CN217776441U - Core insert through hole mechanism - Google Patents

Abstract

The utility model relates to a ferrule through hole mechanism, which comprises a platform, a positioning hole and a positioning mechanism, wherein the positioning hole is used for placing a ferrule; the through hole needle is arranged above the platform corresponding to the positioning hole; the pressure sensor is arranged at the top of the through hole needle; and the first driving device is connected with the through hole needle and can drive the through hole needle to move up and down. The utility model provides a lock pin through-hole mechanism can effectively clear away downthehole jam debris in the lock pin through the through-hole needle, effectively realizes the clearance to the lock pin hole, especially returns the lock pin of washing to needs, through the through-hole processing back, the stifled hole condition of lock pin hole is returned to washing to solution that can be better, simultaneously greatly reduced scrap because of the lock pin that the stifled hole produced.

Description

Core insert through hole mechanism

Technical Field

The utility model relates to a lock pin through-hole mechanism.

Background

The optical fiber ferrule is a member for fixing an optical fiber in an optical fiber connector, and has an inner hole at the center thereof for inserting the optical fiber. Because the inner hole of the ceramic ferrule needs to be ground, after the grinding, a large amount of diamond powder, ceramic powder, tin, oil stain and other stains are easily accumulated in the inner hole of the ceramic ferrule, so that the inner hole of the ceramic ferrule is blocked. If dirt in the inner hole of the ceramic ferrule can not be effectively removed, difficulty can be brought to fiber penetration in the subsequent manufacturing process of the optical fiber connector, and even fiber breakage can be caused. In order to ensure that the inner hole of the ceramic ferrule is clean and smooth, the inner hole of the ceramic ferrule needs to be cleaned.

The ceramic ferrule inner hole cleaning machine is connected with a nozzle assembly by using a high-pressure water pump, and sprays high-pressure water through a nozzle to clean an inner hole of the ceramic ferrule. In the prior art, the insert core is cleaned by high-pressure gas, ultrasonic waves and other equipment. Although these equipment can clear up the filth in most pottery lock pin hole, the condition that the hole clearance is unclean or the hole still is blockked up by the filth can appear in the difficult emergence, still need follow the pottery lock pin after the washing in with the unclean pottery lock pin letter sorting out and wash back, nevertheless it is limited to wash back the effect for the disability rate of pottery lock pin is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an effective through-hole operation that can carry out ceramic lock pin hole before returning to wash is provided to above-mentioned prior art, and then reduces the lock pin through-hole mechanism of disability rate.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a lock pin through-hole mechanism which characterized in that: comprises that

The platform is provided with a positioning hole for placing the inserting core;

the through hole needle is arranged above the platform corresponding to the positioning hole;

the pressure sensor is arranged at the top of the through hole needle;

and the first driving device is connected with the through hole needle and can drive the through hole needle to move up and down.

In order to effectively classify and discharge the through hole non-defective ferrules and the ferrules blocked by the inner holes, a first discharging device for collecting the through hole qualified ferrules and a second discharging device for collecting the plugged ferrules are arranged beside the platform;

and a second driving device capable of driving the platform to rotate is arranged below the platform, and the second driving device drives the platform to rotate so that the positioning hole in the platform can be aligned with the first blanking device or the second blanking device.

In a more convenient blanking way, the first blanking device and the second blanking device are arranged at the same side of the driving platform, and a fixed seat is arranged below the second driving device; and the fixed seat is connected with a telescopic driver to drive the fixed seat to reciprocate, so that the platform is close to and far away from the first blanking device and the second blanking device.

Preferably, the ceramic ferrule positioning device further comprises a feeding device for feeding the ceramic ferrule, a ferrule direction adjusting device for identifying and adjusting the direction of the ferrule, and a conduit for conveying the ferrule into the positioning hole of the platform, wherein an outlet of the feeding device and an inlet of the conduit are respectively butted with the ferrule direction adjusting device.

In order to ensure that the ceramic ferrule can be stably conveyed into the positioning hole of the platform, a first mounting seat is arranged beside one end of the platform, and the outlet end of the guide pipe is fixed on the first mounting seat corresponding to the position of the positioning hole on the platform.

In order to improve the working efficiency, the two ends of the platform are respectively provided with a positioning hole, and a second driving device capable of driving the platform to rotate is arranged below the platform.

