JP2004320633A - Outdoor installation type optical network transmission apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an outdoor installation type optical network transmission apparatus that can efficiently house devices in its enclosure and is planned for battery replacement, is improved in the workability of in-enclosure wiring or the like, and takes into account a structure unsusceptible to exhaust heat inside the enclosure and to the outdoor environment at the time of outdoor installation. <P>SOLUTION: The optical network transmission apparatus is installed and used outdoors. The optical network transmission apparatus comprises optical fiber access equipment housed in the enclosure with an openable and closeable door, and an uninterruptible power source including an optical fiber connection module, an optical fiber storage box, an electrical source module, and a battery. The optical fiber access equipment is arranged at the side of the openable and closeable door, while the battery is arranged on the posterior surface of the optical fiber access equipment. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an outdoor optical network transmission system for connecting an optical cable laid overhead to the vicinity of a subscriber's house in a subscriber optical communication system for transmitting and receiving signals to and from a subscriber using optical signals. Equipment related.
[0002]
2. Description of the Related Art As an optical communication system for a subscriber, as shown in FIG. 5, an optical single-core cable 31a branched from an optically laid optical cable 30 via an access point closure 33a is an outdoor installation type optical network. The optical / electrical / optical signal conversion is performed by the optical fiber access device 13 incorporated in the transmission device 10, and the optical fiber access device 13 branches to the drop cable 32 or the optical aggregate cable 31b.
[0003]
The drop cable 32a branched by the outdoor installation type optical network transmission device 10 is led into the subscriber's house 60a and connected to the media converter 61a installed in the subscriber's house. The optical aggregation cable 31b branched by the outdoor installation type optical network transmission device is drawn into the subscriber homes 60b and 61c by the drop cables 32b and 32c distributed by the distribution point closure 33b, and is installed in the subscriber home. 61b, 61c. The optical subscriber uses the optical communication system for the subscriber by connecting media devices such as personal computers 62b and 62c to the media converters 61b and 61c.
[0004]
Here, the power supply to the optical fiber access device 13 housed in the outdoor installation type optical network transmission device 10 is connected to the pole transformer 42 by a power cable 41 branched from the power cable 40, The power transformed at 42 is connected to the uninterruptible power supply 15 disposed in the outdoor-installed optical network transmission device 10 via a power supply cable 43 and supplied.
[0005]
As an outdoor installation type optical network transmission device used in such an optical communication system for subscribers, a technology for installing an optical network terminating device on an optical cable or a telephone pole (for example, see Patent Document 1) and an optical network terminating device. In an uninterruptible power supply composed of a housed power supply unit and a battery, a technique for reducing the power used by an optical fiber access device in order to reduce the size of the battery and a technique for charging the battery (for example, see Patent Document 2) are known. Have been.
[0006]
Such an outdoor installation type optical network transmission device 10 is a wiring between the device incorporated in the housing 12 and the optical single-core cable 31a, the optical aggregation cable 31b, the drop cables 32a, 32b, 32c,. Since the connection is made, the devices are arranged on the same plane in the housing in consideration of this workability.
[0007]
[Patent Document 1]
JP-A-9-321706
[Patent Document 2]
JP-A-8-191273
[0008]
However, the above prior art has the following problems to be solved.
[0009]
That is, in order to enable optical subscribers to use the optical communication system without being affected by a power failure in the event of an emergency such as a disaster, an uninterruptible power supply installed in an outdoor-installed optical network transmission device of the optical communication system for the subscriber. The power supply is required to supply power for about 1 hour to 4 hours in consideration of the time until restoration of the power failure. In order to satisfy such power supply specification conditions, the number of connection lines of optical fibers connected to the outdoor installation type optical network transmission device is generally 6 to 24 lines, and the power consumption per line is Power supply of 4W to 6W is required. For this reason, in the battery and the power supply module constituting the uninterruptible power supply, it is necessary to incorporate 24 AH × 2 or 48 AH × 1 in the housing, and the uninterruptible power supply becomes large, and as a result, There is a problem that a housing for storing these becomes large.
[0010]
In addition, since the battery has a limited life, the battery capacity decreases depending on the number of years of use, and the battery needs to be replaced periodically. In such a case, it is required that the battery can be easily replaced without disconnecting wires or the like of the devices incorporated in the housing. Conventionally, since the devices are arranged on the same plane, the housing itself is large.
