KR100927959B1 - Power distributing board preventable dew condensation - Google Patents

Abstract

PURPOSE: A distribution board with a dew condensation prevention function is provided to prevent the dew condensation due to the temperature difference by controlling the heating of the heater by comparing the inner temperature with the outer temperature. CONSTITUTION: A distribution board(100) includes a body frame(10), a measuring device, a heater(30), and a controller. An electric device(13) is installed in the internal space of the body frame. The measuring device includes a plurality of sensors. A plurality of sensors are installed in an upper side of the body frame. The plurality of sensors measures the inner temperature, the inner moisture, and the outer temperature of the body frame. The heater is installed in the upper side of the body frame and the temperature around the upper side of the body frame. The controller controls the heater according to the inner temperature, the inner moisture, and the outer temperature of the body frame.

Description

Switchboard with condensation prevention function {Power distributing board preventable dew condensation}

The present invention relates to a switchboard having a condensation prevention function, and more specifically, to control the heating of the heating device installed on the upper surface of the switchboard while the external temperature, the internal temperature, and the internal humidity of the switchboard are measured in real time. The present invention relates to a switchboard having a condensation preventing function to prevent condensation on a phase.

The switchboard meets the ratings of various facilities and equipment that actually use special high voltage (special high voltage) power supplied by electric power companies such as KEPCO to homes, factories, buildings, hospitals, APT complexes, and various industrial facilities that require electric power. It converts into low voltage and rated capacity (high or low pressure) and distributes it.

Such a switchboard maintains a sealed interior space in which various electrical devices are installed in order to protect various electrical devices installed inside the switchboard from the outside, and generates heat from various electrical devices in the process of receiving and distributing electric power. In general, there was a problem that the temperature and humidity are kept high.

Accordingly, it was necessary to remove the humidity of the switchboard, the Republic of Korea Utility Model Registration No. 20-0262952 "digital temperature / humidity control device" has been devised as a technology for this.

The "digital temperature / humidity control device" is a temperature sensing unit for sensing the temperature inside the switchboard; Humidity sensing unit for sensing the humidity in the switchboard; A display window composed of a plurality of 7-segments displaying numerically the temperature / humidity according to the reset of the current temperature / humidity or the manager under the control of the microcontroller; A relay unit for outputting a driving signal for driving a fan under the control of the microcontroller; A segment selector for selecting the plurality of 7-segments to display numbers on the display window under the control of the microcontroller; A temperature / humidity setting switch unit including a set switch for determining a temperature / humidity setting mode, and an up / down switch for adjusting the increase and decrease of temperature and humidity according to the temperature setting mode or the humidity setting mode; In order to display the result values detected by the temperature sensing unit and the humidity sensing unit on the display window, a control signal is output to the segment selecting unit, and data corresponding to the number to be expressed by the segment selected by the segment selecting unit is represented by the corresponding segment. It characterized in that it comprises a microcontroller to output to.

However, the conventional technology as described above has the inconvenience that the administrator has to set the temperature and humidity inside the switchboard directly, and when the outside temperature of the switchboard is low, such as in winter or in a low temperature area, the inside temperature and the inside of the switchboard are low. Since there was a limit in preventing condensation from occurring inside the switchboard due to the difference in humidity and the outside temperature of the switchboard, it is necessary to develop a technology to improve the switchboard.

Accordingly, the present invention improves the problems of the prior art, by controlling the heat generation of the heating device installed on the upper surface of the switchboard by comparing the internal temperature and the internal humidity of the switchboard measured in real time with the external temperature around the upper surface of the switchboard. It is an object of the present invention to provide a switchboard having a new type of condensation preventing function, in which the difference between the internal temperature and the external temperature of the switchboard does not exceed a predetermined size and condensation does not occur in the inner space of the switchboard.

