KR101569914B1 - Distributing board structure in an apartment - Google Patents

Abstract

Provided is a structure for installing a distributing board in an apartment house. The structure for installing a distributing board in an apartment house comprises: a distributing board body which is arranged in an installation space formed underground; a support plate part which is installed on the outer circumference and the bottom of the distributing board body to protrude therefrom; a pressing part which presses earth for forming the inner surface of the installation space using set vibration by directly touching the inner surface of the installation space; and an installation part which is installed in the distributing board body and places and cures concrete between the pressing part and the inner surface of the installation space.

Description

{DISTRIBUTING BOARD STRUCTURE IN AN APARTMENT}

More particularly, the present invention relates to a structure for automatically installing an installation posture in an underground installation space, and for installing and curing concrete by itself after adjusting an installation posture And a structure for installing a distributed housing battleship.

In a conventional apartment house, a distribution box containing the entire distribution is installed. A power distribution device that distributes and supplies the supplied power to various loads and a short circuit that quickly stops the electricity when an abnormal condition such as a short circuit is detected by detecting the voltage state supplied to the load, A circuit breaker for selectively interrupting only the load side where there is an abnormality, or a watt hour meter for measuring the total amount of electric power used for a certain period of time, is embedded in the wall at the time of building construction.

Since such a distributed battleship is exposed to the outside, the entire distribution area is arbitrarily operated by an external intruder, so that the electric power supplied to various electric devices is cut off and electric equipment may be damaged. Also, children can accidentally manipulate the entire distribution, resulting in electric shock.

In addition, conventionally, in the conventional case, when the distribution box is installed in the ground, it is difficult to automatically adjust the installation posture in the installation space of the ground. After the installation posture is adjusted, the installation and curing of concrete are not completed, There is a problem that takes a long time.

Further, conventionally, there is a problem that maintenance work is difficult due to the reason that the component installation case can not be taken in and out of the distribution box after the distribution box is installed.

A prior art document related to the present invention is Korean Patent Registration No. 10-0835368 (May 29, 2008).

An object of the present invention is to provide a structure for installing a housing distribution battleship which can automatically adjust an installation posture in an installation space in the ground and complete installation and construction by pouring concrete after the installation posture is adjusted.

It is a further object of the present invention to provide a method of installing a component installation case in a distribution busset after the distribution busses are installed as described above, To provide a battleship installation structure.

In a preferred embodiment, the present invention provides a multi-housing distribution battleship installation structure.

The distributed housing batt system installation structure includes a distribution batt main body portion disposed in an installation space formed in the ground; A support plate protruding from the outer circumference and the bottom of the main body of the distribution unit; A compaction unit installed on the support plate for directly contacting the inner side surface of the installation space to close the inner surface of the installation space with vibration; And an installation part installed in the main body part of the distribution box for installing and curing concrete between the compaction part and the inner surface of the installation space.

Preferably, the distribution body main body portion is formed in the shape of a rectangular box forming a hexahedron.

It is preferable that the support plate portion includes a plurality of cylinders having a stretchable shaft and a plurality of support plates provided on the shafts of the plurality of cylinders.

Preferably, each of the plurality of cylinders is installed at an outer circumferential portion and a bottom portion of the distribution unit main body portion.

The compaction unit includes a plurality of diaphragms that are rotatably installed on the plurality of support plates, a plurality of rotation motors that repeatedly rotate each of the plurality of diaphragms to generate a predetermined vibration, and a controller that rotates the plurality of rotation motors .

Preferably, each of the plurality of diaphragms is formed with a connection port to which a hose for supplying water from the outside is connected.

And a plurality of jetting passages communicating with the connection port and spraying the supplied water to the inner side of the installation space are formed.

It is preferable that a valve for opening and closing the plurality of injection paths is provided to the connection port by receiving a control signal from the controller.

Wherein each of the plurality of diaphragms is provided with a plurality of rotors driven to rotate under the control of the controller and a plurality of screw bolts projecting while being rotated by rotation of the plurality of rotors, And is preferably screwed to the inner surface of the space.

The installation part may include a concrete supply device installed in the main body part of the distribution box and adapted to receive concrete control signals from the controller and to supply concrete to the plurality of diaphragms, A plurality of pouring channels pouring into the area between the side walls and a plurality of connecting pipes connecting the plurality of pouring channels to the concrete.

