CN206343395U - A kind of fiber stub concentricity automatic testing equipment - Google Patents

Abstract

The utility model discloses a kind of fiber stub concentricity automatic testing equipment, including：Cabinet, material storage mechanism, feeding machanism, feeding mechanism, pusher, optical measurement mechanism, material rotating mechanism, stepping mechanism and controlling organization；Material storage mechanism is located at the top of cabinet, and feeding machanism, feeding mechanism, pusher, optical measurement mechanism and material rotating mechanism are fixed on the bearing in cabinet, and stepping mechanism is fixed on the side of bearing, and the controlling organization is fixed on the support in cabinet；Connected between the material storage mechanism and feeding machanism by pipeline；Pusher and optical measurement mechanism are at grade；There is stepping mechanism the side of material rotating mechanism；Controlling organization includes control system and display screen, and it is connected with each mechanism and detection means by pressure pipe and/or signal wire.A kind of fiber stub concentricity automatic testing equipment disclosed in the utility model, the test of fiber stub communication can be carried out automatically, simple and convenient.

Description

A kind of fiber stub concentricity automatic testing equipment

Technical field

The utility model is related to the test device of fiber stub, the concentricity test dress of more particularly to a kind of fiber stub Put.

Background technology

Fiber stub is indispensable fiber optic passive device in optical fiber telecommunications system, with fiber-to-the-home implementation and The propulsion of 4G networks, the demand of connector increasingly increases.

Influenceed by processing technology, the lock pin come is ground 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.

At present, the measurement for the concentricity of fiber stub mainly uses manual testing's mode, and its measuring speed is slow, and holds Easily erroneous judgement.Therefore, it is necessary to a kind of fiber stub concentricity automatic testing equipment be developed, to improve test speed.

Utility model content

In view of the above shortcomings of fiber stub concentricity test at present, it is same that the utility model provides a kind of fiber stub Heart degree automatic testing equipment, it can realize the automatic test to fiber stub, reduce to artificial dependence, improve test speed Degree.

To reach above-mentioned purpose, embodiment of the present utility model is adopted the following technical scheme that：

A kind of fiber stub concentricity automatic testing equipment, including：Bearing, material storage mechanism, feeding machanism, feeding mechanism, Pusher, optical measurement mechanism, material rotating mechanism, stepping mechanism and controlling organization；Wherein：

Material storage mechanism, feeding machanism, feeding mechanism, pusher, optical measurement mechanism and material rotating mechanism are fixed on On bearing, stepping mechanism is fixed on the side of bearing, the controlling organization be fixed on bearing and respectively with material storage mechanism, feed Mechanism, feeding mechanism, pusher, optical measurement mechanism, material rotating mechanism, stepping mechanism are connected；

Connected between the material storage mechanism and feeding machanism by pipeline so that the material stored in material storage mechanism is defeated one by one It is sent to feeding machanism；The feeding machanism has material feeder and material end surface measurement optical fiber；

The feeding mechanism has negative pressure suction nozzle, negative pressure suction nozzle rotating mechanism and motion；The negative pressure suction nozzle can Material is adsorbed from material feeder, and material end face direction can be rotated by negative pressure suction nozzle rotating mechanism；The light source conversion Mechanism has a light source and a charging notch；The motion can movable negative-pressure suction nozzle to it is described charging notch above, and The material is discharged into the charging notch；The pusher has push rod, and the push rod can push away material from charging notch Enter the material fixator set by material rotating mechanism.

According to one side of the present utility model, the fiber stub concentricity automatic testing equipment also includes a cabinet, Wherein, cabinet be divided into above and below two layers, including support frame, door, panel, bearing and support；Door is set before the cabinet, towards User；Panel is covered in the surface of cabinet；The bearing is fixed on the bottom surface of cabinet, and the support is fixed on the branch of cabinet On support.In more preferably applying, the storage device is arranged on above cabinet.

According to one side of the present utility model, the feeding machanism also includes a feed support, and feed riding is consolidated It is scheduled on the bearing, the material feeder is fixed thereon；

The material feeder includes holding flitch, supporting plate and feed part；The appearance flitch is fixed on feed support, its Surface is provided with capaciting material groove, and the capaciting material groove is in diagonal upward direction and can house material；The supporting plate is holding the oblique of flitch On lower section and fixed feed support, it has an optical detection through hole；The feed part is holding the oblique upper of flitch, and with one Material guide hole；

The capaciting material groove is connected with the 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 the material end surface measurement optical fiber is arranged in optical detection through hole, its top and optical detection through hole Upper shed is overlapped.

