TWM321526U - Optic-fiber detector with plug-in optical transmission module - Google Patents

Description

.M321526 VIII. New Description: [New Technology Field] This creation is about the design of a fiber optic detector, especially for a fiber optic detector with a pluggable optical transceiver module. [Prior Art] In recent years, 'regional networks (LANs) have gradually become fiber-optic. Although the fiber-optic TEM system is more expensive than copper cable systems, it can meet the public's network speed and related bandwidth to handle gigabit/second data transmission. The need for increased rates. Fiber optic cables used in these systems typically include special connectors or adapters to ensure proper alignment of the fiber ends. The task of plugging in or reinstalling a fiber optic cable usually falls on a shrink-twist installer or an in-house network expert. Before such fiber optic cables are plugged in, tests must be carefully performed to ensure that the characteristics of the fiber are met by industrial groups such as the Electronics Industry Association (EIA) and the Telecommunications Industry Association (TAA) for fiber-optic network construction. Use the established minimum standards. Such characteristics include domain length, bandwidth capacity, and the amount of light that light is lost through the fiber. One conventional test method is the optical time domain reflectometry. Optical Time-Reflexive (4) instruments (0TDRs) calculate and display the loss of distance and provide a process specification from the connector, the joint, the crack (four) reflection, and the fiber material itself. Compared with the fast-growing fiber-area network cabling requirements, the convenience of the fiber-optic network path detection operation is improved. The M321526 can not only achieve rapid maintenance, but also effectively reduce the labor burden. The fiber optic cable and the measuring means of the known regional network are generally the detectors using the laser diode as the light source, and the j-fiber connecting end η (four) is at the edge of the concentrate to input the test light, and then by ~ Whether the opposite end of the line can receive the optical signal or receive the optical signal strength is judged. According to, it is detected whether the optical fiber path is broken or damaged. [New content] ^ Technical problems to be solved by this creation However, the above optical time domain reflectometry is expensive. Furthermore, since the light source used for fiber-optic communication differs depending on the application, although the transmission principle of the fiber-optic signal and the = is the same, different fiber-optic bands require different fiber-optic devices and plug-in structures. The conventional (4) detecting device is bulky, and the optical transceiver module disposed therein is fixed, making the process of replacing different fiber detecting devices time-consuming and laborious. Therefore, the main purpose of this creation is to provide a fiber optic detector with pluggable light to facilitate user detection of different types of fibers. ..., the other is to provide a miniaturized fiber optic detector, that is, the cost of the fiber optic detection device, and to achieve the simplicity of fiber inspection. The technical means for solving the problem in order to achieve the above object, the optical fiber detector having the pluggable optical transceiver module comprises a casing, a fiber optic signal receiving processing module and a pluggable optical transceiver module. The housing has a module receiving slot and an opening communicating with the M321526 group receiving slot. The fiber optic signal receiving and processing module is disposed in the module receiving slot of the housing, and includes a circuit board and a signal connector coupled to the circuit board. The pluggable optical transceiver module can be inserted into the module receiving slot of the housing or extracted by the module receiving slot of the housing, and the pluggable optical transceiver module has a connector plug. The connector and the connector of the fiber connector are connected to the signal connector of the fiber signal receiving and processing module. In a preferred embodiment of the present invention, the optical fiber detector having the pluggable optical transceiver module further includes a pull handle disposed at the fiber connector of the pluggable optical transceiver module, and the user is pulled by the user. The handle extracts the pluggable optical transceiver module from the module receiving slot of the housing. 'The effectiveness of this creation against the prior art The technical means adopted by this creation not only greatly reduces the cost of the optical fiber detection device, but also increases the user's convenience in the use of the detection and the replacement of the optical transceiver module. The specific embodiments used in the present application will be further illustrated by the following examples and accompanying drawings. [Embodiment] Referring to Figures 1 to 3, the optical fiber detector 100 having a pluggable optical transceiver module includes a housing 1, a pluggable optical transceiver module 2, and a dust cover 3. . The housing 1 has a module receiving slot 11 and an opening 12 communicating with the module receiving slot. The pluggable optical transceiver module 2 can be inserted into the module 1 of the