A kind of feed arrangement of fiber stub concentricity automatic testing equipment
Technical field
This utility model is related to the test device of fiber stub, particularly to a kind of concentricity test device of fiber stub
Feed arrangement.
Background technology
Fiber stub is indispensable fiber optic passive device in optical fiber telecommunications system, with fiber-to-the-home carry out and
The propulsion of 4G network, the demand of adapter increasingly increases.
Affected by processing technique, the lock pin grinding out in batches, external diameter difference is also larger, and certain proper circle occurs
Degree and concentricity.These parameters directly determine processed product quality, directly affect the signal of optical communication system
Decay.So, each piece of lock pin must be examined before dispatching from the factory.
Measurement currently for the concentricity of fiber stub mainly adopts manual testing's mode, and its measuring speed is slow, and holds
Easily judge by accident.Therefore, it is necessary to develop a kind of fiber stub concentricity automatic testing equipment, to improve test speed.
Utility model content
In view of current fiber stub concentricity field tests above shortcomings, this utility model provides a kind of optical fiber to insert
The feed arrangement of core concentricity automatic testing equipment, it is capable of automatic feed, decreases human intervention, improves charging speed
Degree and charging accuracy.
For reaching above-mentioned purpose, embodiment of the present utility model adopts the following technical scheme that:
A kind of feed arrangement of fiber stub concentricity automatic testing equipment, turns including feeding machanism, feeding mechanism, light source
Converting mechanism and pusher, wherein,
It is automatic that described feeding machanism, feeding mechanism, light source shifter and pusher are arranged on fiber stub concentricity
On the bearing of test device;
Described feeding machanism has material feeder and material end surface measurement optical fiber;
Described feeding mechanism has negative pressure suction nozzle, negative pressure suction nozzle rotating mechanism and motion;Described negative pressure suction nozzle can
Adsorb material from material feeder, and material end face direction can be rotated by negative pressure suction nozzle rotating mechanism;
Described light source shifter has a charging notch;
Described motion can movable negative-pressure suction nozzle to described charging notch above, and by this material be discharged into described in enter
Hopper mouth;
Described pusher has push rod, and it is automatic that material can be pushed fiber stub concentricity from charging notch by described push rod
The material holder of test device.
According to one side of the present utility model, described feeding machanism also includes a feed support, and feed riding is solid
It is scheduled on described bearing, fix described material feeder thereon;
Described material feeder includes holding flitch, gripper shoe and supplies materials and parts;Described appearance flitch is fixed on feed support, its
Surface is provided with capaciting material groove, and described capaciting material groove is in diagonal upward direction and can house material;Described gripper shoe is holding the oblique of flitch
On lower section and fixing feed support, it has an optical detection through hole;Described confession materials and parts are in the oblique upper of appearance flitch, and have one
Material guide hole;
Described capaciting material groove is connected with described optical detection through hole, material guide hole, and the material in capaciting material groove and optical detection
Through hole, material guide hole are coaxial;
The upper end of described material end surface measurement optical fiber is arranged in optical detection through hole, its top and optical detection through hole
Upper shed overlaps.
According to one side of the present utility model, described confession materials and parts also have the negative pressure through-hole being connected with material guide hole
With a passage, described negative pressure through-hole and described passage are in the both sides of material guide hole;Described negative pressure through-hole and a negative pressure pump phase
Even.
According to one side of the present utility model, described feeding machanism also includes material supply actuator, and described material supplies
To actuator, there is the first cylinder, the first cylinder has piston and the first push rod being connected with piston, the end of the first push rod with
Described confession materials and parts are fixedly connected;Wherein, the direction of described cylinder is the above-below direction along feed holder orientation.Preferably, described
The end of the first push rod that material supplies actuator is fixedly connected with an adjusting connector, and this adjusting connector is fixed with for materials and parts
Connect.
