CN202995114U

CN202995114U - Fiber channel mounting positioning structure

Info

Publication number: CN202995114U
Application number: CN 201220677352
Authority: CN
Inventors: 张恒久
Original assignee: QINGDAO TAIDA COMMUNICATION EQUIPMENT CO Ltd
Current assignee: QINGDAO TAIDA COMMUNICATION EQUIPMENT CO Ltd
Priority date: 2012-12-10
Filing date: 2012-12-10
Publication date: 2013-06-12
Anticipated expiration: 2022-12-10

Abstract

The utility model provides a fiber channel mounting positioning structure and solves problems of heavy weight of a device, complicated fixed assembly, disordered wiring structure, wasted channel material, time-consuming assembly and low work efficiency existing in cable passageway arrangement and in a device in the prior art. The fiber channel mounting positioning structure is mounted on a wiring frame and comprises a leading screw, wherein a bottom portion of the leading screw is in positioning fixed connection with the wiring frame through a section material connection part, an upper portion of the leading screw is in fixed connection with a support plate frame which is horizontally arranged, and positioning mounting of the fiber channel on the support plate frame is carried out. The fiber channel mounting positioning structure is mounted on the wiring frame, so simplification of a circuit assembly structure and cost reduction are realized, moreover, fiber wiring arrangement and other cable arrangement are clearly separated; positioning mounting of the wiring channel in multiple directions and in multiple layers is realized; and the fiber channel mounting positioning structure has advantages of simple structure, convenient mounting, secure positioning, improved work efficiency and unified and compact and integral structure.

Description

The installation and positioning structure of optical fiber channel

Technical field

The utility model relates to a kind of installation and positioning structure of the locating device of realizing for optical fiber cabling layout, particularly a kind of optical fiber channel.

Background technology

Rationally effective wire cable layout is for saves energy, energy-saving and cost-reducing playing an important role in machine room.Machine room has two kinds of main situations of building now, and a kind of is to concentrate distribution type, and another is the cable-management of two-stage type, mainly refers to the network switch.The switch of this mode of center distribution is to use IDG machine room standard, directly points to server by the one-level switch, can directly arrive client server by cable.Mainly in order to save the pressure of cable wiring, the cabinet from host exchange to each row rack is put a Layer 2 switch at a cabinet in the use of the switch of two-stage type, is connected with optical cable between host exchange and Layer 2 switch.Row head cabinet switch is connected to each server by netting twine and gets on.

Realize that above-mentioned arbitrary wire laying mode all need lead and locate by the cabling collecting device, this cabling collecting device is trough.At present, traditional machine room trough is generally to adopt steel material, and all there is following shortcoming in it:

1, the weight ratio of conduit is larger, for installation and transportation bring inconvenience;

2, the accessory of conduit is numerous and diverse, for construction is made troubles, has reduced simultaneously installation effectiveness;

3, metal heat-conducting and not corrosion-resistant;

4, conduit corner is sharp-pointed, easily scratches cable, causes the accident, and has potential safety hazard.

The formed integral optical fiber tank circuit of winding amalgamation layout by a large amount of troughs, also need simultaneously to install by the stationary installation of coupling and could realize complete fibre-optic transmission system (FOTS) running in machine room, the location of existing fiber tank circuit installing mode and structure exist that device is heavy and fixing assembling is loaded down with trivial details, Wiring structure mixed and disorderly, expend tank circuit material, simultaneously during assembly fee, the inferior problem of inefficiency.

The utility model content

The purpose of this utility model is to have the problems referred to above for existing technology, has proposed a kind of assembling and positioning mode that realizes for the optical fiber trough, possesses simultaneously installation and positioning structure simple in structure, that the optical fiber channel of the characteristics such as convenient, fixed is installed.

The purpose of this utility model can realize by following technical proposal: the installation and positioning structure of optical fiber channel, install on chute, it is characterized in that, comprise screw mandrel, the bottom of described screw mandrel is located by section jointing part and above-mentioned chute and is connected, the top of described screw mandrel is connected and one is flat plate supporting frame to arranging, installing optical fiber channel in location on described plate supporting frame.

Chute is erect by ground and is set up, and it is used for the cabling guiding layout of cable, and the installation and positioning structure of this optical fiber channel is installed on the basis of chute, and then separates the layout of optical fiber cabling layout and other cable bright and clear; Simplify simultaneously numerous and diverse circuit assembling and positioning structure, reduced assembly cost.

By a large amount of difform optical fiber channels mutually the company of group form integral optical fiber cabling layout, and then by installation and positioning structure, the whole cabling tank circuit is fixed in the top, room, coordinate simultaneously the use of optical fiber wiring equipment, just can set up the optical fiber transport channel system of a complete specifications in machine room.

