阅读说明：本技术 一种墙壁插座式的光纤网络接入装置 (Wall socket type optical fiber network access device ) 是由 郝宝灿 于 2018-09-12 设计创作，主要内容包括：本发明涉及光纤网络接入技术领域,尤其为一种墙壁插座式的光纤网络接入装置,包括有底盒,底盒的内部固定设置有光纤分路器和电源模块,底盒的内部固定设置有光电转换电路板,底盒的端口部覆有面板,面板的基面开设有二个指示灯孔、光纤接口端矩形孔、网口端矩形孔和开关孔,二个指示灯孔的内壁均设有二个LED指示灯,光纤接口端矩形孔的内壁设有光纤接口,网口端矩形孔的内壁设有网口,开关孔的内壁设有开关,光电转换电路板的底部分别固定连接有光模块和电源接口,光电转换电路板的基面固定连接有光电转换芯片。本发明将推出光纤接入、光纤与网口两种输出方式,极大方便了使用。(The invention relates to the technical field of optical fiber network access, in particular to a wall socket type optical fiber network access device which comprises a bottom box, wherein an optical fiber splitter and a power supply module are fixedly arranged inside the bottom box, a photoelectric conversion circuit board is fixedly arranged inside the bottom box, a port part of the bottom box is covered with a panel, two indicator lamp holes, an optical fiber interface end rectangular hole, a net mouth end rectangular hole and a switch hole are formed in the base surface of the panel, two LED indicator lamps are respectively arranged on the inner walls of the two indicator lamp holes, an optical fiber interface is arranged on the inner wall of the optical fiber interface end rectangular hole, a net mouth is arranged on the inner wall of the net mouth end rectangular hole, a switch is arranged on the inner wall of the switch hole, an optical module and a power supply interface are respectively and fixedly connected to the bottom of the photoelectric conversion circuit board, and. The invention can release two output modes of optical fiber access, optical fiber and network port, which is convenient for use.)

1. A wall socket type optical fiber network access device comprises a bottom box (1) and is characterized in that an optical fiber branching device (2) and a power module (3) are fixedly arranged inside the bottom box (1), a photoelectric conversion circuit board (4) is fixedly arranged inside the bottom box (1), a panel (5) is covered on a port portion of the bottom box (1), two indicator lamp holes (6), an optical fiber interface end rectangular hole (7), a net port end rectangular hole (8) and a switch hole (9) are formed in a base surface of the panel (5), two LED indicator lamps (10) are arranged on inner walls of the indicator lamp holes (6), an optical fiber interface (11) is arranged on the inner wall of the optical fiber interface end rectangular hole (7), a net port (12) is arranged on the inner wall of the net port end rectangular hole (8), and a switch (13) is arranged on the inner wall of the switch hole (9), the bottom of the photoelectric conversion circuit board (4) is fixedly connected with an optical module (14) and a power interface (15) respectively, and the base surface of the photoelectric conversion circuit board (4) is fixedly connected with a photoelectric conversion chip (16).

2. A wall socket type optical fiber network access device according to claim 1, wherein the bottom box (1) is an 86-type bottom box, the optical fiber splitter (2) is a 1-to-2 optical fiber splitter, the power module (3) is a 220VAC to 5VDC power module, the panel (5) is an 86-type panel, the indicator light (10) is an LED indicator light, the optical fiber interface is an SC optical fiber interface, the network port (12) is an RJ45 network port, and the optical module (14) is a 1X 9155 Mbps optical module.

3. A wall-socket optical fiber network access device as claimed in claim 1, wherein the bottoms of the two indicator lights (10) are fixedly connected to the base surface of the photoelectric conversion circuit board (4), the two indicator lights (10) are electrically connected to the power interface (15), and the power interface (15) is electrically connected to the power module (3).

4. A wall-socket optical fiber network access device as claimed in claim 1, wherein the optical module (14) and the optical fiber interface (11) are electrically connected to the optical fiber splitter (2), respectively.

5. A wall-socket optical fiber network access device as claimed in claim 1, wherein the optical module (14) is electrically connected to the optical-to-electrical conversion chip (16), and the optical-to-electrical conversion chip (16) is electrically connected to the network port (12).