According to one side of the present utility model, described feed support has a feed notch, and this feed notch can allow
Described negative pressure pump moves with the motion for materials and parts.
According to one side of the present utility model, in the described lower surface holding flitch, there is a detection and localization hole, described fixed
Position detection hole is connected with the lower end of described capaciting material groove, setting one positioning optical fiber in it.
According to one side of the present utility model, described motion includes rail slider mechanism and cylinder telescoping mechanism;
Described rail slider mechanism includes the pedestal being fixed on bearing, pedestal is provided with a Qian shape part, in Qian shape
It is provided with slide bar between the two side of part;Setting slide block and slider-actuated mechanism on slide bar;
Telescopic-cylinder mechanism includes Telescopic-cylinder block and Telescopic Fixed piece;Described Telescopic-cylinder block is fixed on the upper table of slide block
Face, it has the second cylinder mechanism, and the piston of the second cylinder mechanism is connected with the second push rod;Connect institute in the end of the second push rod
State Telescopic Fixed piece;
Described negative pressure suction nozzle includes a suction nozzle, suction nozzle fixed plate and gas connection, and wherein, suction nozzle axle is located at suction nozzle fixed plate
On, gas connection is arranged on the opposite side of suction nozzle fixed plate and is connected with suction nozzle;Described suction nozzle fixed plate is Telescopic Fixed with described
Block is fixedly connected;
Described negative pressure suction nozzle rotating mechanism includes a rotary cylinder, and described rotary cylinder is fixed on described suction nozzle fixed plate
On;The main shaft of rotary cylinder is parallel with suction nozzle, and is connected by band between the two.
According to one side of the present utility model, the side of the opening angularly disposed negative pressure suction nozzle of described Qian shape part.Enter one
Preferably, described second cylinder mechanism is arranged on the top half of telescopic block to step, and the second push rod is arranged on Telescopic-cylinder mould
The latter half of block, the described Telescopic Fixed piece upper surface being arranged on cylinder.
According to one side of the present utility model, described suction nozzle fixed plate has a linking arm, and this linking arm is fixed on to be stretched
On contracting fixed block;At Telescopic Fixed piece, in addition a reinforcement is set and suction nozzle fixed plate between.
According to one side of the present utility model, described light source shifter includes light source conversion cradle, connecting rod and charging
Notch;Wherein, described light source conversion cradle is fixed on the bearing of fiber stub concentricity automatic testing equipment, and it is provided with
Three cylinder mechanisms, the 3rd cylinder mechanism has the 3rd push rod, and described 3rd push rod is connected with described connecting rod, and connecting rod is provided with
Described charging notch.
The advantage that this utility model is implemented:
A kind of feed arrangement of fiber stub concentricity automatic testing equipment that this utility model provides, it can be automatically complete
Become all fill process such as feed, walking direction, feeding, direction calibration, shifting material, blowing, pusher piece by piece, fill process is simple,
Save time convenient and the deviation thinking that intervention brings can be reduced, significantly improve efficiency and the accuracy rate of fiber stub detection,
Reduce testing cost.The feed arrangement of this fiber stub concentricity automatic testing equipment, it adopts modularized design, is occurring
During fault, to proceed test assignment, and outside malfunctioning module can be overhauled replacement module rapidly, not only overhauling
Convenient, and the time of delaying work can be reduced, simply efficiently.
Brief description
In order to be illustrated more clearly that the technical scheme in this utility model embodiment, will make to required in embodiment below
Accompanying drawing be briefly described it should be apparent that, drawings in the following description be only some embodiments of the present utility model,
For those of ordinary skill in the art, on the premise of not paying creative work, can also obtain according to these accompanying drawings
Other accompanying drawings.
Fig. 1 is a kind of schematic appearance of fiber stub concentricity automatic testing equipment disclosed in the utility model.
Fig. 2 is a kind of mechanism on bearing for the fiber stub concentricity automatic testing equipment disclosed in the utility model
Structural representation.