According to one side of the present utility model, the feed part also has the negative pressure through-hole being connected with material guide hole With a passage, the negative pressure through-hole is with the passage in the both sides of material guide hole；The negative pressure through-hole and a negative pressure pump phase Even.

According to one side of the present utility model, the feeding machanism also includes material and supplies adjuster, and the material is supplied To adjuster have the first cylinder, the first push rod that the first cylinder has piston and is connected with piston, the end of the first push rod and The feed part is fixedly connected；Wherein, the direction of the cylinder is the above-below direction along feed holder orientation.Preferably, it is described The end of first push rod of material supply adjuster is fixedly connected with an adjusting connector, and the adjusting connector is fixed with feed part Connection.

According to one side of the present utility model, the feed support has a feed notch, and the feed notch can allow The negative pressure pump is moved with the motion of feed part.

According to one side of the present utility model, there is a positioning detection hole in the lower surface of the appearance flitch, it is described fixed Position detection hole is connected with the lower end of the capaciting material groove, and setting one positions optical fiber in it.

According to one side of the present utility model, the motion includes rail slider mechanism and cylinder telescoping mechanism；

The rail slider mechanism includes being provided with a Qian shape part on the pedestal being fixed on bearing, pedestal, in Qian shape Slide bar is provided between the two side of part；Sliding block and slider-actuated mechanism are set on slide bar；

Telescopic-cylinder mechanism includes Telescopic-cylinder block and Telescopic Fixed piece；The Telescopic-cylinder block is fixed on the upper table of sliding block Face, it has the second cylinder mechanism, and the piston of the second cylinder mechanism is connected with the second push rod；Institute is connected in the end of the second push rod State Telescopic Fixed piece；

The negative pressure suction nozzle includes a suction nozzle, suction nozzle fixed plate and gas connection, 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；The suction nozzle fixed plate with it is described Telescopic Fixed Block is fixedly connected；

The negative pressure suction nozzle rotating mechanism includes a rotary cylinder, and the rotary cylinder is fixed on the suction nozzle fixed plate On；The main shaft of rotary cylinder is parallel with suction nozzle, and is connected between the two by band.

According to one side of the present utility model, the side of the angularly disposed negative pressure suction nozzle of opening of the Qian shape part.Enter one Preferably, 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, described Telescopic Fixed piece be arranged on cylinder upper surface.

According to one side of the present utility model, the suction nozzle fixed plate has a linking arm, and the linking arm, which is fixed on, to be stretched On contracting fixed block；One reinforcement is set in addition between Telescopic Fixed piece and suction nozzle fixed plate.

According to one side of the present utility model, the optical measurement mechanism includes light source switching mechanism and optical signalling is adopted Collecting mechanism.The light source switching mechanism includes light source conversion cradle, connecting rod and charging notch；Wherein, the light source conversion cradle On the bearing for being fixed on fiber stub concentricity automatic testing equipment, it is provided with the 3rd cylinder mechanism, the 3rd cylinder mechanism With the 3rd push rod, the 3rd push rod is connected with the connecting rod, and the charging notch and light source are provided with connecting rod, wherein, The light source and charging notch are in the same horizontal line.

The pusher includes pusher base, pusher power block, pusher Slave Block and charging ram, and the pusher base is consolidated It is scheduled on bearing, pusher power block is fixed with thereon；Pusher power block is provided with cylinder, the push rod phase of pusher Slave Block and cylinder Connection, thereon with charging ram；The charging ram can by material from charging notch push-in material rotating mechanism.

According to one side of the present utility model, the optical signalling collecting mechanism includes signal picker interface, signal Collector and signal output interface；The signal output interface is connected by signal wire with controlling organization.

According to one side of the present utility model, the material rotating mechanism include material fixator, material runing rest, Rotating mechanism and height adjustment mechanism；The material runing rest is arranged on bearing, with an optical detection through hole and height Notch is adjusted, its lower end is fixed with material fixator, and upper end is fixed with height adjustment mechanism；

Material fixator has material fixing groove；

Height adjustment mechanism includes a height adjusting base, and it has two cylinders, and is fixed on material runing rest； The piston for adjusting cylinder is connected with a height regulation panel；

Rotating mechanism is arranged on the top of material fixing groove, and it includes a rotating wheel and a motor, is installed installed in rotation On panel, flexible connection is passed through between the main shaft and motor spindle of rotating wheel.Rotation installs panel and is fixed on height regulation panel On.

