CN206330724U - Automate blade inserting shunt optical index test system - Google Patents

Abstract

The utility model is related to a kind of automation blade inserting shunt optical index test system, to solve technical problem time-consuming and laborious during current manual's test blade inserting shunt optical index, it is included with the common port connection-peg for being used to be connected with blade inserting shunt and the slotting return loss measuring set of input connection-peg；It also includes supporting plate, the first cylinder is provided with the supporting plate, the common port connection-peg is arranged at the end of the telescopic shaft of first cylinder；Two spaced bearings are additionally provided with the pole, a screw mandrel that can be circumferentially rotated is provided with two bearings, servomotor is connected with one end of the screw mandrel；The screw mandrel sleeve pipe matched with the screw mandrel is additionally provided with screw mandrel in described two bearings, installing plate is additionally provided with the screw mandrel sleeve pipe, the second cylinder is additionally provided with the installing plate, the input connection-peg is arranged at the end of the telescopic shaft of second cylinder.

Description

Automate blade inserting shunt optical index test system

Technical field

The utility model is related to blade inserting shunt optical index test device therefor technical field, more particularly to one kind is certainly Dynamicization blade inserting shunt optical index test system.

Background technology

Plane waveguide light shunt is to apply to the fiber optic network communications field to the distribution of light or a kind of passive device of concentration Part, it can accomplish that 1 point of N or N closes 1, be divided into boxlike shunt and insert type optical branching device again according to profile and encapsulating structure, existing Have in technology, more and more higher is required the spectrophotometric data of shunt using major telecom operators of shunt, and branch The most important optical index of device is exactly Insertion Loss；And current enterprise all adopts after shunt production completion to shunt test Manually test, testing efficiency is low, cost of labor is big and there is the phenomenon of test leakage.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, adapts to real needs and is inserted there is provided one kind automation Chip shunt optical index test system, it is time-consuming and laborious during current manual's test blade inserting shunt optical index to solve Technical problem.

In order to realize the purpose of this utility model, the technical scheme that the utility model is used for：

A kind of automation blade inserting shunt optical index test system of design, it includes being used to detect blade inserting shunt The slotting return loss measuring set of optical index, the slotting return loss measuring set, which has, to be used for and the common port on blade inserting shunt The common port connection-peg of mouth connection, the input connection-peg for being connected with the input port on blade inserting shunt；It is also wrapped Base plate, the pillar being arranged on base plate, the pole being horizontally set on the pillar are included, support is provided with the pillar Plate, is provided with the first cylinder in the supporting plate, and the telescopic shaft of first cylinder is longitudinally disposed, and the common port connection-peg It is arranged at the end of the telescopic shaft of first cylinder；

It is preferred that, two spaced bearings are additionally provided with the pole, can week provided with one in two bearings To the screw mandrel of rotation, servomotor is connected with one end of the screw mandrel；Also set up on screw mandrel in described two bearings There is the screw mandrel sleeve pipe matched with the screw mandrel, be additionally provided with installing plate on the screw mandrel sleeve pipe, also set up on the installing plate There is the second cylinder, the telescopic shaft of second cylinder is longitudinally disposed, and the input connection-peg is arranged at second cylinder Telescopic shaft end；

It is preferred that, first cylinder and second cylinder be in same level, and first cylinder is stretched The stroke of contracting axle is consistent with the stroke of the telescopic shaft of second cylinder.

It is preferred that, the top board uprightly set is additionally provided with below the pole, two are additionally provided with the base plate Spaced baffle plate, push pedal is additionally provided with two baffle plates, also including the 3rd cylinder, the end of the telescopic shaft of the 3rd cylinder Portion is connected with the push pedal, and the end of two baffle plates is set with the top board sidewall spacers, and the width at the interval is inserted with described The width of chip shunt is identical；

It is preferred that, it also includes feed mechanism, and the feed mechanism is placed including being arranged at being used on the right side of the push pedal The hopper of blade inserting shunt, is additionally provided with feeding push pedal in the hopper, also including the 4th cylinder, and the 4th cylinder is stretched The end of contracting axle is connected with the feeding push pedal, open-ended, and the material for the hopper being oppositely arranged with top board side wall The end of groove is identical with the width of the blade inserting shunt with the distance between top board side wall, on the right side of the hopper The 5th cylinder is additionally provided with, scraping wings is additionally provided with the end of the telescopic shaft of the 5th cylinder, and the scraping wings is towards institute State the interval between hopper and top board；

