KR101027526B1 - Fiber distribution panel in building for superhigh speed information communication - Google Patents

Abstract

PURPOSE: A light distributing box for a super high speed information communication building is provided to easily couple and separate optical communication cables by one process. CONSTITUTION: An insertion hole(22) is formed along the gap between an optical adaptor and a circumference on a frontal panel(20). A hook(31) is inserted into the insertion hole along with an opened circumference. An elastic piece(33) is fixed to the other external side of a cable protection box(30) when an optical cable(3) of an optical jumper cord(2) installed in the optical adaptor in the vertical direction to a penetration hole(32) is wound.

Description

FIBER DISTRIBUTION PANEL IN BUILDING FOR SUPERHIGH SPEED INFORMATION COMMUNICATION}

The present invention relates to an optical distribution box for ultra-high speed information and communication buildings, and more particularly to an optical distribution box for ultra-high speed information and communication buildings for easy assembly and disassembly and a plurality of optical communication line distributions.

In general, optical communication is a communication method that transmits and receives information by using total reflection of laser light through a double-glass optical fiber, and compared to electric communication, there is no interference by external electromagnetic waves and it is difficult to eavesdropping. In recent years, FTTH (Fiber To The Home) networks have been deployed to provide fiber to each home to provide high-speed communication services to the home.

In order to construct such an FTTH network, the number of optical cables is increased, and in particular, a communication room of various large buildings must be provided with an optical distribution box for distributing circuits of optical cables, but in the case of a conventional optical distribution box, it is not easy to manufacture or install the optical distribution box. There is a problem, or the connection state of the line is unstable and the maintenance is difficult due to causes such as twisting between optical cables.

The present invention has been made to solve the above problems of the prior art, it is easy to assemble and dismantle, but to provide a high-speed information communication building optical distribution box for a plurality of optical communication line distribution is made collectively. have.

형 홈이 형성되어 수평방향으로 배치되는 사각막대와, 상기 ㄷ자형 홈에 상하부가 끼움되고 ㄷ자형 홈이 형성된 사각막대 부분에 형성된 제1 통공과 연통되는 제2 통공이 형성된 지지막대와, 상기

형 홈에 상하부가 끼움되는 형상을 갖는 분할막대와, 양단에 제1 및 제2 통공으로 관통된 다음 외력에 의해 구부려져 상기 사각막대 및 지지막대와 결합되는 삽입편이 구비된 연결막대로 이루어져, 육면체 형상의 프레임을 형성하는 프레임본체와; 복수개의 광어댑터가 행렬형태로 배치되고, 상기 지지막대 및 분할막대가 하부에 배치되는 사각막대에 끼움된 상태에서 지지막대 및 분할막대 각각에 대향 형성된 공간에 양단이 슬라이딩 방식에 따라 수직하게 삽입되는 둘레부를 가지며, 상기 광어댑터 및 둘레부 사이를 따라 끼움통공이 형성된 전방패널과; 일측면이 개방된 박스형상으로 개방된 둘레를 따라서 상기 끼움통공에 착탈가능하게 삽입되는 후크가 구비되고, 타측면에 광어댑터 위치에 대응하여 행렬형태로 관통공이 형성되며, 타측 외면에 관통공 상하방향으로 상기 광어댑터에 설치되는 광점퍼코드의 광케이블이 권회된 상태에서 고정되도록 하는 탄성편이 구비된 케이블보호박스;를 포함하여 구성되는 것을 특징으로 한다.
In order to achieve the above object, the present invention, at least one so that the c-shaped grooves are formed opposite to each other along the inner longitudinal direction and spaced apart a predetermined distance between the two c-shaped grooves

A support bar having a rectangular bar having a groove formed therein and arranged in a horizontal direction, a support bar having a second hole communicating with a first hole formed in a rectangular bar portion having an upper and lower portions fitted into the C-shaped groove and having a C-shaped groove formed therein;

It consists of a split bar having a shape in which the upper and lower parts are fitted into the groove, and a connecting rod provided with first and second through holes at both ends and then bent by external force and inserted into the square bar and the support bar to be combined with each other. A frame body forming a frame of a shape; A plurality of optical adapters are arranged in a matrix form, and both ends of the optical adapters are vertically inserted in the spaces formed opposite to the support bars and the split bars in a state in which the support bars and the split bars are fitted to the rectangular bars disposed below. A front panel having a periphery and having a through hole formed between the optical adapter and the periphery; A hook is provided to be detachably inserted into the fitting hole along a circumference opening in a box shape in which one side is opened, and a through hole is formed in a matrix form on the other side corresponding to the position of the optical adapter, and the upper and lower through holes are formed on the other outer surface. And a cable protection box provided with an elastic piece to fix the optical cable of the optical jumper cord installed on the optical adapter in a wound direction.

