CN205940929U - But automatic detecting system of plug receiving and dispatching optical module - Google Patents
But automatic detecting system of plug receiving and dispatching optical module Download PDFInfo
- Publication number
- CN205940929U CN205940929U CN201620839271.0U CN201620839271U CN205940929U CN 205940929 U CN205940929 U CN 205940929U CN 201620839271 U CN201620839271 U CN 201620839271U CN 205940929 U CN205940929 U CN 205940929U
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- Prior art keywords
- pluggable
- emission
- module
- reception module
- sfp
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Abstract
The utility model especially relates to a but automatic detecting system of plug receiving and dispatching optical module. The system includes the frame and sets up the workstation in the frame, SFP transmission structure, SFP robot assembly, optic fibre robot assembly and module testing structure have been set gradually according to the process on the workstation. The utility model discloses a combination work of SFP transmission structure, SFP robot assembly, optic fibre robot assembly and module testing structure has realized the automatic testing process, but has improved the detection precision and the detection efficiency of plug receiving and dispatching optical modules, has reduced the detection cost simultaneously.
Description
Technical field
This utility model is related to automatic detection field, particularly to a kind of pluggable emission and reception module Aulomatizeted Detect system
System.
Background technology
Optical module is optic module again, is made up of opto-electronic device, functional circuit and optical interface etc., is used for carrying out photoelectricity
Conversion, that is, transmitting terminal converts electrical signals into optical signal, and after being transmitted by optical fiber, receiving terminal is converted into telecommunications optical signal again
Number.SMALL FORM PLUGGABLE (referred to as SFP), Chinese is SFP emission and reception module, is optical module
A kind of.The traditional detection mode of SFP optical module typically adopts purely manual detection or by the semi-automatic detection of machine, in these sides
Detect there are a lot of factors affecting testing result, such as under formula:Optical fiber head quality, with the presence of certain tolerance, easily causes SFP light
The error of module finished product detection quality, thus leading to quality of finished cannot accurately grasp it is difficult to improve qualification rate, improves into
This;Meanwhile, manual inspection and semi-automatic detection efficiency are low, and testing cost is high, is also unfavorable for mass detection.It is therefore desirable to carrying
For a kind of pluggable emission and reception module automated detection system, realize Aulomatizeted Detect work, can automatically differentiate between good and evil simultaneously
Product simultaneously carries out blanking of classifying, and improves work efficiency, realizes mass detection.
Utility model content
This utility model provides a kind of pluggable emission and reception module automated detection system, solves above technology and asks
Topic.
The technical scheme that this utility model solves above-mentioned technical problem is as follows:A kind of inspection of pluggable emission and reception module automatization
Examining system, including frame and the workbench being arranged in frame;It is disposed with according to operation on described workbench:
For transmitting the SFP transmission structure of pluggable emission and reception module;
For capturing pluggable emission and reception module from described SFP transmission structure, and pluggable emission and reception module is installed
To module testing structure and will in pluggable emission and reception module slave module test structure take out SFP mechanical arm assembly;
For capturing and wiping optical fiber, and by the optical fiber after wiping be attached to module testing structure and by described optical fiber from
The mechanical fiber optic handss assembly taking out in module testing structure;
And the module testing structure for being detected to described pluggable emission and reception module.
On the basis of technique scheme, this utility model can also do following improvement.
Further, also include the feed bin storing classifiedly for the pluggable emission and reception module that detection is finished;Described feed bin
Including the defective products disk for placing substandard products, described defective products disk is arranged on described SFP transmission structure.
Further, described SFP mechanical arm assembly includes the SFP clamp structure for capturing pluggable emission and reception module and use
In drive described SFP clamp structure along X-axis, Y-axis, three direction movements of Z axis SFP moving structure;Described SFP moving structure bag
Include vertically disposed first X-axis motion module and the first Y-axis motion module, described first X-axis motion module one end is provided with an X
Axle motion motor, first Y-axis motion module one end arranges the first Y-axis motion motor;Described SFP clamp structure passes through first and connects
Part is arranged on described SFP moving structure, and described the first connecting portion part is provided with lifting slider and is used for driving described liter
The Z axis motion motor that fall slide block moves along Z-direction, described SFP clamp structure is connected with described lifting slider;Described first
Y-axis motion module is arranged near described SFP transmission structure.
