200018068A - Distributing board case of sewage water treatment plant - Google Patents

Abstract

The present invention is a distribution box from a sewage processing facility installed at a sewage processing facility. The distribution box includes: a distribution box main body which has an inner space to accommodate a distribution board from a sewage processing facility; a temperature measurement module which measures internal temperature of the inner space and external temperature of the outside of the distribution box main body, respectively; a humidity measurement module which measures internal humidity of the inner space and external humidity of the outside of the distribution box, respectively; a toxic gas measurement module which measures toxic gas concentration of the inner space and the outside of the distribution box main body, respectively; an air blowing module which is installed in the distribution box main body and absorbs external air to supply the same to the inner space or discharge internal air of the inner space to the outside according to a driving signal; and a control unit which compares the internal temperature and the external temperature measured from the temperature measurement module, the internal humidity and the external humidity measured from the humidity measurement module, the toxic gas concentration of the inner space and the toxic gas concentration of the outside measured from the toxic gas measurement module to control driving of the air blowing module in order to absorb the external air to supply the same to the inner space or discharge the internal air to the outside. According to the present invention, it is possible to effectively protect and manage a distribution board accommodated in an inner space from temperature and humidity, and if installed at a sewage processing facility, the distribution board can also be effectively protected from corrosive toxic gas discharged from the sewage processing facility.

Description

Distribution board case of sewage water treatment plant

The present invention relates to a distribution box of a sewage treatment facility, and more particularly, to a distribution box of a sewage treatment facility, which is installed in a sewage treatment facility and effectively protects a switchboard from temperature and humidity, including harmful gases discharged from the sewage treatment facility. It is about.

In general, a switchboard is a type of electrical equipment that safely supplies industrial power to a user, and is used to monitor, control, and protect an electric system when power is distributed from a power plant or substation to a consumer (mostly a high voltage consumer). to be.

Such a switchboard is composed of a collection of conductors (Busbar, Cable, etc.) for connecting and connecting the unit equipment such as a circuit breaker or protective relay and connecting and supporting the unit equipment. It is installed inside to protect it.

As an example of the technology for the distribution box, Korean Patent Laid-Open Publication No. 10-2009-0117086 discloses a rectangular parallelepiped housing in which various electric devices for power distribution of electric power are stored, and is installed to be opened and closed on one side of the enclosure. Forming a skeleton of the door and the enclosure, comprising a skeleton frame consisting of a combination of a plurality of horizontal frame and the vertical frame, the slanted connection between the vertical frame adjacent to each other of the skeleton frame at a predetermined inclination An earthquake-resistant closed switchgear has been disclosed, which is further provided with an inclined frame and a fixed plate coupled to a vertical frame or a horizontal frame of the skeletal frame and fixed to each end of the inclined frame.

On the other hand, because the various electrical equipment constituting the switchboard is very vulnerable to harmful gases such as temperature, moisture, and corrosion, the distribution box needs to effectively protect the switchboard from such harmful components.

However, the conventional distribution box is configured so that the management of temperature and humidity is vulnerable, and particularly in the case of the distribution box installed in the sewage treatment facility, the harmful gas that may cause corrosion of the switchboard due to the large amount of harmful gas discharged from the sewage treatment facility. There was a problem that the management is vulnerable to effectively protect the switchboard from them.

Republic of Korea Patent Publication No. 10-2009-0117086

The present invention is capable of effectively protecting and managing the switchboard housed therein from temperature and humidity, and in particular, when installed in the sewage treatment facility, the sewage system is configured to effectively protect the switchboard even against corrosive harmful gases emitted from the sewage treatment facility. The purpose is to provide a distribution box for a treatment facility.