[0011]
Therefore, the outdoor installation type optical network transmission device requires a large housing unless the arrangement of the optical fiber access equipment, the optical fiber connection module, the optical fiber storage box, the uninterruptible power supply, and other devices housed in the housing is improved. However, there has been a problem that the workability of connecting the optical fiber core wire and the workability of replacing the battery are poor.
[0012]
In addition, since the outdoor-installed optical network transmission device is installed outdoors, it is necessary to consider outdoor weather conditions. For example, when direct sunlight is applied in summer, the surface temperature of the housing 12 exceeds 60 ° C. Sometimes. Furthermore, since the optical fiber access device built into the outdoor installation type optical network transmission device is a heating element itself, it does not consider ventilation for the purpose of promoting exhaustion of heat inside the housing to prevent a rise in temperature inside the housing. There is a problem that the reliability of the electric circuit is impaired. In addition, it is necessary to consider the waterproofness and airtightness of the housing against the weather, dust and the like.
[0013]
The present invention has been made in view of the above points, and can efficiently store equipment in a housing of an outdoor-installed optical network transmission device, improve workability such as battery replacement work, wiring and connection work in the housing, It is an object of the present invention to provide an outdoor-installed optical network transmission device that takes into account heat exhausted in a housing and a structure that is not affected by the outdoor environment when installed outdoors.
[0014]
The present invention employs the following structure to solve the above-mentioned problems.
[0015]
Configuration 1 of the present invention relates to an optical network transmission device installed and used outdoors, wherein the optical network transmission device is an optical fiber access device housed in a housing having an openable door, an optical fiber connection module, and an optical fiber connection module. A storage box and a power supply module and an uninterruptible power supply comprising a battery, wherein the optical fiber access device is disposed on the openable door side, and the battery is disposed on a rear surface of the optical fiber access device. Features.
[0016]
A second aspect of the present invention is characterized in that, in the first aspect, the optical fiber access device is provided with an actuating means so that the rear battery appears on the front surface.
A third aspect of the present invention is characterized in that in the second aspect, the operating means is such that the optical fiber access device can be opened and closed in any one of upper, lower, left, and right directions.
[0017]
In a fourth aspect of the present invention, in the first to third aspects, the bottom of the housing has a double bottom structure including an inner bottom plate and an outer bottom plate, and the inner bottom plate and the outer bottom plate have an intake hole and an exhaust hole. Is provided.
[0018]
A fifth aspect of the present invention is characterized in that, in the fifth aspect, in the fourth aspect, the intake hole and the exhaust hole provided in the inner bottom plate and the outer bottom plate are arranged at positions shifted between the inner bottom plate and the outer bottom plate. I do.
[0019]
According to the sixth aspect of the present invention, in the fourth or the fifth aspect, a filter is provided in an intake hole of the inner bottom plate, and an exhaust fan is provided in an exhaust hole of the inner bottom plate. The exhaust duct provided is provided in the housing.
[0020]
Configuration 7 of the present invention relates to an optical network transmission device installed and used outdoors, wherein the optical network transmission device is an optical fiber access device housed in a housing having an openable door, an optical fiber connection module, and an optical fiber. A storage box and an uninterruptible power supply comprising a power supply module and a battery, wherein the optical fiber access device, the optical fiber connection module, and the optical fiber storage box are disposed on the openable and closable door side; It is characterized by being arranged on the rear surface of the fiber storage box.
[0021]
Further, according to the eighth aspect of the present invention, in the seventh aspect, the bottom of the housing has a double bottom structure including an inner bottom plate and an outer bottom plate, and the inner bottom plate and the outer bottom plate are provided with an intake hole and an exhaust hole. It is characterized by being.
[0022]
In a ninth aspect of the present invention, in the eighth aspect, the intake hole and the exhaust hole provided in the inner bottom plate and the outer bottom plate are arranged at positions displaced from each other by the inner bottom plate and the outer bottom plate. I do.
[0023]
In the tenth aspect of the present invention, in the eighth or ninth aspect, a filter is provided in an intake hole of the inner bottom plate, and an exhaust fan is provided in an exhaust hole of the inner bottom plate. The exhaust duct provided is provided in the housing.
[0024]
Embodiments of the present invention will be described below with reference to the drawings.
[0025]
First Embodiment First, an embodiment of the present invention will be described with reference to FIGS.
[0026]
1 and 2 show an embodiment of an outdoor-installed optical network transmission device according to the present invention. FIG. 1 is a cutaway front view, and FIG. 2 is a cutaway side view.