In the installation and positioning structure of above-mentioned optical fiber channel, the cross section of described optical fiber channel is U-shaped, set firmly the installation kerve on the bottom surface of described optical fiber channel, described installation kerve has uncovered embedded cavity down, and the two ends that kerve is installed are the spacious mouth that connects, symmetrical flat to being convexly equipped with interior card edge on the two side in described embedded cavity, the outer edge of embedded cavity is the curved wild card edge of establishing at right angles, and described optical fiber channel is installed kerve and above-mentioned plate supporting frame by it and formed bolts assemblies and be connected.The type of optical fiber channel comprises: the forms such as straight-through conduit, threeway conduit, four-way conduit, various curved grooves roads, various outlet conduit and Slot connector.The U-shaped inner chamber of optical fiber channel plays the effect of storing optical fiber of taking in, and each interface of optical fiber channel is port, can splice and then make up all complete layout passages with other conduit.

In the installation and positioning structure of above-mentioned optical fiber channel, offer mounting hole on described plate supporting frame, aligning towards lower open mouth of described installation kerve is communicated with above-mentioned mounting hole, in described embedded cavity, nut is set, and nut be horizontal be located in above-mentioned interior card along, wild card along between, described bolt from the bottom to top successively penetrating mounting holes, embedded cavity is uncovered forms screw threads for fastening with above-mentioned nut and assemble.Be to guarantee the assembling balance, at least two of the uniform settings of installation kerve of optical fiber channel bottom surface are therefore on plate supporting frame, the corresponding quantity that kerve is installed arranges the bolts assemblies location point.

In the installation and positioning structure of above-mentioned optical fiber channel, set firmly the installation side channel on the lateral wall of described optical fiber channel, described installation side channel has embedded cavity, and the two ends that side channel is installed are the spacious mouth that connects, in described embedded cavity on the two side symmetry vertically be convexly equipped with interior card edge, the outer edge of embedded cavity is the curved wild card edge of establishing at right angles.

In the installation and positioning structure of above-mentioned optical fiber channel, offer the mounting hole that is perforation on described section jointing part, the bottom of described screw mandrel wears this mounting hole, and screw mandrel bottom thread bush connects down two attaching nuts, and described section jointing part sandwiched is positioned between two attaching nuts of up and down.One end of section jointing part has fastener, and this fastener insert to embed to form in draw-in groove on chute and connects and fixes, and the other end of section jointing part wears screw mandrel, thus with the screw mandrel orientation assemble on chute.

In the installation and positioning structure of above-mentioned optical fiber channel, the top thread bush of described screw mandrel connects down two attaching nuts, and described plate supporting frame sandwiched is positioned between two attaching nuts of up and down.

In the installation and positioning structure of above-mentioned optical fiber channel, the side edge of described plate supporting frame is offered mounting hole, described screw mandrel wears this mounting hole by the top, and on plate supporting frame, the top side of mounting hole is against the nut of the side of being located thereon, and the bottom side of mounting hole is against the nut that is positioned at its below.

Compared with prior art, the installation and positioning structure of this optical fiber channel is installed on the basis of chute, realizes the simplification for the circuit assembly structure, reduces its cost; Synchronously separate the layout of optical fiber cabling layout and other cable bright and clear; Realize that also the location of multi-direction, the multi-level cabling tank circuit installs, have simple in structure, install convenient, the location is firm, increase work efficiency, the unified advantage such as compact of integration.

Description of drawings

Fig. 1 is the structural representation of the installation and positioning structure of this optical fiber channel.

In figure, 1, screw mandrel; 2, section jointing part; 3, plate supporting frame; 4, optical fiber channel; 4a, installation side channel; 4b, installation kerve; 5, chute.

Embodiment

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

As shown in Figure 1, the installation and positioning structure of this optical fiber channel is installed on chute 5, chute 5 is erect by ground and is set up, it is used for the cabling guiding layout of cable, the installation and positioning structure of this optical fiber channel is installed on the basis of chute 5, and then separates the layout of optical fiber cabling layout and other cable bright and clear; Simplify simultaneously numerous and diverse circuit assembling and positioning structure, reduced assembly cost.

The installation and positioning structure of this optical fiber channel comprises screw mandrel 1, the periphery of screw mandrel 1 is all attacked and is established external thread, the bottom of screw mandrel 1 is connected by section jointing part 2 and chute 5 location, and the top of screw mandrel 1 is connected and one is flat plate supporting frame 3 to arranging, installing optical fiber channel 4 in location on plate supporting frame 3.

The type of optical fiber channel 4 comprises: the forms such as straight-through conduit, threeway conduit, four-way conduit, various curved grooves roads, various outlet conduit and Slot connector.The cross section of optical fiber channel 4 is U-shaped, and its U-shaped inner chamber plays the effect of storing optical fiber of taking in, and each interface of optical fiber channel 4 is port and can splices with other conduit and be communicated with.

Set firmly on the lateral wall of optical fiber channel 4 side channel 4a is installed, side channel 4a is installed is flat to the upper position that is attached at sidewall, and all installation side channel 4a all are positioned at the same level height.Side channel 4a are installed have embedded cavity, and the two ends that side channel 4a is installed connect mouth for spacious, in embedded cavity on the two side symmetry vertically be convexly equipped with interior card edge, the outer edge of embedded cavity is the curved wild card edge of establishing at right angles.