According to one side of the present utility model, the stepping mechanism include a stepping funnel, a stepping splicing groove, one point Shelves sliding block and a release baffle plate and a stepping slide rail；The release baffle plate is below stepping funnel, and it is connected with a stepping cylinder, The stepping funnel is fixed on stepping sliding block, and stepping sliding block complements each other to form slide rail-slide block mechanism, stepping with stepping slide rail Sliding block is connected with bearing sliding；Stepping splicing groove is fixed on dividing plate below stepping funnel.

According to one side of the present utility model, the rotary hopper include storing main body, drive system, discharging opening and Disk cover, the drive system is located at storing body side, and the discharging opening is located at storing bottom part body, and the storing main body includes Storing main body cover, storing main body bottom plate, live spindle and swivel base, the storing main body cover and live spindle are all fixed On storing main body bottom plate, the swivel base is fixed on live spindle upper end and matched with storing main body cover shape, institute State swivel base and be surrounded by neck, the disk cover be located at storing main body cover end suitable for reading and with storing main body cover shape phase Match somebody with somebody.

According to one side of the present utility model, the control device can include master control device and Pneumatic controller, Wherein, the master control device includes PLC device or PCG devices.

The advantage that the utility model is implemented：

A kind of fiber stub concentricity automatic testing equipment that the utility model is provided, material storage mechanism is arranged on cabinet Outside, help to feed at any time, and it can prevent the pollution of the magazines such as dust by cover plate for sealing；Remaining mechanism is set In cabinet inside, overall appearance is succinctly attractive in appearance, and internal structure is compact；Material enters feeding machanism from material storage mechanism by conduit, And determine its end face by positioning optical fiber；The negative pressure suction nozzle of feeding mechanism, can be according to the knot of end surface measurement after absorbing material Fruit passes through rotary suction nozzle so that material end face direction meets test and required；Material is pushed into after optical measurement mechanism by pusher, Optical measurements can be sent to controlling organization, and controlling organization will carry out stepping according to optical measurement structure to material；Material Enter from optical measurement mechanism after stepping mechanism, will be temporarily stored into stepping funnel, stepping mechanism will according to the instruction of control system Stepping funnel is moved to above corresponding stepping splicing groove, and stepping funnel will discharge material, and reach the purpose of material stepping.Entirely In operating process, operating personnel only need to supplement material in phase material storage mechanism and reclaim the good material of stepping, realize whole The automation of test procedure, substantially increases efficiency.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme in the utility model embodiment, it will make below to required in embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present utility model, For those of ordinary skill in the art, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings Other accompanying drawings.

Fig. 1 is a kind of schematic appearance of fiber stub concentricity automatic testing equipment described in the utility model.

Fig. 2 is a kind of knot of mechanism of the fiber stub concentricity automatic testing equipment described in the utility model on bearing Structure schematic diagram.

Fig. 3 is a kind of three-dimensional view of material storage mechanism described in the utility model.

Fig. 4 is a kind of three-dimensional view of feeding machanism described in the utility model.

Fig. 5 is a kind of three-dimensional view of feeding mechanism described in the utility model.

Fig. 6 is a kind of three-dimensional view of pusher described in the utility model.

Fig. 7 is a kind of three-dimensional view of light source switching mechanism described in the utility model.

Fig. 8 is a kind of three-dimensional view of optical signalling collecting mechanism described in the utility model.

Fig. 9 is a kind of three-dimensional view of material rotating mechanism described in the utility model.

