CN210005746U - intelligent equipment box with box optical cable reeling function - Google Patents

Abstract

The utility model relates to an communication equipment technical field especially relates to seed case 1 optical cable coils intelligent device case, including case 2, the box, case inboard is equipped with optical fiber splice box, several draw-in groove, every 0 draw-in groove all is located optical fiber splice box below, several draw-in groove evenly arranges and encloses into the circumference, the box includes the curb plate, the curb plate is connected with case , case is close to the bottom of curb plate and is equipped with buckle, the curb plate bottom is equipped with the threading pipe, carry out optical cable coils through the draw-in groove that sets up the circumference form on case , can make the optical cable leave length, for later stage circuit maintenance and maintenance facilitate, through set up the buckle bottom case , the bottom of case curb plate sets up the threading pipe, when fixed optical cable and optic fibre, can guarantee the active nature of optical cable and optic fibre, guarantee simultaneously when mechanical switch that relapse many times, optical cable and optic fibre can not have the phenomenon of buckling or breaking apart, guaranteed communication transmission.

Description

intelligent equipment box with box optical cable reeling function

Technical Field

The utility model relates to an kind of communication equipment technical field especially relates to seed case optical cable coiled intelligent equipment case.

Background

The optical fiber transmission has the advantages of small volume, long service life, low price, high bandwidth, large communication quantity, small attenuation and long transmission distance, so that the optical fiber transmission becomes common transmission tools in the current communication.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligent equipment case that seed case optical cable coiled and finished in order to solve the problem that the improper transmission loss that leads to when leading to at present optical cable coiled and big and the switch box leads to the optical cable to break fine because of improper operation.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

A smart equipment box with a box for optical cable coiling comprises a box and a box body, wherein an optical fiber fusion box and a plurality of clamping grooves are arranged on the inner side of the box , each clamping groove is located below the optical fiber fusion box, the clamping grooves are evenly distributed and surround into a circle, the box body comprises a side plate, the side plate is connected with a box , a buckle is arranged at the bottom of the box close to the side plate, and a threading pipe is arranged at the bottom of the side plate.

, a through hole is arranged at the bottom end of the box body, and the optical cable enters the threading pipe from the outside through the through hole.

And , the optical cable sequentially passes through the threading pipe and the buckle to enter a lower end clamping groove, and enters the optical fiber fusion box after clockwise winding along the clamping groove arranged on the circumference, and the optical fiber is led out.

, a second catch is provided on the box near the slot of the side plate, and the optical fiber enters the catch through the second catch.

, an equipment light port is arranged in the box body, and the optical fiber enters the equipment light port through a -th buckle and a threading pipe in sequence.

the optical cable is fixed in the slot by the bolt type band and the optical fiber is fixed in the box by the bolt type band.

, the box is hingedly connected to the side panels.

step, a rain-proof shed is arranged at the top end of the box body.

Compared with the prior art, the utility model discloses following beneficial effect has:

, arranging circumferential clamping grooves on the box to perform cable reeling, so that fixed length of the cable can be reserved, and convenience is brought to later line maintenance.

Second, through set up buckle, box curb plate bottom in case bottom and set up the threading pipe, when fixed optical cable and optic fibre, can guarantee the mobility of optical cable and optic fibre, when guaranteeing simultaneously through mechanical switch that relapse many times, optical cable and optic fibre can not have the phenomenon of buckling or disconnected fine, have guaranteed communication transmission.

And thirdly, the optical cable is coiled on the box , the thickness of the clamping groove is small, and the internal space of the box body occupied by the optical cable is small, so that the space can be saved.

Fourthly, the whole diameter of the optical cable coiling area is far larger than the diameter of 6CM of the critical value of the bending loss of the optical cable, so the transmission loss of the optical cable is very low.

And fifthly, the optical cable is coiled on the box and is separated from the electric cable or the electric wire in the equipment box, so that the damage to the optical cable caused by maintenance personnel in the operation process can be effectively prevented.

Drawings

Fig. 1 is a structure diagram of an intelligent equipment box for optical cable reeling of the box according to the present invention;

FIG. 2 is a left side view of the slot of the present invention;

fig. 3 is a top view of the slot of the present invention;

fig. 4 is a bottom view of the slot of the present invention.

In the figure, 102-through hole, 103-threading pipe, 104- th buckle, 105-clamping groove, 106-optical fiber fusion box, 107-box , 108-box body, 109-optical fiber, 110-equipment light port, 111-side plate, 112-second buckle.

Detailed Description

The technical solution of the present invention is described in steps by the following specific examples.

As shown in fig. 1-4, a box cable reeling intelligent equipment box includes a box 107 and a box 108, an optical fiber splice box 106 and a plurality of slots 105 are provided inside the box 107, each slot 105 is located below the optical fiber splice box 106, the slots 105 are uniformly arranged and surround a circumference, the box 108 includes a side plate 111, the side plate 111 is connected with the box 107, a th buckle 104 is provided at the bottom of the box 107 near the side plate 111, a threading pipe 103 is provided at the bottom of the side plate 111, the cable includes a cable core, a reinforcing steel wire, a filler and a sheath, the cable in this embodiment is used as a transmission medium for communicating the box with the outside, and an uplink optical port of the equipment is linked.