housing 1 through the opening 12 of the housing 1. The slot 11 is extracted from the module M321526 receiving slot 11 of the housing 1 , and the pluggable optical transceiver module 2 is inserted into the module receiving slot 11 of the housing 1 through the opening 12 of the housing 1 . After that, the dust cover 3 can cover the opening 12 of the casing 1 to prevent dust from entering the pluggable optical transceiver module 2 or the module receiving slot 11 of the casing 1, and also preventing direct use of the laser light. The eyes of the person. Referring to FIGS. 4 to 5, the housing 1 includes an upper housing 13 and a lower housing 14. The module housing slots 11 of the housing 1 are covered by the upper housing 13 and the lower housing 14 The lower casing 14 has a battery unit accommodating groove 141 for accommodating at least one battery unit 4. A cover 15 is attached to the battery unit receiving groove 141 of the lower casing 14. Moreover, the fiber optic detector 1 having the pluggable optical transceiver module further includes a fiber optic signal receiving processing module 5 and a channel housing 6. The fiber-optic signal receiving processing module 5 is disposed in the module receiving slot 11 of the housing 1, and includes a circuit board 51 and a signal connector 52 coupled to the circuit board 51. The bottom edge of the guide housing 6 is formed with a plurality of pointed protrusions 61. The guide housings 6 are disposed on the circuit board 51 of the optical fiber signal receiving and processing module 5 via the pointed protrusions 61, and An optical transceiver module accommodating space 21 is formed between the circuit boards 51 of the optical fiber signal receiving and processing module 5, and the pluggable optical transceiver module 2 can be inserted into the optical transceiver module accommodating space 21. The pluggable optical transceiver module 2 has a connector insertion end 22 and a fiber connector insertion end 23'. A fiber optic signal transmission interface 221 is disposed at the connector insertion end 22. The signal connector 52 of the fiber optic signal receiving and processing module 5 has a fiber optic signal port 521. The slot housing 6 has a connector coupling side 62. The connector coupling side 62 is provided with a connector M321526 unit 621. The connector unit 621 is connected to the connector of the pluggable optical transceiver module 2. The optical fiber signal connection interface 221 of the end 22 and the optical fiber signal connection 521 of the signal connector 52 of the optical fiber signal receiving and processing module 5 are also connected to the signal connection of the optical fiber signal receiving processing module 5 The fiber optic signal of the device 52 is connected to the 521, and after the pluggable optical transceiver module 2 is inserted into the accommodating space 21 of the optical transceiver module, the optical fiber of the connector terminal 22 of the optical transceiver module 2 can be inserted and removed. The signal transmission interface 221 is plugged into the plug-in unit 621. And the optical transceiver module 2 is provided with a fiber connector slot 23 at its fiber connector insertion end 23, and the optical fiber 7 can be inserted into the fiber connector via a fiber connector 71. In slot 231. Moreover, the money connection plug-in terminal 23 of the pluggable optical transceiver module 2 is provided with a handle 232'. The user can receive the pluggable optical transceiver module 2 from the module of the housing 1 via the handle 232. The slot U is extracted to replace the pluggable pure hair module suitable for the detection for different types and fields of different uses. The opening and closing body 13 is further provided with a modulation control unit 16 and a power control unit 17 for controlling the band of the optical fiber detector (10) having the pluggable optical transceiver module, and the power supply. The control unit (1) is used to control the power supply of the battery unit 4 to the present invention. It can be seen from the above embodiments that the optical fiber detector with the pluggable optical transceiver module provided by the present invention has industrial value. The creation work has been in accordance with the requirements of the patent. (4) The above description is only for the description of the preferred embodiment of this creation. Anyone who is skilled in this technique can make other kinds according to the above description. The creative spirit of this creation and the patent scope defined in the following M321526. [Simple description of the diagram] The first diagram is a perspective view of the fiber detector with the pluggable optical transceiver module; The optical fiber detector with the pluggable optical transceiver module has a w view, and the third figure is an exploded view of the optical fiber detector with the pluggable optical transceiver module; Plug and unplug A side view exploded view of the optical fiber detector of the optical transceiver module; 'Figure 5 is a front view exploded view of the optical fiber detector with the pluggable optical transceiver module. [Main component symbol description] 100 with pluggable light Optical fiber detector 1 of the transceiver module Housing 11 Module accommodating slot 12 Opening 13 Upper housing 14 Lower housing 141 Battery unit accommodating slot 15 Cover 16 Modulation control unit M321526