In order to ensure that the through-hole needle can reliably align the inner hole of the ferrule to realize the action of the through-hole and avoid the misjudgment of the inner hole blockage of the ferrule, a second mounting seat is arranged beside the other end of the platform, a positioning block extending to the upper part of the platform is arranged on the second mounting seat, and a guide hole for the through-hole needle to penetrate is arranged on the positioning block.

In order to further guarantee the stability of through-hole needle through-hole direction, avoid external factors to lead to the through-hole needle to warp, the position that corresponds to the guiding hole on the locating piece is equipped with hollow stand pipe, the through-hole needle is worn to establish in the stand pipe.

Preferably, the first driving device comprises a motor, a guide seat, a sliding block and a connecting plate, the guide seat is vertically arranged, the sliding block is limited on the guide seat in a vertically movable mode, the driving end of the motor is connected with the sliding block, the connecting plate is fixedly connected to the sliding block, and the through hole needle is fixed to the connecting plate.

Conveniently install, be provided with the connecting seat on the connecting plate, pressure sensor sets up the top at the connecting seat, the through-hole needle is connected on the connecting seat and the top pushes up on pressure sensor.

Compared with the prior art, the utility model has the advantages of: the utility model provides a lock pin through-hole mechanism can effectively clear away downthehole jam debris in the lock pin through the through-hole needle, effectively realizes the clearance to the lock pin hole, especially returns the lock pin of washing to needs, through the through-hole processing back, the stifled hole condition of lock pin hole is returned to washing to solution that can be better, simultaneously greatly reduced scrap because of the lock pin that the stifled hole produced.

Drawings

Fig. 1 is a perspective view of the ferrule through-hole mechanism in the embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1, the ferrule through-hole mechanism in this embodiment includes a loading device 100, a ferrule direction adjusting device 200, a guide tube 300, a platform 1, a through-hole needle 2, a pressure sensor 3, a first driving device 4, a second driving device 7, a first discharging device 5, and a second discharging device 6. The inserting core through hole mechanism can be arranged on one machine body, so that the moving, the carrying and the operation of workers are facilitated.

Wherein, loading attachment 100 is used for the ceramic lock pin material loading. The ferrule direction adjusting device 200 is used to identify and adjust the ferrule direction, so that the ferrules are uniformly arranged and output, in this embodiment, the head end of the ferrule is moved forward and output by the ferrule direction adjusting device 200. The loading device 100 and the ferrule direction adjusting device 200 can adopt various existing structures in the field of ceramic ferrules.

The platform 1 is provided with a positioning hole 11 for placing the inserting core, so that the inserting core is positioned in the positioning hole 11, and the through hole work of the inserting core is realized. According to the requirement, the ferrule can be manually placed into the positioning hole 11 to perform through hole operation of the ferrule, or the ferrule can be automatically loaded into the positioning hole 11 of the platform 1 to perform subsequent through hole operation of the ferrule. When the automatic feeding mode is adopted to feed materials into the positioning hole 11 of the platform 1, the feeding device 100, the inserting core direction adjusting device 200 and the guide pipe 300 are used for matching together.

The guide pipe 300 is used for conveying the ferrule into the positioning hole 11 of the platform 1, and the outlet of the loading device 100 and the inlet of the guide pipe 300 are respectively butted with the ferrule direction adjusting device 200. In order to ensure that the ferrule can be stably conveyed into the positioning hole 11 of the platform 1, a first mounting seat 301 is fixed on the machine body, the first mounting seat 301 is arranged beside one end of the platform 1, and the outlet end of the conduit 300 is fixed on the first mounting seat 301 corresponding to the position of the positioning hole 11 on the platform 1. In this embodiment, the positioning hole 11 on the platform 1 extends vertically, and based on this, the outlet end of the conduit 300 is further connected with a guiding head, and a guiding hole with a vertical axis is arranged in the guiding head, so that after the ferrule conveyed by the conduit 300 enters the guiding hole in the guiding head, the ferrule is adjusted to a vertical posture, and then can accurately drop into the positioning hole 11 of the platform 1.

In order to improve the efficiency of the through hole for the ferrule, the platform 1 in this embodiment is a strip structure, two positioning holes 11 are respectively disposed at two ends of the platform 1, and the second driving device 7 is disposed below the platform 1 to drive the platform 1 to rotate, so that the ferrules are alternately placed in the two positioning holes 11 on the platform 1, that is, when the ferrule in one positioning hole 11 is subjected to the through hole operation, the other positioning hole 11 is subjected to the loading operation of the ferrule. The second driving device 7 in the present embodiment may employ a rotary cylinder. Of course, the second driving device 7 may also adopt other driving structures capable of performing rotary driving in the prior art.

