KR101245365B1 - Hybrid fanout cable - Google Patents

Abstract

According to the present invention, a photoelectric composite fanout cable is inserted through one end thereof, and the other end thereof has an open enclosure, a photovoltaic assembly having a branching device including a lid having a plurality of openings and screwed to the other end of the enclosure. A fanout cable is disclosed, wherein the optoelectronic fanout cable is branched into at least the optical cable and the power cable or the photoelectric fanout cable in the enclosure, wherein the branched optical cable and power cable or the photoelectric fanout cable are Each is drawn out of the lid through one of the openings. The branching device of the photoelectric fanout cable configured as described above uses a housing and a cover to protect the branching portion of the photoelectric fanout cable, so that the branching portion of the photoelectric fanout cable is exposed to the external environment or the load of the cable itself. It is possible to prevent damage by. Moreover, even if the branched optical cable and power cable or photoelectric fanout cable are not immediately wired to the home subscriber line, the terminal housing and the second cover are further provided to protect the termination, thereby facilitating future subscriber growth. .

Description

Photoelectric Fanout Cables {HYBRID FANOUT CABLE}

The present invention relates to a branching and terminating device used to construct a line using a photoelectric fanout cable and a photoelectric fanout cable.

In general, optical cables made of optical fibers are used to transmit optical signals over long distances. Recently, a photoelectric fanout cable combining a power cable composed of copper wires with an optical cable to simultaneously transmit power as well as optical signals. A track using a hybrid fanout cable is constructed. The photoelectric fanout cable may be used to provide a communication line and a power line to a communication facility of a common house or a large building such as an electric power supply or an apartment in an optical connection enclosure that simultaneously accommodates an optical cable and a power cable.

In general, communication lines and power lines are formed separately and are arranged in almost the same path, so when the photoelectric fanout cable is installed, the construction of the aerial line or the underground line can be further simplified. In particular, in the construction of a high-speed, high-capacity communication network, not only an optical cable composed of a plurality of optical fibers, but also a power cable is required. A photoelectric composite fanout cable in which an optical cable and a power cable are combined is useful to simplify the construction of a line. Can be utilized.

In constructing a communication network or a power network using the photoelectric fanout cable, the photoelectric fanout cable is branched into an optical cable and a power cable, or a small unit of photoelectric fanout cable as necessary. At this time, when the photoelectric fanout cable is wired through the telephone pole, the branch portion of the photoelectric fanout cable is likely to be exposed to the outdoor environment. Therefore, there is a risk that the branched portion of the photoelectric composite fan-out cable is corroded or damaged by external environment such as dust, algae droppings or bad weather. In addition, due to the load of the optical cable or the power cables themselves constituting the photoelectric fanout cable in the aerial line, the force for continuously branching the cable to the sheath of the photoelectric composite fanout cable at the branch.

Moreover, if the ends of branched optical cables and power cables or small units of photoelectric fanout cables are exposed to the external environment for a long time, there is a high possibility of corrosion and damage, so there is no need to protect the ends of the redundant optical cables or power cables. have. Conventionally, a heat shrink tube or a waterproof tape is used to protect such a branch or a cable end, but when the maintenance, repair, or termination of a branched cable is connected to a new line, the heat shrink tube or the waterproof tape is removed. There is a risk of damage in the process.

Accordingly, the present invention seeks to provide an apparatus used to branch and protect the branching photoelectric fanout cable usable in indoor / outdoor environments.

In addition, the present invention can safely protect and maintain the termination of the extra optical cable and power cable or the branched photoelectric fanout cable exposed to the outside for a long time without branching the photoelectric fanout cable immediately connected to the terminal device It is intended to provide branch and termination devices.

In addition, the present invention is to provide a branching device that can easily perform the branching operation of the optical cable or the photoelectric composite fan-out cable.

Accordingly, the present invention provides a photovoltaic device having a branching device including a photo-complex fanout cable inserted through one end and an open end, and a cover having a plurality of openings and screwed to the other end of the housing. A composite fanout cable is disclosed, wherein the photoelectric fanout cable in the enclosure is branched into a photoelectric fanout cable consisting of at least the optical cable and a power cable or a part of an optical fiber and a power cable, and the branched optical cable; A power cable or photoelectric fanout cable is each drawn out of the cover through one of the openings.

The branching device preferably further includes a sealing member interposed between the other end of the enclosure and the lid.