Further, described SFP clamp structure includes at least one for the gas pawl capturing pluggable emission and reception module;Described
Gas pawl includes cylinder, slide unit, the first jig arm and the second jig arm, and described slide unit is arranged on cylinder by screw, the first jig arm and
Second jig arm is arranged on slide unit, and described cylinder drives the first jig arm and the relative movement on described slide unit of the second jig arm respectively.
Further, described mechanical fiber optic handss assembly includes the fiber orientation mould for fixing optical fiber according to operation setting
Tool, the fiber end face imaging arrangement for detection fiber end face cleannes, the optical fiber cleaning for being carried out to fiber end face
Structure and be used for grip optical fiber and drive optical fiber described fiber orientation mould, fiber end face imaging arrangement, optical fiber cleaning knot
The optical fiber moving structure of movement between structure and module testing structure.
Further, described optical fiber moving structure includes driving described clamping knot for the clamping structure and being used for of grip optical fiber
The motion structure that structure moves along X-axis, Y-axis and three directions of Z axis;Described motion structure includes the second X-axis motion module and setting
In the second X-axis motion motor of second X-axis motion module one end, described clamping structure is arranged on described by second connecting portion part
On second X-axis motion module;The 2nd Y driving clamping structure to move along Y direction is provided on described second connecting portion part
Axle motion motor and motor vertical, described clamping structure and described vertical electricity for driving clamping structure to move along Z-direction
Machine is connected;Described clamping structure includes clamping cylinder and is arranged on the clamping limb of described clamping cylinder front end, described clamping limb
For grip optical fiber chuck.
Further, described module testing structure includes the module testing plate for inserting pluggable emission and reception module and setting
Below module testing plate, for the tail plug that the tail plug of the pluggable emission and reception module in module testing plate is gone out or inserted
Connect-disconnect structure.
Further, also include the automatic report being respectively connected with described mechanical fiber optic handss assembly and described module testing structure
Alert structure.
Further, in described pluggable emission and reception module automated detection system with described pluggable emission and reception module and light
The position that fibre contacts is all using antistatic material.
This utility model has the advantages that:
(1) system many places of the present utility model use cylinder, motor, and are controlled using program, have fully demonstrated electricity
With the combination of gas, detection process is simpler, and can improve detection efficiency.
(2) by the way of Aulomatizeted Detect, save human cost.
(3) system of the present utility model is provided with fiber end face imaging arrangement and optical fiber cleaning structure, can strengthen and can insert
Pull out the accuracy of emission and reception module automatic detection, thus meeting customer need.
(4) this utility model is provided with alarm module, can last up to less than criterion of acceptability in the cleannes of fiber end face
When, remind operator that optical fiber is changed;And continuous detecting go out pluggable emission and reception module unqualified when, remind behaviour
Find out reason as personnel.
Brief description
Fig. 1 is a kind of axonometric chart of pluggable emission and reception module automated detection system of embodiment 1;
Fig. 2 is a kind of top view of pluggable emission and reception module automated detection system of embodiment 1;
Fig. 3 is the structural representation of SFP mechanical arm assembly in embodiment 1;
Fig. 4 is the structural representation of SFP clamp structure in embodiment 1;
Fig. 5 is the structural representation of mechanical fiber optic handss assembly in embodiment 1;
Fig. 6 is the structural representation of optical fiber moving structure in embodiment 1;
Fig. 7 is the structural representation of optical fiber cleaning structure in embodiment 1;
Fig. 8 is the structural representation of module test structure in embodiment 1.
In accompanying drawing, the list of parts representated by each label is as follows:
1st, frame, 2, workbench, 3, SFP transmission structure, 4, module testing structure, 5, SFP mechanical arm assembly, 6, optical fiber machine
Tool handss assembly, 7, defective products disk, 8, SFP clamp structure, 9, SFP moving structure, the 10, first X-axis motion module, the 11, first Y-axis
Motion module, the 12, first X-axis motion motor, the 13, first Y-axis motion motor, 14, the first connecting portion part, 15, lifting slider,
16th, Z axis motion motor, 17, gas pawl, 18, cylinder, 19, slide unit, the 20, first jig arm, the 21, second jig arm, 22, fiber orientation mould
Group, 23, fiber end face imaging arrangement, 24, optical fiber cleaning structure, 25, optical fiber moving structure, 26, clamping structure, 27, motion knot
Structure, the 28, second X-axis motion module, the 29, second X-axis motion motor, 30, second connecting portion part, the 31, second Y-axis motion module,
32nd, motor vertical, 33, clamping cylinder, 34, clamping limb, 35, motor, 36, module testing plate, 37, tail plug connect-disconnect structure.
