CN205510052U - Fiber optic modules test system - Google Patents

Abstract

The utility model relates to a fiber test technical field, concretely relates to fiber optic modules test system. A fiber optic modules test system, the metal frame of its test machine main part includes back frame, front frame, back timber and bottom plate, fiber test machine is placed and is fixed in the frame with the veneer fixed part that is equipped with the extraction frame that is used for the fixed fiber veneer, and the veneer fixed part outside is equipped with the line frame that is used for placing test optic fibre, is equipped with at least two on the line frame and places the plug into terminal fixing base of terminal of test optic fibre, terminal fixing base and test optic fibre one -to -one, be equipped with six -shaft mechanical arm between the back timber of frame and the bottom plate for pick test optic fibre and plug into and carry out the plug operation behind the terminal, correspond the manipulator all was equipped with the manipulator removal of being convenient for on the back timber of frame and bottom plate guide rail. Due to the adoption of the technical scheme, the utility model discloses not only the operation is fast, and working accuracy and plug rate of accuracy all have great promotion, has satisfied automated production's needs behind substituted traditional manual work.

Description

A kind of optic module test system

Technical field

This utility model relates to measuring techniques for optical fiber field, is specifically related to a kind of optic module test system.

Background technology

The modern network equipment is generally using optical fiber as transmission medium.Router that market is common or exchange The network equipments such as machine are the most gradually replaced by employing optical fiber from twisted pair network cable to carry out getting in touch with and communication.Though optical fiber The most cheap for manufacturing cost, but its transmission speed is more much higher than common twisted pair network cable, is a kind of economical And efficient transmission medium.

Optic module needs to test each port after finalization of the manufacture, to verify the qualification of product Energy.Frequently with manual type by test machine and the network communication at optic module place in traditional test process Equipment is connected with each other by optical fiber, and this operation process is the most backward, and efficiency is the lowest, and error rate Higher.Owing to often including several piece optical fiber veneer on network communication apparatus, each piece of veneer is provided with again several Optical fiber is plugged into port, and when testing a complete network communication apparatus, workman generally requires and counting Ten optical fiber are plugged into and are operated between port, are easier to occur the situation of plug mistake when optical fiber plugs.Cause This, error correction during manual operation and judgement are required to consume the more activity duration, and, manual work Time contact engaging and separating force control more difficulty, also easily cause optical fiber and plug into port excessive wear and make equipment life Reduce.The port of some optic module has certain angle of inclination on the market, is difficult to position during manual operation And alignment, need to consume the more activity duration to guarantee that plug is correct, thus work efficiency can be caused to be subject to To considerable influence.And modern industry rhythm is main to be automated as, the operating type based on manual operation must So it is eliminated, accordingly, it would be desirable to a kind of can catching up with manufactures the test system of rhythm to tackle high efficiency light Fiber module manufacturing.

Utility model content

The purpose of this utility model is, it is provided that a kind of optic module test system, solves above technology and asks Topic.

This utility model is solved the technical problem that to realize by the following technical solutions:

A kind of optic module test system, including test machine main body, described test machine main body includes frame, Described frame is the frame structure that metal is made, including back frame, front-side frame, back timber and base plate, Test optical fiber machine and optical fiber veneer to be tested are all placed and are fixed in described frame, it is characterised in that Described frame is provided with a veneer fixed part, and described veneer fixed part includes that at least two is for placing and solid Determining the abstracting rack of optical fiber veneer, the placement of the corresponding optical fiber veneer of arbitrary described abstracting rack, described veneer is solid Determine portion to be positioned in the back frame of described frame；

Be provided with outside described veneer fixed part one for place test optical fiber coil holder, described test optical fiber use Plugging into port in the corresponding optical fiber connecting test optical fiber machine and optical fiber veneer, described coil holder is positioned at back frame And between front-side frame, and be fixed on the base plate of frame, it is solid that described coil holder is provided with at least two terminal Reservation, the one end for placing described test optical fiber plugs into terminal, arbitrary described terminal fixing pedestal correspondence one Described test optical fiber, the other end of described test optical fiber plug into terminal from coil holder draw after be connected to described light The optical fiber of fine test machine is plugged on port；

Being provided with a mechanical hand between back timber and the base plate of described frame, described mechanical hand is used for before testing to Plug into after terminal takes out from terminal fixing pedestal and position and be plugged into the right of optical fiber veneer in one end of test optical fiber Answer optical fiber to plug in port, and send back in original terminal fixing pedestal after being pulled out after having tested, Described mechanical hand uses a six axis robot, corresponding described mechanical hand to be all provided with on the back timber and base plate of frame Have and be easy to the guide rail that mechanical hand moves.

This utility model is inserted by arranging six axis robot analog manual operation terminal of plugging into optical fiber Pull out, coordinate the veneer fixed part of plug type, it is achieved that the automatization's plug in optic module test process Operation, improves homework precision and work efficiency, meets the rhythm needs of optic module automated production.