Figure 10 is a kind of three-dimensional view of stepping mechanism described in the utility model.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

A kind of fiber stub concentricity automatic testing equipment, including：Bearing 15, material storage mechanism 2, feeding machanism 3, charger Structure 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, the controlling organization be fixed on bearing and respectively with storage Expect mechanism 2, feeding machanism 3, feeding mechanism 4, pusher 5, optical measurement mechanism 6, material rotating mechanism 7, the phase of stepping mechanism 8 Connection；

Connected between the material storage mechanism and feeding machanism by pipeline so that the material stored in material storage mechanism is defeated one by one It is sent to feeding machanism；

The feeding machanism 3 has material feeder 32 and material end surface measurement optical fiber 3222；

The feeding mechanism has negative pressure suction nozzle 43, negative pressure suction nozzle rotating mechanism 44 and motion；The 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；

The light source switching mechanism 61 has a charging notch 615；

The motion can movable negative-pressure suction nozzle to charging notch 615 top, and the material is discharged into institute State charging notch 615；

The pusher 5 have push rod, the push rod can by material from charging notch 615 be pushed into material rotating mechanism institute The material fixator 71 of setting.

Wherein, in a kind of concrete application, the fiber stub concentricity automatic testing equipment also includes a cabinet 1, described Cabinet be divided into above and below two layers, including support frame 11, door 12, panel 13, dividing plate and bearing 15 and support；The door 12 is in cabinet Above, towards user；Panel 13 is covered in the surface of cabinet 1；Above and below dividing plate is fixed on support frame 11 and by 1 point of cabinet is Two layers；The bearing 15 is fixed on the dividing plate of cabinet, and the support is fixed on the support frame on the upper strata of cabinet 1；

The fiber stub concentricity automatic testing equipment that the utility model is provided, it can realize that fiber stub concentricity is surveyed The automation that trial assembly is put, improves the speed and efficiency of test, and effectively reduces because of personnel's brought operating mistake tired out, improves The degree of accuracy of fiber stub concentricity test.

Wherein, in another embodiment of the present utility model, the material storage mechanism 2 include storing main body 21, Drive system 22, discharging opening 23, disk cover 24 and firm banking 25, the drive system 22 are located at the side of storing main body 21, described Discharging opening 23 is located at the bottom of storing main body 21, and the storing main body 21 includes storing main body cover, storing main body bottom plate, rotation master Axle and swivel base, the storing main body cover and live spindle are all fixed on storing main body bottom plate, and the swivel base is consolidated It is scheduled on live spindle upper end and matches with storing main body cover shape, the swivel base is surrounded by neck, the disk cover Match positioned at storing main body cover end suitable for reading and with storing main body cover shape, 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 test As a result it is more accurate reliable.

Wherein, in a kind of concrete application, the feeding machanism 3 also includes a feed support 31, and feed support 31 is tilted It is fixed on the bearing 15, the material feeder 32 is fixed thereon；

The material feeder 32 includes holding flitch 321, supporting plate 322 and feed part 323；The appearance flitch 321 is fixed On feed support 31, its surface is provided with capaciting material groove 3210, and the capaciting material groove 3210 is in diagonal upward direction and being capable of content Material；The supporting plate 322 is being held on the obliquely downward of flitch 321 and fixed feed support 31, and it has an optical detection through hole 3221；The feed part 323 is holding the oblique upper of flitch 321, and with a material guide hole 3231.The capaciting material groove 3210 and institute Optical detection through hole 3221, material guide hole 3231 is stated to connect, and the material in capaciting material groove 3210 and optical detection through hole 3221, thing Expect that guide hole 3231 is coaxial；

The upper end of the 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 for surveying through hole 3221 is overlapped.Be fixed on because the feed support 31 is tilted on bearing, then it is described to fix Appearance flitch 321, supporting plate 322 and feed part 323 on the feed support are respectively provided with identical gradient, cause therein Material guide hole and capaciting material groove also have certain gradient.On the one hand the gradient causes material to obtain charging power and avoid hanging down The increasing of material and the possible damage of equipment and abrasion caused by straight material, the another aspect angle of inclination can cause material to have There is the convenient absorption by negative pressure suction nozzle of suitable angle.Because the shape of two end faces of material is different, its front end face area is small, Rear end face area is big, and front/rear end blocks difference to material end surface measurement optical fiber so that the optical fiber detected by detection fiber Intensity is different, passes through change-over circuit and comparison circuit, it is easy to judge end face information of the material in capaciting material groove.

Wherein, in a kind of more specific application, the feed part 323 also has one be connected with material guide hole 3231 negative Through hole and a passage are pressed, the negative pressure through-hole is with the passage in the both sides of material guide hole 3231；The negative pressure through-hole with One negative pressure pump 3232 is connected.In this way, by the suction function of negative pressure pump, can be by material absorption in material guide hole, it is to avoid should Interference of the material to the material in capaciting material groove.