The present invention, the distribution box of the sewage treatment facility installed in the sewage treatment facility, the inner space is formed, the distribution box body for receiving the switchboard of the sewage treatment facility; A temperature measuring module measuring internal temperature of the internal space and external temperature of the outside of the distribution box body; A humidity measuring module measuring internal humidity of the internal space and external humidity of the outside of the distribution box main body; A noxious gas measurement module for measuring a noxious gas concentration in the inner space and a noxious gas concentration outside the distribution box body; A blower module installed in the distribution box body and configured to suck outside air according to a driving signal to supply the inside space or to discharge the inside of the inside space to the outside; The internal temperature and the external temperature measured from the temperature measuring module, the internal humidity and the external humidity measured from the humidity measuring module, the harmful gas concentration of the internal space measured from the harmful gas measuring module and the outside Comparing the concentration of harmful gases, respectively, and supplies the distribution box of the sewage treatment facility, characterized in that it comprises a control unit for driving the blower module to suck the outside air to the internal space or to discharge the bet to the outside. .

Here, the blowing module, the blowing fan, a driving unit for rotating the blowing fan, the drive control by the drive signal of the control unit, and installed on one side of the blowing fan to filter the harmful substances contained in the harmful gas It may be configured to include a filter unit.

In addition, the driving unit may be configured to perform a suction drive for driving the blower fan to suck the outside air to supply to the internal space.

The control unit controls the blower module to be driven when the internal temperature is higher than the set value and the internal temperature is higher than the external temperature so that the internal temperature is maintained at a proper temperature. When the internal temperature is lower than the set value or the internal temperature is higher than the set value and the internal temperature is lower than the external temperature, the blower module may be controlled to be driven.

The control unit may control the blower module to be driven when the internal humidity is higher than a set value and the internal humidity is higher than the external humidity so that the internal humidity is maintained at a proper humidity, but the external temperature is set to a threshold. If it is lower than the value it can be controlled to drive the blower module, and if the external temperature is higher than the set threshold value it can be controlled to drive the blower module.

The control unit may control the blowing module to be driven when the internal noxious gas concentration is higher than or equal to a set value and the internal noxious gas concentration is higher than the external noxious gas concentration, but the external temperature is lower than a preset threshold. The blower module may be controlled to be driven, and when the external temperature is higher than a preset threshold, the blower module may be controlled to be driven.

The controller may further include the driving unit when the internal noxious gas concentration is lower than the set value or the internal noxious gas concentration is higher than or equal to the predetermined value and the internal noxious gas concentration is lower than the external noxious gas concentration. Can be controlled.

The control unit may drive the blower module when the internal temperature is higher than a set value and the internal temperature is higher than the external temperature, or when the internal humidity is higher than a set value and the internal humidity is higher than the external humidity. If the external temperature is lower than the set threshold, the blower module may be controlled. If the external temperature is higher than the set threshold, the blower module may be driven.

In addition, the control unit is harmful when the internal temperature is higher than the set value and the internal temperature is higher than the external temperature, or when the internal humidity is higher than the set value and the internal humidity is higher than the external humidity. If the gas concentration is less than the set value or the harmful gas concentration of the internal space is less than the external harmful gas concentration, the blower module is controlled to perform the suction drive, but if the external temperature exceeds the set threshold value the blowing Control the module to be idle; When the internal temperature is less than the set value, the internal temperature is more than the set value, the internal temperature is less than the external temperature, the internal humidity is less than the set value or the internal humidity is more than the set value, the internal humidity is the In the case of one or more of the case of less than the external humidity, when the harmful gas concentration of the internal space is less than the set value, when the harmful gas concentration of the internal space is less than the external harmful gas concentration, or the external temperature is the set threshold value If it exceeds, it can be controlled to drive the blower module is not driven.

The harmful gas may be composed of corrosive methane (CH ₄ ) discharged during the sewage treatment.

Thus, the filter unit may be formed of a zeolite material having a plurality of pores formed therein.

On the other hand, the drive unit, it may be configured to include a discharge drive for driving the blowing fan to discharge the inside of the internal space to the outside.