Set firmly on the bottom surface of optical fiber channel 4 kerve 4b is installed, for guaranteeing the assembling balance, kerve 4b is installed is at least two of uniform settings.Kerve 4b is installed has uncovered embedded cavity down, and the two ends that kerve 4b is installed connect mouth for spacious, symmetrical flat to being convexly equipped with interior card edge on the two side in embedded cavity, the outer edge of embedded cavity is the curved wild card edge of establishing at right angles.

One end of section jointing part 2 has fastener, and this fastener is inserted to form in the draw-in groove that embeds on chute 5 and connected and fixed; The other end of section jointing part 2 is offered the mounting hole that is perforation, the bottom of screw mandrel 1 wears this mounting hole, and screw mandrel 1 bottom thread bush connects down two attaching nuts, the end clips of section jointing part 2 is set and is formed the location be connected between two attaching nuts of up and down, thus with screw mandrel 1 orientation assemble on chute 5.

The top thread bush of screw mandrel 1 connects down two attaching nuts, the side edge of plate supporting frame 3 is offered mounting hole, screw mandrel 1 wears this mounting hole by the top, and on plate supporting frame 3, the top side of mounting hole is against the nut of the side of being located thereon, the bottom side of mounting hole is against the nut that is positioned at its below, and then the avris of plate supporting frame 3 forms clamping position between two attaching nuts of up and down.

Optical fiber channel 4 forms bolts assemblies by its installation kerve 4b and plate supporting frame 3 and is connected.On plate supporting frame 3 one by one the corresponding kerve 4b that installs offer mounting hole, what kerve 4b was installed aligns the connection mounting hole towards lower open mouth, in the embedded cavity of installation kerve 4b, nut is set, and nut be interior card that horizontal is located in embedded cavity along and wild card along between, bolt from the bottom to top successively penetrating mounting holes, embedded cavity is uncovered with embedded cavity in nut form screw threads for fastening and assemble.

Connect by the mutual group of a large amount of difform optical fiber channels 4 and form integral optical fiber cabling layout, and then by installation and positioning structure, the whole cabling tank circuit is fixed in the top, room, coordinate simultaneously the use of optical fiber wiring equipment, just can set up the optical fiber transport channel system of a complete specifications in machine room.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Although this paper has more used screw mandrel 1; Section jointing part 2; Plate supporting frame 3; Optical fiber channel 4; Side channel 4a is installed; Kerve 4b is installed; Chute 5 terms such as grade, but do not get rid of the possibility of using other term.Using these terms is only in order to describe more easily and explain essence of the present utility model; They are construed to any additional restriction is all contrary with the utility model spirit.

Claims

1. the installation and positioning structure of optical fiber channel, install on chute, it is characterized in that, comprise screw mandrel, the bottom of described screw mandrel is connected by section jointing part and above-mentioned chute location, and the top of described screw mandrel is connected and one is flat plate supporting frame to arranging, installing optical fiber channel in location on described plate supporting frame.

2. the installation and positioning structure of optical fiber channel according to claim 1, it is characterized in that, the cross section of described optical fiber channel is U-shaped, set firmly the installation kerve on the bottom surface of described optical fiber channel, described installation kerve has uncovered embedded cavity down, and the two ends that kerve is installed are the spacious mouth that connects, symmetrical flat to being convexly equipped with interior card edge on the two side in described embedded cavity, the outer edge of embedded cavity is the curved wild card edge of establishing at right angles, and described optical fiber channel is installed kerve and above-mentioned plate supporting frame by it and formed bolts assemblies and be connected.

3. the installation and positioning structure of optical fiber channel according to claim 2, it is characterized in that, offer mounting hole on described plate supporting frame, aligning towards lower open mouth of described installation kerve is communicated with above-mentioned mounting hole, in described embedded cavity, nut is set, and nut be horizontal be located in above-mentioned interior card along, wild card along between, described bolt from the bottom to top successively penetrating mounting holes, embedded cavity is uncovered forms screw threads for fastening with above-mentioned nut and assemble.

4. the installation and positioning structure of optical fiber channel according to claim 1, it is characterized in that, set firmly the installation side channel on the lateral wall of described optical fiber channel, described installation side channel has embedded cavity, and the two ends that side channel is installed are the spacious mouth that connects, in described embedded cavity on the two side symmetry vertically be convexly equipped with interior card edge, the outer edge of embedded cavity is the curved wild card edge of establishing at right angles.

5. the installation and positioning structure of optical fiber channel according to claim 1, it is characterized in that, offer the mounting hole that is perforation on described section jointing part, the bottom of described screw mandrel wears this mounting hole, and screw mandrel bottom thread bush connects down two attaching nuts, and described section jointing part sandwiched is positioned between two attaching nuts of up and down.

6. the installation and positioning structure of optical fiber channel according to claim 1, is characterized in that, the top thread bush of described screw mandrel connects down two attaching nuts, and described plate supporting frame sandwiched is positioned between two attaching nuts of up and down.

7. the installation and positioning structure of optical fiber channel according to claim 6, it is characterized in that, the side edge of described plate supporting frame is offered mounting hole, described screw mandrel wears this mounting hole by the top, and on plate supporting frame, the top side of mounting hole is against the nut of the side of being located thereon, and the bottom side of mounting hole is against the nut that is positioned at its below.