CN220401754U - Transmission device for optical module test - Google Patents

Abstract

The utility model discloses a transmission device for optical module test, which comprises a transmission device shell, wherein a protection plate is arranged on one side of the transmission device shell, a display screen is arranged on the top surface of the transmission device shell, a heat dissipation hole is formed in one side of the transmission device shell, an SFP jack is arranged on one side of the transmission device shell, an SFP+ jack is arranged on one side of the transmission device shell, an XFP jack is arranged on one side of the transmission device shell, an SFP28 jack is arranged on one side of the transmission device shell, four indicator lamps are arranged on one side of the transmission device shell, a power supply jack is arranged on one side of the transmission device shell, and four annular plates are arranged on one side of the protection plate. According to the transmission device for the optical module test, different types of optical modules can be pressed to test through the set SFP jack and SFP+ jack, the set XFP jack and the set SFP28 jack, and accurate numerical values transmitted by the optical modules can be visually seen through the set prompting lamps and the set display screen.

Description

Transmission device for optical module test

Technical Field

The utility model relates to the technical field of optical module testing, in particular to a transmission device for optical module testing.

Background

The optical module (optical module) is composed of an optoelectronic device, a functional circuit, an optical interface and the like, wherein the optoelectronic device comprises a transmitting part and a receiving part, the optical module is an optoelectronic device for photoelectric and electro-optical conversion, a transmitting end of the optical module converts an electric signal into an optical signal, and a receiving end converts the optical signal into an electric signal. Optical modules are classified according to packaging forms, and SFP, sfp+, SFF, gigabit ethernet interface converter (GBIC), and the like are common.

When testing the transmission performance of the optical module, the distance and capacity of the transmission signal are greatly different due to different types of the optical modules, and the transmission range of the optical module of the same type is set to be a certain value, but when in use, the range values may deviate due to external factors, so that an accurate numerical value cannot be known.

Disclosure of Invention

The utility model aims to provide a transmission device for optical module test, which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a conveyer for optical module test, includes conveyer shell, its characterized in that: the utility model discloses a conveyer, including conveyer shell, protection board, conveyer shell top surface is provided with the display screen, the louvre has been seted up to conveyer shell one side, conveyer shell one side is provided with SFP socket, conveyer shell one side is provided with SFP+ socket, conveyer shell one side is provided with XFP socket, conveyer shell one side is provided with SFP28 socket, conveyer shell one side is provided with four warning lamps, conveyer shell one side is provided with power socket, protection board one side is provided with four annular plates.

Preferably, four optical module jacks are formed in one side of the protection plate, four threaded holes are formed in one side of the protection plate, four threaded nails are arranged on one side of the protection plate, and the threaded nails are in threaded connection with the threaded holes.

Preferably, the sliding grooves are formed in two sides of the inside of the annular plate, the dustproof sliding plate is arranged above the annular plate, the grooves are formed in two sides of the dustproof sliding plate, and the annular plate is movably connected with the dustproof sliding plate.

Preferably, an inner groove is formed in the shell of the conveying device, a power supply is arranged above the inner groove, a plc controller is arranged on one side of the power supply, the power supply is fixedly connected with the plc controller, and an optical module induction tester is arranged on one side of the plc controller.

Preferably, the plc controller is fixedly connected with the prompting lamp, the optical module induction tester is fixedly connected with the SFP socket, the SFP+ socket, the XFP socket and the SFP28 socket, and the plc controller is fixedly connected with the display screen.

Preferably, the plc controller is fixedly connected with the optical module induction tester.

Compared with the prior art, the utility model has the beneficial effects that:

according to the transmission device for the optical module test, different types of optical modules can be pressed to test through the set SFP jack and SFP+ jack, the set XFP jack and the set SFP28 jack, and accurate numerical values transmitted by the optical modules can be visually seen through the set prompting lamps and the set display screen.

This kind of conveyer for optical module test through conveyer shell and guard plate, dustproof slide, the louvre that set up can effectively avoid the influence that external factor brought at the test kind, makes the accurate numerical value of test more accurate.

Drawings

FIG. 1 is an exploded perspective view of the present utility model;

fig. 2 is an exploded perspective view of the fender according to the utility model;

FIG. 3 is an exploded view of the ring plate of the present utility model;

fig. 4 is an exploded view of the inner tank of the present utility model.