In this case, the filter unit, and selectively filter the harmful substances in response to the suction drive and the discharge drive, the suction material absorbs the harmful substances during the suction drive, the harmful accumulation accumulated in the filter unit during the discharge drive The filter unit may be configured to flush material by discharging the material.

The pores of the filter unit are formed such that the cross-sectional area is gradually narrowed toward the direction in which the outside air is sucked into the internal space, and the harmful substances are filtered at the suction driving, and the harmful substances accumulated at the discharge driving are discharged. Can be configured to be washed.

The controller may control the driving unit to discharge the gas when the harmful gas concentration in the internal space is equal to or larger than a set value and the harmful gas concentration in the internal space is higher than the external harmful gas concentration.

In addition, the control unit is harmful when the internal temperature is higher than the set value and the internal temperature is higher than the external temperature, or when the internal humidity is higher than the set value and the internal humidity is higher than the external humidity. If the gas concentration is greater than or equal to a set value and the harmful gas concentration in the internal space is higher than the external harmful gas concentration, the blower module controls to discharge the gas; When the internal temperature is less than the set value, the internal temperature is more than the set value, the internal temperature is less than the external temperature, the internal humidity is less than the set value or the internal humidity is more than the set value, the internal humidity is the In the case of one or more of the case of less than the external humidity, when the harmful gas concentration of the internal space is higher than the set value, and the harmful gas concentration of the internal space is higher than the external harmful gas concentration, the blower module to discharge operation Can be controlled.

The distribution box of the sewage treatment plant according to the present invention provides the following effects.

First, since it is configured to compare the internal temperature and the external temperature of the inner space of the distribution box, and to control the blower module to adjust the temperature of the inner space through this, considering the external environment and the environment of the inner space of the distribution box is effective Temperature management is possible.

Second, by comparing the internal humidity and the external humidity of the inner space of the distribution box and configured to control the humidity of the inner space through this, effective humidity management is possible in consideration of the external environment and the environment of the inner space of the distribution box.

Third, it is possible to effectively protect the switchboard against the corrosive harmful gas discharged from the sewage treatment facility by controlling the blower module through comparing the harmful gas concentration of the inner space of the distribution box and the harmful gas concentration outside.

Fourth, the filter unit filters the harmful substances according to the blowing direction or allows the accumulated harmful substances to be discharged, so that the filter unit can be operated effectively for each harmful gas concentration inside and outside, and regeneration of the filter unit depends on the discharge of the hazardous substances. This can extend the life of the filter part and provide a productive effect.

1 is a perspective view showing the appearance of the distribution box of the sewage treatment facility according to an embodiment of the present invention.
Figure 2 is a block diagram showing the control flow of the control unit of the sewage treatment plant according to an embodiment of the present invention.
3 is a cross-sectional view showing the configuration of the filter unit in the distribution box of the sewage treatment plant according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a process of accumulating harmful gas particles in the filter unit during suction driving in a distribution box of a sewage treatment facility according to an embodiment of the present invention.
FIG. 5 is a cross-sectional view illustrating a process in which harmful gas particles accumulated in a filter part are discharged and washed in a distribution box of a sewage treatment facility according to an embodiment of the present invention.
6 is a flowchart illustrating a control flow of a control unit according to an internal temperature and an external temperature condition in a distribution box of a sewage treatment facility according to an embodiment of the present invention.
7 is a flowchart illustrating a control flow of a controller according to internal humidity and external humidity conditions in a distribution box of a sewage treatment facility according to an embodiment of the present invention.
8 is a flowchart illustrating a control flow of a control unit according to the concentration of harmful gases inside and outside in a distribution box of a sewage treatment facility according to an embodiment of the present invention.
9 is a flowchart illustrating a control flow of a control unit according to temperature and humidity inside and outside in a distribution box of a sewage treatment facility according to an embodiment of the present invention.
FIG. 10 is a flowchart illustrating a control flow of a controller according to internal and external temperature, humidity, and harmful gas concentration in a distribution box of a sewage treatment facility according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, referring to Figures 1 and 2, the distribution box (hereinafter referred to as "distribution box") of the sewage treatment facility according to an embodiment of the present invention, is installed in the indoor and outdoor of the sewage treatment facility, the distribution box body 100 And a temperature measuring module 200, a humidity measuring module 300, a noxious gas measuring module 400, a blowing module 500, and a control unit 600.

