CN203287592U

CN203287592U - A novel double-faced main optical distribution frame

Info

Publication number: CN203287592U
Application number: CN2013203367719U
Authority: CN
Inventors: 粟国辉; 曾建明; 王志农; 杨先贵; 牟柳青; 罗严; 黄泽辉
Original assignee: Hunan Kangpu Communication Technology Co Ltd
Current assignee: Hunan Kangpu Communication Technology Co Ltd
Priority date: 2013-06-09
Filing date: 2013-06-09
Publication date: 2013-11-13
Anticipated expiration: 2023-06-09

Abstract

The utility model provides a novel double-faced main optical distribution frame. The main optical distribution frame comprises double faces. One surface is a welding region used for welding station-in optical cables and comprises an optical cable striping zone (1), a line-side fiber distribution zone (3), and line-side jumper zone (4). The optical cable striping zone (1) is arranged over the line-side fiber distribution zone (3) and is connected with the line-side fiber distribution zone (3). The line-side jumper zone (4) is arranged on the left sides of the optical cable striping zone (1) and the line-side fiber distribution zone (3). The other face is a terminal-forming region used for being connected with a tail fiber from a device and comprises a device-end tail fiber containing zone (2), a device-end line-side fiber distribution zone (5), and a light division installing zone (6). The light division installing zone (6) is arranged under the device-end line-side fiber distribution zone (5) and is connected with the device-end line-side fiber distribution zone (5). The device-end tail fiber containing zone (2) is arranged on the left sides of the device-end line-side fiber distribution zone (5) and the light division installing zone (6). The double-faced main optical distribution frame has a large capacity and a small size and resolves a problem of insufficient optical transmission machine rooms.

Description

A kind of novel double-faced optical fiber main distributing frame

Technical field

The utility model relates to the fibre distribution frame technical field, and particularly a kind of optical fiber for central machine room is two-sided melts, joins fine facility.

Background technology

Along with Fiber to the home (Fiber To The Home, developing rapidly abbreviation FTTH), in central office, the capacity of distributing frame is nowhere near, dilatation does not have again position, fibre distribution frame of every transformation (Optical Distribution Frame in machine room, be called for short ODF), just can save the position of an ODF frame for machine room, meet the needs of the development of FTTH.The distributing frame that existing market is used, major part is the single face distribution, and the jumping fiber between equipment and circuit, equipment and equipment must be by the chute of frame top, and construction management is very inconvenient.Two-sided support body of joining fibre, equipment tail optical fiber and equipment jumping fiber are at same end face, and two kinds of fibres are interlaced, will move with jumping fiber equipment is fine during plant maintenance, easily cause fault.

The utility model content

The technical matters that (one) will solve

The purpose of this utility model is to solve the inadequate problem in machine room locus, avoids the chute of jumping fiber by frame top between equipment and circuit, equipment and equipment, avoids equipment tail optical fiber and equipment jumping fiber at same end face, and two kinds of fibres are interlaced.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model proposes a kind of novel double-faced optical fiber main distributing frame, this distributing frame is two-sided:

One side be welding area, is used for welding Incoming optical cable, comprises that optical cable baring district 1, line side are joined finely to distinguish 3 and jumping fiber district, line side 4; Wherein, optical cable baring district 1 is positioned at line side joins and joins fine district 3 with line side above fine district 3 and is connected, and jumping fiber district, line side 4 is positioned at optical cable baring district 1 and line side and joins fibre and distinguish 3 left lateral sides;

One side, for becoming petiolarea, is used for connecting the tail optical fiber that equipment is come, and comprises that equipment end tail optical fiber accommodating area 2, equipment end are joined fine district 5 and light divides installing zone 6; Wherein, light divides installing zone 6 to be positioned at equipment end and joins below fine district 5 and join fine district 5 with equipment end and is connected, equipment end tail optical fiber accommodating area 2 be positioned at equipment end join fibre distinguish 5 and light divide installing zone 6 left lateral sides.

Line side is joined fine district 3 and is comprised 12 core fusion joining disks 7 and installing plate 8; 12 core fusion joining disks 7 are arranged in installing plate 8 with the drawer form.