In the figure: 1. a conveyor housing; 2. a protection plate; 3. a display screen; 4. a heat radiation hole; 5. SFP socket; 6. SFP+ sockets; 7. XFP socket; 8. SFP28 socket; 9. a warning light; 10. a power socket; 11. a ring plate; 12. an optical module jack; 13. a threaded hole; 14. a groove; 15. a dust-proof slide plate; 16. a chute; 17. an inner tank; 18. a power supply; 19. a plc controller; 20. a module induction tester; 21. and (5) screw nails.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-4, the present utility model provides a technical solution: a transmission device for optical module test comprises a transmission device shell 1, wherein one side of the transmission device shell 1 is provided with a protection plate 2, the protection plate 2 is used for protecting components in the transmission device shell 1, meanwhile, the transmission device is ensured to be integrated, the top surface of the transmission device shell 1 is provided with a display screen 3, the display screen 3 is used for displaying transmission values of test optical modules, the accurate values of the optical modules can be visually observed, one side of the transmission device shell 1 is provided with a heat dissipation hole 4, the heat dissipation hole 4 is used for dissipating heat of components in the transmission device shell 1, errors caused by overhigh temperature are avoided, one side of the transmission device shell 1 is provided with an SFP socket 5, the SFP socket 5 is used for testing the SFP optical modules, the optical modules of different types can be tested, one side of the transmission device shell 1 is provided with an SFP+ socket 6, the SFP+ socket 6 is used for testing the SFP+ optical modules, ensuring that different types of optical modules can be tested, an XFP jack 7 is arranged on one side of a shell 1 of the conveying device, the XFP jack 7 is used for testing the XFP optical modules, ensuring that different types of optical modules can be tested, an SFP28 jack 8 is arranged on one side of the shell 1 of the conveying device, the SFP28 jack 8 is used for testing the SFP28 optical modules, ensuring that different types of optical modules can be tested, a prompting lamp 9 is arranged on one side of the shell 1 of the conveying device, a prompting lamp 9 is used for prompting whether the optical modules are correctly inserted or not, ensuring the normal operation of the test, a power jack 10 is arranged on one side of the shell 1 of the conveying device, the power jack 10 is used for connecting a power supply, ensuring the power source of the conveying device, four annular plates 11 are arranged on one side of a protection plate 2, the annular plates 11 are used for inserting dust-proof sliding plates 15, ensuring that the optical module jack cannot damage a test result due to dust, four optical module jacks 12 are arranged on one side of the protection plate 2, the optical module jack 12 is used for inserting the optical module, be used for protecting the optical module socket of different grade type, four screw holes 13 have been seted up to guard plate 2 one side, screw holes 13 are used for connecting screw nail 21, ensure screw nail 21 and guard plate 2 are as an organic whole, guard plate 2 one side is provided with four screw nails 21, screw nail 21 is used for connecting guard plate 2 and conveyer shell 1, ensure guard plate 2 and conveyer shell 1 are as an organic whole, screw nail 21 and screw holes 13 threaded connection, screw nail 21 is used for connecting guard plate 2 and conveyer shell 1, ensure guard plate 2 and conveyer shell 1 are as an organic whole, spout 16 has been seted up to the inside both sides of annular plate 11, spout 16 is used for sliding dustproof slide 15, ensure that dustproof slide 15 can be placed and taken down, the annular plate 11 top sets up dustproof slide 15, dustproof slide 15 is used for protecting optical module slot and can not fall into the dust, ensure that the optical module test makes not receive the influence of dust and lead to the accuracy of test, recess 14 is seted up to the recess 14 in both sides of dustproof slide 15, recess 14 is used for being movably connected with spout 16, ensure that the dustproof slide can not drop simultaneously, annular plate 11 and dustproof slide 15 movable connection, ensure that dustproof slide 15 can be placed in annular plate free in the movable place and can also be taken down.