The distribution box body 100 has an internal space formed to accommodate the switchboard of the sewage treatment facility. The distribution box body 100 may be formed in a box shape as shown, and the opening and closing door 110 is installed to open and close the inner space on the front to repair the switchboard.

The temperature measuring module 200 measures an internal temperature of the internal space and an external temperature of the outside of the distribution box main body 100, and transmits the information about the measured internal and external temperatures to the controller 600. It is configured to.

Here, the temperature measuring module 200, although not shown, by installing an internal temperature sensor inside the distribution box body 100 to measure the internal temperature of the internal space, an external temperature sensor is installed outside the distribution box body 100. It can be configured to measure the external temperature outside.

The humidity measurement module 300 is configured to measure the internal humidity of the internal space, the external humidity of the outside of the distribution box main body 100, and transmit the information about the measured internal humidity and the external humidity to the controller 600. .

Here, the humidity measurement module 300, by installing the internal humidity sensor inside the distribution box body 100, as in the temperature measurement module 200 to measure the internal humidity of the internal space, the outside of the distribution box body 100 By installing an external humidity sensor in the can be configured to measure the external humidity. At this time, the detailed configuration of the internal and external temperature sensor and the humidity sensor can be applied to a well-known temperature sensor and humidity sensor, so a detailed description thereof will be omitted.

The noxious gas measurement module 400 is configured to measure the noxious gas concentration in the internal space and the noxious gas concentration outside the distribution box main body 100, and transmit the measured noxious gas concentration information to the controller 600.

The blower module 500 is installed in the distribution box main body 100, and is configured to suck outside air and supply the inside air to the inside space according to a driving signal, or to discharge the inside of the inside space to the outside.

In detail, the blower module 500 includes a blower fan 510, a drive unit 520 that rotates the blower fan 510 and is driven and controlled by a drive signal of the controller 600, and the blower fan 510. Installed on one side is configured to include a filter unit 530 for filtering the harmful substances (1) contained in the harmful gas.

Here, the driving unit 520, the suction drive for the blower module 500 to suck the outside air to supply to the inner space according to the drive signal by changing the rotation direction of the blower fan 510, and the bet of the inner space outside It is configured to perform each discharge drive discharged to the furnace.

To this end, first, the blowing fan 510 is configured to be different in the fluid flow direction according to the rotation direction, for example, when rotating in the clockwise direction is made of the suction drive in which the outside air flows in, counterclockwise When rotating, it is configured to allow the discharge drive outflow of the bet to the outside.

Accordingly, the driving unit 520 is configured to change the rotational direction of the blowing fan 510 according to the driving signal so that the suction driving and the discharge driving can be performed, and during the suction driving, rotate the blowing fan 510 clockwise. The suction drive may be performed, and during the discharge drive, the blower fan 510 is rotated counterclockwise to drive and control the blower fan 510 to discharge the drive.

The filter unit 530 is installed on one side of the blowing fan 510 and configured to filter the harmful substances 1 contained in the harmful gas passing through the blowing fan 510.

Here, the harmful gas mainly comprises methane (CH ₄ ) discharged in a large amount during the sewage treatment as the distribution box is installed in the sewage treatment facility.

Such methane has a property of rapidly corroding metal when it encounters moisture, and may cause damage to switchboards, which are electronic devices installed in a distribution box, when exposed to a long time. Therefore, the filter unit 530 is preferably made of a material capable of filtering the methane component more effectively.