Equipment end is joined fine district 5 and is comprised that anticlockwise bracket component 9,72 core SC terminal panels 10, the back side divides

fine support

11,12, six adapter installing plates 13 of nameplate cover, the screw 14 that presses, right rotation bracket component 15 and minute fine support 16;

Anticlockwise bracket component 9, the back side divide

fine support

11,12, six adapter installing plates 13 of nameplate cover, the screw 14 that presses, right rotation bracket component 15 all with 72 core SC terminal panels 10, to be connected with a minute fine support 16, anticlockwise bracket component 9, the back side divide fine support 11, right rotation bracket component 15 to be positioned at the back side of 72 core SC terminal panels 10, anticlockwise bracket component 9 is positioned at the left side at 72 core SC terminal panel 10 back sides, right rotation bracket component 15 is positioned at the right side at 72 core SC terminal panel 10 back sides, and the back side divides fine support 11 to be positioned at the upside at 72 core SC terminal panel 10 back sides;

nameplate cover 12, six adapter installing plates 13, press screw 14 and minute fine support 16 is positioned at the front of 72 core SC terminal panels 10, the screw 14 that presses respectively has one in 72 core SC terminal panel 10 upper left corners and the upper right corner, these two screws 14 that press are fixed on anticlockwise bracket component 9 and right rotation bracket component 15 at the back side of 72 core SC terminal panels 10, six adapter installing plates 13 are kept right in the middle of being positioned at 72 core SC terminal panels 10, nameplate cover 12 is positioned at the top of six adapter installing plates 13, divide fine support 16 be positioned at the below of six adapter installing plates 13 and with six adapter installing plates 13, be connected.

Light divides that installing zone 6 comprises anticlockwise bracket component 9, the screw 14 that presses, right rotation bracket component 15, light divide frame unit 22 and light to divide frame panel 23; Anticlockwise bracket component 9, the screw 14 that presses, right rotation bracket component 15 and light divide frame unit 22 to divide frame panel 23 to be connected with light respectively; Light divides frame unit 22 to be embedded in light and divides on frame panel 23; The screw 14 that presses divides frame panel 23 upper left corners and the upper right corner respectively to have one at light, these two screws 14 that press are fixed on light with anticlockwise bracket component 9 and right rotation bracket component 15 and divide the back side of frame panel 23, anticlockwise bracket component 9 is positioned at light and divides the left side at frame panel 23 back sides, and right rotation bracket component 15 is positioned at light and divides the right side at frame panel 23 back sides.

Light divides frame unit 22 to comprise 8 bit line rings 24, the fine plate 25 of holder and shunt frame riveting parts 26, and shunt frame riveting parts 26 comprises that two inserted sheet light splitting side plates 27, mirror are to inserted sheet light splitting lower plate 28 and inserted sheet light splitting lower plate 29; Ask fine plate 25 to be connected to inserted sheet light splitting lower plate 28 with mirror with 8 bit line rings 24 respectively; Inserted sheet light splitting lower plate 29 all is connected with two inserted sheet light splitting side plates 27 to inserted sheet light splitting lower plate 28 with mirror.

Anticlockwise bracket component 9 comprises rotating shaft 17, support 18, anticlockwise support 19 and touches seat 20; Anticlockwise support 19 touches seat 20 with rotating shaft 17, support 18 and magnetic respectively and is connected, magnetic touches seat 20 and is positioned at the top of anticlockwise support 19, support 18 and rotating shaft 17 are positioned at the below of anticlockwise support 19, rotating shaft 17 is positioned at the front of anticlockwise support 19 belows, and support 18 is positioned at the back of anticlockwise support 19 belows.

Right rotation bracket component 15 comprises rotating shaft 17, support 18, right rotation support 21 and touches seat 20; Right rotation support 21 touches seat 20 with rotating shaft 17, support 18 and magnetic respectively and is connected, magnetic touches seat 20 and is positioned at the top of right rotation support 21, support 18 and rotating shaft 17 are positioned at the below of right rotation support 21, rotating shaft 17 is positioned at the front of right rotation support 21 belows, and support 18 is positioned at the back of right rotation support 21 belows.

(3) beneficial effect

Place capacity of the present utility model is large, and volume is little, has solved the inadequate problem in light transmission room space; Can conveniently realize the welding of backbone optical cable, optical distribution cable has independently collecting position; Can realize welding area and the optical cable jumper connection of joining fine district in frame, and have and reasonably walk fine mode, product be walked fine reasonable, rational in infrastructure.