The through-hole needle 2 is disposed above the stage 1 corresponding to one of the positioning holes 11 of the stage 1, and specifically, the guide tube 300 and the through-hole needle 2 are disposed at opposite sides of the stage 1, respectively. The through hole needle 2 is connected with the first driving device 4, and then can reciprocate under the drive of the first driving device 4, and the through hole needle 2 can stretch into to the hole of the lock pin positioned in the positioning hole 11 when moving downwards, and then realizes the cleaning of the lock pin hole, so as to complete the through hole work.

In this embodiment, the first driving device 4 includes a motor 41, a guide seat 42, a slider 43, and a connecting plate 44, the guide seat 42 is vertically disposed on the machine body, the slider 43 is limited on the guide seat 42 in a manner that the slider 43 can move up and down, a driving end of the motor 41 is connected to the slider 43, the connecting plate 44 is fixedly connected to the slider 43, and the through-hole needle 2 is fixed to the connecting plate 44. The connecting plate 44 is provided with a connecting seat 441, the pressure sensor 3 is arranged above the connecting seat 441, and the through-hole needle 2 is connected to the connecting seat 441 and the top end of the through-hole needle is pressed against the pressure sensor 3. I.e. the pressure sensor 3 is arranged on top of the through-hole needle 2.

The during operation, motor 41 drive slides and reciprocates along guide holder 42, drives connecting plate 44, connecting seat 441, through-hole needle 2, pressure sensor 3 and reciprocates in step, when driving through-hole needle 2 and move down, through-hole needle 2 inserts to the hole of lock pin, and then realizes the clearance to the lock pin hole, but when meetting lock pin hole and blockking up seriously, then through-hole needle 2 can't effectively realize through-hole work. So, based on the pressure signal that pressure sensor 3 detected, can effectively judge whether can realize the clearance of lock pin hole, if through-hole needle 2 when carrying out the clearance of lock pin hole, if the pressure data that pressure sensor 3 detected surpassed the setting value, control motor 41 stop work, it is serious to judge simultaneously that the lock pin hole blocks up, can't accomplish the clearance. And then the through-hole needle 2 is driven to move upwards to avoid the condition of needle breakage.

In addition, in order to ensure that the through-hole needle 2 can reliably align the inner hole of the ferrule to realize through-hole action and avoid misjudgment of plugging of the inner hole of the ferrule, a second mounting seat 21 is arranged beside the other end of the platform 1, a positioning block 22 extending to the upper side of the platform 1 is arranged on the second mounting seat 21, and a guide hole for the through-hole needle 2 to penetrate is arranged on the positioning block 22. In order to further ensure the stability of the through hole direction of the through hole needle 2 and avoid the deformation of the through hole needle 2 caused by external factors, a hollow guide tube 23 is arranged on the positioning block 22 corresponding to the guide hole, and the through hole needle 2 is arranged in the guide tube 23 in a penetrating way. The guide tube 23 effectively plays a role in guiding the through-hole needle 2 vertically, so that the through-hole needle 2 is prevented from deforming, and the stability of the vertical moving direction of the through-hole needle 2 is ensured, so that the through-hole needle 2 can be accurately inserted into an inner hole of the ferrule.

Based on the clearance condition of through-hole needle 2 to the lock pin hole, can divide into the lock pin of through-hole non-defective products lock pin and hole jam with the lock pin after 2 processing of well through-hole needle, so, to the lock pin of different through-hole processing results, set up blanking structure respectively corresponding to the lock pin of through-hole non-defective products lock pin and hole jam, in this embodiment, be provided with the first unloader 5 that is used for collecting the qualified lock pin of through-hole, collect the second unloader 6 of stifled hole lock pin other than platform 1.

According to the specific arrangement positions of the first blanking device 5 and the second blanking device 6 beside the platform 1, the driving structure of the platform 1 is specifically arranged so that the platform 1 moves to the blanking position. For example, if the first discharging device 5 and the second discharging device 6 are located in the driving rotation range of the platform 1 in the second driving device 7, the second driving device 7 can be used to drive the platform 1 to rotate, so that the positioning hole 11 to be discharged on the platform 1 is rotated to the discharging position of the first discharging device 5 or the second discharging device 6, and then the first discharging device 5 or the second discharging device 6 is used to perform the discharging operation. First unloader 5, second unloader 6 can adopt the unloading mode structure that uses in the present lock pin field, if can adopt the unloading structure of modes such as snatching among the prior art, promote, blow, first unloader 5, second unloader 6 all adopt the unloading structure of blowing among the prior art in this embodiment.