Also include a counter weight device, for making the test optical fiber being captured by mechanical hand and mentioning produce downwards one The line body making test optical fiber after determining pulling force is straightened, it is to avoid owing to the flexibility characteristics of optical fiber material causes adjacent Test Optical Fiber Winding together, described counter weight device includes and described test optical fiber counterweight one to one Block.

This utility model is by arranging counter weight device so that test optical fiber terminal of plugging at one end is raised And during transfer, affected by balancing weight downwards and produce certain tensile force, make test optical fiber exist Picked and placeed by mechanical hand, in moving process, the phenomenon that is mutually wound around will not occur.

Also include a fibre-optical splice cleaner, be carried out for terminal that test optical fiber is plugged into, in order to Remove in swapping process produce microdebris, prevent its to test inside of optical fibre, test optical fiber machine and The port of plugging into of optic module affects test result after polluting.

Described fibre-optical splice cleaner uses one to be carried out by the terminal of plugging into of anhydrous alcohol rubbing test optical fiber The fibre-optical splice cleaner of cleaning.

Described fibre-optical splice cleaner uses one to be carried out by compressed air dedusting agent terminal of plugging into optical fiber The fibre-optical splice cleaner of cleaning.

Described mechanical hand includes mechanical hand suspension, jaw and jaw suspension, the upper end of described mechanical hand suspension The guide rail connected on the back timber of described frame and base plate is rolled respectively, it is simple to mechanical hand is at horizontal position with lower end The transfer put, described jaw carries out plugging operation after the terminal of plugging into gripping test optical fiber, described Jaw is arranged on described jaw cantilever, and described jaw cantilever is connected with described mechanical hand suspension.

Also include a positioner, plug into port for gathering the optical fiber on optical fiber veneer by shooting mode Position, more accurate by making the transfer of mechanical hand position after computer disposal, described positioner uses One photographic head, described photographic head is arranged on the jaw cantilever of described mechanical hand.

Beneficial effect: owing to using technique scheme, this utility model not only operating speed is fast, operation Precision and plug accuracy rate all have a distinct increment, and meet automated production after replacing Traditional Man operation Need.

Accompanying drawing explanation

Fig. 1 is main TV structure schematic diagram of the present utility model；

Fig. 2 is side-looking structural representation of the present utility model.

Detailed description of the invention

For the technological means making this utility model realize, creation characteristic, reach purpose and be prone to bright with effect White understanding, is expanded on further this utility model below in conjunction with being specifically illustrating.

With reference to Fig. 1, Fig. 2, a kind of optic module test system, including test machine main body, test machine main body Including frame 1, the frame structure that frame 1 is made for metal, including back frame, front-side frame, back timber With base plate, test optical fiber machine 4 and optical fiber veneer to be tested all place and be fixed in frame 1, frame 1 Being provided with veneer fixed part 2, veneer fixed part 2 includes that at least two is for placing and fixing optical fiber veneer Abstracting rack, the placement of the corresponding optical fiber veneer of arbitrary abstracting rack, veneer fixed part 2 is positioned at the back of the body of frame 1 On portion's framework；Being provided with the coil holder 3 for placing test optical fiber outside veneer fixed part 2, test optical fiber is used for Connect the corresponding optical fiber of test optical fiber machine 4 and optical fiber veneer to plug into port, coil holder 3 be positioned at back frame and Between front-side frame, and being fixed on the base plate of frame 1, coil holder 3 is provided with at least two terminal and fixes Seat 6, plugs into terminal for placing one end of test optical fiber, the corresponding test optical fiber of arbitrary terminal fixing pedestal 6, The other end of test optical fiber terminal of plugging into is connected to the optical fiber of test optical fiber machine 4 after coil holder 3 is drawn and plugs into On port；Being provided with mechanical hand between back timber and the base plate of frame 1, mechanical hand will be for testing before testing Plug into and position and be plugged into the correspondence of optical fiber veneer after terminal takes out from terminal fixing pedestal 6 in one end of optical fiber Optical fiber is plugged in port, and sends back in original terminal fixing pedestal 6 after being pulled out after having tested, Mechanical hand uses six axis robot, and corresponding mechanical hand is equipped with on the back timber and base plate of frame is easy to machinery The guide rail 8 that hands moves.Also include a counter weight device, for making the test optical fiber being captured by mechanical hand and mentioning The line body of test optical fiber is made to be straightened after producing certain pulling force downwards, it is to avoid due to the flexible spy of optical fiber material Point causes adjacent test Optical Fiber Winding together, and counter weight device includes joining one to one with test optical fiber Pouring weight.Also include a fibre-optical splice cleaner 5, be carried out for terminal that test optical fiber is plugged into, with Just remove the microdebris produced in swapping process, prevent it to test inside of optical fibre, test optical fiber machine Test result is affected after polluting with the port of plugging into of optic module.Fibre-optical splice cleaner 5 uses one The fibre-optical splice cleaner being cleaned by the terminal of plugging into of anhydrous alcohol rubbing test optical fiber, it is also possible to Use and optical fiber plugged into the fibre-optical splice cleaner that terminal is cleaned by compressed air dedusting agent.Machine Tool hands includes mechanical hand suspension 71, jaw 73 and jaw suspension 72, the upper end of mechanical hand suspension 71 and under Guide rail on the back timber of end rolling connection frame 1 respectively and base plate, it is simple to mechanical hand is on horizontal level Transfer, jaw 73 carries out plugging operation after the terminal of plugging into gripping test optical fiber, and jaw 73 is arranged On jaw cantilever 72, jaw cantilever 72 is connected with mechanical hand suspension 71.Also include a positioner 9, Plug into the position of port for being gathered the optical fiber on optical fiber veneer by shooting mode, pass through computer disposal After make the transfer location of mechanical hand more accurate, positioner 9 uses a photographic head, and photographic head is arranged at folder On pawl cantilever 72.