Description of drawings

Fig. 1 is main distribution frame for fiber welding area schematic diagram;

Fig. 2 is that main distribution frame for fiber becomes the petiolarea schematic diagram;

Fig. 3 is that fine district cell schematics is joined in line side;

Fig. 4 is 12 core fusion joining disk schematic diagram;

Fig. 5 is that equipment end is joined fine district cell schematics;

Fig. 6 is anticlockwise bracket component schematic diagram;

Fig. 7 is right rotation bracket component schematic diagram;

Fig. 8 is six adapter installing plate schematic diagram;

Fig. 9 is a minute fine support schematic diagram;

Figure 10 is that light divides the installing zone schematic diagram;

Figure 11 is light splitting frame cell schematics;

Figure 12 is shunt frame riveting parts schematic diagram;

Figure 13 is that inserted sheet light splitting lower plate or mirror are to inserted sheet light splitting lower plate schematic diagram.

In figure, 1 is the optical cable baring district; 2 is equipment end tail optical fiber accommodating area; 3 for joining fine district in line side; 4 is jumping fiber district, line side; 5 join fibre for equipment end distinguishes; 6 divide installing zone for light; 7 is 12 core fusion joining disks; 8 is installing plate; 9 are the anticlockwise bracket component; 10 is 72 core SC terminal panels; 11 for dividing fine support in the back side; 12 is the nameplate cover; 13 is six adapter installing plates; 14 are the screw that presses; 15 are the right rotation bracket component; 16 are a minute fine support; 17 are rotating shaft; 18 is support; 19 are the anticlockwise support; 20 touch seat for magnetic; 21 are the right rotation support; 22 divide the frame unit for light; 23 divide frame panel for light; 24 is 8 bit line rings; 25 are the fine plate of holder; 26 is shunt frame riveting parts; 27 is inserted sheet light splitting side plate; 28 is that mirror is to inserted sheet light splitting lower plate; 29 is inserted sheet light splitting lower plate.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail.Following examples are used for explanation the utility model, but can not be used for limiting scope of the present utility model.

in description of the present utility model, need to prove, term " " center ", " vertically ", " laterally ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", orientation or the position relationship of indications such as " outward " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, rather than device or the element of indication or hint indication must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, need to prove, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be done broad understanding, for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be mechanical connection, can be also to be electrically connected to; Can be directly to be connected, also can indirectly be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can concrete condition understand the concrete meaning of above-mentioned term in the utility model.In addition, in description of the present utility model, except as otherwise noted, the implication of " a plurality of " is two or more.

The utility model is a kind of novel double-faced optical fiber main distributing frame, and product is two-sided:

As shown in Figure 1, one side be welding area, is used for welding Incoming optical cable, comprises that optical cable baring district 1, line side are joined finely to distinguish 3 and jumping fiber district, line side 4; Wherein, optical cable baring district 1 is positioned at line side joins and joins fine district 3 with line side above fine district 3 and is connected, and jumping fiber district, line side 4 is positioned at optical cable baring district 1 and line side and joins fibre and distinguish 3 left lateral sides;

As shown in Figure 2, one side, for becoming petiolarea, is used for connecting the tail optical fiber that equipment is come, and comprises that equipment end tail optical fiber accommodating area 2, equipment end are joined fine district 5 and light divides installing zone 6; Wherein, light divides installing zone 6 to be positioned at equipment end and joins below fine district 5 and join fine district 5 with equipment end and is connected, equipment end tail optical fiber accommodating area 2 be positioned at equipment end join fibre distinguish 5 and light divide installing zone 6 left lateral sides.

As shown in Figure 3, line side is joined fine district 3 and is comprised 12 core fusion joining disk 7(such as Fig. 4) and installing plate 8; 12 core fusion joining disks 7 are arranged in installing plate 8 with the drawer form.

As shown in Figure 5, equipment end is joined fine district 5 and is comprised anticlockwise bracket component 9(such as Fig. 6), 72 core SC terminal panels 10, the back side divide

fine support

11,12, six adapter installing plate 13(of nameplate cover such as Fig. 8), the screw 14 that presses, right rotation bracket component 15(such as Fig. 7) and divide fine support 16(such as Fig. 9);

Anticlockwise bracket component 9, the back side divide

fine support

nameplate cover 12, six adapter installing plates 13, press screw 14 and minute fine support 16 is positioned at the front of 72 core SC terminal panels 10, the screw 14 that presses respectively has one in 72 core SC terminal panel 10 upper left corners and the upper right corner, these two screws 14 that press are fixed on anticlockwise bracket component 9 and right rotation bracket component 15 at the back side of 72 core SC terminal panels 10, six adapter installing plates 13 are kept right in the middle of being positioned at 72 core SC terminal panels 10, nameplate cover 12 is positioned at the top of six adapter installing plates 13, divide fine support 16 be positioned at below six adapter installing plates 13 and with six adapter installing plates 13, be connected.