Fig. 3 is a kind of three-dimensional view of material storage mechanism disclosed in the utility model.
Fig. 4 is a kind of three-dimensional view of feeding machanism disclosed in the utility model.
Fig. 5 is a kind of three-dimensional view of feeding mechanism disclosed in the utility model.
Fig. 6 is a kind of three-dimensional view of pusher disclosed in the utility model.
Fig. 7 is a kind of three-dimensional view of light source shifter disclosed in the utility model.
Fig. 8 is a kind of three-dimensional view of optical signalling collecting mechanism disclosed in the utility model.
Fig. 9 is a kind of three-dimensional view of material rotating mechanism disclosed in the utility model.
Figure 10 is a kind of three-dimensional view of stepping mechanism disclosed in the utility model.
Specific embodiment
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out
Clearly and completely description is it is clear that described embodiment is only a part of embodiment of this utility model rather than whole
Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of making creative work
The every other embodiment being obtained, broadly falls into the scope of this utility model protection.
Embodiment one,
A kind of feed arrangement of fiber stub concentricity automatic testing equipment, including feeding machanism 3, feeding mechanism 4, light source
Shifter 61 and pusher 5, wherein,
Described feeding machanism 3, feeding mechanism 4, light source shifter 61 and pusher 5 are arranged on fiber stub concentricity
On the bearing 15 of automatic testing equipment;
Described feeding machanism 3 has material feeder 32 and material end surface measurement optical fiber 3222;
Described feeding mechanism has negative pressure suction nozzle 43, negative pressure suction nozzle rotating mechanism 44 and motion;Described negative pressure suction nozzle
43 can adsorb material from material feeder 32, and can rotate material end face direction by negative pressure suction nozzle rotating mechanism 44;
Described light source shifter 61 has a charging notch 615;
Described motion can movable negative-pressure suction nozzle feed above notch 615 to described, and this material is discharged into institute
State charging notch 615;
Described pusher 5 has push rod, and material can be pushed fiber stub concentricity from charging notch 615 by described push rod
The material holder 71 of automatic testing equipment.
A kind of feed arrangement of fiber stub concentricity automatic testing equipment that this utility model provides, it can be automatically complete
Become all fill process such as feed, walking direction, feeding, direction calibration, shifting material, blowing, pusher piece by piece, fill process is simple,
Save time convenient and the deviation thinking that intervention brings can be reduced, significantly improve efficiency and the accuracy rate of fiber stub detection,
Reduce testing cost.The feed arrangement of this fiber stub concentricity automatic testing equipment, it adopts modularized design, is occurring
During fault, to proceed test assignment, and outside malfunctioning module can be overhauled replacement module rapidly, not only overhauling
Convenient, and the time of delaying work can be reduced, simply efficiently.
Wherein, in a kind of concrete application, described feeding machanism 3 also includes a feed support 31, and feed support 31 tilts
It is fixed on described bearing 15, fix described material feeder 32 thereon;
Described material feeder 32 includes holding flitch 321, gripper shoe 322 and supplies materials and parts 323;Described appearance flitch 321 is fixing
On feed support 31, its surface is provided with capaciting material groove 3210, and described capaciting material groove 3210 is in diagonal upward direction and being capable of content
Material;In the obliquely downward holding flitch 321 and on fixing feed support 31, it has an optical detection through hole to described gripper shoe 322
3221;Described confession materials and parts 323 are in the oblique upper of appearance flitch 321, and have a material guide hole 3231.Described capaciting material groove 3210 and institute
State optical detection through hole 3221, material guide hole 3231 connects, and the material in capaciting material groove 3210 and optical detection through hole 3221, thing
Material guide hole 3231 is coaxial;
The upper end of described material end surface measurement optical fiber 3222 is arranged in optical detection through hole 3221, and its top is examined with optics
The upper shed surveying through hole 3221 overlaps.Because described feed support 31 tilts to be fixed on bearing, then described so that fixing
Appearance flitch 321 on this feed support, gripper shoe 322 and be respectively provided with identical gradient for materials and parts 323, cause thing therein
Material guide hole and capaciting material groove also have certain gradient.This gradient one side makes material obtain charging power and avoid vertical
Feed the material that leads to and the increasing of the possible damage of equipment and abrasion, on the other hand this angle of inclination is so that material has
Suitable angle is conveniently by the absorption of negative pressure suction nozzle.Because the shape of two end faces of material is different, its front end face area is little, after
Face area is big, and front/rear end blocks difference so that the optical fiber detected by detection fiber is strong to material end surface measurement optical fiber
Degree is different, by change-over circuit and comparison circuit it is easy to judge end face information in capaciting material groove for the material.
