CN203761697U - Cabinet - Google Patents

Abstract

The utility model discloses a cabinet. A 72-core integrated module is arranged in the cabinet. A double-layer horizontal wiring groove is disposed at the bottom in the cabinet. A vertical fiber storing rack is vertically disposed to the right side in the cabinet. Patch cords of the 72-core integrated module are horizontally transitioned to the vertical fiber storing rack through the double-layer horizontal wiring groove.

Description

Machine cabinet

Technical Field

The utility model relates to a communication technology's corollary equipment field especially relates to a rack.

Background

At present, the base station room is mostly traditional second generation (2G) base station room, and 2G's cabinet for the base station room has following problem:

(1) the optical distribution capacity is small and cannot be expanded;

(2) no placement space for proprietary Long Term Evolution (LTE) equipment;

(3) cable management is out of order; the strong and weak current wires are mutually staggered, and no special channel problem exists.

The traditional cabinet can not meet the construction and planning requirements of a combined time division long term evolution (TD-LTE) installation comprehensive cabinet with multifunction, which is the cabinet in a machine room of a fourth generation (4G) base station at the present stage.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the utility model provides a cabinet can satisfy large capacity optical cable terminal demand to can realize the management of cable subregion, optic fibre and strong and weak electricity are walked the line and are separated, and it is orderly to walk the distribution of line in the messenger cabinet.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

the embodiment of the utility model provides a cabinet, be equipped with 72 core integration modules 14 in the cabinet 10, cabinet 10 bottom is equipped with double-deck horizontal trough 16, cabinet 10 right side is equipped with the perpendicular fine frame 15 of storing of vertical installation, 72 core integration modules 14 jump fine the passing through double-deck horizontal trough 16 level transition arrives store fine frame 15 perpendicularly.

In the above scheme, the vertical wiring groove 31 is arranged on the right side of the 72-core integrated module 14.

In the above scheme, a 19-inch fiber storage disc 13 and a 19-inch wire arranging device 12 are arranged in the cabinet 10; wherein, the two sides of the 19-inch fiber storage disc 13 are provided with sliding guide rails 51; the 19-inch fiber storage disc 13 is provided with round rods 54, and an open-type fiber inlet hole 55 is formed between two adjacent round rods 54; the 19-inch wire organizer 12 is provided with the round bar 54.

In the above solution, the two sides of the cabinet 10 are provided with detachable fiber passing holes 18.

In the above scheme, the cabinet 10 is provided with the cable feeding device 22, and the cable feeding device 22 is disposed on the back side of the cabinet 10.

In the above scheme, the cabinet 10 includes a cabinet body 11, where the cabinet body 11 includes a cabinet body upright column 81 and a tee 82 located at each top corner of the cabinet body 11; the cabinet body 11 is installed on the front and rear upright posts in a double-sided mode.

In the above scheme, the cabinet body upright 81 is a nine-fold section upright 83.

In the scheme, the vertical fiber storage rack 15 comprises a mounting plate 71, a fiber inlet hole protective sleeve 72 and a fiber winding wheel 74.

The embodiment of the utility model provides a cabinet, be equipped with 72 core integrated modules in this cabinet, the cabinet bottom is equipped with double-deck horizontal trough, the cabinet right flank is equipped with the wire storage frame of vertical installation, the fine level transition of jumping of 72 core integrated modules is to the vertical fine frame of storing through the double-deck horizontal trough; therefore, the problems of optical cable fixing protection, fiber jumping and routing channels and fiber jumping storage management when a large-capacity Optical Distribution Frame (ODF) is installed in the frame can be solved through the 72-core integrated modules, the double-layer horizontal cabling channel and the vertical fiber storage frame for distributing and routing cables; meanwhile, the cables in the cabinet are managed in a partitioned mode, the optical fibers and the strong and weak electricity are separately wired, the wiring in the cabinet is distributed orderly, and the equipment is installed and managed simply and effectively.

Drawings

Fig. 1 is a schematic front structural view of a cabinet according to an embodiment of the present invention;

fig. 2 is a schematic back structure diagram of the cabinet according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a front side of a 72-core integrated module according to an embodiment of the present invention;

fig. 4 is a schematic structural view of the back surface of a 72-core integrated module according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a 19-inch fiber storage tray according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a 19-inch wire organizer according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a vertical fiber storage rack according to an embodiment of the present invention;

fig. 8 is a schematic view of an assembly manner of the cabinet body of the embodiment of the present invention;

fig. 9 is a schematic structural view of a cabinet body upright column according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a cabinet connector according to an embodiment of the present invention.