In addition, the branch device further extends from the outer surface of the cover, and further includes protective members connected to one of the openings, wherein the branched optical cable and power cable or photoelectric fanout cable are each of the protective members. It is preferred to be routed through either.

In this case, a sealing member may be further provided between the outer circumferential surface of the optical cable and the power cable or the photoelectric composite fan-out cable and the inner circumferential surface of the protective member branched from the photoelectric composite fan-out cable and wired through the protective member.

The branching device as described above may further include a termination member for coupling the end of the optical cable and the power cable or photoelectric fanout cable drawn out of the cover.

The termination member may include a termination housing accommodating terminations of the optical cable and the power cable or the photoelectric fanout cable; And a second cover coupled to one end of the terminal housing, wherein the optical cable and the power cable or the photoelectric fanout cable accommodated in the terminal housing are inserted into the terminal housing through the second cover.

In addition, one end of the terminal housing is configured as an open end, and is preferably sealed by the second cover.

On the other hand, the second cover, the cover body coupled to one end of the terminal housing; And a fixing member provided on an outer side surface of the cover body to fix the optical cable and the power cable or the photoelectric fanout cable passing through the second cover to the second cover.

In addition, the cover body, the elastic member for coupling to surround the outer peripheral surface of the optical cable and power cable or photoelectric composite fan-out cable; And a binding member that is bound to the terminal housing while surrounding the outer circumferential surface of the elastic member.

The elastic member may include at least one pair of through holes through which the optical cable and the power cable or the photoelectric fanout cable pass.

The fixing member may further include a first fixing part protruding from an outer surface of the cover body; And a second fixing part coupled to the outer surface of the cover body to surround the outer circumferential surface of the optical cable and the power cable or the photoelectric fanout cable together with the first fixing part.

The photoelectric fanout cable configured as described above protects the branching portion of the photoelectric fanout cable by using a branching device including an enclosure and a cover, so that the branching portion of the photoelectric fanout cable is separated by an external environment or the cable itself. It is possible to prevent damage by load. Furthermore, by providing a redundant housing and a second cover to protect the ends of the redundant optical cable and power cable or photoelectric fanout cable, it is possible to safely protect the ends of the cables that are exposed to the outside for a long time without being directly connected to the terminal equipment. Can be. In addition, in joining the enclosure, the lid, the end enclosure, and the second lid, the arrangement of the sealing member is facilitated by using screwing, thereby ensuring excellent waterproof performance. In addition, it is easy to remove the cover by combining the housing and the cover, the terminal housing and the second cover by using a screw, so that it is easy to maintain, repair or increase the number of subscribers in the future, and that the cable and the like are damaged during the separation process. It can be prevented.

1 is a block diagram showing a photoelectric composite fan-out cable having a branching apparatus according to a preferred embodiment of the present invention,
FIG. 2 is a perspective view showing the housing of the branching device and the cover thereof of FIG. 1;
3 is a cross-sectional configuration diagram showing the enclosure and the cover thereof shown in FIG.
4 is a perspective view illustrating a process in which the termination member of the branching device illustrated in FIG. 1 is coupled to an end of a cable;
FIG. 5 is an exploded perspective view illustrating the terminal enclosure and the cover thereof of FIG. 4; FIG.
FIG. 6 is a photographic view showing a configuration in which the wiring structure shown in FIG. 1 is applied to an actual photoelectric fanout cable. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 shows a wiring structure 100 of a photoelectric fanout cable 101 having a branching device according to a preferred embodiment of the present invention, and FIG. 6 is an actual view of the wiring structure 00 shown in FIG. This is shown in the picture. As shown in Fig. 1 and Fig. 6, the branch housing 103 composed of the enclosure and the cover is used to protect the branching portion of the photoelectric fanout cable 101, and the termination treatment composed of the termination enclosure and the second cover is provided. The end of the small amount of photoelectric fanout cable consisting of the optical fiber 113 and the power cable 111 branched using the member 104 or a part of the optical fiber and power cable constituting the photoelectric fanout cable 101. Will be protected.