Wherein, in a kind of more specific application, it is negative that described confession materials and parts 323 also have being connected with material guide hole 3231
Pressure through hole and a passage, described negative pressure through-hole and described passage are in the both sides of material guide hole 3231;Described negative pressure through-hole with
One negative pressure pump 3232 is connected.So, by the suction function of negative pressure pump, material can be adsorbed in material guide hole, it is to avoid should
The interference to the material in capaciting material groove for the material.
Wherein, in a kind of more specific application, described feeding machanism also includes material supply actuator 34, and described material supplies
To actuator 34, there is the first cylinder, the first cylinder has piston and the first push rod being connected with piston, the end of the first push rod
It is fixedly connected with described confession materials and parts 323;Wherein, the direction of described cylinder is the above-below direction along feed support 31 direction.Preferably
Ground, described material supply actuator 34 includes adjusting fixing device 341, and described regulation fixing device 341 arranges the first push rod, the
The end of one push rod is fixedly connected with an adjusting connector 342, and this adjusting connector 342 is fixedly connected with for materials and parts 323.
Wherein, in a kind of more specific application, described feed support 31 has a feed notch 311, this feed notch 311
Described negative pressure pump 3232 can be allowed to move with the motion for materials and parts 323.So, the upper of actuator 34 can be supplied by material
Lower motion, and the cooperation of negative pressure pump during feeding, moves up for materials and parts, on the one hand can avoid so that negative pressure suction nozzle comes
For the material in materials and parts, in generation, is taken with the interference of material, on the other hand, the interference to reclaiming process for materials and parts can be avoided, make appearance material
Groove fully exposes, and is that feeding leaves and takes greater room.
Wherein, in a kind of more specific application, in the described lower surface holding flitch 321, there is a detection and localization hole, described
Detection and localization hole is connected with the lower end of described capaciting material groove 3210, setting one positioning optical fiber 33 in it.So, when having in capaciting material groove
During material, the end face of this positioning optical fiber 33 is blocked, and when not having material in capaciting material groove, the end face of this positioning optical fiber does not hide
Gear, it can detect stronger extraneous light.
Wherein, in a kind of concrete application, described motion includes rail slider mechanism 41 and cylinder telescoping mechanism 42;
Described rail slider mechanism 41 includes the pedestal being fixed on bearing 15, and pedestal is provided with a Qian shape part 412,
It is provided with slide bar 413 between the two side of Qian shape part 412;Setting slide block 414 and slider-actuated mechanism on slide bar 413;This track
Slide block mechanism can realize moving left and right of negative pressure suction nozzle.
Telescopic-cylinder mechanism 42 includes Telescopic-cylinder block 421 and Telescopic Fixed piece 424;Described Telescopic-cylinder block 421 is fixing
In the upper surface of slide block 414, it has the second cylinder mechanism 422, and the piston of the second cylinder mechanism 422 is connected with the second push rod
423;Connect described Telescopic Fixed piece 424 in the end of the second push rod 423;This Telescopic-cylinder mechanism can realize negative pressure suction nozzle
Stretching motion.