Specific embodiment
Below in conjunction with accompanying drawing, principle of the present utility model and feature are described, example is served only for explaining this practicality
New, it is not intended to limit scope of the present utility model.
Fig. 1 is a kind of axonometric chart of pluggable emission and reception module automated detection system of embodiment 1, and Fig. 2 is embodiment 1 one
Plant the top view of pluggable emission and reception module automated detection system, as shown in figure 1, the pluggable emission and reception module of embodiment 1
Automated detection system includes frame 1 and the workbench 2 being arranged in frame 1;Set gradually according to operation on described workbench 2
Have:
For transmitting the SFP transmission structure 3 of pluggable emission and reception module;
For capturing pluggable emission and reception module from described SFP transmission structure 3, and pluggable emission and reception module is installed
To module testing structure 4 and will in pluggable emission and reception module slave module test structure 4 take out SFP mechanical arm assembly 5;
For capturing and wiping optical fiber, and the optical fiber after wiping is attached to module testing structure 4 and by described optical fiber
The mechanical fiber optic handss assembly 6 taking out in slave module test structure 4;
For the module testing structure 4 that described pluggable emission and reception module is detected;
And the feed bin that the pluggable emission and reception module for finishing to detection stores classifiedly;Described feed bin is included for putting
Put the defective products disk 7 of substandard products, described defective products disk 7 is arranged on described SFP transmission structure 3.
As shown in figure 3, being the structural representation of SFP mechanical arm assembly in the present embodiment 1, including for capturing pluggable receipts
The SFP clamp structure 8 of light emitting module and for driving described SFP clamp structure 8 along X-axis, Y-axis, Z axis three direction movements
SFP moving structure 9;Described SFP moving structure 9 includes vertically disposed first X-axis motion module 10 and the first Y-axis motion module
11, described first X-axis motion module 10 one end is provided with the first X-axis motion motor 12, the first Y-axis motion module 11 one end setting the
One Y-axis motion motor 13;Described SFP clamp structure 8 is arranged on described SFP moving structure 9 by the first connecting portion part 14, and
Described the first connecting portion part 14 is provided with lifting slider 15 and the Z axis for driving described lifting slider 15 to move along Z-direction
Motion motor 16, described SFP clamp structure 8 is connected with described lifting slider 15;Described first Y-axis motion module 11 is near institute
State SFP transmission structure 3 to arrange.
As shown in figure 4, for the structural representation of SFP clamp structure 8 described in the present embodiment, it is arranged side by side including 2
For capturing the gas pawl 17 of pluggable emission and reception module;Described gas pawl 17 includes cylinder 18, slide unit 19, the first jig arm 20 and second
Jig arm 21, described slide unit 19 is arranged on cylinder 18 by screw, and the first jig arm 20 and the second jig arm 21 are arranged on slide unit 19,
Described cylinder 18 drives the first jig arm 20 and the relative movement on described slide unit 19 of the second jig arm 21 respectively.
As shown in figure 5, being the structural representation of mechanical fiber optic handss assembly 6 in the present embodiment 1, including arrange according to operation
For fixing the fiber orientation mould 22 of optical fiber, being used for the fiber end face imaging arrangement 23 of detection fiber end face cleannes, be used for
Optical fiber cleaning structure 24 that fiber end face is carried out and be used for grip optical fiber and drive optical fiber in described fiber orientation mould
The optical fiber moving structure of movement between tool 22, fiber end face imaging arrangement 23, optical fiber cleaning structure 24 and module testing structure 4
25.
As shown in fig. 6, being the structural representation of optical fiber moving structure 25, described optical fiber moving structure 25 is included for clamping
The clamping structure 26 of optical fiber and the motion structure for driving described clamping structure 26 to move along X-axis, Y-axis and three directions of Z axis
27;Described motion structure 27 includes the second X-axis motion module 28 and the second X-axis fortune being arranged on second X-axis motion module one end
Galvanic electricity machine 29, described clamping structure 26 is arranged on described second X-axis motion module 28 by second connecting portion part 30;Described
It is provided for driving the second Y-axis motion motor 31 that clamping structure 26 moves along Y direction in two connection members 30 and be used for carrying
Dynamic clamping structure 26 is connected along the clamping structure 26 described in motor vertical 32 that Z-direction is moved with described motor vertical 32;Institute
State clamping structure 26 and include clamping cylinder 33 and the clamping limb 34 being arranged on described clamping cylinder 33 front end, described clamping limb 34 is used
In grip optical fiber chuck.