As shown in Figure 6, anticlockwise bracket component 9 comprises rotating shaft 17, support 18, anticlockwise support 19 and touches seat 20; Anticlockwise support 19 touches seat 20 with rotating shaft 17, support 18 and magnetic respectively and is connected, magnetic touches seat 20 and is positioned at the top of anticlockwise support 19, support 18 and rotating shaft 17 are positioned at the below of anticlockwise support 19, rotating shaft 17 is positioned at the front of anticlockwise support 19 belows, and support 18 is positioned at the back of anticlockwise support 19 belows.

As shown in Figure 7, right rotation bracket component 15 comprises rotating shaft 17, support 18, right rotation support 21 and touches seat 20; Right rotation support 21 touches seat 20 with rotating shaft 17, support 18 and magnetic respectively and is connected, magnetic touches seat 20 and is positioned at the top of right rotation support 21, support 18 and rotating shaft 17 are positioned at the below of right rotation support 21, rotating shaft 17 is positioned at the front of right rotation support 21 belows, and support 18 is positioned at the back of right rotation support 21 belows.

As shown in figure 10, light divides that installing zone 6 comprises anticlockwise bracket component 9, the screw 14 that presses, right rotation bracket component 15, light divide frame unit 22(such as Figure 11) and light divide frame panel 23; Anticlockwise bracket component 9, the screw 14 that presses, right rotation bracket component 15 and light divide frame unit 22 to divide frame panel 23 to be connected with light respectively; Light divides frame unit 22 to be embedded in light and divides on frame panel 23; The screw 14 that presses divides frame panel 23 upper left corners and the upper right corner respectively to have one at light, these two screws 14 that press are fixed on light with anticlockwise bracket component 9 and right rotation bracket component 15 and divide the back side of frame panel 23, anticlockwise bracket component 9 is positioned at light and divides the left side at frame panel 23 back sides, and right rotation bracket component 15 is positioned at light and divides the right side at frame panel 23 back sides.

As shown in figure 11, light divides frame unit 22 to comprise 8 bit line rings 24, the fine plate 25 of holder and shunt frame riveting parts 26(such as Figure 12), shunt frame riveting parts 26 comprises that two inserted sheet light splitting side plates 27, mirror are to inserted sheet light splitting lower plate 28(such as Figure 13) and inserted sheet light splitting lower plate 29; Ask fine plate 25 to be connected to inserted sheet light splitting lower plate 28 with mirror with 8 bit line rings 24 respectively; Inserted sheet light splitting lower plate 29 all is connected with two inserted sheet light splitting side plates 27 to inserted sheet light splitting lower plate 28 with mirror.

Embodiment of the present utility model provides for example with for the purpose of describing, and is not exhaustively or with the utility model to be limited to disclosed form.Many modifications and variations are apparent for the ordinary skill in the art.Selecting and describing embodiment is for better explanation principle of the present utility model and practical application, thereby and those of ordinary skill in the art can understand the utility model design and be suitable for the various embodiment with various modifications of special-purpose.

Claims

1. a novel double-faced optical fiber main distributing frame, is characterized in that, this distributing frame is two-sided:

One side be welding area, is used for welding Incoming optical cable, comprises that optical cable baring district (1), line side join fine (3) and the jumping fiber district, line side (4) of distinguishing; Wherein, optical cable baring district (1) is positioned at line side and joins and join fine district (3) with line side above fine district (3) and is connected, and jumping fiber district, line side (4) is positioned at optical cable baring district (1) and line side and joins fibre and distinguish (3) left lateral sides;

One side, for becoming petiolarea, is used for connecting the tail optical fiber that equipment is come, and comprises that equipment end tail optical fiber accommodating area (2), equipment end are joined fine district (5) and light divides installing zone (6); Wherein, light divides installing zone (6) to be positioned at equipment end and joins below fine district (5) and join fine district (5) with equipment end and is connected, and equipment end tail optical fiber accommodating area (2) is positioned at equipment end and joins that fibre is distinguished (5) and light divides installing zone (6) left lateral sides.

2. double-faced optical fiber main distributing frame according to claim 1, is characterized in that, described line side is joined fine district (3) and comprised 12 core fusion joining disks (7) and installing plate (8); 12 core fusion joining disks (7) are arranged in installing plate (8) with the drawer form.