Described negative pressure suction nozzle 43 includes a suction nozzle 431, suction nozzle fixed plate 432 and gas connection 433, wherein, suction nozzle 431 axle
It is located in suction nozzle fixed plate 432, gas connection 433 is arranged on the opposite side of suction nozzle fixed plate 432 and is connected with suction nozzle 431;Institute
State suction nozzle fixed plate 432 to be fixedly connected with described Telescopic Fixed piece 424;
Described negative pressure suction nozzle rotating mechanism 44 includes a rotary cylinder 441, and described rotary cylinder 441 is fixed on described suction nozzle
In fixed plate 432;The main shaft of rotary cylinder is parallel with suction nozzle 431, and is connected by band between the two.So, can be according to thing
Material end face information, decides whether to realize by rotary suction nozzle adjusting end face.
Wherein, in a kind of more specific application, the side of the opening angularly disposed negative pressure suction nozzle 43 of described Qian shape part 412.
In more specifically a kind of application, described second cylinder mechanism 422 is arranged on the top half of Telescopic-cylinder block 421,
Second push rod 423 is arranged on the latter half of Telescopic-cylinder block 421, and described Telescopic Fixed piece 424 upper with Telescopic-cylinder block 421
Surface contact connects.So, it is possible to achieve the more preferable support to whole negative pressure nozzle unit, and ensure the motion rail of negative pressure suction nozzle
Mark stable with accurately.
Wherein, in a kind of more specific application, described suction nozzle fixed plate 432 has a linking arm, and this linking arm is fixed on
On Telescopic Fixed piece 424;At Telescopic Fixed piece 424, in addition a reinforcement is set and suction nozzle fixed plate 432 between.So, no
Only make structure more succinctly reasonable, and so that the motion of negative pressure suction nozzle is more stable.
Wherein, in a kind of concrete application, described light source shifter 61 includes light source conversion cradle 611, connecting rod 613 and
Charging notch 615;Wherein, described light source conversion cradle is fixed on the bearing 15 of fiber stub concentricity automatic testing equipment,
It is provided with the 3rd cylinder mechanism 612, and the 3rd cylinder mechanism 612 has the 3rd push rod, described 3rd push rod and described connecting rod
613 are connected, and connecting rod is provided with described charging notch 615.So, connecting rod can be arranged light source and charging notch, and pass through
The conversion between charging and light source function is realized in the motion of the 3rd cylinder mechanism drivening rod.
The advantage that this utility model is implemented:
A kind of feed arrangement of fiber stub concentricity automatic testing equipment that this utility model provides, it can be automatically complete
Become all fill process such as feed, walking direction, feeding, direction calibration, shifting material, blowing, pusher piece by piece, fill process is simple,
Save time convenient and the deviation thinking that intervention brings can be reduced, significantly improve efficiency and the accuracy rate of fiber stub detection,
Reduce testing cost.The feed arrangement of this fiber stub concentricity automatic testing equipment, it adopts modularized design, is occurring
During fault, to proceed test assignment, and outside malfunctioning module can be overhauled replacement module rapidly, not only overhauling
Convenient, and the time of delaying work can be reduced, simply efficiently.