Description of reference numerals: 10, a cabinet; 11, a cabinet body; a 12, 19 inch organizer; a 13, 19 inch fiber storage tray; 14, 72 core integrated modules; 15, a vertical fiber storage rack; 16, double-layer horizontal wiring grooves; 17, a mesh door; 18, fiber feeding holes; 19, 19 inch equipment mounting studs; 110, DCDU; 21, an alternating current power supply module; 22, a cable feeding device; 23, binding the wire; 31, vertical wiring grooves; 32, 19 inch mounting holes; 33, a core frame; 34, T-shaped holes; 35, a bare fiber wire inlet hole; 51, a sliding guide; 52, a semicircular winding post; 53, hand-screwed screws; 54, a round bar; 55, an open type fiber inlet hole; 71, mounting a plate; 72, a fiber inlet hole protective sleeve; 73, fiber inlet holes; 74, a fiber winding wheel; 81, cabinet body upright posts; 82, a tee joint; 83, a nine-fold section bar upright post.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The embodiment of the utility model provides a cabinet 10, as shown in fig. 1 to 10, be equipped with 72 core integration modules 14 in the cabinet 10, cabinet 10 bottom is equipped with double-deck horizontal trough 16, cabinet 10 right side is equipped with the perpendicular fine frame 15 of storing of vertical installation, 72 core integration modules 14 jump fine the passing through double-deck horizontal trough 16 level transition arrives store fine frame 15 perpendicularly.

The left side of the 72-core integrated module 14 is provided with a vertical wiring groove 31. A 19-inch fiber storage disc 13 and a 19-inch wire arranging device 12 are arranged in the cabinet; wherein, the two sides of the 19-inch fiber storage disc 13 are provided with sliding guide rails 51; the 19-inch fiber storage disc 13 is provided with a plurality of round rods 54, and an open fiber inlet hole 55 is formed between two adjacent round rods 54. The cabinet body 11 of the cabinet 10 is provided with a detachable fiber passing hole 18. The cabinet 10 is provided with a cable feeding device 22, and the cable feeding device 22 is disposed on the back of the cabinet 10. The cabinet 10 is mounted on the front and rear upright posts on two sides; the cabinet body upright 81 of the cabinet 10 is a nine-fold section bar upright 83.

In practical application, the cabinet 10 can be used as a TD-LTE base station integrated cabinet, and the cabinet integrates the ODF and a conventional open-type integrated cabinet by using resource integration, thereby effectively solving the problems of optical cable fixation protection, fiber-skipping routing channels, fiber-skipping storage management, power supply and leading of various alternating current and direct current power supplies in the cabinet, equipment installation and routing management and the like when the high-capacity ODF is installed in a rack; meanwhile, the cabinet leaves elasticity for cabinet combination installation and use, so that fiber jumping between the racks can be realized, and cable management in the base station is more orderly.

As shown in fig. 1, a cabinet 10 according to an embodiment of the present invention is a cabinet for a novel indoor base station to be installed on the floor, a top of a cabinet body 11 of the cabinet 10 is provided with a plurality of different holes, and is configured with a sealing ring for introducing different cables; a 19-inch wire arranging device 12 is arranged in the cabinet 10, and the 19-inch wire arranging device 12 is used for arranging and binding front-side jumpers and other cables of equipment such as a baseband processing Unit (BBU); a 19-inch fiber storage disc 13 is arranged in the cabinet 10, the 19-inch fiber storage disc 13 is used for storing and laying the jumped fibers of the Packet Transport Network (PTN) transmission equipment with large jumped fiber capacity, so as to realize the fiber storage management of the jumped fibers in the transmission equipment, and the 19-inch fiber storage disc 13 and the optical transmission equipment are configured in a ratio of 1: 1.

