CN207586501U - A kind of combined type tail optical fiber patchboard - Google Patents

Abstract

The utility model is related to a kind of combined type tail optical fiber patchboard, including bearing base, control circuit, main bearing cavity, branch bearing cavity, working power, optical fiber connector, bearing base includes loading plate and connecting rib, uniformly distributed several sliding rails on bearing base, and pass through sliding rail respectively with main bearing cavity, branch bearing cavity, working power is electrically connected, main bearing cavity, branch bearing cavity is airtight cavity structure, control circuit is in main bearing cavity, optical fiber connector is respectively in main bearing cavity and branch bearing cavity, and it is connected with each other between the optical fiber connector in main bearing cavity and branch bearing cavity by tail optical fiber, working power is electrically connected by conducting wire and control circuit.On the one hand the utility model improves tail optical fiber connection, the flexibility of wiring operation, reliability and normalization, to the bearing capacity and extended capability of tail optical fiber and communication apparatus when on the other hand can be adjusted flexibly tail optical fiber layout and connection, so as to effectively improve the flexibility of tail optical fiber construction operation and general.

Description

A kind of combined type tail optical fiber patchboard

Technical field

The utility model is related to a kind of patchboards, are exactly a kind of combined type tail optical fiber patchboards.

Background technology

In network communication system structure, often realized simultaneously using a large amount of weft to heterogeneous networks circuit, network road Data connection or wire jumper connection are carried out, but find in actual use by equipment such as devices, the network equipment is currently carried out by tail optical fiber It during connection operation, is positioned often through traditional drum, although the needs used can be met, causes a large amount of tail optical fiber several Kind causes to be laid out confusion between tail optical fiber, mutually directly affects interference, layout positioning can between each tail optical fiber in a narrow space Difficulty deficiency is adjusted by the bending radius of property difference and tail optical fiber, it is opposite so as to cause tail optical fiber installation and routine maintenance work difficulty It is larger, while the reliability and stability that tail optical fiber is also caused to connect up are insufficient, in addition to this, currently used tail optical fiber Bobbin structure It is fixed, it is impossible to according to using the needs that need that the extension of network communication network, adjustment operation is flexibly met, therefore existing for this As there is an urgent need to develop a kind of novel patchboard device structure, to meet the needs of actual use.

Utility model content

In view of the shortcomings of the prior art, the utility model provides a kind of combined type tail optical fiber patchboard, the novel knot Structure is simple, flexible and convenient to use, one side structure using flexible, according to the usage requirement, improves tail optical fiber connection, wiring operation Flexibility, reliability and normalization so as to effectively improve the efficiency of tail optical fiber layout job execution, and overcome mutually dry between tail optical fiber Phenomenon is disturbed, the reliability and efficiency of tail optical fiber routine maintenance work is improved, on the other hand according to the usage requirement, tail optical fiber is adjusted flexibly To the bearing capacity and extended capability of tail optical fiber and communication apparatus when layout and connection, so as to effectively improve tail optical fiber construction operation Flexibility and versatility meet the needs that different network systems wiring is done.

To achieve these goals, the utility model is to realize by the following technical solutions：

A kind of combined type tail optical fiber patchboard, including bearing base, control circuit, main bearing cavity, branch bearing cavity, work electricity Source, optical fiber connector, bearing base include loading plate and connecting rib, and loading plate at least two, loading plate side surface sets connection Sliding slot is connected with each other by connecting sliding slot between adjacent loading plate and is distributed in the same plane, and connecting rib is several, and respectively Connect with two adjacent loading plate lower surfaces, uniformly distributed several sliding rails on bearing base, and pass through sliding rail respectively with main bearing cavity, branch Road bearing cavity, working power electrical connection, mutually parallel distribution, master hold for main bearing cavity, branch bearing cavity, working power axis Load chamber, branch bearing cavity are airtight cavity structure, and wherein in main bearing cavity, optical fiber connector is embedded in control circuit respectively In main bearing cavity and branch bearing cavity, and mutually interconnected by tail optical fiber between main bearing cavity and the optical fiber connector in branch bearing cavity It connects, branch bearing cavity is at least one, and is all provided with an optical fiber connector in each branch bearing cavity, and the working power passes through Conducting wire is electrically connected with control circuit.

