CN2590017Y - Optical fibre core-insert automatic packing apparatus - Google Patents

Abstract

The utility model relates to an automatic optical fiber insert core arranging apparatus, which comprises a workbench, a push plate with an insert core hole, a driving source which drives the push plate to reciprocally move on the workbench, and an insert core input pipe positioned above the push plate and opposite to the insert core hole, wherein, an insert core output pipe which can be opposite rightly to the insert hole arranged on the push plate is buried under the workbench; a first sensor which detects the position state of insert cores in the insert core hole is arranged in the workbench, and a second sensor which detects that insert cores is arranged in the insert core hole or not is arranged on the push plate. According to the detection results of the sensors, the push plate reciprocally moves under the action of the driving source thereof, so that the insert core hole is aligned to the inert core output pipe and the insert core input pipe. Owing to the functions of the sensors, the alignment of the inset core hole and the insert core output pipe can be controlled, and insert cores in the output pipe can all be arranged orderly in the same direction. Therefore, the automatic optical fiber insert core arranging apparatus has the advantages of simple structure, automatic material arrangement, and the realization of the requirement of supplying material in the same direction through double material paths. Thereby, the work efficiency can be raised in multiples.

Description

The automatic material arranging apparatus of fiber stub

Technical field

The utility model relates to a kind of material arranging apparatus to workpiece, especially refers to the automatic material arranging apparatus of a kind of fiber stub.

Background technology

Fiber stub and fiber bench plug, be used for the transmission of light, the cylindrical shape of its profile, as shown in Figure 4, be axially arranged with and run through aperture, this tapered hole of aperture one end, when patching, tapered nose end must patch mutually with fiber bench, because the volume of fiber stub itself is all very little with the small aperture that is positioned at it, and the two ends difference also is difficult to distinguish, so be difficult to utilize general detection method, manages material automatically as appearance difference or centre-of gravity shift method, therefore, give to patch to operate and brought difficulty, under the situation that does not detect the lock pin location status, patch, certainly will cause the qualification rate of product low, the rework rate height, thereby can reduce production efficiency, increase manufactures a finished product, and can't satisfy demand of practical production.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of can distinguish the fiber stub direction automatically and improve the automatic material arranging apparatus of the fiber stub that patches efficient at above-mentioned prior art present situation.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: the automatic material arranging apparatus of this fiber stub comprises worktable, have the push pedal in lock pin hole, drive push pedal the drive source that moves back and forth on the worktable be positioned at push pedal above and the lock pin input pipe relative with the lock pin hole, be embedded with under the described worktable can with lock pin hole in the push pedal to straight lock pin efferent duct, and in described worktable, be provided with the first sensor that is used for detecting lock pin location status in the lock pin hole, and described push pedal is provided with and is used for detecting second sensor that has or not lock pin in the lock pin hole, according to described first, the testing result of second sensor, described push pedal moves back and forth under its drive source effect, is alignd with lock pin efferent duct and lock pin input pipe respectively in the lock pin hole on it.

Described drive source can be the cylinder of two parallel connections.

Described first sensor and lock pin input pipe are distributed as good in line.

Described lock pin efferent duct can comprise the second lock pin efferent duct that the first lock pin efferent duct that lock pin in it is arranged by its bellmouth and Qi Nei lock pin are arranged by its bellmouth forward backwards; The two is good to be positioned at the first sensor both sides respectively; Also can include first orienting lug and the first straight-line oscillation device material road, the described first lock pin efferent duct links to each other with the first straight-line oscillation device material road by the access ramp in first orienting lug; Can also include second orienting lug and the second straight-line oscillation device material road, the described second lock pin efferent duct links to each other with the second straight-line oscillation device material road by the arc groove in second orienting lug, described arc groove is the center of circle with the intersection point in the second lock pin efferent duct and the second straight-line oscillation device material road, is radius and between the second lock pin efferent duct and the second straight-line oscillation device material road with the length of lock pin.