It is preferred that, its also bag conveyer belt, the conveyer belt is arranged at the left side of the push pedal, and the blade inserting after being detected Shunt is pushed to the conveyer belt, and side shield, and the top board are additionally provided with the right side of the conveyer belt feed end End extend to the front of the conveyer belt；

It is preferred that, it also includes the deduction cap mechanism for being used to be buckled in dust cap in the blade inserting shunt upper port, institute The transverse support bar that deduction cap mechanism includes being connected with the pillar is stated, two intervals are additionally provided with the transverse support bar and are set The fixing bearing put, a screw rod that can be circumferentially rotated is provided with two fixing bearings, is connected with one end of the screw rod Motor；The screw sleeve matched with the screw rod is additionally provided with screw rod in described two fixing bearings, in the spiral shell Deduction cap cylinder is additionally provided with rod bush, the telescopic shaft of the deduction cap cylinder is longitudinally disposed, and stretching on the deduction cap cylinder The end of contracting axle is additionally provided with the flexible sucker for adsorbing dust cap, and the flexible sucker is connected by conduit with negative pressure source；

It is preferred that, dust cap feed mechanism, the dust cap feed mechanism bag are additionally provided with the left of the side shield Include section to take the shape of the letter U the chute feeder of structure, the chute feeder is inclined to be set, and the bottom of the chute feeder is the level of state Set.

It is preferred that, it is provided with what is be extended to the second cylinder direction on the end of the telescopic shaft of first cylinder First level part, is provided with second be extended to the first cylinder direction on the end of the telescopic shaft of second cylinder Horizontal element, the common port connection-peg, input connection-peg are respectively arranged at the first level part, the end of the second horizontal element Portion.

It is preferred that, it is additionally provided with to the first cylinder direction and is extended on the end of the telescopic shaft of the deduction cap cylinder The 3rd horizontal element, the flexible sucker is arranged on the end of the 3rd horizontal element.

It is preferred that, be additionally provided with the pole along the screw mandrel axial direction set chute, with the chute It is additionally provided with and is embedded in the chute on the side wall for the screw mandrel sleeve pipe being oppositely arranged, and the gliding mass that can be slided in the chute.

It is preferred that, the negative pressure source includes negative pressure pump.

The beneficial effects of the utility model are：

The design its novel in structural design, be easily achieved, can effectively improve in use detection efficiency to shunt, Secondly the input of cost of labor can be reduced, furthermore the phenomenon that can be avoided missing inspection in the detection, examine again.

Brief description of the drawings

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

Fig. 2 is A portions mplifying structure schematic diagram in Fig. 1；

Fig. 3 is partial structural diagram of the present utility model；

Fig. 4 is the screw mandrel sleeve pipe in the utility model and the structural representation after pole cooperation；

In figure：1. base plate；2. pole；3rd, 4. bearing；5. screw mandrel；6. servomotor；7. screw mandrel sleeve pipe；8. chute；9. Fagging；10. the first cylinder；11. first level part；12. common port connection-peg；13. installing plate；14. the second cylinder；15. second Horizontal element；16 input connection-pegs；17. top board；18. baffle plate；19. push pedal；20. the 3rd cylinder；21. the 3rd cylinder is flexible Axle；22. hopper；23. feeding push pedal；24. the telescopic shaft of the 4th cylinder；25. the 4th cylinder；26. the 5th cylinder；27. scraping wings； 28. the telescopic shaft of the 5th cylinder；29th, 30. blade inserting shunt；31. the input port on blade inserting shunt；32. gliding mass.

33. conveyer belt；34. oblique blanking groove；35. side shield；36. transverse support bar；37. fixing bearing；38. screw sleeve Pipe；39. screw rod；40. deduction cap cylinder；41. chute feeder；42. the bottom of hopper；44. dust cap；45. the 3rd horizontal element；46. it is soft Property sucker；47. gathering sill.

Embodiment

The utility model is further illustrated with reference to the accompanying drawings and examples：

Embodiment 1：One kind automation blade inserting shunt optical index test system, referring to Fig. 1 to Fig. 4；It includes using In detection blade inserting shunt 29, the slotting return loss measuring set of 30 optical indexes, the slotting return loss measuring set, which has, to be used for The common port connection-peg 12 that is connected with the public port on blade inserting shunt, for the input port on blade inserting shunt The input connection-peg 16 of 31 connections；Above said content is prior art, is not drawn into, and the design is that it also includes base plate 1st, the pillar being arranged on base plate, the pole 2 being horizontally set on the pillar, are provided with supporting plate 9 on the pillar, The first cylinder 10 is provided with the supporting plate 9, the telescopic shaft of first cylinder 10 is longitudinally disposed.