An inner groove 17 is formed in the shell 1 of the conveying device, the inner groove 17 is used for placing internal components and protecting the components in the inner groove, a power supply 18 is arranged above the inner groove 17, the power supply 18 is a power source of the conveying device, normal operation of the conveying device is ensured, a plc controller 19 is arranged on one side of the power supply 18, the plc controller 19 is used for controlling other components, mutually matched normal operation of the components is ensured, the power supply 18 is fixedly connected with the plc controller 19, sufficient power source of the plc controller 19 is ensured, normal operation of the components is ensured, an optical module induction tester 20 is arranged on one side of the plc controller 19, the optical module induction tester 20 is used for connecting the optical modules, the optical modules are tested simultaneously, accurate numerical values transmitted by the optical modules of different types are obtained, the plc controller 19 is fixedly connected with the indicator lamp 9, the plc controller 19 and the indicator lamp 9 are ensured to be integrated, various types of optical module tests are ensured to be free from placing errors, the optical module induction tester 20 is fixedly connected with the SFP socket 5, the SFP+ socket 6, the XFP socket 7 and the SFP28 socket 8, the optical module induction tester 20 and different types of optical module sockets are ensured to be integrated, the optical module is ensured to be tested, the plc controller 19 and the display screen 3 are fixedly connected, the plc controller 19 and the display screen 3 are ensured to be integrated, the obtained accurate numerical value can be intuitively displayed, the plc controller 19 and the optical module induction tester 20 are fixedly connected, the plc controller 19 and the optical module induction tester 20 are ensured to be integrated, and the normal operation of the conveying device is ensured.

Working principle: the staff takes down dustproof slide 15 from the annular plate 11 along spout 16 from the bottom, then connect the power, insert the power cord from power socket 10, provide the power source for conveyer, let the back correspond the optical module type that needs the test from optical module jack 12 to insert, observe warning light 9 ensure that optical module inserts normally, ensure to obtain the accurate numerical value that this optical module transmitted through display screen 3 after normally inserting, then record the numerical value and pull up the test of other types optical module of inserting, after the test is accomplished, take out four dustproof slide 15, correspond each annular plate 11, push into the recess 14 on the dustproof slide 15 from top to bottom along spout 16 and accomplish the protection of optical module socket.

Although the utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the arrangement of the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the utility model.

Claims (6)

1. The utility model provides a conveyer for optical module test, includes conveyer shell (1), its characterized in that: the utility model discloses a conveyer shell, conveyer shell (1) one side is provided with guard plate (2), conveyer shell (1) top surface is provided with display screen (3), louvre (4) have been seted up to conveyer shell (1) one side, conveyer shell (1) one side is provided with SFP socket (5), conveyer shell (1) one side is provided with SFP+ socket (6), conveyer shell (1) one side is provided with XFP socket (7), conveyer shell (1) one side is provided with SFP28 socket (8), conveyer shell (1) one side is provided with four warning lamps (9), conveyer shell (1) one side is provided with power socket (10), guard plate (2) one side is provided with four annular plates (11).

2. The transmission device for optical module testing according to claim 1, wherein: four optical module jacks (12) are formed in one side of the protection plate (2), four threaded holes (13) are formed in one side of the protection plate (2), four threaded nails (21) are arranged on one side of the protection plate (2), and the threaded nails (21) are in threaded connection with the threaded holes (13).

3. The transmission device for optical module testing according to claim 1, wherein: the sliding grooves (16) are formed in two sides of the inside of the annular plate (11), the dustproof sliding plate (15) is arranged above the annular plate (11), the grooves (14) are formed in two sides of the dustproof sliding plate (15), and the annular plate (11) is movably connected with the dustproof sliding plate (15).

4. The transmission device for optical module testing according to claim 1, wherein: an inner groove (17) is formed in the conveying device shell (1), a power supply (18) is arranged above the inner groove (17), a plc controller (19) is arranged on one side of the power supply (18), the power supply (18) is fixedly connected with the plc controller (19), and an optical module induction tester (20) is arranged on one side of the plc controller (19).

5. The transmission device for optical module testing according to claim 4, wherein: the plc controller (19) is fixedly connected with the prompting lamp (9), the optical module induction tester (20) is fixedly connected with the SFP jack (5), the SFP+ jack (6), the XFP jack (7) and the SFP28 jack (8), and the plc controller (19) is fixedly connected with the display screen (3).

6. The transmission device for optical module testing according to claim 4, wherein: the plc controller (19) is fixedly connected with the optical module induction tester (20).