Embodiment two,
A kind of fiber stub concentricity automatic testing equipment based on embodiment one, including:Bearing 15, material storage mechanism 2, confession
Material mechanism 3, feeding mechanism 4, pusher 5, optical measurement mechanism 6, material rotating mechanism 7, stepping mechanism 8 and controlling organization;
Wherein,
Material storage mechanism 2, feeding machanism 3, feeding mechanism 4, pusher 5, optical measurement mechanism 6 and material rotating mechanism 7
Be fixed on bearing 15, stepping mechanism 8 is fixed on the side of bearing 15, described controlling organization be fixed on bearing and respectively with storage
Material mechanism 2, feeding machanism 3, feeding mechanism 4, pusher 5, optical measurement mechanism 6, material rotating mechanism 7, stepping mechanism 8 phase
Connect;
It is connected by pipeline between described material storage mechanism and feeding machanism so that the material storing in material storage mechanism is defeated one by one
Deliver to feeding machanism;
Described feeding machanism 3 has material feeder 32 and material end surface measurement optical fiber 3222;
Described feeding mechanism has negative pressure suction nozzle 43, negative pressure suction nozzle rotating mechanism 44 and motion;Described negative pressure suction nozzle
43 can adsorb material from material feeder 32, and can rotate material end face direction by negative pressure suction nozzle rotating mechanism 44;
Described light source shifter 61 has a charging notch 615;
Described motion can movable negative-pressure suction nozzle feed above notch 615 to described, and this material is discharged into institute
State charging notch 615;
Described pusher 5 has push rod, and material can be pushed material rotating mechanism institute from charging notch 615 by described push rod
The material holder 71 of setting.
Wherein, in a kind of concrete application, this fiber stub concentricity automatic testing equipment also includes a cabinet 1, described
Cabinet is divided into upper and lower two-layer, including bracing frame 11, door 12, panel 13, dividing plate and bearing 15 and support;Described door 12 is in cabinet
Above, towards user;Panel 13 covers the surface in cabinet 1;Dividing plate is fixed on bracing frame 11 and is divided into cabinet 1 up and down
Two-layer;Described bearing 15 is fixed on the dividing plate of cabinet, and described support is fixed on the bracing frame on cabinet 1 upper strata;
The fiber stub concentricity automatic testing equipment that this utility model provides, it can be realized fiber stub concentricity and survey
The automatization that trial assembly is put, improves speed and the efficiency of test, and effectively reduces because of personnel's brought operation mistake tired out, improves
The accuracy of fiber stub concentricity test.
Wherein, in another embodiment of the present utility model, described material storage mechanism 2 include storing main body 21,
Drive system 22, discharging opening 23, disk cover 24 and firm banking 25, described drive system 22 is located at storing main body 21 side, described
Discharging opening 23 is located at storing main body 21 bottom, and described storing main body 21 includes storing main body cover, storing main body base plate, rotation master
Axle and swivel base, described storing main body cover and live spindle are all fixed on storing main body base plate, and described swivel base is solid
Be scheduled on live spindle upper end and with storing main body cover mating shapes, described swivel base is formed around draw-in groove, described disk cover
Positioned at storing main body cover end suitable for reading and with storing main body cover mating shapes, so, it is possible to achieve unordered material is real
Now it is sequentially output and makes it into feeding machanism, and disk cover 24 can prevent the impurity in the external world from entering material storage mechanism so that testing
Result is more precisely reliable.
Wherein, in another embodiment of the present utility model, described pusher 5 include pusher base 51,
Pusher power block 52, pusher Slave Block 53 and charging ram 54, described pusher base 51 is fixed on bearing 15, is fixed with thereon and pushes away
Material power block 52;Pusher power block 52 is provided with cylinder, and pusher Slave Block 53 is connected with the push rod of cylinder, has pusher thereon
Bar 54;Material can be pushed material rotating mechanism from charging notch by described charging ram 54.So, can be by way of pneumatic
Realize the motor control of charging ram.
Wherein, in another embodiment of the present utility model, described optical measurement mechanism 6 includes light source conversion
Mechanism 61 and optical signalling collecting mechanism 62.Described light source shifter 61 includes light source conversion cradle 611, the 3rd cylinder mechanism
612nd, connecting rod 613, light source 614 and charging notch 615, wherein, light source conversion cradle 611 is fixed on bearing 15, and it is fixed with
3rd cylinder mechanism 612, the piston of the 3rd cylinder mechanism 612 has piston supporting part 616, and this piston supporting part 616 slides and sets
Put above ability the 3rd cylinder mechanism 612, and be connected with connecting rod 613, connecting rod 613 has light source 614 and charging notch 615, institute
State light source 614 and feed notch 615 in the same horizontal line.So, barotropic gas or offer are passed through to the 3rd cylinder mechanism 612
Negative-pressure operation, so that connecting rod carries out the movement of left and right, and then makes light source 614 and charging notch 615 be directed at material successively
Fixing groove 711, when feeding notch 615 be aligned material fixing groove 711, material can be pushed away by charging ram 54 from feeding notch 615
Enter in material fixing groove 711;When light source 614 be aligned material fixing groove 711, concentricity test can be carried out to material.