Preferably, the plurality of diaphragms are further provided with a plurality of heating coils heated to a predetermined temperature so that the concrete poured in response to the controller control signal is cured.

It is preferable that the upper end of the main body portion of the distribution box is provided with a door capable of rotating and opening and a main body portion in which a plurality of electronic components are mounted is disposed in an inner space of the main body portion of the main body.

The main body is preferably arranged to be raised and lowered by driving a linear motor along a plurality of vertical rails provided on a wall surface of an inner space of the main body of the distribution unit.

The present invention has the effect of automatically adjusting the installation posture in an installation space in the ground, and installing and curing concrete by itself after adjusting the installation posture.

In addition, the present invention has an effect that the parts installation case can be introduced and discharged from the inside of the distribution box after the distribution box is installed as described above, and maintenance work can be smoothly performed only by replacement at the time of maintenance.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the construction of a bundle housing installation structure of the present invention; Fig.
FIG. 2 is a view showing a state in which a bundle housing installation structure of the present invention is placed in an installation space.
FIG. 3 is a view showing a state where a bundle housing distribution box installation structure of the present invention is installed in an installation space.
4 is a detailed view showing the configuration of the compaction unit and the installation unit according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following description taken in conjunction with the accompanying drawings, in which: FIG.

FIG. 2 is a view showing a state in which a bundle housing distribution box installation structure of the present invention is located in an installation space, and FIG. 3 is a view showing a state FIG. 4 is a view showing a detailed configuration of a compaction unit and an installation unit according to the present invention. FIG.

With reference to Figs. 1 to 4, a structure for installing a bundle housing distribution box will be described.

The distribution box installation structure of the apartment house includes a distribution box main body part (100) disposed in an installation space (11) formed in the ground (10); A support plate 200 protruding from the outer circumference and the bottom of the distribution unit main body 100; A compaction unit 300 mounted on the support plate 200 for directly contacting the inner surface of the installation space 11 and forming soil on the inner surface of the installation space 11 through a predetermined vibration; And a mounting part 400 installed in the main body part 100 for installing and curing the concrete between the compaction part 300 and the inner surface of the installation space 11.

The distribution body main body portion 100 is formed in a rectangular box shape forming a hexahedron.

The support plate 200 includes a plurality of cylinders 210 having a stretchable shaft 211 and a plurality of support plates 220 mounted on the shafts of the plurality of cylinders 210.

Each of the plurality of cylinders 210 is installed at an outer circumferential portion and a bottom portion of the distribution unit main body portion 100, respectively.

As shown in FIG. 3, the shaft 211 is extended in the direction of the arrow to extend the position of the support plate 220. Therefore, it is possible to easily cope with the space area of the installation space 11.

The compaction unit 300 includes a plurality of diaphragms 310 rotatably mounted on each of the plurality of support plates 210 and a plurality of rotary motors 310 for repeatedly rotating each of the diaphragms 310, (320) and a controller (330) for rotating the plurality of rotation motors (320).

The diaphragms 310 are rotated to generate a constant vibration so that the inner surface of the installation space 11 made of the soil becomes uniform. In addition, the strength of the inner surface of the installation space 11 can be increased.

As shown in FIG. 4, each of the plurality of diaphragms 310 has a connection port 361 to which a hose 363 for supplying water from the outside is connected.

Each diaphragm 310 is provided with a plurality of jetting passages (not shown) communicating with the connecting port 361 and jetting the supplied water to the inner side of the installation space 11.

The hose connected to the connection port 361 is provided with a valve 362 for opening and closing the plurality of injection paths in response to a control signal from the controller 330.

According to the present invention, when a certain amount of water is injected into the inner wall of the installation space 11, the soil can be removed to some extent to facilitate installation.

Each of the plurality of diaphragms 310 is provided with a plurality of rotators 341 that are rotationally driven under the control of the controller 330 and a plurality of screw bolts 341 that are rotated and driven by rotation of the plurality of rotators 341, And the screw bolts 342 protruded are screwed to the inner surface of the installation space 11. [

Therefore, the four sides and the bottom of the distribution-distribution main body 100 are easily fixed in the installation space 11, and a constant space is formed between the vibration plate 310 and the inner surface of the installation space 11, do.

The installation unit 400 includes a concrete feeder 410 installed in the distribution unit main body 100 and adapted to receive a control signal from the controller 330 and a concrete supplier 410 installed in the plurality of diaphragms 310, A plurality of pouring passages 420 that receive the concrete and pour into the area between the plurality of diaphragms 310 and the inner surface of the installation space 11 and a plurality of pouring passages 420 that connect the pouring passages 420 to the concrete And a plurality of connecting pipes 430 for connecting the connecting pipes.