[0027]
In the present embodiment, an optical fiber access device 13, an optical fiber connection module 14, an optical fiber storage box 17, and an uninterruptible power supply 15 are housed in a housing 12, and the uninterruptible power supply 15 includes a power supply module 15a and a battery. 15b and 15c. Here, the optical fiber access device 13, the optical fiber connection module 14, and the optical fiber storage box 17 are disposed on the openable door side of the housing 12, and the uninterruptible power supply 15 is connected to the optical fiber access device 13, It is arranged behind the optical fiber connection module 14 and the optical fiber storage box 17, that is, on the utility pole 50 side. The batteries 15b and 15c constituting the uninterruptible power supply are arranged on the rear surface of the optical fiber access device 13, and the power supply module 15a is arranged on the rear surface of the optical fiber storage box 17.
[0028]
The optical fiber access device 13 has a structure that can be opened and closed when the door of the housing is opened as shown in FIG. Here, the structure that can be opened and closed means that the optical fiber access device 13 and the optical fiber connection module 14 are integrally formed, and the partition plate 20 provided in the housing and the optical fiber connection module are locked by the hinge 21. For example, the optical fiber access device 13 can be opened and closed as indicated by an arrow. Although not shown, if the optical fiber access device 13 and the optical fiber connection module 14 are locked to the side surface inside the housing by the hinge 21, the optical fiber access device can be moved right and left. In this case, the optical fiber core wire 34 may have a sufficient extra length. As described above, if the optical fiber access device 13 and the optical fiber connection module 14 are locked to the partition plate 20 or the housing 12 by screws or the like, the optical fiber access device 13 can be freely opened and closed.
[0029]
An optical fiber connection module 14 is arranged between the optical fiber access device 13 and the optical fiber storage box 17, and the optical fiber connection module 14 is connected therebetween by an optical fiber core 34. Here, the optical fiber access device 13 is a device that performs optical / electrical / optical signal conversion and distributes and relays an optical signal to an optical communication network. The optical fiber storage box 17 is a single optical fiber drawn from the bottom of the housing 12. An optical fiber connection module 14 is a storage box for storing an optical fiber core wire 34 subjected to terminal treatment, such as a cable 31a, an optical aggregate cable 31b, or a drop cable 32, in a coil shape. A connection terminal for connecting to an optical fiber access device.
[0030]
Also, the optical fiber core 34 can be bent without applying an excessive force to the optical fiber core 34 only between the optical fiber connection module 14 and the optical fiber connection box 17, and the optical fiber core 34 is removed from the optical fiber connection module 14. The optical fiber access device 13 can be opened and closed to the door side of the housing without any trouble, and the optical fiber access device 13 can be handled from the door side by folding the optical fiber access device 13 to the door side. The battery can be easily removed and replaced without removing it from the fiber connection module.
[0031]
In such a structure, since the optical fiber storage box 17 and the optical fiber connection module 14 are arranged on the door side of the housing, the connection work of the optical fiber core wire can be easily performed.
[0032]
By the way, the bottom of the housing 12 has a double bottom structure, and includes an inner bottom plate 25a and an outer bottom plate 25b. The inner bottom plate 25a is provided with an intake hole 18a, an exhaust hole 19a and cable holes 22a and 23a, and the outer bottom plate 25b is provided with an intake hole 18b, an exhaust hole 19b and cable holes 22b and 23b. The holes of the intake holes 18a and 18b are provided at different positions between the inner bottom plate 25a and the outer bottom plate 25b having a double bottom structure. Similarly, the exhaust holes 19a and 19b are provided at different positions between the inner bottom plate 25a and the outer bottom plate 25b. The reason for this is that rain and the like can be prevented from directly entering the housing by disposing the intake and exhaust holes between the inner bottom plate 25a and the outer bottom plate 25b to form holes. In order to prevent outside dust from entering the housing, a filter 27 is attached to the intake hole 18a, and an exhaust fan 26 and a filter 27 are attached to the exhaust hole 19a. The filter 27 may be locked so that the filter can be replaced in consideration of the periodic replacement. Here, the exhaust fan 26 may be in a constantly operating state, but a temperature sensing sensor may be provided in the housing 12 so that the fan operates when the temperature in the housing increases.
[0033]
Further, the exhaust duct 28 is provided for effectively discharging the air having a high temperature due to the heat generated by the optical fiber access device housed in the housing to the outside, and is used for locking the device in the housing. The partition plate 20 is used to constitute an exhaust duct. By thus providing the exhaust duct and the exhaust fan in the housing and discharging the heated air to the outside, it is possible to prevent the temperature in the housing from rising. In this embodiment, the exhaust duct is provided by utilizing the space in the housing. However, an independent duct may be provided, and the duct is not particularly limited as long as it meets the purpose of the present invention.