In the embodiment, the optical cable is coiled on the circumferential clamping groove 105, so that the optical cable can be kept for a fixed length, and convenience is provided for later line maintenance and maintenance.

The bottom end of the box body 108 is provided with a through hole 102, the optical cable enters the threading pipe 103 from the outside through the through hole 102, then enters the lower end clamping groove through the th buckle 104, winds clockwise around the clamping groove 105 arranged along the circumference, enters the optical fiber fusion box 106, and leads out the optical fiber 109, wherein the optical cable is led into the optical fiber fusion box 106 from the clamping groove far away from the end of the side plate 111 .

The box 107 is also provided with a second buckle 112 near the side plate 111, the optical fiber 109 enters the th buckle 104 through the second buckle 112, the box 108 is provided with an equipment light port 110, the optical fiber 109 enters the equipment light port 110 through the th buckle 104 and the threading tube 103 in sequence, the threading tube 103 fixes the optical fiber 109, the mobility of the optical fiber 109 can be ensured, the optical fiber 109 cannot be bent or broken through the repeated mechanical switch , and the communication transmission is ensured.

The optical cable and the optical fiber coil are integrated in a specific route that the optical cable enters a box body 108 through a through hole 102 in the bottom end of the box body 108, the optical cable is fixed with a side line in the bottom of the box body 108 through a binding belt, the optical cable passes through a threading pipe 103 in the bottom of a side plate 111, then passes through a buckle 104 on a box 107 and enters a clamp groove 105 which is pre-designed on the periphery of a box , the optical cable is wound clockwise along the clamp groove 105 according to the indication of an arrow in the whole area of the optical cable coil, the optical cable is wound along the clamp groove 105 because the optical cable is internally provided with a reinforcing steel wire, the optical cable cannot fall out from the clamp groove 105 during winding, after the optical cable with a proper length is reserved, the optical cable is pulled to an optical fiber fusion splice box 106 above the box through the clamp groove far away from the end of the side plate 111 , the optical cable and optical fiber fusion splice of the optical fiber 109 are led out of the optical fiber 109 in the optical fiber fusion box 106, the optical fiber 109 passes through a second buckle 112 which is adhered to the clamp groove.

To prevent the cable from falling out of the slot 105, the cable is secured in the slot 105 by a latch-type tie in this embodiment. To avoid the fibers 109 within the housing 108 from falling out, the fibers 109 in this embodiment are secured within the housing 108 by a bayonet-style cable tie.

Besides, the box 107 is connected with the side plate 111 in a hinged mode, and a rain-proof shed is arranged at the top end of the box body 108 and can shield part of rainwater.

In this embodiment, the optical cable that remains fixed length through the optical cable dish between the optical cable to the optical fiber splice box is as reserve, guarantees the convenience of later maintenance and maintenance in the aspect of , guarantees simultaneously that the switch box can not cause the harm of optical cable and optic fibre 109, and the aspect of is coiled whole case and can be practiced thrift more spaces in addition, can add more equipment in the box.

The embodiments of the present invention have been described in detail, and those skilled in the art can easily understand that there are various changes in the embodiments according to the idea of the present invention, and such changes should be considered as the protection scope of the present invention.

Claims (8)

1. Intelligent equipment box that case optical cable coiled whole, including case (107), box (108), its characterized in that:

   the inner side of the box (107) is provided with an optical fiber fusion box (106) and a plurality of clamping grooves (105), each clamping groove (105) is positioned below the optical fiber fusion box (106), and the plurality of clamping grooves (105) are uniformly arranged and enclose a circumference shape;

   the box body (108) comprises a side plate (111), and the side plate (111) is connected with the box (107);

   the bottom of the box (107) close to the side plate (111) is provided with a buckle (104), and the bottom of the side plate (111) is provided with a threading pipe (103).
2. 2. The intelligent equipment box for optical cable coiling of box as claimed in claim 1, wherein the bottom of the box body (108) is provided with a through hole (102), and the optical cable enters the threading tube (103) from the outside through the through hole (102).
3. 3. The box optical cable reeling intelligent equipment box of claim 2, wherein the optical cable sequentially passes through the threading tube (103) and the th buckle (104) to enter the lower end slot, and then passes through the optical fiber fusion splice box (106) after being wound clockwise along the circumferentially arranged slots (105), and the optical fiber (109) is led out.
4. 4. The box optical cable reeling smart device box of claim 3, wherein a second buckle (112) is further disposed at a position of the box (107) near the slot of the side plate (111), and the optical fiber (109) enters the th buckle (104) through the second buckle (112).
5. 5. The intelligent equipment box for optical cable coiling of the box as claimed in claim 1, wherein an equipment light port (110) is provided in the box body (108), and the optical fiber (109) enters the equipment light port (110) through a th buckle (104) and a threading tube (103) in sequence.
6. 6. The cabinet cable tray intelligent equipment cabinet of claim 1, wherein the cables are secured in the slots (105) by means of a latch-type tie, and the optical fibers (109) are secured in the cabinet (108) by means of a latch-type tie.
7. 7. The box cable tray intelligent equipment box of claim 1, wherein the box (107) is connected with the side panels (111) by a hinge.
8. 8. The intelligent equipment box for optical cable tray of box according to claim 6, wherein a rain-proof shelter is arranged on the top of the box body (108).

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