JP2006109629A - Cubicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cubicle which can simplify grounding work and can shorten the construction period of fieldwork. <P>SOLUTION: A cubicle 100 is equipped with a cubicle body 1 which is installed outdoors as a communication base station, and a radio 2 which is installed within this cubicle body 1 and to which a radio communication circuit M led in from outside the cubicle body 1 is connected. Then, a grounding wire S is connected to the radio communication circuit M led in the cubicle body 1, and the outer wall face of the cubicle body 1 is provided integrally with a connection box 9 that is to be connected with the grounding wire S. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a cubicle having a radio inside as a communication base station installed outdoors.

Conventionally, as a communication base station, a cubicle in which auxiliary equipment such as a radio and a battery is accommodated is installed outdoors (see, for example, Patent Document 1).
In general, in such a cubicle, a wireless communication line such as a telephone line is drawn from the outside into the cubicle through a through hole formed in the cubicle and connected to a radio device accommodated in the cubicle. The wireless communication line is connected to a ground line before being drawn into the cubicle, and the ground line is connected to a metal outer box fixed to the ground, and is grounded by the outer box.
Regarding the grounding of the transformer, it is disclosed that the transformer is wired and grounded to a ground terminal provided in the cubicle (see, for example, Patent Document 2).
JP 2001-237580 A JP-A-9-163518

However, as described above, the grounding of the wireless communication line was carried out in the field work as described above, because the wireless communication line was wired to the cable rack installed separately from the cubicle, and the grounding box was installed below the cable rack. It was necessary to carry out on-site construction from time to time, and it took time and effort.
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a cubicle capable of simplifying the grounding work and shortening the construction period of the field work.

In order to solve the above-described problem, the invention of claim 1 is, for example, as shown in FIGS. 1 to 6, a cubicle body 1 installed outdoors as a communication base station, and a cubicle body provided in the cubicle body. A cubicle 100 comprising a wireless device 2 to which a wireless communication line M drawn from the outside of the main body to the inside is connected,
A ground line S is connected to the wireless communication line drawn into the cubicle body,
A grounding box 9 connected to the grounding wire is integrally provided on the outer wall surface of the cubicle body.

  According to the first aspect of the present invention, the ground wire is connected to the wireless communication line drawn into the cubicle body, and the ground wall connected to the ground wire is integrally provided on the outer wall surface of the cubicle body. Thus, it is not necessary to carry out work such as wiring a wireless communication line in the field work and installing a grounding box on the wireless communication line as needed, and the construction can be easily performed only by installing the cubicle of the present invention.

  According to the cubicle according to the present invention, since the grounding box connected to the wireless communication line via the grounding line is integrally provided on the outer wall surface of the cubicle body, the on-site construction is simplified and the construction period is shortened. Can be achieved.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 is a side view showing a state in which a grounding box is integrally attached to a cubicle body according to an embodiment of the present invention, FIG. 2 is a top sectional view of the cubicle, FIG. 3 is a front view of the interior of the cubicle, FIG. Fig. 5 (a) is an external top view of the cubicle, (b) is an external left side view, (c) is an external front view, (d) is an external right side view, ) Is an external rear view, FIG. 6 (a) is a left side view of an integrated board for communication base stations, (b) is a front view, and FIG. 7 is a wiring diagram of power lines and wireless communication lines in a cubicle.
As shown in FIG. 1 to FIG. 6, a cubicle 100 according to the present invention is installed outdoors as a communication base station, and has a substantially box-shaped cubicle body 1, and a cubicle body 1 provided in the cubicle body 1. A wireless device 2 to which a wireless communication line M drawn from the outside to the inside is connected, and a communication base station integrated panel 3 having a plurality of auxiliary devices attached to the wireless device 2 are provided.

The cubicle body 1 is made of steel or aluminum, for example. Two front doors 11 having a double door opening are attached to the front surface of the cubicle body 1, and one similar side door 12 is attached to the right side surface.
Three radio devices 2 accommodated in the cubicle body 1 are arranged along the front plate of the cubicle body 1 including those for future expansion. A storage battery 4 is arranged on the right side of these radios 2 as an emergency power source for the radios 2. If the future expansion space is not considered, the cubicle body 1 is further downsized.