3. double-faced optical fiber main distributing frame according to claim 1, it is characterized in that, described equipment end is joined fine district (5) and is comprised that anticlockwise bracket component (9), 72 core SC terminal panels (10), the back side divides fine support (11), nameplate cover (12), six adapter installing plates (13), the screw that presses (14), right rotation bracket component (15) and divide fine support (16);

anticlockwise bracket component (9), fine support (11) is divided at the back side, nameplate cover (12), six adapter installing plates (13), screw (14) presses, right rotation bracket component (15) all is connected with 72 core SC terminal panels (10) with a minute fine support (16), anticlockwise bracket component (9), fine support (11) is divided at the back side, right rotation bracket component (15) is positioned at the back side of 72 core SC terminal panels (10), anticlockwise bracket component (9) is positioned at the left side at 72 core SC terminal panel (10) back sides, the back side divides fine support (11) to be positioned at the upside at 72 core SC terminal panel (10) back sides, right rotation bracket component (15) is positioned at the right side at 72 core SC terminal panel (10) back sides,

nameplate cover (12), six adapter installing plates (13), press screw (14) and minute fine support (16) is positioned at the front of 72 core SC terminal panels (10), the screw (14) that presses respectively has one in 72 core SC terminal panel (10) upper left corners and the upper right corner, these two screws that press (14) are fixed on anticlockwise bracket component (9) and right rotation bracket component (15) at the back side of 72 core SC terminal panels (10), six adapter installing plates (13) are kept right in the middle of being positioned at 72 core SC terminal panels (10), nameplate cover (12) is positioned at the top of six adapter installing plates (13), divide fine support (16) be positioned at six adapter installing plates (13) below and with six adapter installing plates (13), be connected.

4. double-faced optical fiber main distributing frame according to claim 1, it is characterized in that, described light divides installing zone (6) to comprise that anticlockwise bracket component (9), the screw that presses (14), right rotation bracket component (15), light divide frame unit (22) and light to divide frame panel (23); Anticlockwise bracket component (9), the screw that presses (14), right rotation bracket component (15) and light divide frame unit (22) to divide frame panel (23) to be connected with light respectively; The screw (14) that presses divides frame panel (23) upper left corner and the upper right corner respectively to have one at light, these two screws that press (14) are fixed on light with anticlockwise bracket component (9) and right rotation bracket component (15) and divide the back side of frame panel (23), anticlockwise bracket component (9) is positioned at light and divides the left side at frame panel (23) back side, and right rotation bracket component (15) is positioned at light and divides the right side at frame panel (23) back side; Light divides frame unit (22) to be embedded in light and divides on frame panel (23).

5. double-faced optical fiber main distributing frame according to claim 4, it is characterized in that, described light divides frame unit (22) to comprise 8 bit line rings (24), holds in the palm fine plate (25) and shunt frame riveting parts (26), and shunt frame riveting parts (26) comprises that light splitting side plate (27), mirror are to inserted sheet light splitting lower plate (28) and (29) two inserted sheets of inserted sheet light splitting lower plate; Ask fine plate (25) to be connected to inserted sheet light splitting lower plate (28) with mirror with 8 bit line rings (24) respectively; Inserted sheet light splitting lower plate (29) all is connected with two inserted sheet light splitting side plates (27) to inserted sheet light splitting lower plate (28) with mirror.

6. according to claim 3,4 or 5 described double-faced optical fiber main distributing frames, is characterized in that, described anticlockwise bracket component (9) comprises rotating shaft (17), support (18), anticlockwise support (19) and touches seat (20); Anticlockwise support (19) touches seat (20) with rotating shaft (17), support (18) and magnetic respectively and is connected, magnetic touches seat (20) and is positioned at the top of anticlockwise support (19), support (18) and rotating shaft (17) are positioned at the below of anticlockwise support (19), rotating shaft (17) is positioned at the front of anticlockwise support (19) below, and support (18) is positioned at the back of anticlockwise support (19) below.

7. according to claim 3,4 or 5 described double-faced optical fiber main distributing frames, is characterized in that, described right rotation bracket component (15) comprises rotating shaft (17), support (18), right rotation support (21) and touches seat (20); Right rotation support (21) touches seat (20) with rotating shaft (17), support (18) and magnetic respectively and is connected, magnetic touches seat (20) and is positioned at the top of right rotation support (21), support (18) and rotating shaft (17) are positioned at the below of right rotation support (21), rotating shaft (17) is positioned at the front of right rotation support (21) below, and support (18) is positioned at the back of right rotation support (21) below.