Wherein, in another embodiment of the present utility model, described optical signalling collecting mechanism 62 includes letter
Number harvester interface 621, signal picker 622 and signal output interface 623;Described signal output interface 623 passes through holding wire
Be connected with controlling organization 9, so, the data transfer that optical signalling collecting mechanism 62 can be gathered to control device, and
After processing and judge through control device, material is carried out with the stepping operation of stepping triggering following, realizes fiber stub concentricity
Test result judges the automatization with follow-up process, and prevents from artificially judging issuable erroneous judgement and the possible mistake of artificial stepping
Maloperation.
Wherein, in another embodiment of the present utility model, described material rotating mechanism 7 includes material to be fixed
Device 71, material runing rest 72, rotating mechanism 73 and height adjustment mechanism 74;Described material runing rest 72 is arranged on bearing 15
On, there is an optical detection through hole and the altitude mixture control notch 722 above optical detection through hole, its lower end is fixed with material
Holder 71, upper end is fixed with height adjustment mechanism 74;
Material holder 71 has material fixing groove 711,
Height adjustment mechanism 74 includes an altitude mixture control base 741, and it has regulation cylinder 742, and is fixed on material rotation
Turn on support 72;The piston adjusting cylinder 742 is connected with an altitude mixture control panel phase 743;
Rotating mechanism 73 is arranged on the top of material fixing groove 711, and it includes a rotating wheel 731 and a motor 732, installs
Install on panel 733 in rotation, between the main shaft of rotating wheel 731 and motor 732 main shaft, pass through flexible connection.Panel is installed in rotation
733 are fixed on altitude mixture control panel 743.So, rotating wheel 731 and material can be adjusted by height adjustment mechanism 74
Closeness of contact, make rotating wheel 731 be in suitable position so that material enter, rotate and leave etc. easy to operate and suitable.
Wherein, in another embodiment of the present utility model, described stepping mechanism 8 includes a stepping funnel
81st, a stepping splicing groove 82, a stepping slide block 83 and a release baffle plate 84 and a stepping slide rail 85;Described release baffle plate 84 is dividing
Below shelves funnel 81, it is connected with a stepping cylinder 841, and described stepping funnel 81 is fixed on stepping slide block 83, stepping slide block
83 complement each other to form slide rail-slide block mechanism with stepping slide rail 85, and stepping slide block 85 is slidably connected with bearing 15;Stepping splicing groove
82 below stepping funnel 81, is fixed on dividing plate 14.So, it is possible to achieve the material having completed concentricity test is carried out
Make stepping by oneself, operation is succinct and accurate.In the both sides of stepping slide rail 85, there is position detector 86, it can detect that stepping is slided
The position of block 83, so that material is accurate to be entered in corresponding stepping splicing groove to making.
According to one side of the present utility model, described control device can include master control device and Pneumatic controller,
Wherein, described master control device includes PLC device or PCG device.
In a kind of specifically application, described controlling organization 9 includes a display 91, signal processor 92;Described signal
Processor 92 is processed to collected operation information, and by the regulation to the air pressure in cylinder everywhere, realizes to whole
The control of system.As such, it is possible to pass through the operation conditions to fiber stub concentricity test device for the display 91, the structure of test
And the data such as statistical information has and gets information about, conveniently carry out process control and Row control.Furthermore, it is possible to by signal
Reason device 92 realizes fiber stub concentricity test device is automatically controlled.