Above the storage battery 4, a ceiling-mounted indoor unit 51 that generates cold air or the like is installed on the top plate of the cubicle body 1, and an outdoor unit 52 that compresses refrigerant or the like is provided on the outer surface of the back plate. is set up.
In addition, a panel-shaped heat exchange device 61 is incorporated inside the back plate of the cubicle body 1, and an intake hood 62 is installed at the lower outer surface of the front plate, and an exhaust hood 63 is installed at the upper outer surface of the left side plate. Yes.
The heat exchange device 61 performs heat exchange of air in the cubicle body 1.
Based on the detection results of a plurality of temperature sensors (not shown) provided at predetermined locations in the cubicle body 1, the fan in the heat exchange device 61 is driven to adjust the air volume, and the indoor unit 51 and the outdoor unit The cooling device comprising the machine 52 is driven so that the cool air is sent into the cubicle body 1.
Therefore, the heat exchange device 61 and the cooling devices 51 and 52 cool the temperature rising due to heat generated by the communication base station integrated panel 3 and the wireless device 2 described later installed in the cubicle body 1, and the cubicle body Air-conditioning management is performed to keep the inside of 1 at an appropriate temperature.
The intake hood 62 and the exhaust hood 63 function as an emergency air conditioner in the event of a power failure. The fans in the hoods 62 and 63 are operated to perform ventilation.
Further, fluorescent lamps 13 are attached to the top of the cubicle body 1 for illumination in the cubicle body 1 at two locations.

  The communication base station integrated panel 3 is arranged on the left side of the radio device 2 and includes a plurality of auxiliary devices attached to the radio device 2. As the plurality of auxiliary devices, as shown in FIG. 7, an AC power receiving board 31, a rectifier 32, a DC power distribution board 33, a base station control board 34, an intermediate distribution board (IDF) 35, a transmission device 36, and the like can be cited. The plurality of incidental devices are accommodated and integrated in the accommodation rack 30 while being wired to each other.

The storage rack 30 has a substantially box shape, and a plurality of shelves are provided on the front and side surfaces. As shown in FIG. 6 (a), an operation panel 37 provided with switches, meters, and the like of the AC power receiving board 31, the AC power receiving board 31 and the DC power distribution board 33 in order from the bottom on the front surface of the housing rack 30. The DC distribution board 33 is accommodated, and a DC terminal block space 38 a is provided in the upper part of the DC distribution board 33. Thus, by accommodating the AC power receiving panel 31, the operation panel 37, and the DC distribution panel 33 in the front surface of the storage rack 30, the operability when the front door 11 is opened is improved.
Further, as shown in FIG. 6 (b), on the side surface side of the storage rack 30, a space that can be used as an inverter space 38b is provided on the back surface of the AC power receiving panel 31 and the DC distribution board 33 in order from the bottom. The base station control panel 34 and the rectifier 32 are accommodated in the upper part, and a utility space that can be used as an AC terminal block space 38c and a DC terminal block space 38d is provided. It can be supported.
Further, an intermediate switchboard 35 is accommodated on the right side of these rectifiers 32 and the like, and a plurality of auxiliary devices accommodated in the accommodation rack 30 are integrated with each other in a wired state.

  In the accommodation rack 30 shown in FIG. 6, the transmission device 36 shown in FIG. 7 and other ancillary equipment are not shown because of the drawing. It is assumed that what is shown in the integrated board for communication base stations is accommodated. For example, an indoor control unit 39b that indoors controls a control device 39a that is installed outdoors and controls the tilt angle of the antenna 17 can be used.