Wherein, in a kind of more specific application, the feeding machanism also includes material and supplies adjuster 34, and the material is supplied There is the first cylinder, the first push rod that the first cylinder has piston and is connected with piston, the end of the first push rod to adjuster 34 It is fixedly connected with the feed part 323；Wherein, the direction of the cylinder is the above-below direction along feed support 31 direction.It is preferred that Ground, the material supply adjuster 34 includes regulation fixing device 341, and the regulation fixing device 341 sets the first push rod, the The end of one push rod is fixedly connected with an adjusting connector 342, and the adjusting connector 342 is fixedly connected with feed part 323.

Wherein, in a kind of more specific application, the feed support 31 has a feed notch 311, the feed notch 311 The negative pressure pump 3232 can be allowed to be moved with the motion of feed part 323.In this way, the upper of adjuster 34 can be supplied by material Lower motion, and negative pressure pump cooperation so that negative pressure suction nozzle come feeding when, feed part move up, on the one hand can avoid Material in feed part takes the interference of material to generation, on the other hand, can avoid being fed interference of the part to reclaiming process, expect appearance Groove fully exposes, and is that feeding leaves and takes greater room.

Wherein, in a kind of more specific application, there is a positioning detection hole in the lower surface of the appearance flitch 321, it is described Detection and localization hole is connected with the lower end of the capaciting material groove 3210, and setting one positions optical fiber 33 in it.In this way, having when in capaciting material groove During material, the end face of the positioning optical fiber 33 is blocked, and when not having material in capaciting material groove, the end face of the positioning optical fiber does not hide Gear, it can detect stronger extraneous light.

Wherein, in a kind of concrete application, the motion includes rail slider mechanism 41 and cylinder telescoping mechanism 42；

The rail slider mechanism 41 includes being provided with a Qian shape part 412 on the pedestal being fixed on bearing 15, pedestal, Slide bar 413 is provided between the two side of Qian shape part 412；Sliding block 414 and slider-actuated mechanism are set on slide bar 413；The track Slide block mechanism can realize moving left and right for negative pressure suction nozzle.

Telescopic-cylinder mechanism 42 includes Telescopic-cylinder block 421 and Telescopic Fixed piece 424；The Telescopic-cylinder block 421 is fixed In the upper surface of sliding 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；In described Telescopic Fixed piece 424 of the end connection of the second push rod 423；The Telescopic-cylinder mechanism can realize negative pressure suction nozzle Stretching motion.

The negative pressure suction nozzle 43 includes a suction nozzle 431, suction nozzle fixed plate 432 and gas connection 433, wherein, the axle of suction nozzle 431 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 Suction nozzle fixed plate 432 is stated to be fixedly connected with described Telescopic Fixed piece 424；

The negative pressure suction nozzle rotating mechanism 44 includes a rotary cylinder 441, and the rotary cylinder 441 is fixed on the suction nozzle In fixed plate 432；The main shaft of rotary cylinder is parallel with suction nozzle 431, and is connected between the two by band.In this way, can be according to thing Expect end face information, decide whether to realize adjustment end face by rotary suction nozzle.

Wherein, in a kind of more specific application, the side of the angularly disposed negative pressure suction nozzle 43 of opening of the Qian shape part 412. In more specifically a kind of application, 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 connection.So, it is possible to achieve the more preferable support to whole negative pressure nozzle unit, and the motion rail of negative pressure suction nozzle is ensured The stabilization of mark with it is accurate.

Wherein, in a kind of more specific application, the suction nozzle fixed plate 432 has a linking arm, and the linking arm is fixed on On Telescopic Fixed piece 424；One reinforcement is set in addition between Telescopic Fixed piece 424 and suction nozzle fixed plate 432.In this way, not Only so that structure is more succinct reasonable, and it can make it that the motion of negative pressure suction nozzle is more stable.

Wherein, in another embodiment of the present utility model, the pusher 5 include pusher base 51, Pusher power block 52, pusher Slave Block 53 and charging ram 54, the pusher base 51 are fixed on bearing 15, be fixed with push away thereon Expect power block 52；Pusher power block 52 is provided with cylinder, and pusher Slave Block 53 is connected with the push rod of cylinder, thereon with pusher Bar 54；The charging ram 54 can by material from charging notch push-in material rotating mechanism.In this way, pneumatic mode can be passed through Realize the motion control of charging ram.