Thus, the filter unit 530 is preferably formed of a zeolite material which is easy to handle and excellent in filtration performance for methane.

On the other hand, the filter unit 530 made of a zeolite material, a plurality of pores 531 is formed so that harmful gas containing harmful substances (1), such as methane is configured to filter while passing through the pores (531) However, it is configured to selectively filter the hazardous substances (1) in response to the suction drive and discharge drive.

In detail, the filter unit 530 will be described in detail with reference to FIG. 3. In the filter unit 530, a plurality of pores 531 are formed in the inside of the filter unit 530, such as zeolite. When passing through the harmful substances (1) contained in the harmful gas is configured to be filtered while accumulating in the pores (531).

At this time, the pores 531 of the filter unit 530 according to the present invention are tapered so that the cross-sectional area is gradually narrowed toward the direction in which outside air is sucked into the inner space. Here, the minimum cross-sectional area of the filter unit 530 is set to a size that can be accumulated therein without passing the harmful substance (1).

Accordingly, in the filter unit 530, when the fluid flows from the outside to the inside, the harmful substance 1 is accumulated and filtered due to the tapered pores 531, and the fluid flows from the inside to the outside. At the time, the accumulated harmful substances (1) is configured to be discharged, and configured to selectively filter or discharge the hazardous substances (1) according to the flow direction of the fluid.

Referring to the operation of the filter unit 530 according to the fluid flow direction, Figure 4 shows the operation of the filter unit 530 during the suction drive to suck the outside into the inside, the filter unit 530 during the suction drive The harmful substance 1 is not allowed to pass through the pores 531, and the harmful substance 1 is accumulated and filtered in the pores 531, thereby preventing the harmful substance 1 from flowing into the internal space.

On the other hand, Figure 5 shows the operation of the filter unit 530 during the discharge drive to discharge the bet to the outside, when looking at this, the filter unit 530 during discharge driving, the pores 531 accordingly as the bet is leaked to the outside Hazardous substances 1 accumulated therein are discharged to the outside, and thus the filter unit 530 is washed and regenerated.

As described above, the filter unit 530 filters the harmful substances 1 into the internal space during the suction driving, while the hazardous substances 1 accumulated inside the discharge unit are discharged. By discharging the filter unit 530 to be washed, not only the maintenance is convenient but also can be extended through the cleaning process to extend the life can provide an economical effect.

The control unit 600 is connected to the temperature measuring module 200, the humidity measuring module 300, and the harmful gas measuring module 400, respectively, temperature, humidity and harmful gas concentration information of the internal space, and external Receives temperature, humidity and harmful gas concentration information, and is configured to drive control the blowing module 500 according to the received information.

That is, the controller 600, the internal temperature and the external temperature measured from the temperature measuring module 200, the internal humidity and the external humidity measured from the humidity measuring module 300, the harmful gas measuring module 400 By comparing the harmful gas concentration of the internal space and the harmful gas concentration measured from the outside, respectively, and controls the blower module 500 to supply the outside air to the internal space or to discharge the internal air to the outside.

Hereinafter, the control process of the controller 600 will be described in more detail with reference to FIGS. 6 to 10.

First, FIG. 6 is a diagram illustrating a control process of the controller 600 according to temperature. Referring to the drawings, the control unit 600, if the internal temperature is higher than the set value and the internal temperature is higher than the external temperature, so that the internal temperature maintains the proper temperature, if the external temperature is lower than the set threshold value blower module 500 ) To be driven. Here, the set value of the internal temperature may be set to a temperature that may cause damage to the switchboard.

On the other hand, when the internal temperature is less than the set value, or the internal temperature is higher than the set value, the internal temperature is lower than the external temperature, the blower module 500 is controlled to be driven, and the external temperature is higher than the set threshold. If high, the blowing module 500 is controlled to be driven.