Further, the design is also additionally provided with two spaced bearings 3,4 on described pole 2, at two A screw mandrel 5 that can be circumferentially rotated is provided with bearing 3,4, servomotor 6 is connected with one end of the screw mandrel 5；Described two The screw mandrel sleeve pipe 7 matched with the screw mandrel is additionally provided with screw mandrel 5 in individual bearing 3,4, is additionally provided with the screw mandrel sleeve pipe 7 Installing plate 13, is additionally provided with the second cylinder 14 on the installing plate 13, and the telescopic shaft of second cylinder is longitudinally disposed.Also exist The chute 8 set along the screw mandrel axial direction is provided with the pole 2, in the screw rod bushing being oppositely arranged with the chute 8 It is additionally provided with and is embedded in the chute on the side wall of pipe 7, and the gliding mass 32 that can be slided in the chute.

Further, the design is provided with to second cylinder also on the end of the telescopic shaft of the first described cylinder 10 The extended first level part 11 in direction, is provided with to first cylinder 10 on the end of the telescopic shaft of second cylinder The second extended horizontal element 15 of direction, described common port connection-peg 12, input connection-peg 16 are respectively arranged at described The end of first level part 11, the second horizontal element 15.And the first described cylinder 10 is in same water with second cylinder 14 In plane, and the stroke of the telescopic shaft of first cylinder 10 is consistent with the stroke of the telescopic shaft of second cylinder 14.

Further, the design is also additionally provided with the top board 17 uprightly set in the lower section of described pole 2, at the bottom Two spaced baffle plates 18 are additionally provided with plate 1, a push pedal 19 are additionally provided with two baffle plates 18, also including the 3rd cylinder 20, the end of the telescopic shaft 21 of the 3rd cylinder is connected with the push pedal 19, and the end of two baffle plates 18 and the top board Sidewall spacers are set, and the width at the interval is identical with the width of the blade inserting shunt.

Further, the design it also include feed mechanism, described feed mechanism includes being arranged at the push pedal 19 right The hopper 22 for being used to place blade inserting shunt of side, is additionally provided with feeding push pedal 23, also including the 4th gas in the hopper 22 Cylinder 25, the end of the telescopic shaft 24 of the 4th cylinder is connected with the feeding push pedal 23, is oppositely arranged with top board side wall Hopper 22 open-ended, and the distance between the end of the hopper 22 and top board side wall and the blade inserting branch The width of device is identical, meanwhile, the 5th cylinder 26 also is additionally provided with the right side of the hopper 22, in the flexible of the 5th cylinder The end of axle 28 is additionally provided with scraping wings 27, and the scraping wings 27 is towards the interval between the hopper and top board.

Further, its also bag conveyer belt 33 of the design, the conveyer belt 33 is arranged at the left side of the push pedal 19, and by Blade inserting shunt 29 after detection is pushed to the conveyer belt 33, is additionally provided with the right side of the conveyer belt feed end Side shield 35, and the end of the top board 2 extends to the front of the conveyer belt；Meanwhile, in the discharge end of conveyer belt 33 The oblique blanking groove 34 being obliquely installed is additionally provided with base plate.

Further, the design it also include being used to being buckled in dust cap 44 into button in the blade inserting shunt upper port Cap means, described deduction cap mechanism includes the transverse support bar 36 being connected with the pillar, in the transverse support bar 36 also Two spaced fixing bearings 37 are provided with, a screw rod 39 that can be circumferentially rotated are provided with two fixing bearings, in institute Motor is connected with the one end for stating screw rod 39, this motor is also servomotor；Also in described two fixing bearings Screw rod 39 on be additionally provided with the screw sleeve 38 matched with the screw rod 39, be additionally provided with deduction cap gas in the screw sleeve 38 Cylinder 40, the telescopic shaft of the deduction cap cylinder 40 is longitudinally disposed, also including the flexible sucker 46 for adsorbing dust cap 44, also in institute The 3rd horizontal element 45 being extended to the first cylinder direction is additionally provided with the end for the telescopic shaft for stating deduction cap cylinder, it is described Flexible sucker is arranged on the end of the 3rd horizontal element 45；And described flexible sucker 46 is connected by conduit and negative pressure source Logical, described negative pressure source includes negative pressure pump.

It is preferred that, the design is provided with and the sliding groove structure identical gathering sill also on the side wall of transverse support bar 36 47, it is embedded in while being provided with the side wall for the screw sleeve 38 being oppositely arranged with the gathering sill in gathering sill, and can lead The card body slided into groove, structure described herein is identical with principle shown in Fig. 4.