As shown in fig. 7, being the structural representation of optical fiber cleaning structure 24 in embodiment 1, described in the present embodiment, optical fiber is clear
Washing structure 24 is dustless paper-tape equipment, and described dustless paper-tape equipment includes dustless paper tape and is used for driving described dustless paper tape motion
Motor 35, described dustless paper tape contacted with the end face to be cleaned of the optical fiber being inserted in described dustless paper-tape equipment.
Fig. 8 is the structural representation of module test structure in embodiment 1, as shown in figure 8, described module testing structure 4 is wrapped
Include the module testing plate 36 for inserting pluggable emission and reception module and be arranged on below module testing plate 36, for surveying module
The tail plug connect-disconnect structure 37 that the tail plug of the pluggable emission and reception module in test plate (panel) 36 goes out or inserts.
In the present embodiment, also include being respectively connected with described mechanical fiber optic handss assembly 6 and described module testing structure 4
Automatic alarm structure.When the optical fiber end surface cleannes that fiber end face imaging arrangement 23 detects are undesirable, can deliver to
Carry out end face cleaning in optical fiber cleaning structure 24, deliver to fiber end face imaging arrangement 23 after the completion of cleaning and detected again, if
Unqualified, then carry out end face cleaning again, until testing result is qualified.When fiber end face imaging arrangement 23 enters to same optical fiber
The number of times of row detection reaches given threshold, and when last testing result is still unqualified, automatic alarm mechanism is carried out
Sound and light alarm, points out the optical fiber that operator more renew, thus improve testing result correctness.Additionally, when module testing knot
When structure continuously judges described smooth emission secondary module for substandard products, also can carry out sound and light alarm, point out operator to check that problem is located.
In the present embodiment, with described pluggable emission and reception module and optical fiber phase in described pluggable emission and reception module automated detection system
The position of contact is all using antistatic material.
This utility model has the advantages that:
(1) system many places of the present utility model use cylinder, motor, and are controlled using program, have fully demonstrated electricity
With the combination of gas, detection process is simpler, and can improve detection efficiency.
(2) by the way of Aulomatizeted Detect, save human cost.
(3) system of the present utility model is provided with fiber end face imaging arrangement and optical fiber cleaning structure, can strengthen and can insert
Pull out the accuracy of emission and reception module automatic detection, thus meeting customer need.
(4) this utility model is provided with alarm module, can last up to less than criterion of acceptability in the cleannes of fiber end face
When, remind operator that optical fiber is changed;And continuous detecting go out pluggable emission and reception module unqualified when, remind behaviour
Find out reason as personnel.
Although of the present utility model embodiment has been shown and described above it is to be understood that above-described embodiment is
Exemplary it is impossible to be interpreted as that those of ordinary skill in the art is in scope of the present utility model to restriction of the present utility model
Interior above-described embodiment can be changed, change, replacing and modification.
Claims (9)
1. a kind of pluggable emission and reception module automated detection system is it is characterised in that including frame and being arranged in frame
Workbench;It is disposed with according to operation on described workbench:
For transmitting the SFP transmission structure of pluggable emission and reception module;
For capturing pluggable emission and reception module from described SFP transmission structure, and pluggable emission and reception module is attached to mould
Block test structure and the SFP mechanical arm assembly that will take out in pluggable emission and reception module slave module test structure;
For capturing and wiping optical fiber, and the optical fiber after wiping is attached to module testing structure and by described optical fiber slave module
The mechanical fiber optic handss assembly taking out in test structure;
And the module testing structure for being detected to described pluggable emission and reception module.
2. pluggable emission and reception module automated detection system according to claim 1 it is characterised in that also include for
The feed bin that the pluggable emission and reception module that detection is finished stores classifiedly;Described feed bin includes the defective products for placing substandard products
Disk, described defective products disk is arranged on described SFP transmission structure.
3. pluggable emission and reception module automated detection system according to claim 1 and 2 is it is characterised in that described SFP
Mechanical arm assembly includes the SFP clamp structure for capturing pluggable emission and reception module and is used for driving described SFP clamp structure
Along X-axis, Y-axis, three direction movements of Z axis SFP moving structure;Described SFP moving structure includes vertically disposed first X-axis fortune
Dynamic model group and the first Y-axis motion module, described first X-axis motion module one end is provided with the first X-axis motion motor, the first Y-axis fortune
Dynamic model group one end arranges the first Y-axis motion motor;Described SFP clamp structure is arranged on described SFP by the first connecting portion part and moves
In dynamic structure, and described the first connecting portion part is provided with lifting slider and is used for driving described lifting slider to move along Z-direction
Z axis motion motor, described SFP clamp structure is connected with described lifting slider;Described first Y-axis motion module is near described
SFP transmission structure is arranged.