In addition, the projecting pieces which are penetrated by a third through hole formed opposite to the connecting rods spaced apart by a predetermined interval up and down by the square bar bars and then bent and fixed by an external force are provided at both ends, and vertically formed with hook holes in the longitudinal direction. A bar, a rubber band having a through-hole penetrated one-to-one, and hooks installed at both ends of the rubber band and hooks installed in the hanging holes are further installed to prevent sagging of the optical cable.

As described above, the optical distribution box for the ultra-high-speed information and communication building according to the present invention can be detachably installed in a prefabricated frame body according to the sliding method by mounting the front panel in the prefabricated frame body, and the overall assembly and disassembly are easy. In addition, each of the plurality of optical cables can be arranged in a batch by a cable protection box or a sag prevention panel to facilitate the distribution and maintenance of optical communication lines.

1 is a perspective view showing a light distribution box for a high-speed information communication building according to the present invention.
Figure 2 is an exploded perspective view showing a light distribution box for a high-speed information communication building according to the present invention.
3 is a view illustrating a coupling structure of a front panel and a cable protection box of an optical distribution box for an ultra high-speed information communication building according to the present invention;

Hereinafter, with reference to the drawings will be described the optical distribution box for the ultra-high speed information communication building according to the present invention.

1 and 2 is a view showing a light distribution box for a high-speed information communication building according to the present invention.

In the optical distribution box for the ultra-high-speed information communication building according to the present invention, a frame main body 10 and a plurality of optical adapters 1, which form a hexahedral-shaped frame, are arranged in a matrix form and are slid to the frame main body 10. The front panel 20 is inserted and installed vertically in accordance with the front panel 20, the one side is opened in a box shape, detachably coupled to the front panel 20 and penetrates in a matrix form corresponding to the position of the optical adapter 1 on the other side. Cable protection box 30 is provided with an elastic piece 33 is formed so that the ball 32 is formed and the optical cable (3) of the optical jumper cord (2) installed on the optical adapter (1) on the other outer surface is wound It is configured to include).

형 홈(11-2)이 형성되어 수평방향으로 배치되는 사각막대(11)와, ㄷ자형 홈(11-1)에 상하부가 끼움되고 ㄷ자형 홈(11-1)이 형성된 사각막대 부분에 구비되는 제1 통공(11-3)에 연통되는 제2 통공(12-1)이 형성된 지지막대(12)와,

형 홈에 상하부가 끼움되는 형상을 갖는 분할막대(13)와, 양단에 제1 및 제2 통공(11-3, 12-1)으로 관통된 다음 외력에 의해 구부려져 사각막대(11) 및 지지막대(12)와 결합되는 삽입편(14-1)이 구비된 연결막대(14)로 이루어져, 육면체 형상의 프레임을 형성하게 된다.
The frame body 10 has at least one so that the c-shaped grooves 11-1 are oppositely formed at both ends along the inner longitudinal direction and are spaced at a predetermined interval between the two c-shaped grooves 11-1.

Square bar 11 is formed in the horizontal bar 11 is formed in the horizontal direction, the upper and lower portions are fitted in the c-shaped groove (11-1) provided in the rectangular bar portion formed with the c-shaped groove (11-1) A support rod 12 having a second through hole 12-1 communicating with the first through hole 11-3, and

The split bar 13 having a shape in which the upper and lower parts are fitted into the groove, and the first and second through holes 11-3 and 12-1 are penetrated at both ends, and then bent by an external force, so that the square bar 11 is supported. It consists of a connecting rod 14 having an insertion piece 14-1 coupled to the rod 12, thereby forming a hexahedral frame.

According to the frame body 10 as described above, unlike the conventional bolting coupling or welding to form a hexagonal frame to form a square bar 11, the support bar 12, the partition bar 13 And the connecting rod 14 can be easily produced directly in the field and is very convenient to disassemble.

The front panel 20 has a plurality of optical adapters 1 arranged in a matrix form, and a supporting rod (with a supporting rod 12 and a split rod 13 fitted to a rectangular rod 11 disposed below). 12 and a circumferential portion 21 inserted in the space opposite to each of the splitter rods 13 in a sliding manner, and fitted along the space between the optical adapter 1 and the circumferential portion 22. ) Is formed.