Wherein, in another embodiment of the present utility model, in the lower section of described bearing, there is pipeline, this pipe
Road is used for passing through of electric wire and resistance to air pipe, plays the purpose making in electric wire and pressure flue collector, so so that integral loop
Border is more neat and clean, also allows for installation and the use of equipment.
Wherein, in another embodiment of the present utility model, described cabinet is divided into upper and lower two-layer, two-layer it
Between tabula face on be provided with dividing plate, described bearing is fixed on dividing plate, that is, make bearing be fixed on the bottom of sheaf space on cabinet
On seat.
Wherein, in another embodiment of the present utility model, the side of described cabinet is also provided with door, with convenient
The installation of whole equipment and maintenance.
Wherein, in another embodiment of the present utility model, the bottom of described cabinet is provided with roller, makes
The equipment of obtaining can freely easily move.
Wherein, in another embodiment of the present utility model, the top of cabinet has signal indicator, is used for
Indicate the working condition of machine so that operator need not keep watch monitors at any time by machine, and the equipment that may be located remotely from carries out other
Operation, only need to much look around the running status that just could be aware that equipment, can greatly save manpower and improve whole efficiency.Described
Signal indicator can be light fixture or stereo set, or adopts both combinations.
The work process of fiber stub concentricity automatic testing equipment that this utility model provides is:Material is added to storage
In material mechanism 2, the work of the drive system 22 of material storage mechanism 2 make material pass sequentially through discharging opening 23 enter connect material storage mechanism and
The connecting tube of feeding machanism, and occur in capaciting material groove 3210 one by one under the control of the negative pressure pump 3232 of feeding machanism;Positioning light
Fine 34 carry out end surface measurement to the feed material in capaciting material groove 3210, and by testing result input signal processor 92;Negative pressure is inhaled
Under the control of mouth 43 in rail slide block mechanism 41 and cylinder telescoping mechanism 42, the material absorption in capaciting material groove 3210 is inhaled in negative pressure
On mouth 43, and the testing result according to material end surface measurement optical fiber 3222, adjusted by negative pressure suction nozzle rotating mechanism 44 travel direction
Whole so that the end face of material is downward;Material is discharged in charging notch 615 negative pressure suction nozzle 43, and by the control to cylinder 612
System makes charging notch 615 be aligned material fixing groove 711, and charging ram 53 action pushes material in material fixing groove 711;Cylinder
612 actions make light source 614 be aligned material fixing groove 711, and now, height adjustment mechanism 74 action makes rotating wheel 731 gently
Contactant is anticipated drive material and is rotated, and optical signalling collecting mechanism 62 gathered data is simultaneously submitted signal processor 92 and judged;Signal
Processor 92 carries out stepping so that material enters stepping funnel 81 to material after the completion of judging, stepping funnel 81 is in stepping slide block
Move under 83 drive and discharge material to corresponding stepping splicing groove 82 top.So, operator only needs phase material storage mechanism to add
Enter material, fiber stub concentricity automatic testing equipment is carried out subsequently all flow processs automatically to be completed to stepping, whole operation mistake
Journey is simple and convenient, not only increases test speed, and can avoid the human error in test process so that test result is accurate
Really reliable.Moreover, in addition to material storage mechanism, other mechanisms, all in box house, can effectively avoid introduced contaminants, dust
Impact so that test site cleaning, help to maintain the accuracy of test, contribute to the maintenance of equipment.Work(between each mechanism
Can distinguish substantially, its distribution is compact and not crowded, can reduce equipment volume while being easily installed.
The above, specific embodiment only of the present utility model, but protection domain of the present utility model does not limit to
In this, in any those skilled in the art technical scope disclosed in this utility model, the change that can readily occur in
Change or replace, all should cover within protection domain of the present utility model.Therefore, protection domain of the present utility model should be with described
Scope of the claims is defined.