KR101576651B1 - Ceiling distribution box of construction - Google Patents

Abstract

The present invention provides an electricity distribution box for a building including: an electricity distribution enclosure (100) which is installed on an upper portion of an indoor space (a) and is arranged to be able to move on a standby region (11) formed on an upper portion of a ceiling (10); a transfer unit (200) which is installed in the standby region (11) and transfers the electricity distribution enclosure (100); humidity measurement units (300) which are arranged at predetermined intervals on multiple locations on an upper end portion of the standby region (11) and measure humidity values on the upper end portion of the standby region; and a control unit (400) which receives the measured humidity values from the humidity measurement units (300) and transfers the electricity distribution enclosure (100) to a location with a relatively low humidity value by using the transfer unit.

Description

{CEILING DISTRIBUTION BOX OF CONSTRUCTION}

The present invention relates to a ceiling electric distribution box for a building, and more particularly, to a ceiling electric distribution box for a building, and more particularly, to a ceiling electric distribution box for a building, which is disposed inside a ceiling of a building and automatically moves to a position where humidity is relatively low, The present invention relates to a ceiling electric distribution box for a building, which is arranged in an upright state to facilitate maintenance and to easily secure an indoor space in a building.

Generally, the power distribution box includes a power distributing box having a shape of a steel or ceiling material enclosure and a lead-in line for introducing electric power from a power plant or a substation at a remote location to the respective consumers from the outside, a base plate provided inside the power distribution box, A main breaker connected in series with the incoming wire, and an auxiliary breaker connected to the plurality of loads.

Conventionally, a method of opening the door by inserting it in the inner wall of the building has been mainly used for maintenance and space saving of the distribution box.

However, in such a case, there is a problem that if the humidity or the humidity is excessively generated at the position provided in the distributor box, or if leakage occurs, it may develop into an electric safety accident.

Conventionally, there is a problem that the distributing box itself can not be actively moved.

Further, conventionally, when moisture or leaking water is generated in the distributing box installation space, there is a problem that it is difficult to remove the moisture itself because it can not be opened, and therefore, there has been a problem that the distribution box itself needs to be removed and reworked.

It is an object of the present invention to provide a ceiling structure that is disposed inside a ceiling of a building and automatically moves from a ceiling to a location where the humidity is relatively low so as to deviate from electrical hazards caused by moisture, And to provide a building ceiling electric distribution box which is arranged in an upright state to facilitate maintenance and to easily secure an indoor space in a building.

In a preferred aspect, the present invention provides a building ceiling electrical distribution box.

The building ceiling electric distribution box includes a distribution enclosure (100) installed above the indoor space (a) and movably arranged in an atmospheric region (11) formed on the ceiling (10); A moving part 200 installed in the waiting area 11 for moving the charged enclosure 100; A humidity measuring unit 300 disposed at a predetermined number of positions on the upper side of the waiting area 11 and measuring a humidity value at an upper end of the waiting area; And a control unit 400 that receives the humidity value measured by the humidity measuring unit 300 and moves the charged enclosure 100 using the moving unit 200 at a relatively low humidity value, .

The ceiling 10 is provided with a plurality of opening and closing doors that are opened and closed to expose the charged enclosure 100 moved by the moving unit 200 to the indoor space a under the control of the control unit 400, (500) is formed.

The moving unit 200 includes a pair of X-axis rails 210 installed along the X-axis direction in the waiting area 11 and a pair of X-axis rails 210 connected to the lower ends of the pair of X- A fixing member 230 which is connected to the lower end of the Y-axis rail 220 and is moved along the Y-axis and is fixed to the distribution housing 100, a Y- A first linear motor 250 for moving the rail 220 and a second linear motor 260 for moving the fixing member 230.

The control unit 400 may control the fixing member 230 to move to the position corresponding to the positional information including the X axis coordinate and the Y axis coordinate using the first linear motor 250 and the second linear motor 260 Position.

A concrete surface 20 is formed on the ceiling 10 so as to form the atmospheric region 11.

The humidity measuring unit 300 measures the humidity values at a plurality of installation locations buried in the plurality of installation sites set on the concrete surface 20 and measures the measured humidity values to the control unit 400. [ And a plurality of humidity sensors 310 for transmitting the humidity signals.

The controller 400 receives the humidity values measured from the plurality of humidity sensors 310 and selects a relatively low humidity value among the received humidity values,

Determining an installation position that makes the selected humidity value at the plurality of installation positions,

And uses the moving unit 200 to move the charged enclosure 100 to a position that makes coordinate information corresponding to the determined installed position.

The fixing member 230 is provided with an elevating cylinder 231 having an elevating shaft 231a to be elevated.