According to the above, the controller 600 drives the blower module 500 in accordance with the internal temperature and the external temperature of the distribution box main body 100 to prevent damage to the switchboard according to the high temperature to lower the internal temperature, or drive If not, the internal temperature is configured to maintain the proper temperature.

7 is a diagram illustrating a control process of the controller 600 according to humidity. Referring to the drawings, the control unit 600, if the internal humidity is higher than the set value and the internal humidity is higher than the external humidity so that the internal humidity maintains the proper humidity, the blower module if the external temperature is lower than the set threshold value The 500 is controlled to be driven to maintain the internal humidity at an appropriate humidity.

On the other hand, the condition that does not need to drive the blowing module 500 other than the driving conditions of the blowing module 500, that is, the internal humidity is less than the set value, or the internal humidity is more than the set value, the internal humidity is If it is lower than the external humidity, or if the internal humidity is above the set value and the internal humidity is higher than the external humidity but the external temperature is higher than the set threshold value, the blower module 500 is controlled to be driven.

According to the above, the control unit 600, in order to prevent damage to the switchboard according to the humidity to drive the blower module 500 in accordance with the internal humidity and the external humidity and the external temperature of the distribution box body 100 to reduce the internal humidity. In addition, the internal humidity is configured to maintain an appropriate humidity by not driving.

8 is a view showing a control process of the control unit 600 according to the harmful gas concentration. Referring to the drawings, the control unit 600 controls the blower module 500 to be driven when the internal noxious gas concentration is higher than a set value and the internal noxious gas concentration is higher than the external noxious gas concentration, but the driving unit 520. Control the discharge drive. In this case, the harmful substances 1 inside are discharged to the outside or accumulated in the filter unit 530, and the outside air having a low harmful gas concentration is introduced into the distribution box body 100 so that the inside can maintain a proper environment.

On the other hand, the controller 600, when the internal harmful gas concentration is less than the set value, or the internal harmful gas concentration is more than the set value, the internal harmful gas concentration is lower than the external harmful gas concentration, the driving unit 520 is suctioned Control to drive. When the harmful gas concentration inhales outside air relatively lower than the inside, it is filtered by the filter unit 530 to flow into the interior of the distribution box main body 100, thereby reducing the harmful substances 1 inside the distribution box main body 100. Because you can.

Meanwhile, when driving and controlling the blower module 500 according to the harmful gas concentration condition, although not shown, the blower module 500 may be driven according to the external temperature together with the harmful gas concentration condition. This is because outside air flows during both suction and discharge driving, and thus the internal temperature may increase in response to the outside air temperature. Therefore, in the above condition, when the external temperature is lower than the set threshold value, the blower module 500 may be controlled to be driven. If the external temperature is higher than the set threshold value, the blower module 500 may be controlled to be driven.

According to the above, the control unit 600, in order to prevent damage to the switchboard according to the harmful substances (1) contained in the harmful gas, the blowing module according to the concentration of each harmful gas inside and outside the distribution box body 100 ( By controlling the 500 to perform the suction driving and the discharge driving, it is possible to prevent the harmful substances 1 from flowing into the interior to improve the environmental conditions inside the distribution box body 100 and to clean the filter unit 530. .

9 is a diagram illustrating a control process of the controller 600 when both temperature and humidity are considered in combination. Referring to the drawings, the control unit 600, when the internal temperature is higher than the set value and the internal temperature is higher than the external temperature, or when the internal humidity is higher than the set value and the internal humidity is higher than the external humidity, the blowing module ( 500, but controls the blower module 500 to be driven when the external temperature is lower than the set threshold, and controls the blower module 500 to be driven when the external temperature is higher than the set threshold.

Here, the control unit 600 is the case that the internal temperature is less than the set value outside the above conditions, the internal temperature is above the set value, the internal temperature is lower than the external temperature, the internal humidity is less than the set value, or the internal humidity Is more than the set value but the internal humidity is lower than the external humidity, or even if the external temperature is higher than the set threshold value can be controlled to drive the blower module 500.