In the present invention, after the distribution main body portion 1000 is placed in the installation space 11, the posture is automatically set and the concrete is automatically installed to complete the fixed installation.

The plurality of diaphragms 310 is further provided with a plurality of heating coils 350 for heating the concrete placed therein to a predetermined temperature so as to cure the poured concrete according to the controller control signal of the controller 330.

Therefore, it is possible to reduce the curing time by applying heat to the poured concrete.

A main body portion 190 in which a plurality of electronic components are mounted is disposed in an inner space of the main body portion 100 of the distribution body 100 do.

The main body 190 is arranged to be moved up and down by driving the linear motor 120 along a plurality of vertical rails 110 provided on a wall surface of an inner space of the distribution unit main body 100.

The linear motor is driven under the control of the controller, and the door is also driven by a separate rotary motor to rotate and open the door.

Therefore, when an abnormality occurs in the main body portion, there is an advantage that it can be easily replaced with another main body portion after it is taken out to the outside.

Through the above-described structure and action, the present invention can automatically adjust the installation posture in the installation space in the ground, and install and cure the concrete after the installation posture adjustment by itself.

In addition, the present invention can be configured so that the component installation case can be inserted and removed from the inside of the distribution box after the distribution box is installed as described above, so that repair and installation can be smoothly performed only by replacement at a later maintenance time.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof with reference to the accompanying drawings, it is to be noted that various changes and modifications will be apparent to those skilled in the art.

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.

100: Distributed battleship body part
200:
300: compaction unit
400: installation part

Claims (5)

A distribution body main body portion disposed in an installation space formed in the ground;
A support plate protruding from the outer circumference and the bottom of the main body of the distribution unit;
A compaction unit installed on the support plate for directly contacting the inner side surface of the installation space to close the inner surface of the installation space with vibration; And
And an installation part installed in the main body part of the distribution box for installing and curing concrete between the compaction part and the inner surface of the installation space.
The main body part of the distribution body is formed in a rectangular box shape forming a hexahedron,
The support plate portion
A plurality of cylinders having axes that can be expanded and contracted,
And a plurality of support plates installed on the shaft of each of the plurality of cylinders,
Wherein each of the plurality of cylinders is installed at an outer circumferential portion and a bottom portion of the distribution unit main body portion.
The method according to claim 1,
The compaction unit includes:
A plurality of diaphragms rotatably installed on each of the plurality of support plates,
A plurality of rotation motors for repeatedly rotating each of the plurality of diaphragms so as to form a predetermined vibration,
And a controller for rotationally driving the plurality of rotation motors,
Each of the plurality of diaphragms is provided with a connection port to which a hose for supplying water from the outside is connected,
A plurality of jetting passages communicating with the connector and jetting the supplied water to the inner side of the installation space,
In the connector,
And a valve for opening / closing the plurality of injection paths by receiving a control signal from the controller.
3. The method of claim 2,
In each of the plurality of diaphragms,
A plurality of rotors rotationally driven under the control of the controller,
A plurality of screw bolts protruded while being rotated by the rotation of the plurality of rotors are installed,
And the projecting screw bolt is screwed to the inner side of the installation space.
Claim 4 has been abandoned due to the setting registration fee. The method of claim 3,
The mounting portion
A concrete supply unit installed in the main body of the distribution unit for supplying concrete by receiving a control signal from the controller,
A plurality of pouring passages formed on the plurality of diaphragms and receiving the concrete and pouring in a region between the plurality of diaphragms and the inner surface of the installation space;
And a plurality of connection pipes connecting the plurality of pouring channels and the concrete,
Wherein the plurality of diaphragms are further provided with a plurality of heating coils heated to a predetermined temperature so as to cure the poured concrete in response to the controller rotor control signal.
Claim 5 has been abandoned due to the setting registration fee. The method according to claim 1,
Wherein an upper end of the main body of the distribution unit is provided with a door that can be opened and closed,
Wherein a main body portion in which a plurality of electronic components are mounted is disposed in an inner space of the main body portion of the distribution unit,
The main-
And a plurality of vertical rails provided on a wall surface of an inner space of the main body part of the distribution unit so as to be raised and lowered by driving of the linear motor.

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