Wherein, in another embodiment of the present utility model, the optical measurement mechanism 6 is changed including light source Mechanism 61 and optical signalling collecting mechanism 62.The light source switching mechanism 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 the piston supporting part 616 is slided and set The just top of the 3rd cylinder mechanism 612, and being connected with connecting rod 613 is put, there is light source 614 and charging notch 615, institute on connecting rod 613 State light source 614 and charging notch 615 in the same horizontal line.In this way, being passed through barotropic gas or offer to the 3rd cylinder mechanism 612 Negative-pressure operation, can cause connecting rod to carry out the movement of left and right, and then cause light source 614 and charging notch 615 to be directed at material successively Fixing groove 711, when feeding the alignment material fixing groove 711 of notch 615, charging ram 54 can push away material from charging notch 615 Enter in material fixing groove 711；When light source 614 is directed at material fixing groove 711, concentricity test can be carried out to material.

Wherein, in another embodiment of the present utility model, the optical signalling collecting mechanism 62 includes letter Number collector interface 621, signal picker 622 and signal output interface 623；The signal output interface 623 passes through signal wire It is connected with controlling organization 9, in this way, the data transfer that can be gathered optical signalling collecting mechanism 62 is to control device, and Handled through control device with after judgement, being operated to the stepping of material progress stepping and triggering following, realizing fiber stub concentricity Test result judges the automation 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, the material rotating mechanism 7 is fixed including material Device 71, material runing rest 72, rotating mechanism 73 and height adjustment mechanism 74；The material runing rest 72 is arranged on bearing 15 On, the height-regulating slot mouthful 722 with an optical detection through hole and above optical detection through hole, its lower end is fixed with material Fixator 71, upper end is fixed with height adjustment mechanism 74；

Material fixator 71 has material fixing groove 711；

Height adjustment mechanism 74 includes a height adjusting base 741, and it has regulation cylinder 742, and is fixed on material rotation Turn on support 72；The piston for adjusting cylinder 742 is connected with a height regulation 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 Installed in rotation on panel 733, flexible connection is passed through between the main shaft and the main shaft of motor 732 of rotating wheel 731.Panel is installed in rotation 733 are fixed on height regulation panel 743.In this way, rotating wheel 731 and material can be adjusted by height adjustment mechanism 74 Closeness of contact, rotating wheel 731 is in suitable position so that material enter, rotate and leave etc. it is easy to operate and suitable.

Wherein, in another embodiment of the present utility model, the stepping mechanism 8 includes a stepping funnel 81st, a stepping splicing groove 82, a stepping sliding block 83 and a release stepping slide rail 85 of baffle plate 84 and one；The release baffle plate 84 is dividing The lower section of shelves funnel 81, it is connected with a stepping cylinder 841, and the stepping funnel 81 is fixed on stepping sliding block 83, stepping sliding block 83 complement each other to form slide rail-slide block mechanism with stepping slide rail 85, and stepping sliding 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 for having completed concentricity test is carried out Make stepping by oneself, operation is succinct and accurate.There is position detector 86 in the both sides of stepping slide rail 85, it can detect that stepping is slided The position of block 83, so as to making material accurately enter in corresponding stepping splicing groove.

According to one side of the present utility model, the control device can include master control device and Pneumatic controller, Wherein, the master control device includes PLC device or PCG devices.

In a kind of specific application, the controlling organization 9 includes a display 91, signal processor 92；The signal Operation information collected by 92 pairs of processor is handled, and by the regulation to the air pressure in cylinder everywhere, is realized to whole The control of system.So, can be through display 91 to the operation conditions of fiber stub concentricity test device, the knot of test The data such as structure and statistical information, which have, to be got information about, convenient to carry out process control and Row control.Furthermore, it is possible to pass through signal Processor 92 is realized to be automatically controlled to fiber stub concentricity test device.

Wherein, in another embodiment of the present utility model, there is pipeline in the lower section of the bearing, the pipe Road is used for passing through for electric wire and resistance to air pipe, and playing makes the purpose in electric wire and pressure-resistant flue collector, can so cause integral loop Border is more neat and clean, also allows for the installation of equipment and uses.