According to the above, when the temperature and humidity conditions of the inside are not better than the outside as described above, the control unit 600 improves the conditions inside the distribution box body 100 by driving the blower module 500, When it is higher than the set threshold value, since the external high heat can flow into the inside, the blower module 500 is not driven.

10 is a diagram illustrating a control process of the controller 600 when the temperature and humidity as well as the harmful gas concentration are considered in combination.

Referring to the drawings, the control unit 600, when the internal temperature is higher than the set value and the internal temperature is higher than the external temperature, or when the internal humidity is higher than the set value and the internal humidity is higher than the external humidity, harmful gas in the interior space If the concentration is less than the set value or the harmful gas concentration in the internal space is less than the external harmful gas concentration, the blowing module 500 controls the suction drive, but if the outside temperature exceeds the set threshold blower module 500 Control the motor to be non-driven.

On the other hand, in the above temperature and humidity conditions, when the harmful gas concentration of the internal space is more than the set value, the harmful gas concentration of the internal space is higher than the external harmful gas concentration, the external temperature is less than the set threshold value, the control unit The control unit 600 controls the blower module 500 to discharge.

On the other hand, the control unit 600, when the internal temperature is less than the set value, the internal temperature is more than the set value, but the internal temperature is less than the external temperature, the internal humidity is less than the set value or the internal humidity is more than the set value internal When the humidity is less than the external humidity at least one of the above (dotted line in the drawing), the harmful gas concentration in the internal space is less than the set value, the harmful gas concentration in the internal space is less than the external harmful gas concentration, or the external temperature is When the set threshold value is exceeded, the blower module 500 is configured to control to be driven.

In addition, the control unit 600, when the internal temperature is higher than the set value and the internal temperature is higher than the external temperature, or when the internal humidity is higher than the set value and the internal humidity is higher than the external humidity, the harmful gas concentration of the internal space is set If the value is greater than the noxious gas concentration in the internal space is higher than the noxious gas concentration outside, if the external temperature is less than the set threshold value, the blowing module 500 controls to drive the discharge.

In addition, when the harmful gas concentration of the internal space is less than the set value, the harmful gas concentration of the internal space is more than the set value, but the harmful gas concentration of the internal space is less than the external harmful gas concentration, If the noxious gas concentration is greater than or equal to the set value and the noxious gas concentration in the internal space is higher than the noxious gas concentration of the outside, but the external temperature exceeds the set threshold value, the blower module 500 controls the non-driving.

According to the above, the control unit 600, in consideration of the internal and external temperature, humidity conditions to drive or drive the blower module 500 to improve the environmental conditions inside the distribution box body 100, internal and external It is possible to selectively filter and wash the filter unit 530 by controlling the inhalation driving or the exhaust driving in response to the harmful gas concentration conditions of the environment, and the environment inside the distribution box main body 100 in response to complex environmental conditions. Can be improved.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1: Hazardous Substances 100: Distribution Box
110: opening and closing door 200: temperature measuring module
300: humidity measurement module 400: harmful gas measurement module
500: blower module 510: blower fan
520: drive unit 530: filter unit
531: pore 600: control unit

Claims (11)