In particular, the present invention is determined by comparing the dew point temperature calculated according to the internal temperature and the internal humidity of the switchboard and the external temperature of the switchboard by the time when the heating device generates heat, thereby preventing unnecessary heat generation of the heating device and minimizing energy use. It is an object of the present invention to provide a switchboard having a new type of condensation prevention function that can prevent condensation from occurring inside.

According to a feature of the present invention for achieving the above object, the present invention is to distribute and control the power supplied from the power company, the internal temperature of the switchboard when the outside temperature of the switchboard is low, such as in winter or low temperature area And a switchgear in which dew condensation occurs in a switchgear due to a difference in internal humidity and an external temperature of the switchgear, the body frame having an internal space therein and an electric device for distributing and controlling power; A measuring mechanism configured to measure an internal temperature of the body frame, an internal humidity of the body frame, and an external temperature of the body frame, including a plurality of sensors respectively installed around the upper surface of the body frame; A heating device installed on an upper surface of the body frame which contacts the outside of the body frame to heat air flowing around the upper surface of the body frame; The internal temperature of the body frame, the internal humidity of the body frame, and the external temperature around the upper surface of the body frame are input from the measuring device by being connected to the measuring device. And a control mechanism for controlling the operation of the heating mechanism according to an internal temperature, an internal humidity of the body frame, and an external temperature around the upper surface of the body frame, wherein the control mechanism automatically controls the heating of the heating mechanism. And an automatic control algorithm, wherein the automatic control algorithm receives an internal temperature and an external temperature of the body frame from the measuring device and calculates a current temperature difference between the internal temperature and the external temperature of the body frame; Comparing the current temperature difference and the predetermined critical temperature difference calculated above, if the current temperature difference is less than the predetermined threshold temperature difference, the heating device does not generate heat. If the current temperature difference is greater than the predetermined threshold temperature difference, the internal humidity of the body frame is measured from the measuring device. Receiving an input; Calculating a current dew point temperature from the input internal humidity of the body frame and the internal temperature of the body frame; Comparing the current dew point temperature calculated above with the outside temperature of the body frame, if the current dew point temperature is less than the outside temperature of the body frame, the heating device does not generate heat, and the present dew point temperature is greater than the outside temperature of the body frame. When the heat generating mechanism is large, the heat generating mechanism is generated so that the internal temperature and internal humidity of the body frame measured in real time by the measuring device are compared with the external temperature around the upper surface of the body frame. By controlling the heat generation of the heating mechanism is installed on the upper surface of the body frame by the condensation is generated around the upper surface of the body frame so that the difference between the internal temperature and the external temperature of the body frame does not exceed a predetermined size To be prevented.

In the switchboard having a condensation preventing function according to the present invention as described above, the heating device is characterized in that the heating wire mat is arranged on the bottom surface of the cover plate forming the upper surface of the body frame.

Alternatively, the heating mechanism may be a plurality of heating panels in which a heating element is built, and the body frame may allow the plurality of heating panels to be assembled with each other to form an upper surface.
In the switchboard having a condensation prevention function according to the present invention as described above, the control mechanism is to be provided with an automatic control algorithm for automatically controlling the heat of the heating mechanism, the automatic control algorithm is the internal temperature of the body frame from the measuring mechanism Calculating a current temperature difference between an internal temperature and an external temperature of the body frame by receiving an external temperature; Comparing the current temperature difference and the predetermined threshold temperature difference calculated above, if the current temperature difference is less than the predetermined threshold temperature difference so that the heating device does not generate heat. Receiving an input; Calculating a current dew point temperature from the input internal humidity of the body frame and the internal temperature of the body frame; Comparing the current dew point temperature calculated above with the outside temperature of the body frame, if the current dew point temperature is less than the outside temperature of the body frame, the heating device does not generate heat, and the present dew point temperature is greater than the outside temperature of the body frame. It is characterized in that it comprises a step of causing the heat generating mechanism to generate heat if large.

