KR20190009908A - Optical fiber sleeve assembly - Google Patents

Abstract

The present invention relates to a smart management-type optical fiber fusion sleeve assembly comprising: a pipe-shaped connection sleeve (110) which extrapolates, insulates, and protects a connection part of a core wire (11) of an optical cable (10) at one side and a core wire (11) of an optical cable (10) at the other side; a PCB substrate (120) which is inserted into the connection sleeve (110) and printed with a circuit pattern; a wireless communications module chip (130) which is mounted on the PCB substrate (120) and stores wire number information of the optical cable; and an antenna (140) which is connected to the wireless communications module chip (130) and is provided inside the connection sleeve (110). According to the present invention, core wire information of the optical cable can be easily and conveniently obtained.

Description

[0001] OPTICAL FIBER SLEEVE ASSEMBLY [0002]

The present invention relates to an optical fiber, and more particularly, to a smart managed optical fiber fusing sleeve assembly suitable for easily, conveniently, and quickly acquiring core wire information of an optical cable.

Generally, when the optical line is operated using the optical cable, the optical line is connected to the optical line and the optical line, or is connected to the connection line.

The connection of the optical cable is performed by connecting the optical fiber (core wire) constituting the optical cable, and the connection of the optical fiber is performed by using an insulation tube called a fused sleeve of a synthetic resin material.

In order to manage the cable connection point, the color of the core wire is divided into 12 colors of blue, red, green, red, yellow, green, black, white, gray,

However, when the core wire exceeds 12 cores, the wire number is given again from the blue. In the process of distinguishing the core wire from the blue wire, an error occurred in the lead wire.

First, there is a technique of using adhesive stickers for separating the core lines, which distinguishes information by attaching identification stickers to each core line.

However, in the sticker attaching method, when the line is changed or repaired, other information is added to the sticker, resulting in a great problem that the error of the lead number often occurs later.

In addition, there is a conventional technology for inputting and using a wire segment, and the wire number is written on the cover of the drawing board to distinguish the number of the wire.

However, since this technique is a site for work on the ground, the work is inconvenient, and the information written by the handwriting can be arbitrarily changed, leading to a great problem that the error of the pre-number occurs.

As a technique to solve such a problem, "heat-shrinkable sleeve for pre-printing" is known from Published Utility Model Publication No. 20-2016-0001673 (published on May 18, 2016).

The "heat-shrinkable sleeves for pre-printing" disclosed in the aforementioned Utility Model Publication 20-2016-0001673 have a key point of technology for printing connection information on the sleeve itself in order to distinguish the line numbers of the core wires of the optical cables,

It is easy to distinguish from the existing connected sleeves with the number of connection at the same time as the connecting operation, and it is possible to match the number of the core wire in the connecting box body and the line number of the connection line number management system without the field inspection, And it is also intended to prevent the duplication of the connection cost by clearly distinguishing from the existing connected core wire, thereby greatly improving the reliability of the core wire. Therefore, it is possible to meet the various needs of the users, In order to solve such a technical problem, a half of a sleeve, which is an insulating tube covering a wire or a part, is transparent and the other half is an opaque white .

However, the "heat-shrinkable sleeves for preliminary printing" according to the prior art disclosed in Japanese Patent Application Laid-Open No. 20-2016-0001673 have the following problems.

First, in the method of printing the priority history management information on the sleeve, the size of the sleeve is very small, and the range and amount of information to print the information is limited.

In addition, the above-described prior art has a problem that when a maintenance manager actually changes or installs a core wire, it can not be filtered if there is a wrong connection.

In addition, since the size of the sleeve is very small, a printing press for printing has to use a special printing machine.

Even if the print history management information is printed, the print information is erased with the lapse of time.

Document 1: Public Utility Model No. 20-2016-0001673 (Publication Date: May 1, 2016) Document 2: Laid-Open Patent Publication No. 2014-0017492 (Publication Date: 2014.02.11) Document 3: Registration No. 0659144 (Notification Date: December 12, 2006)

It is an object of the present invention to provide a smart management type optical fiber fusing sleeve assembly according to the present invention,

First, by inserting a wireless communication module chip in which wire-out information is stored in a fusing sleeve used in a fiber-optic fusion splicing connection, and confirming the number information stored in the wireless communication module chip through the communication terminal, So that it can be acquired easily and conveniently,

Second, by storing the preemption information in the wireless communication module chip and inserting the wireless communication module chip inside the fusion sleeve, the wireless communication module chip can be semi-permanently managed without loss of the preemption information,