Further, it separately sets up defences on the bearing base protective case, the protecting crust is connect with bearing base upper surface, And it is coated on main bearing cavity, branch bearing cavity, outside working power.

Further, the bearing base upper surface sets wiring groove, and the tail optical fiber is in wiring groove.

Further, locating button is set in the wiring groove, the locating button section is in " Qian " font structure, described Tail optical fiber is embedded in by locating button in wiring groove, and each locating button is connect with a tail optical fiber, is evenly distributed with extremely in the wiring groove Few 2 two tail optical fibers.

Further, the bearing base lower surface is several flexibly positioned pieces uniformly distributed.

Further, it is when the branch bearing cavity is two or more, then mutually in parallel between branch bearing cavity.

The utility model is simple in structure, flexible and convenient to use, one side structure using flexible, according to the usage requirement, improves tail Fine connection, the flexibility of wiring operation, reliability and normalization, so as to effectively improve the efficiency of tail optical fiber layout job execution, And overcome and phenomenon is interfered with each other between tail optical fiber, the reliability and efficiency of tail optical fiber routine maintenance work are improved, it on the other hand can be according to making With needs, it is adjusted flexibly to the bearing capacity and extended capability of tail optical fiber and communication apparatus when tail optical fiber is laid out and connects, so as to effectively Raising tail optical fiber construction operation flexibility and versatility, meet the needs that do of different network systems wiring.

Description of the drawings

It is described in detail the utility model with reference to the accompanying drawings and detailed description；

Fig. 1 is the utility model structure diagram.

Specific embodiment

To be easy to understand technical means, creative features, achievable purpose and effectiveness of the utility model, below With reference to specific embodiment, the utility model is expanded on further.

A kind of combined type tail optical fiber patchboard as described in Figure 1, including bearing base 1, control circuit 2, main bearing cavity 3, branch Road bearing cavity 4, working power 5, optical fiber connector 6, bearing base 1 include loading plate 101 and connecting rib 102, loading plate 101 At least two, 101 side surface of loading plate sets connection sliding slot 103, is interconnected between adjacent loading plate 101 by connecting 103 phase of sliding slot It connects and is distributed in the same plane, connecting rib 102 is several, and is connect respectively with adjacent two loading plates, 101 lower surface, carrying Uniformly distributed several sliding rails 7 on pedestal 1, and pass through sliding rail 7 and electrically connect with main bearing cavity 3, branch bearing cavity 4, working power 5 respectively It connects, mutually parallel distribution, main bearing cavity 3, branch bearing cavity 4 are equal for main bearing cavity 3, branch bearing cavity 4,5 axis of working power For airtight cavity structure, wherein control circuit 2 is in main bearing cavity 3, and optical fiber connector 6 is respectively embedded in main bearing cavity 3 and branch It in road bearing cavity 4, and is connected with each other between the optical fiber connector 6 in main bearing cavity 3 and branch bearing cavity 4 by tail optical fiber 8, branch is held It is at least one to carry chamber 4, and an optical fiber connector 6 is all provided in each branch bearing cavity 4, working power 5 passes through conducting wire and control Circuit 2 is electrically connected.

In the present embodiment, protective case 9 of separately setting up defences on the bearing base 1, the protecting crust 9 and 1 upper table of bearing base Face connects, and is coated on main bearing cavity 3, branch bearing cavity 4, outside working power 5.

In the present embodiment, 1 upper surface of bearing base sets wiring groove 10, and the tail optical fiber 8 is embedded in wiring groove 10 It is interior.

In the present embodiment, locating button 11 is set in the wiring groove 10,11 section of locating button is in " Qian " font knot Structure, the tail optical fiber 8 are embedded in by locating button 11 in wiring groove 10, and each locating button 11 is connect with a tail optical fiber 8, described Wiring groove 10 in uniformly distributed at least 2 two tail optical fibers.

In the present embodiment, 2 lower surface of bearing base is several flexibly positioned pieces 12 uniformly distributed.

In the present embodiment, when the branch bearing cavity 4 is two or more, then between branch bearing cavity 4 mutually It is in parallel.