Wherein, in another embodiment of the present utility model, the cabinet be divided into above and below two layers, two layers it Between tabula face on be provided with dividing plate, the bearing is fixed on dividing plate, that is, causes bearing to be fixed on the bottom of sheaf space on cabinet On seat.

Wherein, in another embodiment of the present utility model, the side of the cabinet is also provided with door, with convenient The installation and maintenance of whole equipment.

Wherein, in another embodiment of the present utility model, the bottom of the cabinet is provided with roller, made Obtaining equipment freely can 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 and be monitored at any time by machine, and may be located remotely from equipment and carry 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.It is described Signal indicator can be light fixture, or stereo set, or using both combinations.

The course of work of fiber stub concentricity automatic testing equipment that the utility model is provided is：Material is added to storage Expect in mechanism 2, the drive system 22 of material storage mechanism 2 work cause material pass sequentially through discharging opening 23 enter connection material storage mechanism and The connecting tube of feeding machanism, and capaciting material groove 3210 is appeared in one by one under the control of the negative pressure pump 3232 of feeding machanism；Position light Feed material in fine 34 pairs of capaciting material grooves 3210 carries out end surface measurement, and by testing result input signal processor 92；Negative pressure is inhaled Mouth 43 inhales the material absorption in capaciting material groove 3210 in negative pressure under the control of track slide block mechanism 41 and cylinder telescoping mechanism 42 On mouth 43, and according to the testing result of material end surface measurement optical fiber 3222, adjusted by the travel direction of negative pressure suction nozzle rotating mechanism 44 It is whole so that the end face of material is downward；Material is discharged into charging notch 615 by negative pressure suction nozzle 43, and passes through the control to cylinder 612 System causes the charging alignment material of notch 615 fixing groove 711, and charging ram 53 is acted in material push-in material fixing groove 711；Cylinder 612 act so that the alignment material of light source 614 fixing groove 711, now, height adjustment mechanism 74, which is acted, causes rotating wheel 731 gently Contactant is anticipated drive material and rotated, and the gathered data of optical signalling collecting mechanism 62 is simultaneously submitted signal processor 92 and judged；Signal Processor 92 carries out stepping after the completion of judging to material so that material enters stepping funnel 81, and stepping funnel 81 is in stepping sliding block Material is discharged after the corresponding top of stepping splicing groove 82 is moved under 83 drive.In this way, operator only needs phase material storage mechanism to add Enter material, fiber stub concentricity automatic testing equipment will carry out follow-up all flows to stepping automatically and complete, 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 Accurately and reliably.Moreover, in addition to material storage mechanism, other mechanisms can effectively avoid introduced contaminants, powder in box house The influence of dirt so that test site is cleaned, and is helped to maintain the degree of accuracy of test, is contributed to the maintenance of equipment.Between each mechanism Substantially, its distribution is compact and not crowded, can reduce equipment volume while being easily installed for function distinguishing.

It is described above, embodiment only of the present utility model, but protection domain of the present utility model do not limit to In this, any those skilled in the art is disclosed in the utility model in technical scope, the change that can be readily occurred in Change or replace, should all 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.

Claims (10)

1. a kind of fiber stub concentricity automatic testing equipment, it is characterised in that it include bearing, material storage mechanism, feeding machanism, Feeding mechanism, pusher, optical measurement mechanism, material rotating mechanism, stepping mechanism and controlling organization；Wherein,

Material storage mechanism, feeding machanism, feeding mechanism, pusher, optical measurement mechanism and material rotating mechanism are fixed on bearing On, stepping mechanism is fixed on the side of bearing, the controlling organization be fixed on bearing and respectively with material storage mechanism, feeding machine Structure, feeding mechanism, pusher, optical measurement mechanism, material rotating mechanism, stepping mechanism are connected；

Connected between the material storage mechanism and feeding machanism by pipeline so that the material stored in material storage mechanism is transported to one by one Feeding machanism；The feeding machanism has material feeder and material end surface measurement optical fiber；The feeding mechanism has negative pressure suction Mouth, negative pressure suction nozzle rotating mechanism and motion；The negative pressure suction nozzle can adsorb material from material feeder, and can pass through Negative pressure suction nozzle rotating mechanism rotation material end face direction；The optical measurement mechanism includes light source switching mechanism and optical signalling is adopted Collecting mechanism, the light source switching mechanism has a light source and a charging notch；The motion can movable negative-pressure suction nozzle extremely Above the charging notch, and the material is discharged into the charging notch；The pusher has push rod, the push rod energy By the material fixator set by material from charging notch push-in material rotating mechanism.