Further, the design is also additionally provided with dust cap feed mechanism, the dust cap on the left of the side shield Feed mechanism is taken the shape of the letter U the chute feeder 41 of structure including section, and the chute feeder 41 is inclined to be set, and the chute feeder Bottom 42 is the level of state setting.

In force, multiple dust caps are buckled in chute feeder 41 side by side, and multiple blade inserting shunts 30 are juxtaposed on material In groove 22, following act is carried out sequentially in time afterwards.

Act A：Multiple blade inserting shunts 30 are promoted forward by feeding push pedal 23, now, positioned at inserting for forefront Chip shunt will be moved in the interval between hopper and top board, the return of feeding push pedal 23；

Act B：The path that scraping wings 27 is promoted forward has been set, and scraping wings 27 promotes forward realization by blade inserting branch Device is pushed into the front of push pedal, and the return of scraping wings 27, hereafter, feeding push pedal 23 promote forward next blade inserting shunt 30 In interval between hopper and top board, the return of feeding push pedal 23；

Act C：Push pedal 19 promotes forward realization to fix the jam-packed of blade inserting shunt 29, now, blade inserting to be detected Shunt 29 is close to the top board 17 and set, now, and the public port positioned at the leftmost side on blade inserting shunt 29 is located at public affairs The underface of connection-peg 12 is held altogether；

Act D：The telescopic shaft of first cylinder, which stretches out, is inserted into common port connection-peg 12 positioned at the left side of blade inserting shunt 29 In the public port of side；

Act E：Input connection-peg 16 is by the rotation of screw mandrel, and left and right displacement movement of the screw mandrel sleeve pipe on screw mandrel can The input connection-peg 16 is moved to the surface of the input port of the rightmost side of blade inserting shunt 29, then, the second cylinder 14 telescopic shaft is stretched out, and now, input connection-peg 16 will be inserted into the input port of the rightmost side of blade inserting shunt 29, it The detection to the blade inserting shunt 29 can be realized by inserting return loss measuring set afterwards, realizes and first input port is examined Survey, after to first input port detection, the telescopic shaft of its second cylinder is withdrawn；

Act F：Input connection-peg can be inputted this by the rotation of screw mandrel, and left dislocation of the screw mandrel sleeve pipe on screw mandrel End connection-peg is moved to the surface of input port of the right side of blade inserting shunt 29 in the second place, hereafter, the second cylinder Telescopic shaft stretch out, input connection-peg is inserted into the input port on blade inserting shunt 29, realizes detection；

Act G：And it is that can be achieved to examine each input port in blade inserting shunt 29 successively to repeat above-mentioned action F Survey, and after sensing；

Act H：The telescopic shaft return of the telescopic shaft of its 3rd cylinder, the telescopic shaft of the first cylinder and the second cylinder；

Act I：Above-mentioned action A is repeated to H, and when repeating above-mentioned action B, its blade inserting shunt 29 detected will The next blade inserting shunt come is pushed by scraping wings 27 to extrude to conveyer belt；

Act J：Blade inserting shunt 29 on conveyer belt is remained stationary as, and the telescopic shaft of its deduction cap cylinder 40 stretches out, Now, flexible sucker 46 is pressed on dust cap, then picked up dust cap by flexible sucker 46, while deduction cap cylinder 40 is stretched Contracting axle return,

Act K：Motor drives screw rod to rotate, and while screw rod is rotated, its screw sleeve will move right to On blade inserting shunt 29 on the port of the leftmost side, then deduction cap cylinder 40 telescopic shaft stretch out dust cap is buckled in end On mouth, then flexible sucker release dust cap, the telescopic shaft of its deduction cap cylinder 40 is withdrawn again, meanwhile, its deduction cap cylinder 40 times To initial position；

Act L：Repetitive operation J and action K are realized the port on blade inserting shunt 29 being buckled dust cap successively afterwards, After above-mentioned action is completed；

Act M：Conveyer belt rotates and is fed forward blade inserting shunt 29；

The overall process of detection to blade inserting shunt and deduction cap can be completed by above-mentioned action A to M.

What embodiment of the present utility model was announced is preferred embodiment, but is not limited thereto, the common skill of this area Art personnel, easily according to above-described embodiment, understand spirit of the present utility model, and make different amplifications and change, but as long as Spirit of the present utility model is not departed from, all in protection domain of the present utility model.