In describing the present invention, in a specific embodiment, the photoelectric fanout cable including the optical cable and the power cable is illustrated, but the branching device according to the present invention may be used even in a line of a communication network including only the optical cable. In addition, as shown in FIG. 1, the photoelectric fanout cable 101 may include a separate grounding cable 115 in addition to the optical cable 113 and the power cable 111. The number of optical cables or power cables constituting the cable 101 may vary. In addition, as mentioned above, in the branching of the photoelectric composite fanout cable 101, it may be branched into an optical cable and a power cable, but another photoelectric fanout in a small unit combining some optical fibers and a power cable. It can also be branched by cable. In addition, it will be readily understood by those skilled in the art that the power cable 111 may be utilized not only as a cable for power supply but also as a communication line.

Referring to FIGS. 2 and 3, the branch housing 103 that will protect the branching portion of the photoelectric fanout cable 101 includes the housing 131 and the cover 133, thereby providing the photoelectric composite. The branch of the fan-out cable 101 is protected.

The enclosure 131 has a cylindrical shape with both ends open, and an insertion hole into which the photoelectric composite fan-out cable 101 is inserted before branching at one end thereof, and the other end is configured as a simple open end. A thread 131a is formed on the outer circumferential surface of the other end of the enclosure 131 to provide a means for engaging with the cover 133. On the other hand, the insertion hole is surrounded by a protective tube 137 extending to a predetermined length, the protective tube 137 is coupled to surround the outer peripheral surface of the photoelectric composite fan-out cable 101 along the longitudinal direction. The photoelectric composite fanout cable 101 penetrates one end of the housing 131 through the insertion hole and is inserted into the housing 131, so that the housing 131 is connected to the photoelectric composite fanout cable 101. ) Is disposed on.

The interior of the enclosure 131 is formed of an empty space, and the photoelectric composite fanout cable 101 is branched while the enclosure 131 is disposed on the photoelectric composite fanout cable 101. After the photoelectric fanout cable 101 is branched, that is, after the outermost covering is removed, the enclosure 131 is disposed at the branch of the photoelectric fanout cable 101. That is, the end portion of the outer sheath of the photoelectric fanout cable 101 is disposed inside the enclosure 131.

The cover 133 is coupled to the other end of the enclosure 131 to seal the enclosure 131. In this case, a sealing member 132 such as an O-ring made of an elastic material may be disposed between the cover 133 and the other end of the enclosure 131 to increase the sealing and waterproofing effects. The sealing member may be disposed between the protective tube 137 and the photoelectric fanout cable 101. In order to couple to the other end of the housing 131, a thread 131b is formed on an inner circumferential surface of the cover 133. The screw thread 131b formed on the inner circumferential surface of the cover 133 is formed to correspond to the screw thread 131a formed on the outer circumferential surface of the other end of the enclosure 131 so that the cover 133 is coupled to the enclosure 131. Will be provided.

In addition, the cover 133 has openings 135 for drawing the optical cables 113 or the power cables 111 or the photoelectric fanout cables branching the photoelectric fanout cable 101. The openings 135 are formed to penetrate the cover 133 in the longitudinal direction of the housing 131, that is, the photoelectric fanout cable 101 extends. Some of the openings 135 correspond to diameters of the optical cable 113 constituting the photoelectric fanout cable 101, and other portions of the power cable 111 constituting the photoelectric fanout cable 101. It can be formed corresponding to the diameter. In addition, openings corresponding to the diameters of the individual optical fibers constituting the optical cable 113 in the enclosure 131 may also be formed in the cover 133. As a result, openings of various diameters may be formed in the cover 133, and the number and diameter of the cover 133 may be appropriately selected by those skilled in the art.

On the other hand, similar to the protective tube 137, the cover 133 has protective members 139 extending from the outer surface thereof. Each of the protective members 139 is connected to one of the openings 135 and is coupled to surround the outer circumferential surface of the optical cable 113, the power cable 111, or the photoelectric fanout cable passing through the cover 133. do. Another sealing member similar to the sealing member 132 may be interposed between the protective member 139 and the outer circumferential surface of the optical cable 113, the power cable 111, or the photoelectric fanout cable passing therethrough.

The optical cable 113, the power cable 111, or the photoelectric fanout cables branched from the photoelectric fanout cable 101 may be connected to the cover 133 through one of the opening 135 and the protection member 139. Extends outward. In this state, the cover 133 is brought into contact with the enclosure 131, and the cover 133 is rotated with respect to the cover 133 to screw the cover 133 and the enclosure 131. In this process, the sealing member 132 interposed between the cover 133 and the enclosure 131 is compressed to seal between the cover 133 and the enclosure 131. Thus, the branched portion of the photoelectric composite fan-out cable 101 is positioned substantially inside the branch housing 103, and the protective tube 137, the enclosure 131, and the cover 133 of the enclosure 131. A sealing member may be provided between the protection member 139 and the protection member 139 to block contaminants from flowing into the branch housing 103.