[0034]
The protective cover 11 is attached to the surface of the housing 12 except for the outer bottom surface. Since the housing itself has a double structure at the lower part of the housing 12, it is not particularly necessary to attach a protective cover. Here, the protective cover 11 may be fixed to the housing 12 with screws or the like, and a space may be provided between the protective cover and the housing to enhance the heat insulating effect. By attaching the protective cover 11 to the housing 12 in this way, even when the surface temperature of the protective cover itself exceeds 60 ° C. due to direct sunlight in summer, the surface temperature of the housing becomes approximately the outside air temperature. Temperature rise can be prevented.
[0035]
<Second Embodiment> Next, a second embodiment of the present invention will be described with reference to FIGS. 3 is a front view of the incision, and FIG. 4 is a side view of the incision. The same parts as those described in the first embodiment are represented by the same numbers.
[0036]
In the present embodiment, an optical fiber access device 13, an optical fiber connection module 14, an optical fiber storage box 17, and an uninterruptible power supply 15 are housed in a housing 12, and the uninterruptible power supply 15 includes a power supply module 15a and a battery. 15b and 15c. Here, the optical fiber access device 13, the optical fiber connection module 14, and the optical fiber storage box 17 are arranged on the openable door side of the housing 12, and the uninterruptible power supply 15 is connected to the optical fiber access device 13 with respect to the door. , Behind the optical fiber connection module 14 and the optical fiber storage box 17, that is, on the utility pole 50 side. In this embodiment, the batteries 15b and 15c constituting the uninterruptible power supply are arranged on the rear surface of the optical fiber storage box 17. The optical fiber access device 13, the optical fiber connection module 14, and the power supply module 15a are disposed in the upper part of the housing with respect to the optical fiber storage box 17 and the batteries 15b, 15c.
[0037]
An optical fiber connection module 14 is arranged between the optical fiber access device 13 and the optical fiber storage box 17, and the space therebetween is connected by an optical fiber core wire. Here, the optical fiber storage box 17 is a storage box for storing an optical fiber core wire 34 that has been subjected to terminal treatment, such as an optical single-core cable 31a, an optical aggregation cable 31b, and a drop cable 32, drawn from the bottom of the housing 12 in a coil shape. The optical fiber connection module 14 is a connection terminal for connecting the optical fiber core wire 34 drawn out of the optical fiber storage box 17 to an optical fiber access device. By doing so, the optical fiber storage box 17 and the optical fiber connection module 14 are arranged on the door side of the housing, as in the first embodiment, so that the work of connecting the optical fiber core wires can be facilitated.
[0038]
Here, since the width of the optical fiber storage box 17 is usually equal to or smaller than that of the batteries 15b and 15c, the batteries 15b and 15c stored in the housing 12 are disposed on the rear surface of the optical fiber storage box 17 with respect to the door. Therefore, the operation such as replacement of the battery can be directly performed from the door side. At this time, when replacing the battery 15c located on the rear surface of the optical fiber storage box 17, the battery 15b can be removed and then the battery 15c can be easily moved to the place where the battery 15b is located. The battery may be stored in the housing in the reverse order. With this configuration, the battery can be easily replaced without disconnecting the wiring.
[0039]
Also, similarly to the first embodiment, the bottom of the housing 12 has a double bottom structure and includes an inner bottom plate 25a and an outer bottom plate 25b. The inner bottom plate 25a is provided with an intake hole 18a, an exhaust hole 19a and cable holes 22a and 23a, and the outer bottom plate 25b is provided with an intake hole 18b, an exhaust hole 19b and cable holes 22b and 23b. The holes of the intake holes 18a and 18b are provided at different positions between the inner bottom plate 25a and the outer bottom plate 25b having a double bottom structure. Similarly, the exhaust holes 19a and 19b are provided at different positions between the inner bottom plate 25a and the outer bottom plate 25b.
[0040]
In order to prevent outside dust from entering the housing, a filter 27 is attached to the intake hole 18a, and an exhaust fan 26 and a filter 27 are attached to the exhaust hole 19a. The filter 27 may be locked so that the filter can be replaced in consideration of the periodic replacement. Here, the exhaust fan 26 may be in a constantly operating state, but a temperature sensing sensor may be provided in the housing 12 so that the fan operates when the temperature in the housing increases.