This utility model is inserted by arranging six axis robot analog manual operation terminal of plugging into optical fiber Pull out, coordinate the veneer fixed part of plug type, it is achieved that the automatization's plug in optic module test process Operation, improves homework precision and work efficiency, meets the rhythm needs of optic module automated production.

Foregoing has been shown and described ultimate principle of the present utility model, principal character and this utility model Advantage.Skilled person will appreciate that of the industry, this utility model is not restricted to the described embodiments, Principle of the present utility model is simply described, without departing from this practicality described in above-described embodiment and description On the premise of novel spirit and scope, this utility model also has various changes and modifications, these change and Improve in the range of both falling within claimed this utility model.This utility model claims scope by appended Claims and equivalent define.

Claims (7)

1. an optic module test system, including test machine main body, described test machine main body includes frame, Described frame is the frame structure that metal is made, including back frame, front-side frame, back timber and base plate, Test optical fiber machine and optical fiber veneer to be tested are all placed and are fixed in described frame, it is characterised in that Described frame is provided with a veneer fixed part, and described veneer fixed part includes that at least two is for placing and solid Determining the abstracting rack of optical fiber veneer, the placement of the corresponding optical fiber veneer of arbitrary described abstracting rack, described veneer is solid Determine portion to be positioned in the back frame of described frame；

Be provided with outside described veneer fixed part one for place test optical fiber coil holder, described test optical fiber use Plugging into port in the corresponding optical fiber connecting test optical fiber machine and optical fiber veneer, described coil holder is positioned at back frame And between front-side frame, and be fixed on the base plate of frame, it is solid that described coil holder is provided with at least two terminal Reservation, the one end for placing described test optical fiber plugs into terminal, arbitrary described terminal fixing pedestal correspondence one Described test optical fiber, the other end of described test optical fiber plug into terminal from coil holder draw after be connected to described light The optical fiber of fine test machine is plugged on port；

Being provided with a mechanical hand between back timber and the base plate of described frame, described mechanical hand is used for before testing to Plug into after terminal takes out from terminal fixing pedestal and position and be plugged into the right of optical fiber veneer in one end of test optical fiber Answer optical fiber to plug in port, and send back in original terminal fixing pedestal after being pulled out after having tested, Described mechanical hand uses a six axis robot, corresponding described mechanical hand to be all provided with on the back timber and base plate of frame Have and be easy to the guide rail that mechanical hand moves.

A kind of optic module test system the most according to claim 1, it is characterised in that also include One counter weight device, for making the test optical fiber being captured by mechanical hand and mentioning make after producing downwards certain pulling force The line body of test optical fiber is straightened, and described counter weight device includes and described test optical fiber counterweight one to one Block.

A kind of optic module test system the most according to claim 1, it is characterised in that also include The one fibre-optical splice cleaner being carried out for terminal that test optical fiber is plugged into.

A kind of optic module test system the most according to claim 3, it is characterised in that described light Fine joint cleaner uses the optical fiber being cleaned by the terminal of plugging into of anhydrous alcohol rubbing test optical fiber Joint cleaner.

A kind of optic module test system the most according to claim 3, it is characterised in that described light Fine joint cleaner uses one to be plugged into optical fiber the optical fiber that terminal is cleaned by compressed air dedusting agent Joint cleaner.

6. testing system according to a kind of optic module described in any one of claim 1 to 5, its feature exists In, described mechanical hand includes mechanical hand suspension, jaw and jaw suspension, the upper end of described mechanical hand suspension Roll the guide rail connected on the back timber of described frame and base plate respectively with lower end, described jaw is used for gripping survey Carrying out plugging operation after the terminal of plugging into of examination optical fiber, described jaw is arranged on described jaw cantilever, described Jaw cantilever is connected with described mechanical hand suspension.

A kind of optic module test system the most according to claim 6, it is characterised in that also include One plugs into the positioner of port position for gathering the optical fiber on optical fiber veneer by shooting mode, described Positioner uses a photographic head, described photographic head to be arranged on the jaw cantilever of described mechanical hand.