4 and 5 respectively show the termination member 104 of the branching device applied to the wiring structure 100 shown in FIG. As mentioned above, the termination member 104 is for protecting the termination of the cable that is not immediately wired to another line in the state branched from the photoelectric composite fanout cable 101, the termination enclosure 141 And a second cover 143.

The termination housing 141 is for accommodating the optical cable 113 and the power cable 111 or the photoelectric fanout cable branched, and the optical cable 113 and the power cable 111 or the photoelectric fanout cable. It extends a certain length along the longitudinal direction. The length of the termination housing 141 is preferably a length that can sufficiently accommodate the exposed core of the optical cable 113 and the power cable 111 or photoelectric composite fan-out cable. One end of the terminal housing 141 is a closed end, the other end is made of an open end, a thread may be formed on the outer peripheral surface of the open end.

The second cover 143 includes a cover body 143a and a fixing member 143b, and the cover body 143a includes an elastic member 144a and a binding member 144b. In addition, the fixing member 143b is completed by the combination of the first and second fixing parts 145a and 145b.

The cover body 143a is for substantially closing the open end of the termination housing 141, and the branched optical cable and the power cable or the photoelectric fanout cable pass through the cover body 143a to allow the termination housing ( 141 is inserted into the interior. In this case, the optical cable and the power cable or the photoelectric fanout cable passing through the cover body 143a are substantially wired through a through flow (not shown) formed in the elastic member 144a, and to the elastic member 144a. A portion of the outer circumferential surface is wrapped, and the elastic member 144a may be in close contact with the outer circumferential surface of the optical cable 113 and the power cable 111 or the photoelectric composite fan-out cable to provide a sealing and waterproof function.

The binding member 144b surrounds the circumference of the elastic member 144a, and more preferably surrounds the edge of the outer surface of the elastic member 144a, and is formed at the open end of the terminal housing 141. With threads corresponding to the threads. That is, the second cover 143 is coupled to the terminal enclosure 141 through the thread formed on the binding member 144b and the thread formed on the terminal enclosure 141.

The fixing member 143b is for preventing the termination member 104 from being separated from the optical fiber and the power cable or the photoelectric fan-out cable at the end of the fixing member 143b. The fixing member 143b is provided on the outer surface of the second cover 143. The first fixing part 145a formed and the second fixing part 145b coupled to the first fixing part 145a on the outer surface of the second cover 143 are provided. That is, the fixing member 143b is completed by combining the first and second fixing parts 145a and 145b, and the termination member (as the first and second fixing parts 145a and 145b are coupled to each other). The termination member 104 may be completely fixed on the optical cable and the power cable or the photoelectric fanout cable accommodated in 104.

The first fixing part 145a is semicircular and protrudes to the outer surface of the cover body 143a, and the second fixing part 145b is also semicircularly coupled with the first fixing part 145a to fix the first fixing part 145a. The member 143b is completed in a circle. In this case, each of the first and second fixing parts 145a and 145b is formed with a groove surrounding a portion of an outer circumferential surface of the optical cable and the power cable or the photoelectric fanout cable. A plurality of protrusions are formed on the inner wall of the groove to form the optical cable and The outer circumferential surface of the power cable or the photoelectric fanout cable can be pressed. That is, the optical cable and the power cable or the photoelectric fanout cable accommodated in the termination member 104 may have grooves formed in each of the first and second fixing parts 145a and 145b and through holes formed in the elastic member 144a. The protrusions are inserted into the terminal housing 141 through holes, and the protrusions formed on the inner walls of the grooves of the first and second fixing parts 145a and 145b are fixed to the fixing member 143b and ultimately the termination member. The 104 is prevented from being separated while being coupled to the optical cable and the power cable or the photoelectric fanout cable.