Thirdly, the wireless communication module chip storing the pre-information is configured as a low-cost Near Field Communication (NFC) chip (frequency: 13.56 MHz), so that preemption information management can be implemented at low cost,

Fourthly, by constructing the antenna in a linear shape of a metallic material and inserting the antenna into the sleeve, the antenna can serve as an antenna and can serve as a frame supporting the sleeve and the optical fiber,

Fifth, a via hole is formed on a PCB substrate on which a wireless communication module chip is mounted, and a spiral connection portion of the antenna is fixed to the via hole, thereby connecting and connecting the antenna to the PCB substrate in a convenient and simple manner,

Sixth, if the communication terminal performing close-range communication with the wireless communication module chip is tagged or brought close to the fusing sleeve, the core terminal information of the corresponding sleeve is displayed on the communication terminal, so that acquisition and management of the core line information can be performed remarkably and conveniently The present invention provides a smart managed fiber optic fusing sleeve assembly that is suitable for making an optical fiber fused sleeve assembly.

In order to achieve the above object, a smart managed optical fiber fusing sleeve assembly according to the present invention comprises: a tubular connection sleeve for extrapolating and insulating a connection portion of a core wire of an optical cable on one side and a core wire of an optical cable on the other side, A wireless communication module chip mounted on the inside of the sleeve and having a circuit pattern printed thereon, a wireless communication module chip mounted on the PCB substrate and storing the routing information of the optical cable, And an antenna provided inside the connection sleeve.

The smart management type optical fiber fusing sleeve assembly having the above-described configuration has the following effects.

First, by inserting a wireless communication module chip in which wire-out information is stored in a fusing sleeve used in a fiber-optic fusion splicing connection, and confirming the number information stored in the wireless communication module chip through the communication terminal, There is an effect that it can be easily and conveniently acquired.

Secondly, there is an effect that the pre-information is stored in the wireless communication module chip and the wireless communication module chip is inserted inside the fusion sleeve, so that it can be semi-permanently stored and managed without loss of the pre-information.

Third, the configuration of the wireless communication module chip storing the pre-number information is made of an inexpensive NFC chip (frequency: 13.56 MHz), thereby realizing preemptive information management at a low cost.

Fourth, by forming the antenna into a linear shape of a metallic material and inserting the antenna into the sleeve, it is possible to perform the role of the antenna while simultaneously performing the role of the frame supporting the sleeve and the optical fiber.

Fifth, a via hole is formed on a PCB substrate on which a wireless communication module chip is mounted, and a helical connection portion of the antenna is fixed to the via hole, thereby connecting and connecting the antenna to the PCB substrate easily and simply .

Sixth, if the communication terminal performing close-range communication with the wireless communication module chip is tagged or brought close to the fusing sleeve, the core terminal information of the corresponding sleeve is displayed on the communication terminal, so that acquisition and management of the core line information can be performed remarkably and conveniently There is an effect.

FIG. 1 is a view illustrating a use state of a smart management type optical fiber fusing sleeve assembly 100 according to an embodiment of the present invention.
2 is an exploded perspective view of a smart management type optical fiber fusing sleeve assembly according to an embodiment of the present invention.
3 is a combined view of Fig.
FIG. 4 is a structural view of a smart management type optical fiber fusing sleeve assembly 100 according to an embodiment of the present invention and an example of a use state with the communication terminal 200.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A smart management type optical fiber fusing sleeve assembly according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The term " smart management type " as used herein means that, if a communication terminal such as a smart phone is brought close to the smart management type optical fiber fusing sleeve assembly of the present invention, all the information about the core wire in the fusing sleeve can be immediately and conveniently checked And that it is named in the sense that it can acquire information using a smart phone.

As shown in the figure, a smart managed optical fiber fused sleeve assembly 100 according to an embodiment of the present invention includes an optical fiber 11 of a side of an optical cable 10 and a core wire 11 of an optical cable 10 of the other side. Like connection sleeve 110 for inserting and protecting the connection part of the connection sleeve 11 by inserting and inserting a connection part of the connection sleeve 11, a PCB substrate 120 inserted into the connection sleeve 110 and printed with a circuit pattern, A wireless communication module chip 130 mounted on the PCB substrate 120 and storing the number information of the optical cable and a wireless communication module chip 130 connected to the wireless communication module chip 130, And an antenna 140 provided in the antenna.

By incorporating the wireless communication module chip 130 in which the number information is stored in the sleeve 110 as described above, it is possible to easily and conveniently acquire the information on the line number without losing it permanently.