An end of the lifting shaft 231a is connected to a hinge (H) at the center of the upper end of the charge housing 100.

The hinge (H) is connected to the first rotation motor (240).

In the ceiling 10, a plurality of opening and closing holes 10a in which the plurality of opening and closing doors 500 are disposed are formed.

Each of the plurality of opening and closing doors 500 is rotated up and down to open and close the plurality of opening and closing holes 10a by driving the second rotating motor 510. [

In the control unit 400, a limit humidity value range is set,

When the humidity value measured at the installation position corresponding to the position where the charged enclosure 100 is moved is included in the limit humidity value range,

Closing door 500 corresponding to the installation position among the plurality of opening / closing doors 500,

Using the lifting cylinder 231, the charge housing 100 is lowered into the indoor space a,

And the charged particle accumulator 100 is erected using the first rotating motor 240.

A heating coil is further embedded in the concrete surface so as to be positioned in the outside of the plurality of humidity sensors.

The heating coil is heated by receiving a current from a current supplier controlled by the controller.

If the humidity value measured at the installation position corresponding to the position where the charged enclosure is moved is included in the limit humidity value range,

And drives the current supplier to generate heat to guide the heating coil to vaporize moisture generated on the concrete surface.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide a ceiling structure for a building, which is capable of automatically moving from a ceiling to a position where humidity is relatively low, It is arranged in an upright state to smooth maintenance and an indoor space in the building can be easily secured.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a view showing a ceiling electric distribution box of a building of the present invention, FIG. 2 is a view showing a state in which a branch housing is relatively moved to a low humidity value position, FIG. FIG. 4 is a view showing a heating coil operation when the humidity value is included in the limit humidity value range and a state of discharging the charged enclosure into the indoor space.

1 to 4, a ceiling electric distribution box according to the present invention includes a distribution enclosure (not shown) installed on an upper portion of an indoor space (a) and movable in an atmospheric region 11 formed on a ceiling 100); A moving part 200 installed in the waiting area 11 for moving the charged enclosure 100; A humidity measuring unit 300 disposed at a predetermined number of positions on the upper side of the waiting area 11 and measuring a humidity value at an upper end of the waiting area; And a control unit 400 that receives the humidity value measured by the humidity measuring unit 300 and moves the charged enclosure 100 using the moving unit 200 at a relatively low humidity value, .

The ceiling 10 is provided with a plurality of opening and closing doors that are opened and closed to expose the charged enclosure 100 moved by the moving unit 200 to the indoor space a under the control of the control unit 400, (500) is formed.

The moving unit 200 includes a pair of X-axis rails 210 installed along the X-axis direction in the waiting area 11 and a pair of X-axis rails 210 connected to the lower ends of the pair of X- A fixing member 230 which is connected to the lower end of the Y-axis rail 220 and is moved along the Y-axis and is fixed to the distribution housing 100, a Y- A first linear motor 250 for moving the rail 220 and a second linear motor 260 for moving the fixing member 230.

The control unit 400 may control the fixing member 230 to move to the position corresponding to the positional information including the X axis coordinate and the Y axis coordinate using the first linear motor 250 and the second linear motor 260 Position.

A concrete surface 20 is formed on the ceiling 10 so as to form the atmospheric region 11.

The humidity measuring unit 300 measures the humidity values at a plurality of installation locations buried in the plurality of installation sites set on the concrete surface 20 and measures the measured humidity values to the control unit 400. [ And a plurality of humidity sensors 310 for transmitting the humidity signals.

The controller 400 receives the humidity values measured from the plurality of humidity sensors 310 and selects a relatively low humidity value among the received humidity values,

Determining an installation position that makes the selected humidity value at the plurality of installation positions,

And uses the moving unit 200 to move the charged enclosure 100 to a position that makes coordinate information corresponding to the determined installed position.

The fixing member 230 is provided with an elevating cylinder 231 having an elevating shaft 231a to be elevated.

An end of the lifting shaft 231a is connected to a hinge (H) at the center of the upper end of the charge housing 100.

The hinge (H) is connected to the first rotation motor (240).

In the ceiling 10, a plurality of opening and closing holes 10a in which the plurality of opening and closing doors 500 are disposed are formed.

Each of the plurality of opening and closing doors 500 is rotated up and down to open and close the plurality of opening and closing holes 10a by driving the second rotating motor 510. [

In the control unit 400, a limit humidity value range is set,

When the humidity value measured at the installation position corresponding to the position where the charged enclosure 100 is moved is included in the limit humidity value range,

Closing door 500 corresponding to the installation position among the plurality of opening / closing doors 500,

Using the lifting cylinder 231, the charge housing 100 is lowered into the indoor space a,

And the charged particle accumulator 100 is erected using the first rotating motor 240.

