CN104058119A - Optical fiber ceramic insertion core automatic tray loader - Google Patents

Abstract

The invention discloses an optical fiber ceramic insertion core automatic tray loader, which comprises a machine frame, a material conveying mechanism, a positive and reverse direction regulating mechanism and an insertion core tray loading mechanism, wherein the material conveying mechanism is fixedly arranged on the top end of the machine frame and is used for conveying insertion cores, the positive and reverse direction regulating mechanism is positioned under the material conveying mechanism, is fixedly arranged on the machine frame and is used for regulating the positive and reverse direction of the insertion cores so that the insertion cores can be correctly loaded into trays, and the insertion core tray loading mechanism is positioned under the positive and reverse direction regulating mechanism, is movably arranged on the machine frame, and is used for loading the insertion cores into the trays. The optical fiber ceramic insertion core automatic tray loader solves the problems that the pure manual operation is adopted in the traditional insertion core tray loading work procedure, the work intensity is high, the processing efficiency is low, the consumed time is long, and the like.

Description

A kind of optical fiber ceramic lock pin automatic tray filler

Technical field

The present invention relates to a kind of optical fiber ceramic lock pin Fabricating machinery, in particular a kind of optical fiber ceramic lock pin automatic tray filler.

Background technology

Optical fiber ceramic lock pin, claims again ceramic ferrule.The cylinder of precise centering in optical fiber connector plug, there is a micropore at center, as fixed fiber.It is a kind of by nano zircite (ZrO2) material through a series of formulas, the high precision special cermacis element that processes, its aperture, out of roundness error are 0.5 Jing.Made adaptor union is fiber active linker detachable, classification, makes the connection of light tunnel, conversion scheduling more flexible, can be for debugging and the maintenance of light DVB Delay Vacuum Bypass System.

At present, in to the procedure of processing of optical fiber ceramic lock pin, it comprises the operation of lock pin sabot, but existing lock pin sabot completes by manual operation.Concrete, be divided into two stations, complete this process of lock pin sabot by two bit manipulation persons, control step is as follows:

1) first sabot frock is placed on bench board;

2) operator picks up after lock pin with tweezers, and aligning direction places it in sabot frock in corresponding hole, enters afterwards next procedure of processing.

Above-mentioned traditional lock pin sabot operation, pure manual operation, labour intensity is large, and work efficiency is low simultaneously, and length expends time in.

Therefore, prior art has yet to be improved and developed.

Summary of the invention

In view of above-mentioned the deficiencies in the prior art, the object of the present invention is to provide a kind of optical fiber ceramic lock pin automatic tray filler, be intended to solve the pure manual operation of conventional ferrule sabot operation, labour intensity is large, work efficiency, the problems such as length expend time in.

Technical scheme of the present invention is as follows:

A kind of optical fiber ceramic lock pin automatic tray filler, comprising:

Frame;

Material conveying mechanism, is fixedly installed in the top of described frame, for delivery of lock pin;

Both forward and reverse directions adjusting mechanism, is positioned at the below of described material conveying mechanism and is fixedly mounted in frame, for adjusting the both forward and reverse directions of described lock pin, so that the correct sabot of lock pin;

Lock pin loading mechanism, is positioned at the below of described both forward and reverse directions adjusting mechanism and is movably arranged in frame, for lock pin sabot.

Described optical fiber ceramic lock pin automatic tray filler, wherein, feeding distribution mechanism in the middle of being also provided with between described material conveying mechanism and described both forward and reverse directions adjusting mechanism, be divided into single lock pin for the lock pin that material conveying mechanism is carried, so that described both forward and reverse directions adjusting mechanism carries out lock pin both forward and reverse directions adjustment one by one;

In the middle of described, one end of feeding distribution mechanism is connected with described material conveying mechanism, and the other end of middle feeding distribution mechanism is connected with described both forward and reverse directions adjusting mechanism.

Described optical fiber ceramic lock pin automatic tray filler, wherein, between described both forward and reverse directions adjusting mechanism and described lock pin loading mechanism, be also provided with blanking mechanism, for depositing by both forward and reverse directions adjusting mechanism and carry out the lock pin after both forward and reverse directions adjustment one by one, and the lock pin of depositing is one by one sent into sabot frock position successively;

Described blanking mechanism is connected with described both forward and reverse directions adjusting mechanism.