In the smart management type optical fiber fusing sleeve assembly 100 according to an exemplary embodiment of the present invention, the antenna 140 may include a connection portion (not shown) connected to the PCB module 120 so as to be able to communicate with the wireless communication module chip 130 And an antenna body 141 extending from the connection part 142 and formed in a straight line shape and the antenna body part 141 is formed in a straight line along the fusion sleeve 110, (110) and the core wire (11).

According to this structure, the antenna 110 can be supported without the need for a separate support frame by forming the antenna in a straight line.

In a smart managed optical fiber fusing sleeve assembly 100 according to an embodiment of the present invention, a via hole 121 formed in a pair on one side and the other side of the PCB substrate 120 and having a copper foil on its inner circumferential surface, And the end of the spiral connection part 142 is inserted into the via hole 121 and connected to the wireless communication module chip 130. The connection part 142 is formed in a spiral or saw tooth shape, And the like.

The circuit pattern of the antenna 140 and the PCB substrate 120 is connected when the helical connection portion 142 contacts the inner circumferential surface of the via hole 121. Thus, And can be connected to the communication module chip 130.

Therefore, the connection of the antenna can be performed simply, conveniently, and reliably.

In the smart management type optical fiber fusing sleeve assembly 100 according to the embodiment of the present invention, the wireless communication module chip 130 is composed of an NFC chip having a low frequency of 13.56 MHz.

In the smart management type optical fiber fusing sleeve assembly 100 according to the embodiment of the present invention, the line number information of the optical cable is related to the core number, the cutting angle of the core wire, the insertion loss, the fiber mode, And the information about the information processing apparatus.

The above-mentioned line number information is only an example, and it is needless to say that more line number information can be stored in accordance with the installation environment and conditions of the optical cable.

The optical fiber core line management system A using the smart managed fiber optic fiber fused sleeve assembly 100 according to an embodiment of the present invention includes the smart managed optical fiber fused sleeve assembly 100 and the communication terminal 200, .

The communication terminal 200 is a device for performing short-range communication with the wireless communication module chip 130, reading the core wire information stored in the wireless communication module chip 130, and displaying it on the screen of the communication terminal.

The communication terminal 200 may be a smart phone, a notebook computer, a tablet computer, or the like capable of storing and executing an application program.

The communication terminal 200 is provided with a wireless communication module (not shown) capable of performing short-range communication with the wireless communication module chip 130 and a wireless communication module And a control unit (not shown) for executing the application program.

Hereinafter, the operation of the smart management type optical fiber fusing sleeve assembly 100 according to an embodiment of the present invention will be described.

The wireless communication module chip 130 is mounted and the PCB 120 to which the antenna 140 is connected is inserted.

Then, the fusion sleeve 110, the PCB substrate 120, and the two core wires 11 are integrated by thermal fusion.

It is needless to say that the temperature at the time of the heat fusion bonding must be performed at a temperature that does not cause deformation or influence on the PCB substrate and the wireless communication module chip 130.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is self-evident to those who have.

Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

10: Optical cable 11: Core wire
100: Smart management type optical fiber fusing sleeve assembly according to one embodiment of the present invention
110: connecting sleeve
120: PCB substrate 121: Beer hole
130: wireless communication module chip 140: antenna
141: antenna body part 142: connection part
A: Fiber optic core line management system using a smart managed optical fiber fused sleeve assembly (100)
200: communication terminal

Claims (4)

A tubular connection sleeve 110 for extrapolating and insulating the connection portion between the core wire 11 of one optical cable 10 and the core wire 11 of the other optical cable 10,
A PCB substrate 120 inserted into the connection sleeve 110 and having a circuit pattern printed thereon,
A wireless communication module chip (130) mounted on the PCB substrate (120) and storing the number information of the optical cable,
And an antenna (140) connected to the wireless communication module chip (130) and provided inside the connection sleeve (110).
The method according to claim 1,
The antenna (140)
A connection part 142 connected to the PCB substrate 120 so as to be able to communicate with the wireless communication module chip 130,
And an antenna body 141 extending from the connection part 142 and formed in a linear shape,
Wherein the antenna body part 141 is linearly formed along the fusion sleeve 110 to function as a frame for supporting the fusing sleeve 110 and the core wire 11. The smart management type optical fiber fusing sleeve assembly .
The method of claim 2,
A pair of holes are formed on one side and the other side of the PCB substrate 120, and a via hole 121 having a copper foil is formed on an inner peripheral surface thereof,
Wherein the connection portion 142 is formed in a spiral shape and the end of the spiral connection portion 142 can be inserted into the via hole 121 to be connected to the wireless communication module chip 130. [ Sleeve assembly.
The method of claim 3,
The wireless communication module chip (130)
NFC chip. ≪ RTI ID = 0.0 > 11. < / RTI >

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