[0041]
Also in this embodiment, a protective cover arranged in the same manner as in the first embodiment is attached to the surface of the housing 12 except for the outer bottom surface.
[0042]
As described above, according to the present invention, the equipment can be efficiently stored in the housing of the outdoor-installed optical network transmission device, and workability such as battery replacement work, wiring and connection work in the housing, and the like can be achieved. It is possible to provide an outdoor-installed optical network transmission device that takes into consideration the improvement of heat dissipation in a housing and a structure that is not affected by the outdoor environment when installed outdoors.
[Brief description of the drawings]
FIG. 1 is a cutaway front view of an embodiment of an outdoor installation type optical network transmission device of the present invention.
FIG. 2 is a cutaway side view of an embodiment of the outdoor installation type optical network transmission device of the present invention.
FIG. 3 is a cutaway front view of another embodiment of the outdoor installation type optical network transmission device of the present invention.
FIG. 4 is a cutaway side view of another embodiment of the outdoor installation type optical network transmission device of the present invention.
FIG. 5 is a diagram showing a subscriber optical communication system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Optical network transmission device 11 Protective cover 12 Case 13 Optical fiber access device 14 Optical fiber connection module 15 Uninterruptible power supply 15a Power supply module 15b Battery 15c Battery 17 Optical fiber storage box 18a Intake hole 18b Intake hole 19a Exhaust hole 19b Exhaust hole Reference Signs List 20 partitioning plate 21 hinge 22a cable hole 22b cable hole 23a cable hole 23b cable hole 24a cable hole 24b cable hole 25a inner bottom plate 25b outer bottom plate 26 exhaust fan 27 filter 28 exhaust duct 30 optical cable 31a optical single core cable 31b Optical aggregate cable 32a Drop cable 34 Optical fiber core wire 42 Pole transformer 43 Power supply cable 60a Subscriber's house

Claims (10)

In an optical network transmission device installed and used outdoors, the optical network transmission device is an optical fiber access device, an optical fiber connection module, an optical fiber storage box, a power supply module, and a battery housed in a housing having a door that can be opened and closed. An outdoor uninterruptible power supply device, wherein the optical fiber access device is disposed on the openable door side, and the battery is disposed on a rear surface of the optical fiber access device. Network transmission equipment. 2. The outdoor-installed optical network transmission device according to claim 1, wherein the optical fiber access device is provided with operating means so that the battery on the rear surface appears on the surface. 3. The outdoor-installed optical network transmission device according to claim 2, wherein said operating means is such that the optical fiber access device can be opened and closed in any one of up, down, left and right directions. 4. The housing according to claim 1, wherein a bottom portion of the housing has a double bottom structure including an inner bottom plate and an outer bottom plate, and the inner bottom plate and the outer bottom plate are provided with an intake hole and an exhaust hole. Outdoor-installed optical network transmission device. The outdoor-installed optical network transmission device according to claim 4, wherein the intake hole and the exhaust hole provided in the inner bottom plate and the outer bottom plate are arranged at positions shifted from each other between the inner bottom plate and the outer bottom plate. . A filter is provided in an intake hole of the inner bottom plate, an exhaust fan is provided in an exhaust hole of the inner bottom plate, and an exhaust duct connected to the exhaust hole is provided in the housing. The outdoor installation type optical network transmission device according to claim 4 or 5, wherein In an optical network transmission device installed and used outdoors, the optical network transmission device is an optical fiber access device, an optical fiber connection module, an optical fiber storage box, a power supply module, and a battery housed in a housing having a door that can be opened and closed. The optical fiber access device, the optical fiber connection module, the optical fiber storage box is disposed on the openable door side, and the battery is disposed on the rear surface of the optical fiber storage box. An outdoor-installed optical network transmission device, comprising: The outdoor installation according to claim 7, wherein the bottom of the housing has a double bottom structure including an inner bottom plate and an outer bottom plate, and the inner bottom plate and the outer bottom plate are provided with an intake hole and an exhaust hole. Type optical network transmission equipment. 9. The outdoor-installed optical network transmission device according to claim 8, wherein the intake hole and the exhaust hole provided in the inner bottom plate and the outer bottom plate are arranged at positions shifted between the inner bottom plate and the outer bottom plate. . A filter is provided in an intake hole of the inner bottom plate, an exhaust fan is provided in an exhaust hole of the inner bottom plate, and an exhaust duct connected to the exhaust hole is provided in the housing. The outdoor installation type optical network transmission device according to claim 8 or 9, wherein:

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