Compared with prior art, advantage of the present utility model is: owing to have the push pedal in lock pin hole under the control of sensor, drive by drive source, can on worktable, move back and forth, therefore the lock pin hole in the push pedal can align with lock pin input pipe and lock pin efferent duct respectively with moving of push pedal, makes that the lock pin in the efferent duct is arrangement in the same way successively; The cylinder that adopts two parallel connections can make push pedal more accurately locate as drive source; And the lock pin efferent duct adopts the first lock pin efferent duct and the second lock pin efferent duct that lays respectively at the first sensor both sides, and the second lock pin efferent duct turns around reverse lock pin by the arc groove on the orienting lug, can increase exponentially work efficiency like this, to realize requirement by the extra quality road of same direction feed; In a word, the utility model is simple in structure, and reason is expected the efficient height automatically, and production cost is low, can satisfy demand of practical production.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is the side-looking structural representation of Fig. 1;

The synoptic diagram that Fig. 3 turns around at second orienting lug for the optical fiber ceramic lock pin;

Fig. 4 is fiber stub and fiber bench grafting synoptic diagram.

Embodiment

Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.

As depicted in figs. 1 and 2, fiber stub in the present embodiment is made by stupalith, optical fiber ceramic lock pin 3 automatic material arranging apparatus comprise worktable 1, have the push pedal 5 in lock pin hole 4, drive push pedal 5 the cylinder 6 that moves back and forth on the worktable 1 be positioned at push pedal 5 above and the lock pin input pipe 2 relative with lock pin hole 4, described cylinder 6 by two power identical on, lower cylinder is formed in parallel, be embedded with under the described worktable 1 with push pedal 5 on the 4 pairs of straight lock pin efferent ducts in lock pin hole, and in described worktable 1, be provided with the first sensor 9 that is used to detect lock pin location status in the lock pin hole 4, this first sensor 9 distributes in line with lock pin input pipe 2, above-mentioned lock pin efferent duct comprises the second lock pin efferent duct 10 that the first lock pin efferent duct 7 that lock pin in it is arranged by its bellmouth and Qi Nei lock pin are arranged by its bellmouth forward backwards, the two is the center with first sensor 9 respectively, is symmetrically distributed in the both sides of first sensor 9; And in described push pedal 5, be fixed with and be used to detect second sensor 15 that has or not lock pin in the lock pin hole 4, testing result according to first, second sensor 9,15, described push pedal 5 moves back and forth under the effect of cylinder 6, in the process that push pedal 5 is moved, the lock pin hole 4 in the push pedal 5 is aligned respectively with lock pin input pipe 2 and first, second lock pin efferent duct 7,10.

In the present embodiment, because the lock pin in the first lock pin efferent duct 7 is that bellmouth preceding is being arranged in order, therefore it directly enters the first straight-line oscillation device material road 14 by the access ramp in first orienting lug 8, and since the lock pin in the second lock pin efferent duct 10 be bellmouth after be arranged in order, as shown in Figure 3, it is by second orienting lug 11 of band arc groove 12, this arc groove 12 is the center of circle with the intersection point in the second lock pin efferent duct 10 and the second straight-line oscillation device material road 13, with the length of lock pin is radius and between the second lock pin efferent duct 10 and the second straight-line oscillation device material road 13, make lock pin in second efferent duct 10 in entering second orienting lug 11, drop on after in this arc groove 12, turning around on the second straight-line oscillation device material road 13, move ahead on the second straight-line oscillation device material road 13 preceding by bellmouth.

The original state of work is: upper cylinder stretches out, lower cylinder is regained, lock pin hole 4 in the push pedal 5 this moment and lock pin input pipe 2 and the first sensor 9 that is fixed in the worktable are on the same straight line, lock pin enters lock pin input pipe 2 and falls into lock pin hole 4 in the push pedal 5 through vibrating bunker, in the present embodiment, being arranged in the lock pin bottom in lock pin hole 4 and the distance of first sensor 9 test sides is 0.8～1mm, because the tapered hole of lock pin one end, so its light reflection strength with the other end is different, the reflection strength of bellmouth end face is less, and other end reflection strength is bigger, thereby the reading that first sensor 9 obtains is also different, if the reading that obtains is less, then lower cylinder stretches out, push pedal 5 is moved to left, lock pin hole 4 in the push pedal 5 aligns by the worktable 1 and the first lock pin efferent duct 7, then lock pin falls into the first lock pin efferent duct 7, second sensor 15 that is arranged in push pedal 5 sides detects push pedal 5 lock pin holes 4 is not had lock pin, the control lower cylinder is regained, align with lock pin input pipe 2 again in lock pin hole 4 in the push pedal 5 this moment, another lock pin falls into to lock pin hole 4, equally, lock pin bottom in the lock pin hole 4 is subjected to the detection of first sensor 9, if the data that obtain this moment are bigger, then controlling upper cylinder regains, push pedal 5 is moved to right, align with the second lock pin efferent duct 10 by worktable 1 in lock pin hole 4 in the push pedal 5, lock pin in the lock pin hole 4 falls into the second lock pin efferent duct 10, second sensor 15 detects in the lock pin hole 4 does not again have lock pin, upper cylinder stretches out, lock pin hole 4 in the push pedal 5 is aligned with lock pin input pipe 2 again, device continues to repeat said process, and the lock pin in the second lock pin efferent duct 10 since bellmouth preceding, for raising the efficiency of doubling, make it by second orienting lug 11 with arc groove 12, after turning around, move ahead preceding dropping on the second straight-line oscillation device material road 13 with bellmouth, thereby realize by the extra quality road of same direction feed.