A plurality of 72-core integrated modules 14 are further arranged in the cabinet 10, and the 72-core integrated modules 14 are used for fusion splicing and terminating of outdoor optical cables and can be used as equipment side jumper fiber terminating ends; the bottom of the cabinet 10 is provided with a double-layer horizontal wiring groove 16, the double-layer horizontal wiring groove 16 is used for horizontally transferring the jump fibers in the left vertical wiring groove 31 of the 72-core integrated module 14 to a right storage area, and the double-layer horizontal wiring groove 16 is used by an upper layer and a lower layer, so that the search of the jump fibers is facilitated; a storage area on the right side of the cabinet 10 is provided with a vertical fiber storage rack 15, and the vertical fiber storage rack 15 is used for storing jump fibers and does not occupy the whole space of the cabinet; the cabinet 10 may be provided with a mesh door 17 at the front and rear, and the mesh door 17 may be provided with a door lock.

The utility model discloses rack 10 can set up to 2 meters, 2.2 meters, and a plurality of 19 inches equipment fixing posts 19 that establish in the accessible rack 10 for carry out the installation of various equipment and module, play the effect of support device and module, equipment includes: PTN transmission unit and BBU; the 19-inch wire arranging device 12 and the 19-inch fiber storage disc 13 can be placed on the 19-inch equipment mounting upright post 19, and the 19-inch wire arranging device 12 is mounted below equipment and used for front management of cables, so that the cables are arranged neatly and attractively; the 19-inch fiber storage disc 13 is installed below the PTN transmission equipment and used for storing optical jump fibers led out by the PTN equipment and can be used as a wire arranging device.

A dc power supply (DCDU) 110 is also disposed in the cabinet 10, and a dc main power supply connected to the machine room can be divided into a plurality of dc power supply output terminals through the DCDU 110.

The plurality of 72-core integrated modules 14 installed in the cabinet 10 may constitute an ODF distribution system for fusion splicing and distribution of upstream distribution cables and may provide a transit function for equipment-side fiber jumpers, and the ODF capacity configuration may reach 288 cores.

The utility model discloses mesh door 17 that rack 10 was equipped with can be used to ventilate, the heat dissipation of equipment in the rack 10 to can effectively solve protection against rodents in the base station room, dustproof scheduling problem, improve the security of rack.

As shown in fig. 2, the ac power supply module 21 is installed on the back of the cabinet 10, and the ac power supply module 21 can be used for input and output of an ac power supply, and can be set as a main standby power supply to solve the problem of power introduction and power supply of various ac and dc power supplies; the back of the cabinet 10 is also provided with a cable inlet device 22 for fixing, stripping and grounding the outdoor optical cable, and the cable inlet device 22 is independent from the vertical fiber storage frame 15; a binding strip 23 is also arranged in the cabinet 10 and used for binding a bare fiber protective tube and introducing the bound bare fiber into the 72-core integrated module 14; the cabinet 10 is provided with fiber passing holes 18 at two sides, and the fiber passing holes 18 can be arranged in a detachable structure and can be used for routing between cabinets after cabinet combination after being detached as required.

The utility model discloses mutually independent that sets up in the rack 10 advances cable device 22 and stores fine frame 15 perpendicularly to and be used for going out to put on the shelf to jump fine dedicated passage walk fine hole 18, can satisfy single cabinet use, two cabinets or many cabinets and use, make things convenient for the fine demand of jumping between cabinet combining after-frame.

Fig. 3 and 4 are schematic structural diagrams of the front and back sides of the 72-core integrated module 14 according to an embodiment of the present invention, as shown in fig. 3 and 4, a vertical cabling slot 31 is disposed on the left side of the 72-core integrated module 14, the vertical cabling slot 31 is used for fiber jumping vertical cabling to form a dedicated channel for wire jumping cabling, and the vertical cabling slot 31 is provided with a 19-inch installation hole 32; the core frame 33 of the 72-core integrated module 14 is used for installing and using 12-core integrated trays and guide rail groove strips, the core frame 33 is provided with a door plate, the right side of the 72-core integrated module 14 is provided with a plurality of T-shaped holes 34, the T-shaped holes 34 can be used for fixing wires when equipment jumps fibers and introduces optical modules, bare fiber wire inlet holes 35 are formed beside the T-shaped holes 34, and the bare fiber wire inlet holes 35 are used for introducing bare fibers into wire inlet holes of the 12-core integrated tray from the rear side of the optical modules after optical cables are stripped.