Claims (5)

1. one kind automation blade inserting shunt optical index test system, it includes being used to detect that blade inserting shunt optics refers to Target inserts return loss measuring set, and this, which inserts return loss measuring set, has for being connected with the public port on blade inserting shunt Common port connection-peg, the input connection-peg for being connected with the input port on blade inserting shunt；It is characterized in that：It Also include base plate, the pillar being arranged on base plate, the pole being horizontally set on the pillar, branch is provided with the pillar Fagging, is provided with the first cylinder in the supporting plate, and the telescopic shaft of first cylinder is longitudinally disposed, and the common port grafting Head is arranged at the end of the telescopic shaft of first cylinder；

Two spaced bearings are additionally provided with the pole, a silk that can be circumferentially rotated is provided with two bearings Bar, servomotor is connected with one end of the screw mandrel；It is additionally provided with screw mandrel in described two bearings and the screw mandrel The screw mandrel sleeve pipe of matching, is additionally provided with installing plate on the screw mandrel sleeve pipe, the second cylinder is additionally provided with the installing plate, The telescopic shaft of second cylinder is longitudinally disposed, and the input connection-peg is arranged at the end of the telescopic shaft of second cylinder Portion；

First cylinder and second cylinder are in same level, and the stroke of the telescopic shaft of first cylinder with The stroke of the telescopic shaft of second cylinder is consistent；

The top board uprightly set is additionally provided with below the pole, two spaced gears are additionally provided with the base plate Plate, push pedal is additionally provided with two baffle plates, also including the 3rd cylinder, end and the push pedal of the telescopic shaft of the 3rd cylinder Connection, the end of two baffle plates is set with the top board sidewall spacers, and the width at the interval and the blade inserting shunt Width is identical；

It also includes feed mechanism, and the feed mechanism places blade inserting shunt including being arranged at being used on the right side of the push pedal Hopper, feeding push pedal is additionally provided with the hopper, also including the 4th cylinder, the end of the telescopic shaft of the 4th cylinder with Feeding push pedal connection, open-ended, and end and the institute of the hopper of the hopper being oppositely arranged with top board side wall State the distance between top board side wall identical with the width of the blade inserting shunt, the 5th is additionally provided with the right side of the hopper Cylinder, is additionally provided with scraping wings in the end of the telescopic shaft of the 5th cylinder, and the scraping wings is towards the hopper and top board Between interval；

Its also bag conveyer belt, the conveyer belt is arranged at the left side of the push pedal, and the blade inserting shunt after being detected is pushed away Deliver on the conveyer belt, side shield, and the end extension of the top board are additionally provided with the right side of the conveyer belt feed end To the front of the conveyer belt；

It also includes the deduction cap mechanism for being used to be buckled in dust cap in the blade inserting shunt upper port, deduction cap mechanism bag The transverse support bar being connected with the pillar is included, two spaced fixing axles are additionally provided with the transverse support bar Hold, a screw rod that can be circumferentially rotated is provided with two fixing bearings, motor is connected with one end of the screw rod； The screw sleeve matched with the screw rod is additionally provided with screw rod in described two fixing bearings, is also set in the screw sleeve Be equipped with deduction cap cylinder, the telescopic shaft of the deduction cap cylinder is longitudinally disposed, and the telescopic shaft on the deduction cap cylinder end also The flexible sucker for adsorbing dust cap is provided with, the flexible sucker is connected by conduit with negative pressure source；

Dust cap feed mechanism is additionally provided with the left of the side shield, the dust cap feed mechanism takes the shape of the letter U including section The chute feeder of structure, the chute feeder is inclined to be set, and the bottom of the chute feeder is the level of state setting.

2. blade inserting shunt optical index test system is automated as claimed in claim 1, it is characterised in that：Described The end of the telescopic shaft of one cylinder is provided with the first level part being extended to the second cylinder direction, in second gas The end of the telescopic shaft of cylinder is provided with the second horizontal element being extended to the first cylinder direction, the common port grafting Head, input connection-peg are respectively arranged at the first level part, the end of the second horizontal element.

3. blade inserting shunt optical index test system is automated as claimed in claim 2, it is characterised in that：In the button The 3rd horizontal element being extended to the first cylinder direction, the flexible suction are additionally provided with the end of the telescopic shaft of cap cylinder Disk is arranged on the end of the 3rd horizontal element.

4. blade inserting shunt optical index test system is automated as claimed in claim 3, it is characterised in that：In the branch The chute set along the screw mandrel axial direction is additionally provided with bar, in the side wall for the screw mandrel sleeve pipe being oppositely arranged with the chute On be additionally provided with and be embedded in the chute, and the gliding mass that can be slided in the chute.

5. blade inserting shunt optical index test system is automated as claimed in claim 4, it is characterised in that：The negative pressure Source includes negative pressure pump.