Claims (9)

1, the automatic material arranging apparatus of a kind of fiber stub, it is characterized in that comprising worktable (1), have the push pedal (5) of lock pin hole (4), drive the drive source that push pedal (5) moves back and forth and be positioned at above the push pedal (5) and the lock pin input pipe (2) relative on worktable (1) with lock pin hole (4), be embedded with under the described worktable (1) can with lock pin hole (4) in the push pedal (5) to straight lock pin efferent duct, and in described work (1) platform, be provided with the first sensor (9) that is used for detecting lock pin location status in the lock pin hole (4), and described push pedal (5) is provided with and is used for detecting second sensor (15) that has or not lock pin in the lock pin hole (4), according to described first, second sensor (9), (15) testing result, described push pedal (5) moves back and forth under its drive source effect, is alignd with lock pin efferent duct and lock pin input pipe (2) respectively in the lock pin hole (4) on it.

2, the automatic material arranging apparatus of fiber stub according to claim 1 is characterized in that described drive source is the cylinder (6) of two parallel connections.

3, the automatic material arranging apparatus of fiber stub according to claim 1 is characterized in that described first sensor (9) and lock pin input pipe (2) distribute in line.

4,, it is characterized in that the second lock pin efferent duct (10) that the first lock pin efferent duct (7) that described lock pin efferent duct comprises that lock pin in it is arranged by its bellmouth forward and its interior lock pin are arranged by its bellmouth backwards according to claim 1, the automatic material arranging apparatus of 2 or 3 described fiber stubs.

5, the automatic material arranging apparatus of fiber stub according to claim 4 is characterized in that the described first lock pin efferent duct (7) and the second lock pin efferent duct (10) lay respectively at the both sides of first sensor (9).

6, the automatic material arranging apparatus of fiber stub according to claim 4, it is characterized in that also including first orienting lug (8) and the first straight-line oscillation device material road (14), the described first lock pin efferent duct (7) links to each other with the first straight-line oscillation device material road (14) by the access ramp in first orienting lug (8).

7, the automatic material arranging apparatus of fiber stub according to claim 4, it is characterized in that also including second orienting lug (11) and the second straight-line oscillation device material road (13), the described second lock pin efferent duct (10) links to each other with the second straight-line oscillation device material road (13) by the arc groove (12) in second orienting lug (11), described arc groove (12) is the center of circle with the intersection point in the second lock pin efferent duct (10) and the second straight-line oscillation device material road (13), is that radius is positioned between the second lock pin efferent duct (10) and the second straight-line oscillation device material road (13) with the length of lock pin.

8, the automatic material arranging apparatus of fiber stub according to claim 5, it is characterized in that also including second orienting lug (11) and the second straight-line oscillation device material road (13), the described second lock pin efferent duct (10) links to each other with the second straight-line oscillation device material road (13) by the arc groove (12) in second orienting lug (11), described arc groove (12) is the center of circle with the intersection point in the second lock pin efferent duct (10) and the second straight-line oscillation device material road (13), is that radius is positioned between the second lock pin efferent duct (10) and the second straight-line oscillation device material road (13) with the length of lock pin.

9, the automatic material arranging apparatus of fiber stub according to claim 6, it is characterized in that also including second orienting lug (11) and the second straight-line oscillation device material road (13), the described second lock pin efferent duct (10) links to each other with the second straight-line oscillation device material road (13) by the arc groove (12) in second orienting lug (11), described arc groove (12) is the center of circle with the intersection point in the second lock pin efferent duct (10) and the second straight-line oscillation device material road (13), is that radius is positioned between the second lock pin efferent duct (10) and the second straight-line oscillation device material road (13) with the length of lock pin.

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