In practical application, a 72-core integrated module can be formed by six 12-core integrated trays, and four 72-core integrated modules can be installed in a cabinet to form a 288-core ODF wiring system.

As shown in fig. 5, the 19-inch fiber storage disc 13 of the embodiment of the present invention can be used for storing and laying the jump fiber of the PTN transmission device with a large jump fiber capacity, and the 19-inch fiber storage disc 13 is provided with a sliding guide 51, a semicircular winding post 52, a hand screw 53, a round rod 54, and an open fiber inlet hole 55; wherein,

the sliding guide rail 51 is used for drawing operation of the 19-inch fiber storage disc 13, so that the 19-inch fiber storage disc 13 is convenient to use; the semicircular winding post 52 can be used for coiling the jumping fiber of the equipment, and the radius of the semicircular winding post 52 is larger than 37.5mm, so that the curvature radius of the optical fiber is met; the hand-screwed screws 53 are respectively positioned at two sides of the 19-inch fiber storage disc 13, and when the 19-inch fiber storage disc 13 is pushed to the right position, the hand-screwed screws 53 can be pressed and riveted on the 19-inch fiber storage disc 13 to fix the 19-inch fiber storage disc 13; the 19-inch fiber storage disc 13 is provided with a plurality of round rods 54, the round rods 54 are used for fixing and binding optical fibers or other cables, and the round rods 54 are round rods, so that the cables can be protected by arcs; an open fiber inlet hole 55 is formed between every two adjacent round rods 54, an opening is formed above the opening of the open fiber inlet hole 55 to form the open fiber inlet hole 55, and the jump fibers can be introduced into the 19-inch fiber storage disc 13 through the open fiber inlet hole 55 for storage.

As shown in fig. 6, the 19-inch wire organizer 12 and the 19-inch fiber storage tray 13 in the embodiment of the present invention are both provided with a round bar 54, and the round bar 54 is used for fixing and binding optical fibers or other cables in the same manner as the 19-inch wire organizer 12 and the 19-inch fiber storage tray 13.

When the round bar 54 is arranged on the 19-inch fiber storage disc 13, the round bar 54 is mainly used for fixing and binding optical fibers; when the round bar 54 is provided on the 19 inch wire organizer 12, the round bar 54 is primarily used for secure binding of cables.

The utility model discloses wire arrangement device and the wire storage frame of rack adopt the 19 inches of standard, can satisfy the installation of different firm equipment at home and abroad, solve the equipment fixing demand of different websites.

As shown in fig. 7, the vertical fiber storage rack 15 in the embodiment of the present invention is provided with a mounting plate 71, a fiber inlet hole protective sleeve 72, and a fiber winding wheel 74; the mounting plate 71 is a substrate, when the vertical fiber storage rack 15 is mounted, the upper and lower connecting holes of the mounting plate 71 are connected with the cabinet body 11, and the vertical fiber storage rack 15 is connected and fixed; the fiber inlet hole protective sleeve 72 is arranged around the fiber inlet hole 73, and the fiber inlet hole 73 is positioned above the mounting plate 71 and used for protecting jumped fibers when the fibers are jumped between frames; the fiber winding wheel 74 is used for storing and hanging jumped fibers, and the vertical fiber storage rack 15 can be provided with a plurality of fiber winding wheels 74 on the mounting plate 71.

In practical application, the fiber inlet hole 73 can be overlapped with the fiber outlet hole 18 to form a fiber jumping special channel together, so that the fiber jumping special channel has a fiber transverse walking function, and when two or more cabinets are combined, the fiber jumping in the cabinet does not need to be discharged from the top of the cabinet, but is discharged through the fiber outlet hole on the rear side surface of the combined cabinet.

As shown in fig. 8 to 10, the cabinet body 11 mounted on the cabinet 10 of the embodiment of the present invention includes a cabinet body upright 81 and a tee 82; the cabinet body 11 is installed on the front and rear upright posts in a double-sided manner, so that the space utilization rate of the cabinet 10 can be improved to the maximum extent; the cabinet body upright column 81 is a main body core component of the cabinet 10 and is used for splicing and welding the cabinet body 11, the cabinet body upright column 81 is a nine-fold section bar upright column 83, the nine-fold section bar upright column 83 is formed by performing multiple rolling forming on a steel plate to form multiple bending, so that the framework strength of the cabinet body 11 is provided, and the cabinet 10 can be spliced by a plurality of nine-fold section bar upright columns with different lengths and then welded; the tee joints 82 are positioned at each vertex angle of the cabinet body 11 and are used for positioning and connecting the three-direction framework upright columns of the cabinet body 11; the structural strength of the cabinet body 11 is ensured by integral welding of the nine-fold section bar upright post 83 and the tee 82.