Meanwhile, in FIG. 4, the cover body 143a and the first fixing part 145a are illustrated as having a separate configuration, but the cover body 143a and the first fixing part 145a are preferably integrally formed. . More preferably, after integrally injection molding the cover body 143a and the first fixing part 145a, the elastic member 144a is formed inside the binding member 144b through double injection or a separate assembly process. Can be combined. When the terminal housing 141 and the second cover 143 are coupled to each other, the elastic member 144a is in close contact with the open end of the terminal housing 141, whereby the terminal housing 141 and the second cover It is also possible to provide a sealing and waterproofing function between the 143.

In coupling the termination member 104 to an optical cable and a power cable or a photoelectric fanout cable, the termination cover (143) is first attached to the optical cable and the power cable or the photoelectric fanout cable. 141 is screwed to the second cover 143 to be fixed. At this time, the sealing and waterproofing function of the termination member 104, as described above, can be sufficiently secured only by the elastic member (144a). In addition, in the coupling of the first and second fixing parts 145a and 145b, it is preferable to use a fastening member such as a screw, and through this, the termination member 104 can be reused in the future.

On the other hand, the second cover 143 is not only part of the termination member 104, but also a communication network or home where the optical cable and power cable or photoelectric fanout cable to which the second cover 143 is coupled are different from each other. When connected to the subscriber line, it may be used as a means for protecting the part where the optical cable and the power cable or the photoelectric fanout cable are connected to the other line in combination with the mating connector. That is, by configuring the connector member and the second cover 143 corresponding to each other at the end of the opposite line, the second cover 143 is bound when the optical cable and the power cable or the photoelectric fanout cable are connected to other lines. It can also be used as an absence.

In the foregoing detailed description of the present invention, specific embodiments have been described. However, it will be apparent to those skilled in the art that various modifications can be made without departing from the scope of the present invention.

100: photoelectric fanout cable wiring structure 101: photoelectric fanout cable
103: branch enclosure 104: termination member
131: enclosure 133: cover
141: terminal enclosure 143: second cover

Claims (11)

In the photoelectric fan-out cable comprising at least one optical cable and at least one power cable,
A branching device including an open enclosure and a cover having a plurality of openings screwed to the other end of the enclosure and having a plurality of openings, the optoelectronic fan in the enclosure The out cable is divided into photoelectric fanout cables consisting of at least an optical cable and a power cable or some optical fiber and power cable, wherein the branched optical cable and power cable or photoelectric fanout cable are each connected through one of the openings. A branching device drawn out of the cover; And
And a termination member configured to surround the ends of the optical cable and the power cable or the photoelectric fanout cable drawn out of the cover,
The termination member,
A termination housing accommodating the ends of the optical cable and power cable or photoelectric fanout cable; And
A second cover coupled to one end of the terminal enclosure;
And an optical cable and a power cable or a photoelectric fanout cable accommodated in the termination housing are inserted into the termination housing through the second cover.
The photoelectric fanout cable according to claim 1, further comprising a sealing member interposed between the other end of the enclosure and the cover.
The apparatus of claim 1, further comprising protective members each extending from an outer surface of the lid and connected to one of the openings.
And wherein the branched optical cable and power cable or photoelectric fanout cable are each routed through one of the protection members.
4. The semiconductor device of claim 3, further comprising a sealing member interposed between the outer circumferential surface of the optical cable and the power cable or the photoelectric composite fanout cable branched from the photoelectric composite fanout cable and wired through the protective member, and the inner circumferential surface of the protective member. Photoelectric fanout cable characterized in that.
delete delete The photoelectric fanout cable of claim 1, wherein one end of the termination housing is configured as an open end and is sealed by the second cover.
The method of claim 1, wherein the second cover,
A cover body coupled to one end of the terminal housing; And
And a fixing member provided on an outer side surface of the cover body to fix the optical cable and the power cable or the photoelectric fanout cable to the second cover.
The method of claim 8, wherein the cover body,
An elastic member coupled to surround the outer circumferential surface of the optical cable and the power cable or the photoelectric fanout cable; And
And a binding member surrounding the outer circumferential surface of the elastic member and coupled to the terminal housing.
The photoelectric fanout cable of claim 9, wherein the elastic member has at least one pair of through holes through which the optical cable and the power cable or the photoelectric fanout cable pass.
The method of claim 8, wherein the fixing member,
A first fixing part protruding from an outer surface of the cover body; And
And a second fixing part coupled to the outer surface of the cover body to surround the outer circumferential surface of the optical cable and the power cable or the photoelectric fanout cable together with the first fixing part. .

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