2. fiber stub concentricity automatic testing equipment as claimed in claim 1, it is characterised in that it also includes a cabinet, Wherein, cabinet includes support frame, door, base and bearing；The bearing is fixed on the base of cabinet, and the base is fixed on machine On the support frame of case.

3. fiber stub concentricity automatic testing equipment as claimed in claim 2, it is characterised in that the storage device is set Above cabinet.

4. the fiber stub concentricity automatic testing equipment as described in any one of claims 1 to 3, it is characterised in that the confession Expect that mechanism also includes a feed support, feed riding is fixed on the bearing, and the material feeder is fixed thereon；

The material feeder includes holding flitch, supporting plate and feed part；The appearance flitch is fixed on feed support, its surface Capaciting material groove is provided with, the capaciting material groove is in diagonal upward direction and can house material；The supporting plate is holding the obliquely downward of flitch And on fixed feed support, it has an optical detection through hole；The feed part is holding the oblique upper of flitch, and with a material Guide hole；

The capaciting material groove is connected with the optical detection through hole, material guide hole, and the material in capaciting material groove and optical detection through hole, Material guide hole is coaxial；

The upper end of the material end surface measurement optical fiber is arranged in optical detection through hole, and its top on optical detection through hole with opening It is salty to close.

5. fiber stub concentricity automatic testing equipment as claimed in claim 4, it is characterised in that the feed part also has There are the negative pressure through-hole being connected with material guide hole and a passage, the negative pressure through-hole is with the passage in material guide hole Both sides；The negative pressure through-hole is connected with a negative pressure pump.

6. fiber stub concentricity automatic testing equipment as claimed in claim 4, it is characterised in that the feeding machanism is also wrapped Material supply adjuster is included, the material supply adjuster has the first cylinder, and the first cylinder has piston and is connected with piston The first push rod, the end of the first push rod with it is described feed part be fixedly connected；Wherein, the direction of the cylinder is along feed support The above-below direction in direction, the end of the first push rod of the material supply adjuster is fixedly connected with an adjusting connector, the tune Section connector is fixedly connected with feed part.

7. fiber stub concentricity automatic testing equipment as claimed in claim 4, it is characterised in that under the appearance flitch Surface has a positioning detection hole, and the detection and localization hole is connected with the lower end of the capaciting material groove, and setting one positions optical fiber in it.

8. the fiber stub concentricity automatic testing equipment as described in any one of claims 1 to 3, it is characterised in that the fortune Motivation structure includes rail slider mechanism and cylinder telescoping mechanism；

The rail slider mechanism includes being provided with " Qian " shape part on the pedestal being fixed on bearing, pedestal, in " Qian " shape Slide bar is provided between the two side of part；Sliding block and slider-actuated mechanism are set on slide bar；

Telescopic-cylinder mechanism includes Telescopic-cylinder block and Telescopic Fixed piece；The Telescopic-cylinder block is fixed on the upper surface of sliding block, It has the second cylinder mechanism, and the piston of the second cylinder mechanism is connected with the second push rod；It is described in the end connection of the second push rod Telescopic Fixed piece；

The negative pressure suction nozzle includes a suction nozzle, suction nozzle fixed plate and gas connection, wherein, suction nozzle axle is located in suction nozzle fixed plate, Gas connection is arranged on the opposite side of suction nozzle fixed plate and is connected with suction nozzle；The suction nozzle fixed plate is solid with described Telescopic Fixed piece Fixed connection；

The negative pressure suction nozzle rotating mechanism includes a rotary cylinder, and the rotary cylinder is fixed in the suction nozzle fixed plate；Rotation The main shaft of rotaring cylinder is parallel with suction nozzle, and is connected between the two by band.

9. fiber stub concentricity automatic testing equipment as claimed in claim 8, it is characterised in that the opening of the Qian shape part The side of angularly disposed negative pressure suction nozzle.

10. fiber stub concentricity automatic testing equipment as claimed in claim 8, it is characterised in that the suction nozzle fixed plate With a linking arm, the linking arm is fixed on Telescopic Fixed piece；Set in addition between Telescopic Fixed piece and suction nozzle fixed plate One reinforcement.