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According to the switchboard having a condensation prevention function according to the present invention, the heat generated by the heating device installed on the upper surface of the switchboard is automatically controlled by the external temperature, the internal temperature, the internal humidity of the switchboard, without the supervision and supervision of the administrator This can prevent condensation from occurring. Accordingly, the electric short circuit due to condensation is prevented, so that the operation of the switchboard is made safe and stable.

In addition, the switchboard having a condensation preventing function of the present invention has the effect of reducing the maintenance cost of the switchboard as the time of the heating device is heated to minimize the use of energy.

The switchboard 100 having the condensation prevention function according to the present invention is to distribute and control the power supplied from the power company, the measurement panel 20 and the control panel 40 is installed in real time to measure the switchboard 100 By comparing the internal temperature and the internal humidity of the switchboard 100 with the ambient temperature around the upper surface 12 of the switchboard 100 to technically control the heat generation of the heat generating mechanism 30 installed on the upper surface 12 of the switchboard 100 do. Accordingly, the difference between the internal temperature and the external temperature of the switchboard 100 does not exceed a predetermined size or more, so that no dew condensation occurs on the inner space of the switchboard 100.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 to 5. On the other hand, in the drawings and detailed description showing and referring to the construction and operation easily understood by those skilled in the art from the general distribution boards are briefly or omitted. In particular, in the drawings and detailed description of the drawings, detailed descriptions and illustrations of specific technical configurations and operations of elements not directly related to technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly shown or described. It was.

1 (a) is an external view of a switchboard having a condensation preventing function according to a preferred embodiment of the present invention, Figure 1 (b) is a view of the inside of a switchboard having a condensation preventing function according to a preferred embodiment of the present invention. Figure 2 is a cross-sectional view, Figure 2 (a) and (b) is a view showing the configuration of a switchboard having a condensation preventing function according to a preferred embodiment of the present invention, Figure 3 is a preferred embodiment of the present invention 4 is a view illustrating a configuration in which a heating wire mat forming a switchboard having a condensation preventing function is installed on an upper surface of a body frame, and FIG. 4 is a control mechanism of a switchboard having a condensation preventing function according to a preferred embodiment of the present invention. 5 is a view for showing a control panel, and FIG. 5 is a view for showing an automatic control algorithm constituting a control mechanism of a switchboard having a condensation prevention function according to a preferred embodiment of the present invention. to be.

The switchboard 100 having the condensation preventing function according to the preferred embodiment of the present invention is the body frame 10, the measuring device 20, the heating device 30, the control mechanism 40 as shown in Figs. Is done.

The body frame 10 is formed with a sealed inner space 11 is provided with a variety of electrical devices 13 for distributing and controlling power.

Measuring mechanism 20 is composed of a plurality of sensors 21, 22, 23 installed in the body frame 10, the internal temperature measuring sensor 21 for measuring the internal temperature of the body frame 10, It includes an internal humidity measurement sensor 22 for measuring the internal humidity of the body frame 10, and an external temperature measuring sensor 23 for measuring the external temperature of the body frame 10.

Here, the switchboard 100 according to the preferred embodiment of the present invention mainly prevents the occurrence of condensation around the upper surface 12 of the body frame 10, as shown in (b) of FIG. The temperature measuring sensor 21, the internal humidity measuring sensor 22, and the external temperature measuring sensor 23 are preferably installed around the upper surface 12 of the body frame 10.

The heating device 30 is installed on the upper surface 12 of the body frame 10 to be in contact with the outside of the body frame 10, such a heating device 30 is the upper surface ( 12) Heat the air flowing around it.

Here, as the heating device 30 according to a preferred embodiment of the present invention, a heating wire mat 31 is used, as shown in FIG. 3, and the heating wire mat 31 has the upper surface 12 of the body frame 10. Heating wires are arranged on the bottom of the cover plate.