Described optical fiber ceramic lock pin automatic tray filler, wherein, described material conveying mechanism comprises:

Material box, described material box is fixedly mounted on the top of frame, and the bottom of material box offers the first through hole, passes through this first through hole for single lock pin;

The bottom that is positioned at described material box is also provided with the first rotating disk, described the first rotating disk rotates by the first driven by motor, on described the first rotating disk, offer the second through hole corresponding to the position of described the first through hole, be contained in the motion of lock pin in material box by rotating the first driven by rotary disc, with realize single lock pin the first through hole and the second through hole when overlapping successively by this first through hole and the second through hole.

Described optical fiber ceramic lock pin automatic tray filler, wherein, described both forward and reverse directions adjusting mechanism comprises:

The second rotating disk, described the second rotating disk rotates by the second driven by motor, is provided with for holding single lock pin and the groove of both ends open on described the second rotating disk;

Described the second rotating disk outside is arranged with a reaction plate, is provided with lock pin ingate and lock pin egress hole on described reaction plate.

Described optical fiber ceramic lock pin automatic tray filler, wherein, on described the second rotating disk, optical fiber transducer is also installed, detect the difference of lock pin two ends inner bore chamfering size by this optical fiber transducer, thereby identify the both forward and reverse directions of lock pin, and rotate the second rotating disk this lock pin is aimed to described lock pin egress hole;

The tail end that is positioned at described lock pin on described reaction plate is provided with a thimble, by described thimble, this lock pin is pushed to described lock pin egress hole.

Described optical fiber ceramic lock pin automatic tray filler, wherein, described lock pin loading mechanism comprises:

Sabot tooling platform, is evenly provided with several sabot frock positions on described sabot tooling platform.

Described optical fiber ceramic lock pin automatic tray filler, wherein, also comprises a screw mandrel, and described screw mandrel is threaded with described sabot tooling platform, by rotating described screw mandrel, to drive described sabot tooling platform parallel motion.

Described optical fiber ceramic lock pin automatic tray filler, wherein, the end of described screw mandrel is provided with the 3rd motor, thereby is driven and driven described screw mandrel to rotate by described the 3rd motor.

Beneficial effect of the present invention:

Compared with prior art, a kind of optical fiber ceramic lock pin automatic tray filler provided by the present invention, owing to having adopted automation lock pin sabot design, realize the artificial conversion to automation, not only save hand labor power, the sabot of the lock pin of automation simultaneously provides work efficiency, expends time in short, and the advantages such as sabot quality is high, high conformity.

Brief description of the drawings

Fig. 1 is the structural representation of optical fiber ceramic lock pin automatic tray filler of the present invention;

Fig. 2 is the structural representation of both forward and reverse directions adjusting mechanism in Fig. 1;

Fig. 3 is the structural representation of lock pin loading mechanism in Fig. 1.

Detailed description of the invention

The invention provides a kind of optical fiber ceramic lock pin automatic tray filler, for making object of the present invention, technical scheme and effect clearer, clear and definite, referring to accompanying drawing examples, the present invention is described in more detail.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

Refer to Fig. 1, Fig. 1 is the structural representation of optical fiber ceramic lock pin automatic tray filler of the present invention.

As shown in Figure 1, described optical fiber ceramic lock pin automatic tray filler, it comprises: frame 100, material conveying mechanism 200, both forward and reverse directions adjusting mechanism 300 and lock pin loading mechanism 400.Particularly:

Frame 100 can arrange several stations and carry out lock pin sabot in frame 100, that is to say, this lock pin automatic tray filler can carry out the processing of multistation simultaneously, contributes to like this to improve lock pin sabot efficiency.

Material conveying mechanism 200, is fixedly installed in the top of described frame 100, for delivery of lock pin.

Particularly, it comprises: material box 210, described material box 210 is fixedly mounted on the top of frame 100, offers the first through hole (not shown) in the bottom of material box 210, passes through this first through hole for single lock pin.

Further, the bottom that is positioned at described material box 210 is also provided with the first rotating disk (not shown), described the first rotating disk is driven and is rotated by the first motor 220, on described the first rotating disk, offer the second through hole (not shown) corresponding to the position of described the first through hole, be contained in the motion of lock pin in material box by rotating the first driven by rotary disc, with realize single lock pin the first through hole and the second through hole when overlapping successively by this first through hole and the second through hole.

Shown in Fig. 2, Fig. 2 is the structural representation of both forward and reverse directions adjusting mechanism in Fig. 1, described both forward and reverse directions adjusting mechanism 300 is be positioned at the below of described material conveying mechanism 200 and be fixedly mounted in frame 100, for adjusting the both forward and reverse directions of described lock pin, so that the correct sabot of lock pin.