Hereinafter, the wiring of the wireless communication line M and the power line D drawn into the cubicle body 1 will be described with reference to FIGS. 1 and 7.
A through plate 14 having a plurality of holes through which the power line D connected to the wireless communication line M, the above-described AC power receiving panel 34 and the like is inserted is attached to the upper portion of the left side plate of the cubicle body 1. For the sake of illustration, only the wireless communication line M is shown in FIG. 1 and the power line D is omitted.
The wireless communication line M attached to the antenna 17 is supported by an external cable rack 7 installed outside the cubicle body 1 and is drawn into the cubicle body 1 through a hole in the through plate 14. The wireless communication line M is connected to the ground line S via a conversion connector 16 having an arrester 18 in the vicinity of the through plate 14. The ground wire S is connected to a ground terminal in the ground box 9, and the ground box 9 is fixed to the outer surface (outer wall surface) of the left side plate of the cubicle body 1 and is integrally attached to the cubicle body 1. The grounding box 9 has conductivity such as steel or aluminum as in the cubicle body 1.
The ground wire S grounded to the ground G at the ground terminal in the ground box 9 is further drawn into the cubicle body 1 through the hole of the through plate 14. The ground line S drawn into the cubicle body 1 in this way is connected to a ground board (not shown) in the communication base station integrated board 3. A plurality of ground lines S branched by the ground board are connected to the respective radio devices 2 (see FIGS. 2 and 7).
In this way, the wireless device 2 is grounded to the ground G via the ground wire S and the ground box 9.

  Further, the wireless communication line M drawn as it is into the cubicle body 1 without being branched to the ground line S is directly connected to each wireless device 2 and has a wiring structure shown in FIG. That is, a radio wave signal received by the antenna 17 is input to each wireless device 2 through the wireless communication line M, and then transmitted to an exchange (not shown) through an optical cable via a transmission device (DSU) 36.

As shown in FIG. 7, the power line D is connected to a power security device 10 installed on the outer surface of the cubicle body 1 as necessary before being drawn into the cubicle body 1. The power security device 10 includes a lightning-proof transformer (not shown) inserted in the power line D, thereby protecting the communication base station integrated panel 3 from lightning surge caused by induced lightning. Furthermore, the protection of the communication base station integrated panel 3 by direct lightning and the influence on surrounding private houses are kept to a minimum.
The power line D is drawn into the cubicle body 1 from the hole of the through plate 14 via the power security device 10. Thereafter, the power line D drawn into the cubicle body 1 is connected to the AC power receiving board 31 in the communication base station integrated board 3, and the AC power receiving board 31 is connected to the base station control board 34. The single-phase AC100V output from the base station control panel 34 is used for fluorescent lamp illumination and outlets, and the three-phase AC200V is used for power for the cooling devices 51 and 52 and the like. On the other hand, the AC power receiving panel 31 is connected to a rectifier 32, and a DC power source from the rectifier 32 is used for the storage battery 4, the wireless device 2, the transmission device 36, and the like for supplying power to a communication device.
Further, the cubicle body 1 has a connector of the mobile power supply vehicle 19 so that power can be supplied in the event of a power failure.

The base station control panel 34 is related to the air conditioning of the heat exchange device 61 and the cooling devices 51 and 52, the temperature sensor installed in the cubicle body 1, the opening and closing of the front door 11 and the side door 12, the activation of the ventilation fan, the opening and closing of the shutter, etc. The contact points for alarm signals and control-related signals are integrated. Further, various signal contacts of the base station control panel 34, the rectifier 32, the storage battery 4, and the wireless device 2 are wired in the panel to the intermediate switchboard 35 to monitor the abnormality and operation of each device.
As monitoring items, for example, during the work in the cubicle body 1, the doors 11 and 12 are opened, the rectifier 32 is broken, the voltage of the storage battery 4 is lowered, the temperature in the cubicle body 1 is abnormal, and the fan of the heat exchange device 61 is broken. And operation / stop, failure of the cooling devices 51 and 52, fire, and the like. Specifically, the ventilation fan is activated or the shutter is opened at the time of a power failure, and the heat exchange station 61 is activated to stop the ventilation fan and close the shutter when the power failure is restored. In addition, when the doors 11 and 12 are opened and closed, the illumination of the fluorescent lamp 13 is turned ON / OFF.