The utility model in the specific implementation, first according to the needs of network construction, selects the branch of corresponding quantity to carry Chamber and with satisfaction selected by branch bearing cavity data communication capabilities main bearing cavity in control circuit and meet control circuit The working power needed is run, bearing base is finally assembled according to control circuit, main bearing cavity, branch bearing cavity, working power, Then control circuit, main bearing cavity, branch bearing cavity, working power are installed on bearing base, and will be in main bearing cavity Control circuit is electrically connected with working power, by the optical fiber connector in the optical fiber connector in main bearing cavity and branch bearing cavity Connection is used so as to complete equipment group equipment.

When building communication network, first as needed to the loading plate of bearing base and main bearing cavity, branch bearing cavity, The quantity of optical fiber connector, is then attached, and finally according to the quantity and distributing position of the quantity of optical fiber connector, master is held It is attached between optical fiber connector in load chamber, branch bearing cavity by tail optical fiber, and the classification of each tail optical fiber is positioned by wiring groove, Finally again by the optical fiber connector in main bearing cavity, branch bearing cavity and external connection of network line.

The utility model is simple in structure, flexible and convenient to use, one side structure using flexible, according to the usage requirement, improves tail Fine connection, the flexibility of wiring operation, reliability and normalization, so as to effectively improve the efficiency of tail optical fiber layout job execution, And overcome and phenomenon is interfered with each other between tail optical fiber, the reliability and efficiency of tail optical fiber routine maintenance work are improved, it on the other hand can be according to making With needs, it is adjusted flexibly to the bearing capacity and extended capability of tail optical fiber and communication apparatus when tail optical fiber is laid out and connects, so as to effectively Raising tail optical fiber construction operation flexibility and versatility, meet the needs that do of different network systems wiring.

It should be understood by those skilled in the art that the present utility model is not limited to the above embodiments, above-described embodiment and The principle for only illustrating the utility model described in specification, on the premise of not departing from the spirit and scope of the utility model, The present invention also has various changes and improvements, these changes and improvements both fall within claimed the scope of the utility model It is interior.The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (6)

1. a kind of combined type tail optical fiber patchboard, it is characterised in that：The combined type tail optical fiber patchboard includes bearing base, control electricity Road, main bearing cavity, branch bearing cavity, working power, optical fiber connector, the bearing base include loading plate and dowel Plate, the loading plate at least two, the loading plate side surface set connection sliding slot, are slided between adjacent loading plate by connecting Slot is connected with each other and is distributed in the same plane, and the connecting rib is several, and respectively with two adjacent loading plate lower surfaces It connects, uniformly distributed several sliding rails on the bearing base, and it is electric with main bearing cavity, branch bearing cavity, work respectively to pass through sliding rail Source is electrically connected, the main bearing cavity, branch bearing cavity, working power axis mutually parallel distribution, the main carrying Chamber, branch bearing cavity are airtight cavity structure, wherein the control circuit is embedded in main bearing cavity, the optical fiber connector Respectively in main bearing cavity and branch bearing cavity, and pass through tail optical fiber between the optical fiber connector in main bearing cavity and branch bearing cavity It is connected with each other, the branch bearing cavity is at least one, and is all provided with an optical fiber connector in each branch bearing cavity, described Working power is electrically connected by conducting wire and control circuit.

2. a kind of combined type tail optical fiber patchboard according to claim 1, it is characterised in that：It is separately set on the bearing base Protecting crust, the protecting crust are connect with bearing base upper surface, and are coated on main bearing cavity, branch bearing cavity, working power Outside.

3. a kind of combined type tail optical fiber patchboard according to claim 1, it is characterised in that：The bearing base upper surface If wiring groove, the tail optical fiber is in wiring groove.

4. a kind of combined type tail optical fiber patchboard according to claim 3, it is characterised in that：Setting position in the wiring groove Button, the locating button section are in " Qian " font structure, and the tail optical fiber is embedded in by locating button in wiring groove, and each positioning Button is connect with a tail optical fiber, uniformly distributed at least 2 two tail optical fibers in the wiring groove.

5. a kind of combined type tail optical fiber patchboard according to claim 1, it is characterised in that：The bearing base lower surface It is several flexibly positioned pieces uniformly distributed.

6. a kind of combined type tail optical fiber patchboard according to claim 1, it is characterised in that：The branch bearing cavity is two It is when a or more than two, then mutually in parallel between branch bearing cavity.