In the distribution box of the sewage treatment facility installed in the sewage treatment facility,
A distribution box body having an inner space formed therein to receive a switchboard of the sewage treatment facility;
A temperature measuring module for measuring an internal temperature of the internal space and an external temperature of the outside of the distribution box body;
A humidity measuring module measuring internal humidity of the internal space and external humidity of the outside of the distribution box main body;
A noxious gas measurement module for measuring a noxious gas concentration in the internal space and a noxious gas concentration outside the distribution box body;
A blower module installed in the distribution box body and configured to suck outside air according to a driving signal to supply the inside space or to discharge the inside of the inside space to the outside;
The internal temperature and the external temperature measured from the temperature measuring module, the internal humidity and the external humidity measured from the humidity measuring module, the harmful gas concentration of the internal space measured from the harmful gas measuring module and the outside Comparing the concentration of harmful gases, the distribution box of the sewage treatment facility, characterized in that it comprises a control unit for driving the blower module to suck the outside air to supply to the internal space or to discharge the inside to the outside.
The method of claim 1,
The blower module,
Blower fan,
A driving unit which rotates the blowing fan and is driven and controlled by a driving signal of the control unit;
The distribution box of the sewage treatment facility, characterized in that it is installed on one side of the blowing fan and comprises a filter unit for filtering the harmful substances contained in the harmful gas.
The method of claim 2,
The drive unit,
And a suction drive configured to drive the blower fan to suck the outside air and supply it to the internal space.
The method of claim 3, wherein
The control unit,
If the internal temperature is higher than the set value and the internal temperature is higher than the external temperature so that the internal temperature is maintained, the blower module is controlled to be driven when the external temperature is lower than the set threshold,
The internal temperature is less than the set value, or if the internal temperature is higher than the set value, when the internal temperature is lower than the external temperature, the ventilation module of the sewage treatment facility characterized in that the control to drive the blower module.
The method of claim 3, wherein
The control unit,
When the internal humidity is higher than a set value and the internal humidity is higher than the external humidity, the blower module is controlled to operate so that the internal humidity is higher than the set value. And control the module to be driven, and if the external temperature is higher than a predetermined threshold, controlling the blower module to be driven.
The method of claim 3, wherein
The control unit,
When the internal harmful gas concentration is above a set value and the internal harmful gas concentration is higher than the external harmful gas concentration, the blower module is controlled to be driven. When the external temperature is lower than a set threshold value, the blower module is driven. And controlling the blower module to be driven when the external temperature is higher than a predetermined threshold value.
The method of claim 3, wherein
The control unit,
When the internal noxious gas concentration is less than the set value, or the internal noxious gas concentration is more than the set value, the internal noxious gas concentration is lower than the external noxious gas concentration, characterized in that the drive unit controls the suction drive. Distribution box of sewage treatment plant.
The method of claim 3, wherein
The control unit,
When the internal temperature is above a set value and the internal temperature is higher than the external temperature, or when the internal humidity is above a set value and the internal humidity is higher than the external humidity,
Sewage is characterized in that the drive control of the blower module, if the external temperature is lower than the set threshold value, so that the blower module is driven, and if the outside temperature is higher than the set threshold value, the blower module is driven so as not to drive Distribution box of processing facility.
The method of claim 3, wherein
The control unit,
When the internal temperature is above a set value and the internal temperature is higher than the external temperature, or when the internal humidity is above a set value and the internal humidity is higher than the external humidity,
If the harmful gas concentration of the internal space is less than the set value or the harmful gas concentration of the internal space is less than the external harmful gas concentration, the blowing module is controlled to perform the suction drive,
Controlling the blower module to be driven when the external temperature exceeds a set threshold;
When the internal temperature is less than the set value, the internal temperature is greater than the set value, but the internal temperature is less than the external temperature, when the internal humidity is less than the set value or the internal humidity is above the set value, the internal humidity is If at least one of them is less than the external humidity,
When the noxious gas concentration in the internal space is less than the set value, when the noxious gas concentration in the internal space is less than the external noxious gas concentration, or when the external temperature exceeds the set threshold value, the blower module is not driven Distribution box of sewage treatment plant, characterized in that it is configured to control.
The method according to any one of claims 1 to 9,
The harmful gas,
Distribution box of the sewage treatment facility, characterized in that composed of corrosive methane (CH ₄ ) discharged during the sewage treatment.
The method of claim 10,
The filter unit,
Distribution box of sewage treatment facility, characterized in that formed of a zeolite (Zeolite) material having a plurality of pores therein.

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