As shown in FIG. 2, the wireless communication line M, each ground line S, and the power line D drawn into the cubicle body 1 as described above are installed along the upper wall surface of the cubicle body 1. The cable rack 8 is supported and wired. Here, since it is a top view in FIG. 2, it seems that the wireless communication line M, the ground line S, and the power line D are one, but in practice, a plurality of wireless communication lines M and a plurality of ground lines S are provided. And the several power line D is wired along the wall surface.
The internal cable rack 8 includes a long cable support 81 provided facing the wall surface above the wireless device 2 and the communication base station integrated panel 3 and the like, and a space between the cable support 81 and the wall surface. And a plurality of cable support fittings 82 provided so as to be orthogonal to each other. The wireless communication line M, the ground line S, and the power line D are supported by the cable support fittings 82 and wired along the wall surface. By wiring along the wall surface in this way, the flow of air in the cubicle body 1 can be made better than when wiring in the center of the cubicle body 1.

  As described above, according to the cubicle 100 of the embodiment of the present invention, the ground line S is connected to the wireless communication line M drawn into the cubicle body 1, and the ground line S is connected to the outer surface (outer wall surface) of the side plate of the cubicle body 1. Since the grounding box 9 connected to the ground is integrally provided, it is necessary to perform the work such as wiring the wireless communication line M by field work and installing the grounding box 9 on the wireless communication line M as needed in the past. There is no need to install a cubicle 100 at the site construction. Therefore, simplification of the local construction and shortening of the construction period can be realized.

In addition, embodiment of this invention is not limited to the said embodiment, Unless it changes the summary, it can change suitably.
In the cubicle 100 of the above embodiment, the front door 11 having a double door shape is used in terms of the operability of the communication base station integrated panel 3, and the operation panel 37 is disposed at a position where the front door 11 is opened. As shown in FIGS. 8 to 11, for indoor maintenance, the communication base station integrated panel 3 may be provided at a position away from the door 11 </ b> A, and the cubicle 100 </ b> A having the door 11 </ b> A as a single opening may be used. In this case, the cost can be reduced by using the single-open door 11A. 8 to 11, the same reference numerals are given to the same configurations as those in FIGS. 1 to 6. Further, the grounding box 9 of the cubicle 100A is also integrally installed on the outer wall surface of the cubicle body 1 similarly to the cubicle 100, and the configuration is the same as in FIG.

Moreover, as an incidental apparatus accommodated in the said accommodation rack 30, not only the incidental apparatus shown in FIG. 7 but an inverter may be put. In this case, it can be accommodated in the inverter space 38b.
Furthermore, the arrangement of a plurality of auxiliary devices such as the AC power receiving board 31, the DC power distribution board 33, the operation panel 37, and the intermediate power distribution board 35 housed in the housing rack 30 is not limited to the above-described arrangement and may be changed as appropriate. . Furthermore, the arrangement of each device such as the wireless device 2, the communication base station integrated panel 3, and the cooling devices 51 and 52 in the cubicle body 1 can be changed as appropriate.

FIG. 3 is a side view showing a state in which a grounding box is integrally attached to a cubicle body for illustrating an embodiment of the present invention. FIG. 2 is a top sectional view of the cubicle. FIG. 2 is a front view showing the interior of the cubicle. FIG. 3 is a right side view showing the interior of the cubicle. 4A is a top view showing the appearance of the cubicle, FIG. 3B is a left side view, FIG. 3C is a front view, FIG. 3D is a right side view, and FIG. (A) is a left side view of the communication base station integrated panel, and (b) is a front view. FIG. 3 is a wiring diagram of a power line and a wireless communication line in the cubicle. It is for showing the modification of this invention, and is a top sectional view of a cubicle. FIG. 2 is a front view showing the interior of the cubicle. FIG. 3 is a right side view showing the interior of the cubicle. 4A is a top view showing the appearance of the cubicle, FIG. 3B is a left side view, FIG. 3C is a front view, FIG. 3D is a right side view, and FIG.

Explanation of symbols

1 Cubicle body 2 Radio 9 Ground box 31 Intermediate switchboard (switchboard)
100 cubicle M wireless communication line S grounding line

Claims (1)

A cubicle body comprising a cubicle body installed outdoors as a communication base station, and a radio device provided in the cubicle body and connected to a wireless communication line drawn from the outside to the inside of the cubicle body. ,
A ground line is connected to the wireless communication line drawn into the cubicle body,
A cubicle characterized in that a grounding box connected to the grounding wire is integrally provided on an outer wall surface of the cubicle body.

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