6. A wall-socket optical fiber network access device as claimed in claim 1, wherein the access end of the optical fiber splitter (2) is connected to an optical fiber, and the access end of the power module (3) is connected to the commercial power.

7. A wall-socket optical fiber network access device as claimed in claim 1, wherein the photoelectric conversion circuit board (4) and the power interface (15) are electrically connected to the switch (13).

Technical Field

The invention relates to the technical field of optical fiber network access, in particular to a wall socket type optical fiber network access device.

Background

Optical fiber communication, also known as optical fiber communication, refers to a way of transmitting information using light and optical fiber. Belongs to a wired communication technology, light can carry information after being modulated. Optical fiber communication systems have revolutionary influence on the telecommunication industry, play a very important role in the digital era, have the advantages of large transmission capacity, good confidentiality and the like, and are the most important wire communication modes at present. The information to be transmitted is input to the transmitter at the transmitting end, the information is superposed or modulated on the carrier serving as an information signal carrier, then the modulated carrier is transmitted to the receiving end at a far distance through a transmission medium, and the original information is demodulated by the receiver.

Optical fiber is often used by telephone companies to transmit signals for telephone, internet, or cable television, and sometimes a single optical fiber is used to transmit all of the above signals simultaneously.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a wall socket type optical fiber network access device.

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

the utility model provides an optical fiber network access device of wall socket formula, is including end box, the fixed optical fiber branching unit and the power module of being provided with in inside of end box, the fixed photoelectric conversion circuit board that is provided with in inside of end box, the port portion of end box covers there is the panel, two pilot lamp holes, optical fiber interface end rectangular hole, net gape end rectangular hole and switch hole, two have been seted up to the base face of panel the inner wall in pilot lamp hole all is equipped with two LED pilot lamps, the inner wall in optical fiber interface end rectangular hole is equipped with the optical fiber interface, the inner wall in net gape end rectangular hole is equipped with the net gape, the inner wall in switch hole is equipped with the switch, the bottom of photoelectric conversion circuit board is fixedly connected with optical module and power interface respectively, the base face fixedly connected with photoelectric conversion chip of photoelectric conversion circuit board.

Preferably, the end box is 86 type end box, optical fiber branching unit is 1 commentaries on classics 2 optical fiber branching unit, power module is 220VAC commentaries on classics 5VDC power module, the panel is 86 type panels, the pilot lamp is the LED pilot lamp, the fiber interface is SC fiber interface, the net gape is RJ45 net gape, the optical module is 1X 9155 Mbps optical module.

Preferably, the bottoms of the two indicator lights are fixedly connected to the base surface of the photoelectric conversion circuit board, the two indicator lights are electrically connected with the power interface, and the power interface is electrically connected with the power module.

Preferably, the optical module and the optical fiber interface are electrically connected to an optical fiber splitter, respectively.

Preferably, the optical module is electrically connected with the photoelectric conversion chip, and the photoelectric conversion chip is electrically connected with the network port.

Preferably, the access end of the optical fiber splitter is connected with an optical fiber, and the access end of the power module is connected with the mains supply.

Preferably, the photoelectric conversion circuit board and the power interface are electrically connected to the switch.

Compared with the prior art, the invention provides a wall socket type optical fiber network access device, which has the following beneficial effects:

compared with the network cable, the optical fiber has the advantages of long communication distance, large bandwidth and no environmental interference, can replace the network cable in industrial and commercial office occasions in the future and can be widely applied.

The invention has two outputs of push-out, optical fiber access, optical fiber and network port, which is convenient for users.

The invention is convenient for users to operate and use by exposing the optical fiber interface, the net port on the photoelectric conversion plate, the indicating lamp, the power switch and other components on the socket panel.

The invention has the advantages that the part which is not involved in the device is the same as the prior art or can be realized by the prior art, the optical fiber access of the invention, the optical fiber output and the network port output are both convenient for users.