Such a heating wire mat 31 is preferably to receive power from its own power supply using the power supplied to the switchboard 100 of the present invention, as shown in Figure 2 (a), on the other hand, saving energy In order to cope with the failure of the power supply and the like, as shown in (b) of FIG. 2 may be supplied with power from a photovoltaic device such as a solar cell separately installed in the switchboard 100 of the present invention.

Alternatively, a plurality of heating panels with a heating element may be used as the heating device. When the heating panel is used as the heating device, the upper surface of the body frame may include a plurality of heating panels assembled together.

The control mechanism 40 is connected to the measuring mechanism 20 and the heating mechanism 30 to control the heat generated by the heating mechanism 30, such a control mechanism 40 from the measuring mechanism 20 body frame ( The internal temperature of 10), the internal humidity of the body frame 10, and the external temperature of the body frame 10 are received. The control mechanism 40 controls the operation of the heating mechanism 30 according to the internal temperature of the body frame 10, the internal humidity of the body frame 10, and the external temperature of the body frame 10, which are input as described above. .

Here, the control mechanism 40 according to the preferred embodiment of the present invention is provided with an automatic control algorithm as shown in FIG. 5 to automatically control the heating of the heat generating mechanism 30.

The automatic control algorithm first receives an internal temperature and an external temperature of the body frame 10 from the measuring device 20 to calculate a current temperature difference between the internal temperature and the external temperature of the body frame 10.

Next, by comparing the current temperature difference and the predetermined threshold temperature difference calculated above, if the current temperature difference is less than the predetermined threshold temperature difference, the heating mechanism 30 does not generate heat, and if the current temperature difference is greater than the predetermined threshold temperature difference from the measuring device 20 The internal humidity of the body frame 10 is received. The automatic control algorithm calculates the current dew point temperature from the internal humidity of the input body frame 10 and the internal temperature of the body frame 10.

In addition, the automatic control algorithm compares the current dew point temperature calculated above with the external temperature of the body frame 10 to prevent the heating mechanism 30 from generating heat if the current dew point temperature is less than the external temperature of the body frame 10. If the current dew point temperature is greater than the external temperature of the body frame 10, the heating mechanism 30 generates heat.

Through the above steps, the automatic control algorithm provided in the control mechanism 40 detects a time point in which the heat generating mechanism 30 is necessary to generate heat and heats the heat generating mechanism 30, thereby minimizing energy consumption. Condensation is to be prevented from occurring in the internal space 11 of 10).

On the other hand, the control mechanism 40 according to a preferred embodiment of the present invention will further include a control panel 41 is installed on the outer surface of the body frame 10, such a control panel 41 as shown in FIG. As shown in the external temperature display window 411 for displaying the external temperature of the body frame 10, the internal temperature display window 412 for displaying the internal temperature of the body frame 10, the internal humidity for displaying the internal humidity of the body frame 10 The display panel 413, the heating device operation lamp 414 which is turned on when the heating device 30 generates heat, and the heating device stop lamp 415 which is turned on when the heating device 30 does not generate heat, the switchboard is controlled by an administrator. The internal state of the 100 and the operating state of the heating mechanism 30 can be easily confirmed.

In addition, the control panel 41 has an automatic switch 416 for automatically controlling the heat generated by the heat generating mechanism 30 by the control mechanism 40, and the heat generated by the heat generating mechanism 30 to be directly controlled manually by an administrator. By including a manual switch 417 to automatically control the heat generated by the heating mechanism 30 through the automatic control algorithm provided in the control mechanism 40, the automatic control algorithm of the control mechanism 40 and Likewise, if necessary, the administrator can directly control the heat of the heating device.

As described above, the switchboard having a condensation preventing function according to an embodiment of the present invention is shown in accordance with the above description and drawings, but this is only an example and various changes within the scope without departing from the spirit of the present invention. And those skilled in the art will appreciate that changes are possible.