Accordingly, the front panel 20 is detachably inserted or separated between the support rod 12 and the splitter rod 13 of the frame body 10 having a hexahedron shape, and the optical adapter 1 ) Are arranged together in a batch form so that the positions of the various optical cables 3 together with the cable protection box 30 described in detail below will not interfere.

Referring to FIG. 3, the cable protection box 30 has a hook 31 detachably inserted into a fitting hole 22 of the front panel 20 along a circumference of an open side of a box shape. The optical jumper cord is provided on the other side, and the through hole 32 is formed in a matrix form corresponding to the position of the optical adapter 1, and the optical jumper cord is installed on the optical adapter 1 in the up and down direction of the through hole 32 on the other outer surface ( The optical cable 3 of 2) has a structure provided with an elastic piece 33 to be fixed in the wound state.

According to the cable protection box 30 described, the optical jumper cord 2 which can be detachably coupled to the fitting hole 22 of the front panel 20 and which is addressed to the optical adapter 1 and As the through-holes 32 are formed in one-to-one correspondence with each branched optical fiber of the optical cable 3 as shown in the drawing, the optical fibers are not twisted with each other, and the extra optical fibers are wound around the elastic piece 33 a plurality of times. It can be fixed in place so that the overall cable wiring can be neatly arranged.

On the other hand, the protruding piece 15 which is penetrated by the external force and penetrated by the third through hole 14-2 formed to face the connecting rod 14 spaced apart by a predetermined interval up and down by the square rod 11 is fixed. -1) is provided at both ends, the vertical bar 15 having a locking hole 15-2 in the longitudinal direction, and the rubber band 41 is formed with a through hole 41-1 through which the optical cable 3 penetrates one-to-one. And the rubber band 41 is provided on both ends of the hook 42 is installed in the engaging hole (15-2) to prevent the deflection of the optical cable (3) can be further installed, wherein The vertical bar 15 is for installing the deflection prevention panel 40, and the deflection prevention panel 40 is vertically disposed through the through holes 41-1 corresponding to the optical cable 3 made of a single optical fiber in one-to-one correspondence. To prevent entanglement of several optical cables (3) arranged from side to side and visually So as to have a shape and disposed so as to easily place the subsequent optical fiber inspection and expansion.

Claims (2)

One or more c-shaped grooves 11-1 are formed opposite to each other along the inner longitudinal direction and spaced apart from each other by a predetermined distance between the two c-shaped grooves 11-1.

A rectangular bar 11 is formed in the horizontal bar 11 is formed in the horizontal direction, and the upper and lower portions are fitted in the c-shaped groove 11-1, the c-shaped groove 11-1 is formed in the square bar portion A support rod 12 having a second through hole 12-1 communicating with the first through hole 11-3 provided therein;

Split bar 13 having a shape in which the upper and lower parts are fitted into the groove, and the first and second through holes (11-3, 12-1) through both ends and then bent by an external force to the square bar (11) and A frame body (10) formed of a connecting rod (14) having an insertion piece (14-1) coupled to the supporting rod (12) to form a hexahedral frame;
A plurality of optical adapters 1 are arranged in a matrix form, and the supporting rod 12 and the splitting rod are formed in a state where the supporting rod 12 and the splitter rod 13 are fitted to the square rod 11 disposed below. 13) a front panel having a circumferential portion 21 inserted at both ends vertically according to a sliding method in a space formed opposite to each other, and having a fitting hole 22 formed between the optical adapter 1 and the circumferential portion 21; 20;
A hook 31 is detachably inserted into the fitting hole 22 along a circumference opening in a box shape in which one side is opened, and a through hole in a matrix form corresponding to the position of the optical adapter 1 on the other side. An elastic piece 33 is formed, and the optical cable 3 of the optical jumper cord 2 installed in the optical adapter 1 in the up and down direction of the through hole 32 is formed in the wound state on the other outer surface thereof. ) Is provided with a cable protection box 30; optical distribution box for ultra-high-speed information and communication buildings, characterized in that comprises a. The method according to claim 1,
Protruding piece 15-penetrated by a third through-hole 14-2 formed to face the connecting rod 14 arranged to be spaced up and down spaced apart by the square bar 11, and then bent and fixed by an external force. 1) are provided at both ends, the vertical bar 15 having a locking hole 15-2 in the longitudinal direction, and the rubber band 41 formed with a through hole 41-1 through which the optical cable 3 penetrates one-to-one. And a hook 42 installed at both ends of the rubber band 41 to be installed at the locking hole 15-2 to prevent the deflection of the optical cable 3 from being sagging. Light distribution box for high speed telecommunication building.

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