Particularly, it comprises: the second rotating disk 310, described the second rotating disk 310 is driven and rotated by the second motor (not shown), on described the second rotating disk 310, is provided with for holding single lock pin and the groove of both ends open.Be arranged with a reaction plate 320 in described the second rotating disk 310 outsides, on described reaction plate 320, be provided with lock pin ingate (not shown) and lock pin egress hole (not shown).

Further, on described the second rotating disk 310, optical fiber transducer 330 is also installed, detect the difference of lock pin two ends inner bore chamfering size by this optical fiber transducer 330, thereby identify the both forward and reverse directions of lock pin, and rotate the second rotating disk 310 this lock pin is aimed to described lock pin egress hole.Correspondingly, the tail end that is positioned at described lock pin on described reaction plate 320 is provided with a thimble (not shown), by described thimble, this lock pin is pushed to described lock pin egress hole.

Correspondingly, feeding distribution mechanism 500 in the middle of being also provided with between described material conveying mechanism 200 and described both forward and reverse directions adjusting mechanism 300, be divided into single lock pin for the lock pin that material conveying mechanism 200 is carried, so that described both forward and reverse directions adjusting mechanism 300 carries out lock pin both forward and reverse directions adjustment one by one.One end of this centre feeding distribution mechanism 500 is connected with described material conveying mechanism 200, concrete is to be connected with the first through hole of this material conveying mechanism 200, and the other end of middle feeding distribution mechanism 500 is connected with described both forward and reverse directions adjusting mechanism 300, concrete is to be connected with the lock pin ingate of both forward and reverse directions adjusting mechanism 300.In fact, this centre feeding distribution mechanism 500 is a pipeline configuration, and the internal diameter of this pipeline configuration has limited and once can only pass through a lock pin.

Shown in Fig. 3, Fig. 3 is the structural representation of lock pin loading mechanism in Fig. 1, and described lock pin loading mechanism 400 is be positioned at the below of described both forward and reverse directions adjusting mechanism 300 and be movably arranged in frame 100, for lock pin sabot.

Particularly, it comprises: sabot tooling platform 410, is evenly provided with several sabot frock positions 411 on described sabot tooling platform 410.

Further, also comprise a screw mandrel 420, described screw mandrel 420 is threaded with described sabot tooling platform 410, by rotating described screw mandrel 420, to drive described sabot tooling platform 410 parallel motions.Preferably, be provided with the 3rd motor 430 in the end of described screw mandrel 420, thereby drive and drive described screw mandrel 420 to rotate by described the 3rd motor 430.On the 3rd motor 430, corresponding travel switch is also set, in order to control moving back and forth of sabot tooling platform 410.

Correspondingly, between described both forward and reverse directions adjusting mechanism 300 and described lock pin loading mechanism 400, be also provided with blanking mechanism 600, for depositing one by one the lock pin being undertaken after both forward and reverse directions adjustment by both forward and reverse directions adjusting mechanism 300, and successively the lock pin of depositing is one by one sent into sabot frock position 411.And described blanking mechanism 600 is to be connected with described both forward and reverse directions adjusting mechanism 300, concrete is to be connected with the lock pin egress hole of this both forward and reverse directions adjusting mechanism 300.

The concrete lock pin sabot of the present embodiment flow process is as follows:

Step 1, pours the lock pin for the treatment of sabot in material disc into, start the first motor to drive the first dial rotation, by single lock pin successively by the first through hole, the second through hole and enter in the middle of feeding distribution mechanism;

Step 2, lock pin in middle feeding distribution mechanism enters the groove on the second rotating disk by lock pin ingate one by one, detect the difference of lock pin two ends inner bore chamfering size by optical fiber transducer, thereby identify the both forward and reverse directions of lock pin, and start the second motor to drive the second dial rotation, lock pin correct direction is aimed to described lock pin egress hole;

Step 3, starts thimble, this lock pin is ejected to groove, and enter lock pin egress hole;

Step 4, lock pin is entered in blanking mechanism by lock pin egress hole, after the lock pin of deposit some sabots frock in blanking mechanism, start the 3rd motor, screw mandrel rotates to drive sabot tooling platform parallel motion, to make the blanking port of the sabot frock bit alignment blanking mechanism on sabot tooling platform, blanking mechanism carries out blanking simultaneously, to complete lock pin sabot.

In step 3, thimble ejects after lock pin, and the second rotating disk resets and enters the next process of adjusting lock pin both forward and reverse directions.