4. pluggable emission and reception module automated detection system according to claim 3 it is characterised in that:Described SFP folder
Hold structure and include at least one for the gas pawl capturing pluggable emission and reception module;Described gas pawl includes cylinder, slide unit, the first folder
Arm and the second jig arm, described slide unit is arranged on cylinder by screw, and the first jig arm and the second jig arm are arranged on slide unit, described
Cylinder drives the first jig arm and the relative movement on described slide unit of the second jig arm respectively.
5. pluggable emission and reception module automated detection system according to claim 3 it is characterised in that:Described optical fiber machine
Tool handss assembly includes the fiber orientation mould for fixing optical fiber according to operation setting, for detection fiber end face cleannes
Fiber end face imaging arrangement, for optical fiber cleaning structure that fiber end face is carried out and be used for grip optical fiber and drive light
The light of fine movement between described fiber orientation mould, fiber end face imaging arrangement, optical fiber cleaning structure and module testing structure
Fine moving structure.
6. pluggable emission and reception module automated detection system according to claim 5 it is characterised in that:Described optical fiber moves
Dynamic structure includes for the clamping structure of grip optical fiber and is used for driving described clamping structure along X-axis, Y-axis and three directions of Z axis
The motion structure of motion;Described motion structure includes the second X-axis motion module and be arranged on second X-axis motion module one end the
Two X-axis motion motors, described clamping structure is arranged on described second X-axis motion module by second connecting portion part;Described
It is provided for driving the second Y-axis motion motor that clamping structure moves along Y direction in two connection members and for driving clamping
The motor vertical that structure is moved along Z-direction, described clamping structure is connected with described motor vertical;Described clamping structure includes
Clamping cylinder and the clamping limb being arranged on described clamping cylinder front end, described clamping limb is used for grip optical fiber chuck.
7. pluggable emission and reception module automated detection system according to claim 3 it is characterised in that:Described module is surveyed
Examination structure includes for the module testing plate that inserts pluggable emission and reception module and is arranged on below module testing plate, for by mould
The tail plug connect-disconnect structure that the tail plug of the pluggable emission and reception module in block test board goes out or inserts.
8. pluggable emission and reception module automated detection system according to claim 3 is it is characterised in that also include and institute
State the automatic alarm structure that mechanical fiber optic handss assembly and described module testing structure are respectively connected with.
9. pluggable emission and reception module automated detection system according to claim 3 is it is characterised in that described pluggable
The position contacting with described pluggable emission and reception module and optical fiber in emission and reception module automated detection system is all using anti-quiet
Electric material.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620839271.0U CN205940929U (en) | 2016-08-04 | 2016-08-04 | But automatic detecting system of plug receiving and dispatching optical module |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620839271.0U CN205940929U (en) | 2016-08-04 | 2016-08-04 | But automatic detecting system of plug receiving and dispatching optical module |
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CN201620839271.0U Expired - Fee Related CN205940929U (en) | 2016-08-04 | 2016-08-04 | But automatic detecting system of plug receiving and dispatching optical module |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106124163A (en) * | 2016-08-04 | 2016-11-16 | 武汉亿德光兴科技有限公司 | A kind of pluggable emission and reception module automated detection system and detection method |
CN108106819A (en) * | 2018-01-30 | 2018-06-01 | 深圳市恒宝通光电子股份有限公司 | A kind of optical module automatic plug-pull device |
-
2016
- 2016-08-04 CN CN201620839271.0U patent/CN205940929U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106124163A (en) * | 2016-08-04 | 2016-11-16 | 武汉亿德光兴科技有限公司 | A kind of pluggable emission and reception module automated detection system and detection method |
CN106124163B (en) * | 2016-08-04 | 2020-10-30 | 江西山水光电科技股份有限公司 | Pluggable transceiver module automatic detection system and detection method |
CN108106819A (en) * | 2018-01-30 | 2018-06-01 | 深圳市恒宝通光电子股份有限公司 | A kind of optical module automatic plug-pull device |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170208 Termination date: 20190804 |