17 Power Control Unit 2 Pluggable Optical Transceiver Module 21 Optical Transceiver Module Housing Space 22 Connector Plug-in Terminal 221 Optical Fiber Signal Transmission Interface 23 Fiber Connector Plug-in Terminal 231 Fiber Connector Slot 232 Pull Handle 3 One Cover Body 4 Battery unit 5 Optical fiber signal receiving and processing module 51 Circuit board 52 Signal connector 521 Optical fiber signal connection 埠6 Guide housing 61 Pointed projection 62 Connector coupling side 621 Plug-in unit 7 Fiber 71 Fiber connector

Claims (1)

M321526 IX. Patent application scope: 1. A fiber optic detector having a pluggable optical transceiver module, comprising: a housing having a module receiving slot and an opening communicating with the module receiving slot; An optical fiber signal receiving and processing module is disposed in the module receiving slot of the housing, and includes a circuit board and a signal connection ta coupled to the circuit board. A pluggable optical transceiver module can be used by the housing The opening is inserted into the module receiving slot of the housing or extracted by the module receiving slot of the housing, the pluggable optical transceiver module has a connector plug end and a fiber connector plug The connector is plugged into the signal connector of the optical fiber signal receiving processing module. 2. The optical fiber detector with a pluggable optical transceiver module according to claim 1, comprising a guide housing, the bottom edge of the guide housing is formed with a plurality of pointed protrusions The guide slot housing is disposed on the circuit board of the optical fiber signal receiving and processing module via the pointed convex body, and forms an optical transceiver module with the circuit board of the optical fiber signal receiving and processing module. In the space, the pluggable optical transceiver module can be inserted into the accommodating space of the optical transceiver module. 3. The optical fiber detector with the pluggable optical transceiver module according to the second aspect of the patent application, wherein the plug connector of the pluggable optical transceiver module, the M321526 is provided with a fiber optic signal transmission interface. The signal connector of the fiber optic signal receiving and processing module has a fiber optic signal port, the channel housing has a connector coupling side, and a connector unit is disposed on the connector side for connecting the pluggable unit The optical fiber signal transmission interface of the connector end of the optical transceiver module and the optical fiber signal connection of the signal connector of the optical fiber signal receiving processing module. 4. The fiber optic detector with a pluggable optical transceiver module according to claim 1, wherein the pluggable optical transceiver module comprises a pull handle disposed on the pluggable optical transceiver module The plug connector of the optical fiber connector is used by the user to extract the pluggable optical transceiver module from the module receiving slot of the housing. 5. The fiber optic detector having the pluggable optical transceiver module of claim 1, comprising a dust cover covering the opening of the housing. 6. The fiber optic detector having the pluggable optical transceiver module of claim 1, comprising a modulation control unit disposed at a selected location of the housing. 7. The fiber optic detector having the pluggable optical transceiver module of claim 1, comprising a power control unit disposed at a selected location of the housing. The optical fiber detector with the pluggable optical transceiver module of claim 1, wherein the housing comprises an upper housing and a lower housing, wherein the module receiving slot is from the upper The housing and the lower housing are formed by being covered with each other, and the lower housing has a battery unit receiving groove for accommodating at least one battery unit.