In sum, a kind of optical fiber ceramic lock pin automatic tray filler provided by the present invention, owing to having adopted automation lock pin sabot design, realize the artificial conversion to automation, not only save hand labor power, the sabot of the lock pin of automation simultaneously provides work efficiency, expends time in short, and the advantages such as sabot quality is high, high conformity.

Should be understood that, application of the present invention is not limited to above-mentioned giving an example, and for those of ordinary skills, can be improved according to the above description or convert, and all these improvement and conversion all should belong to the protection domain of claims of the present invention.

Claims (9)

1. an optical fiber ceramic lock pin automatic tray filler, is characterized in that, comprising:

Frame;

Material conveying mechanism, is fixedly installed in the top of described frame, for delivery of lock pin;

Both forward and reverse directions adjusting mechanism, is positioned at the below of described material conveying mechanism and is fixedly mounted in frame, for adjusting the both forward and reverse directions of described lock pin, so that the correct sabot of lock pin;

Lock pin loading mechanism, is positioned at the below of described both forward and reverse directions adjusting mechanism and is movably arranged in frame, for lock pin sabot.

2. optical fiber ceramic lock pin automatic tray filler according to claim 1, it is characterized in that, feeding distribution mechanism in the middle of being also provided with between described material conveying mechanism and described both forward and reverse directions adjusting mechanism, be divided into single lock pin for the lock pin that material conveying mechanism is carried, so that described both forward and reverse directions adjusting mechanism carries out lock pin both forward and reverse directions adjustment one by one;

In the middle of described, one end of feeding distribution mechanism is connected with described material conveying mechanism, and the other end of middle feeding distribution mechanism is connected with described both forward and reverse directions adjusting mechanism.

3. optical fiber ceramic lock pin automatic tray filler according to claim 1, it is characterized in that, between described both forward and reverse directions adjusting mechanism and described lock pin loading mechanism, be also provided with blanking mechanism, for depositing by both forward and reverse directions adjusting mechanism and carry out the lock pin after both forward and reverse directions adjustment one by one, and the lock pin of depositing is one by one sent into sabot frock position successively;

Described blanking mechanism is connected with described both forward and reverse directions adjusting mechanism.

4. optical fiber ceramic lock pin automatic tray filler according to claim 1, is characterized in that, described material conveying mechanism comprises:

Material box, described material box is fixedly mounted on the top of frame, and the bottom of material box offers the first through hole, passes through this first through hole for single lock pin;

The bottom that is positioned at described material box is also provided with the first rotating disk, described the first rotating disk rotates by the first driven by motor, on described the first rotating disk, offer the second through hole corresponding to the position of described the first through hole, be contained in the motion of lock pin in material box by rotating the first driven by rotary disc, with realize single lock pin the first through hole and the second through hole when overlapping successively by this first through hole and the second through hole.

5. optical fiber ceramic lock pin automatic tray filler according to claim 1, is characterized in that, described both forward and reverse directions adjusting mechanism comprises:

The second rotating disk, described the second rotating disk rotates by the second driven by motor, is provided with for holding single lock pin and the groove of both ends open on described the second rotating disk;

Described the second rotating disk outside is arranged with a reaction plate, is provided with lock pin ingate and lock pin egress hole on described reaction plate.

6. optical fiber ceramic lock pin automatic tray filler according to claim 5, it is characterized in that, on described the second rotating disk, optical fiber transducer is also installed, detect the difference of lock pin two ends inner bore chamfering size by this optical fiber transducer, thereby identify the both forward and reverse directions of lock pin, and rotate the second rotating disk this lock pin is aimed to described lock pin egress hole;

The tail end that is positioned at described lock pin on described reaction plate is provided with a thimble, by described thimble, this lock pin is pushed to described lock pin egress hole.

7. optical fiber ceramic lock pin automatic tray filler according to claim 1, is characterized in that, described lock pin loading mechanism comprises:

Sabot tooling platform, is evenly provided with several sabot frock positions on described sabot tooling platform.

8. optical fiber ceramic lock pin automatic tray filler according to claim 7, is characterized in that, also comprises a screw mandrel, and described screw mandrel is threaded with described sabot tooling platform, by rotating described screw mandrel, to drive described sabot tooling platform parallel motion.

9. optical fiber ceramic lock pin automatic tray filler according to claim 8, is characterized in that, the end of described screw mandrel is provided with the 3rd motor, thereby is driven and driven described screw mandrel to rotate by described the 3rd motor.