As shown in fig. 1 to 10, the utility model discloses the rack has abandoned open structure support body, the closed rack of introduction, and configuration ventilation door around the rack to be equipped with the lock, thereby solve protection against rodents in the base station room, dustproof scheduling problem, improve the security of rack.

The cabinet provided by the embodiment of the utility model is provided with functional modules such as an alternating current power supply module, a cable inlet device and a PDU (Power distribution Unit) for back upright posts so as to deal with different specialties and cable routing and management and maintenance; the PDU is a power distribution module, different air switches can form independent functional modules according to the configuration condition of equipment in the cabinet, and an alternating current power supply of a machine room can be introduced under the common condition.

The cabinet provided by the embodiment of the utility model realizes the cable management partition setting through the partition setting in the cabinet, optical fibers and strong and weak current are separately wired, a wire management and fiber storage module is specially arranged for the transmission PTN equipment, and the management problem of fiber skipping is solved integrally; the utility model discloses set up a plurality of vertical trough and level in the rack and walk the line device, make the cable cloth in the rack put in order.

The utility model discloses but the top of rack can design fan mounting disc subassembly, can satisfy the installation of 2 ~ 4 fans, can select to join in marriage installation fan unit according to the power of equipment in the cabinet and calorific capacity, and the fan configuration temperature controller sets up start temperature, starts the fan when the temperature reaches the settlement temperature in the cabinet to save computer lab air conditioning expense.

The utility model discloses set up independent cable feeding device in the rack and jump fine storage frame, go out the frame and jump the fine dedicated passage that is equipped with, satisfy the cabinet combination use of single cabinet use, two cabinets or many cabinets, set up between the rack and walk the line passageway, make things convenient for the fine demand of jumping between the cabinet combination after-poppet.

The utility model discloses the rack is equipped with professional power supply design and supporting power module, provides the PDU module design and the configuration of specialty, and the power demand of different websites is solved to the pertinence, and supporting professional switching power supply satisfies the customer and to brand and integrated beyond the value appeal.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. A cabinet is characterized in that a 72-core integrated module (14) is arranged in the cabinet (10), a double-layer horizontal cabling channel (16) is arranged at the bottom of the cabinet (10), a vertically-installed vertical fiber storage rack (15) is arranged on the right side of the cabinet (10), and jumping fibers of the 72-core integrated module (14) are horizontally transited to the vertical fiber storage rack (15) through the double-layer horizontal cabling channel (16).

2. The cabinet according to claim 1, wherein the 72-core integrated module (14) is provided with a vertical cabling channel (31) on the right side.

3. The cabinet of claim 1, wherein a 19-inch fiber storage tray (13) and a 19-inch wire arranging device (12) are arranged in the cabinet (10); wherein,

two sides of the 19-inch fiber storage disc (13) are provided with sliding guide rails (51); the 19-inch fiber storage disc (13) is provided with round rods (54), and an open-type fiber inlet hole (55) is formed between every two adjacent round rods (54);

the 19-inch wire arranging device (12) is provided with the round rod (54).

4. The cabinet according to claim 1, characterized in that the cabinet (10) is provided with removable fiber-routing holes (18) on both sides.

5. The cabinet according to claim 1, wherein a cable inlet device (22) is arranged in the cabinet (10), and the cable inlet device (22) is arranged on the back surface in the cabinet (10).

6. The cabinet according to claim 1, characterized in that the cabinet (10) comprises a cabinet body (11), the cabinet body (11) comprising cabinet body uprights (81) and tee joints (82) at respective top corners of the cabinet body (11); the cabinet body (11) is installed on the front and rear upright posts in a double-sided mode.

7. The cabinet according to claim 6, characterized in that the cabinet upright (81) is a nine-fold profile upright (83).

8. The cabinet according to claim 1, wherein the vertical fiber storage rack (15) comprises a mounting plate (71), a fiber inlet protective sleeve (72) and a fiber winding wheel (74).