Referring to FIG. 4, the heating coil 600 is further embedded in the concrete surface 20 so as to be positioned outside the plurality of humidity sensors 310.

The heating coil 600 receives a current from a current supplier 610 controlled by the controller 400 and generates heat.

When the humidity value measured at the installation position corresponding to the position where the charged enclosure 100 is moved is included in the limit humidity value range, the controller 400 controls the current supplier 610 Thereby heating the heating coil 600 and guiding moisture generated in the concrete surface 20 to vaporize.

At the same time, the opening and closing door 500 is opened in a manner as shown in Fig. 3, and the charged enclosure 100 is placed in the indoor space a to prevent electric accidents due to moisture generation.

According to the above-described structure and operation, the embodiment according to the present invention is arranged in the ceiling of a building to automatically move from a ceiling to a position where the humidity is relatively low, so as to escape from electrical hazards due to moisture, It is arranged in a downward and upright position along the ceiling at a position waiting for maintenance, so that the maintenance is smoothly performed, and the indoor space in the building can be easily secured.

Although the embodiments of the present invention have been described above, it is apparent that various modifications may be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10: Ceiling
20: Concrete surface
100:
200:
300: humidity measuring unit
400:
500: Opening and closing door
600: heating coil

Claims (5)

A distribution enclosure (100) installed on an upper part of the indoor space (a) and movably arranged in an atmospheric region (11) formed on the ceiling (10);
A moving part (200) installed in the waiting area (11) and moving the charged enclosure (100);
A humidity measuring unit 300 disposed at a predetermined number of positions on the upper side of the waiting area 11 and measuring a humidity value at an upper end of the waiting area; And
A control unit 400 that receives the humidity value measured by the humidity measuring unit 300 and moves the charged enclosure 100 using the moving unit 200 at a relatively low humidity value Including,
In the ceiling 10,
A plurality of opening and closing doors 500 are formed to be opened and closed to expose the charged enclosure 100 moved by the moving part 200 to the indoor space a under the control of the controller 400 Features a building ceiling electrical distribution box.
The method according to claim 1,
The moving unit 200,
A pair of X-axis rails 210 installed along the X-axis direction in the waiting area 11,
A Y-axis rail 220 connected to the lower ends of the pair of X-axis rails 210 and moved in the X-axis direction,
A fixing member 230 connected to the lower end of the Y-axis rail 220 and moved along the Y-axis, the fixing member 230 to which the distribution housing 100 is fixed,
A first linear motor 250 for moving the Y-axis rail 220,
And a second linear motor (260) for moving the fixing member (230)
The control unit 400 may control the fixing member 230 to move to the position corresponding to the positional information including the X axis coordinate and the Y axis coordinate using the first linear motor 250 and the second linear motor 260 To the ceiling of the building.
3. The method of claim 2,
A concrete surface (20) is formed on the ceiling (10) to form the atmospheric region (11)
The humidity measuring unit 300 includes:
A plurality of humidity sensors 310 (see FIG. 1) for measuring the humidity values at a plurality of installation locations buried in the plurality of installed locations set on the concrete surface 20, and for transmitting the measured humidity values to the controller 400 ),
The control unit (400)
The humidity sensor 310 receives the measured humidity value, selects a relatively low humidity value among the received humidity values,
Determining an installation position that makes the selected humidity value at the plurality of installation positions,
Wherein the distribution enclosure (100) is moved to a position making coordinate information corresponding to the determined installation position by using the moving part (200).
Claim 4 has been abandoned due to the setting registration fee. The method of claim 3,
The fixing member 230 is provided with an elevating cylinder 231 having an elevating shaft 231a to be elevated,
An end of the lifting shaft 231a is connected to a hinge (H) at the upper center of the charged housing 100,
The hinge H is connected to the first rotation motor 240,
In the ceiling 10, a plurality of open / close holes 10a in which the plurality of open / close doors 500 are disposed are formed,
Wherein each of the plurality of opening and closing doors (500) is rotated up and down to open and close the plurality of opening and closing holes (10a) by driving the second rotating motor (510).
Claim 5 has been abandoned due to the setting registration fee. 5. The method of claim 4,
In the control unit 400, a limit humidity value range is set,
If the humidity value measured at the installation position corresponding to the position where the charged enclosure 100 is moved is included in the limit humidity value range,
Closing door 500 corresponding to the installation position among the plurality of opening / closing doors 500,
Using the lifting cylinder 231, the charge housing 100 is lowered into the indoor space a,
And the charge housing (100) is erected by using the first rotating motor (240).

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