Figure 1 (a) is an external view of a switchboard having a condensation preventing function according to a preferred embodiment of the present invention;

Figure 1 (b) is a cross-sectional view for showing the inside of the switchboard having a condensation preventing function according to a preferred embodiment of the present invention;

2 (a) and (b) is a view for showing the configuration of a switchboard having a condensation preventing function according to a preferred embodiment of the present invention;

Figure 3 is a view for showing a configuration in which the heating wire mat forming a switchboard having a condensation prevention function according to a preferred embodiment of the present invention is installed on the upper surface of the body frame;

4 is a view showing a control panel constituting a control mechanism of a switchboard having a condensation preventing function according to a preferred embodiment of the present invention;

5 is a view for showing an automatic control algorithm constituting a control mechanism of a switchboard having a condensation prevention function according to a preferred embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: body frame 11: internal space

12: upper surface 13: electrical equipment

20: measuring instrument 21: internal temperature measuring sensor

22: internal humidity measuring sensor 23: external temperature measuring sensor

30: heating mechanism 31: heating wire mat

40: control mechanism 41: control panel

411: external temperature display window 412: internal temperature display window

413: internal humidity display window 414: heating device operation lamp

415: heating device stop lamp 416: automatic switch

417: manual switch 100: switchboard

Claims (5)

Condensation will be distributed and controlled from the power company, and condensation will occur inside the switchboard due to the difference between the internal temperature of the switchboard, the internal humidity and the external temperature of the switchboard, such as in winter or in low temperature areas. In the switchboard which has the phenomenon A body frame in which an internal space is formed and an electric device for distributing and controlling electric power is installed; A measuring mechanism configured to measure an internal temperature of the body frame, an internal humidity of the body frame, and an external temperature of the body frame, including a plurality of sensors respectively installed around the upper surface of the body frame; A heating device installed on an upper surface of the body frame which contacts the outside of the body frame to heat air flowing around the upper surface of the body frame; The internal temperature of the body frame, the internal humidity of the body frame, and the external temperature around the upper surface of the body frame are input from the measuring device by being connected to the measuring device. It includes a control mechanism for controlling the operation of the heating mechanism according to the internal temperature, the internal humidity of the body frame, and the external temperature around the upper surface of the body frame, The control mechanism is provided with an automatic control algorithm for automatically controlling the heat generated by the heating mechanism, The automatic control algorithm may be configured to calculate a current temperature difference between an internal temperature and an external temperature of the body frame by receiving an internal temperature and an external temperature of the body frame from the measuring device. Comparing the current temperature difference and the predetermined critical temperature difference calculated above, if the current temperature difference is less than the predetermined threshold temperature difference, the heating device does not generate heat. If the current temperature difference is greater than the predetermined threshold temperature difference, the internal humidity of the body frame is measured from the measuring device. Receiving an input; Calculating a current dew point temperature from the input internal humidity of the body frame and the internal temperature of the body frame; Comparing the current dew point temperature calculated above with the outside temperature of the body frame, if the current dew point temperature is less than the outside temperature of the body frame, the heating device does not generate heat, and the present dew point temperature is greater than the outside temperature of the body frame. If large so that the heat generating mechanism is made to generate heat, Comparing the internal temperature and the internal humidity of the body frame measured in real time by the measuring mechanism with the external temperature around the upper surface of the body frame of the heating mechanism is installed on the upper surface of the body frame by the control mechanism As the heat generation is controlled, a switchboard having a condensation preventing function, which prevents condensation from occurring around the upper surface of the body frame by preventing a difference between an internal temperature and an external temperature of the body frame not exceeding a predetermined size or more. . The method of claim 1, The heating device is a switchboard having a condensation prevention function, characterized in that the heating wire mat is arranged on the bottom surface of the cover plate forming the upper surface of the body frame. The method of claim 1, The heating mechanism is a plurality of heating panels with a heating element, the body frame is a switchboard having a condensation preventing function, characterized in that the plurality of heating panels are assembled to each other to form an upper surface. delete delete

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