Drawings

Fig. 1 is a schematic structural diagram of an entire wall-socket type optical fiber network access device according to the present invention;

fig. 2 is a schematic structural diagram of a portion of a wall-socket type optical fiber network access device according to the present invention.

In the figure: the optical fiber photoelectric conversion device comprises a bottom box 1, an optical fiber splitter 2, a power module 3, a photoelectric conversion circuit board 4, a panel 5, a lamp hole 6, a rectangular hole at an optical fiber interface end 7, a rectangular hole at a net mouth end 8, a switch hole 9, an indicator lamp 10, an optical fiber interface 11, a net mouth 12, a switch 13, an optical module 14, a power interface 15 and a photoelectric conversion chip 16.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-2, a wall-socket type optical fiber network access device includes a bottom case 1, an optical fiber branching unit 2 and a power supply module 3 are fixedly arranged inside the bottom box 1, a photoelectric conversion circuit board 4 is fixedly arranged inside the bottom box 1, the port part of the bottom box 1 is covered with a panel 5, the base surface of the panel 5 is provided with two indicator lamp holes 6, an optical fiber interface end rectangular hole 7, a net port end rectangular hole 8 and a switch hole 9, the inner walls of the two indicator lamp holes 6 are provided with two indicator lamps 10, the inner wall of the rectangular hole 7 at the optical fiber interface end is provided with an optical fiber interface 11, the inner wall of the rectangular hole 8 at the net port end is provided with a net port 12, the inner wall of the switch hole 9 is provided with a switch 13, the bottom of the photoelectric conversion circuit board 4 is fixedly connected with an optical module 14 and a power interface 15 respectively, and the base surface of the photoelectric conversion circuit board 4 is fixedly connected with a photoelectric conversion chip 16.

The bottom box 1 is an 86-type bottom box, the optical splitter 2 is a 1-to-2 optical splitter, the power module 3 is a 220 VAC-to-5 VDC power module, the panel 5 is an 86-type panel, the indicator light 10 is an LED indicator light, the optical fiber interface is an SC optical fiber interface, the network port 12 is an RJ45 network port, and the optical module 14 is a 1X 9155 Mbps optical module; the bottoms of the two indicator lights 10 are fixedly connected to the base surface of the photoelectric conversion circuit board 4, the two indicator lights 10 are electrically connected with the power interface 15, and the power interface 15 is electrically connected with the power module 3; the optical module 14 and the optical fiber interface 11 are electrically connected with the optical fiber splitter 2 respectively; the optical module 14 is electrically connected with the photoelectric conversion chip 16, and the photoelectric conversion chip 16 is electrically connected with the network port 12; the access end of the optical fiber splitter 2 is connected with an optical fiber, and the access end of the power module 3 is connected with commercial power; the photoelectric conversion circuit board 4 and the power interface 15 are electrically connected to the switch 13.

When the optical fiber branching device is used, the optical fiber branching device 2, the power supply module 3 and the photoelectric conversion circuit board 4 are installed in the bottom box 1, commercial power is connected to the power supply module 3 and converted into 5VDC, the commercial power is connected to the power supply interface 15 on the photoelectric conversion circuit board 4 to provide power for the photoelectric conversion circuit board 4, the photoelectric conversion circuit board 4 is loaded with the optical module 14, the photoelectric conversion chip 16, the network port 12 and the indicator lamp 10, a large hole is formed in the middle of the photoelectric conversion circuit board 4, the optical fiber interface 11 is arranged in a reserved space, an inlet optical fiber enters 2 paths of optical fibers converted out by the optical fiber branching device 2, 1 path of optical module 14 is connected to the photoelectric conversion circuit board 4, 1 path of optical module is connected to the optical fiber interface 11 and then enters 1 path of optical module 14, and is converted into an; on the panel 5, holes are reserved for the network port 12, the indicator light 10 and the optical fiber interface 11, so that the user can conveniently use the plug-in connector.

Compared with a network cable, the optical fiber has the advantages of long communication distance, large bandwidth and no environmental interference, can replace the network cable in industrial and commercial office occasions in the future, and can be widely applied; the optical fiber is accessed, and the optical fiber and the network port are output, so that great convenience is brought to users.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.