In order to enable the positioning hole 11 on the platform 1 to better align with the blanking positions of the first blanking device 5 and the second blanking device 6, in this embodiment, the first blanking device 5 and the second blanking device 6 are disposed on the same side of the driving platform 1, and the fixing seat 8 is disposed below the second driving device 7. The fixed seat 8 is connected with a telescopic driver 9 to drive the fixed seat 8 to reciprocate on the machine body, so that the platform 1 is close to and far away from the first blanking device 5 and the second blanking device 6. When the blanking is needed, the telescopic driver 9 drives the fixing seat 8 to drive the platform 1 to be close to the first blanking device 5 and the second blanking device 6, so that the positioning holes 11 at the two ends of the platform 1 are respectively aligned with the blanking positions of the first blanking device 5 and the second blanking device 6, the through hole state of the inserting core is detected for the pressure sensor 3, and then the second driving device 7 is controlled to drive the platform 1 to rotate, so that the positioning holes 11 to be blanked are rotated to the blanking positions of the corresponding blanking devices. After the blanking is finished, the telescopic driver 9 drives the fixing seat 8 to reset so as to drive the platform 1 to be far away from the first blanking device 5 and the second blanking device 6. The two locating holes 11 on the platform 1 realign the loading station and the through-hole station.

The working method of the inserting core through hole mechanism comprises the following steps: and controlling the second driving device 7 to drive the platform 1 to rotate, so that the second driving device 7 is controlled to stop working after the positioning hole 11 vacated on the platform 1 is rotated to a position (namely a feeding station) aligned with the feeding of the guide pipe 300. Then the inserting core in the conduit 300 is output to the positioning hole 11, and the loading is further realized. And then, the second driving device 7 is controlled to drive the platform 1 to rotate so that the loaded ferrule is rotated to the through hole station, and the first driving device 4 is controlled to work so as to drive the through hole needle 2 to move downwards and be inserted into the inner hole of the ferrule, so that the blockage in the inner hole of the ferrule is cleaned. At the moment, the pressure sensor 3 detects pressure data in real time, if the pressure data is larger than a set value, the first driving device 4 is controlled to drive the through hole needle 2 to move upwards, and meanwhile, the inserting core is judged to be a hole plugging inserting core. If the pressure data detected by the pressure sensor 3 is within the set pressure data range, the core insert is judged to be completed, and the corresponding core insert is a good product through hole core insert. And for the good product through hole inserting core, based on the control of the telescopic driver and the second driving device, the inserting core on the driving platform moves to the position corresponding to the first blanking device 5, and the first blanking device 5 is utilized to realize blanking of the good product through hole inserting core. And for the hole plugging inserting core, based on the control of the telescopic driver and the second driving device, the inserting core on the driving platform moves to the position corresponding to the second blanking device 6, and then the blanking of the hole plugging inserting core is realized by utilizing the second blanking device 6. The classified collection of good quality through-hole lock pin, stifled hole lock pin is so realized to follow-up use.

In addition, when the through hole needle 2 is used for conducting through hole operation on the inserting core, the loading device 100, the inserting core direction adjusting device 200 and the guide pipe 300 are matched to realize the loading operation of the inserting core in the other positioning hole on the platform. So alternate circulation improves the through-hole work efficiency of lock pin.

The utility model provides a lock pin through-hole mechanism can effectively clear away downthehole jam debris of lock pin through-hole needle 2, effectively realizes the clearance to the lock pin hole, especially returns the lock pin of washing to needs, through the through-hole processing back, the stifled hole condition of washing lock pin hole is returned to solution that can be better, simultaneously greatly reduced because of the lock pin that the stifled hole produced scraps.

Directional terms such as "front", "rear", "upper", "lower", "left", "right", "side", "top", "bottom", and the like are used in the description and claims of the present invention to describe various example structural parts and elements of the present invention, but these terms are used herein for convenience of description only and are determined based on example orientations shown in the drawings. Because the disclosed embodiments of the present invention may be oriented in different directions, the directional terms are used for descriptive purposes and are not to be construed as limiting, e.g., "upper" and "lower" are not necessarily limited to directions opposite to or coincident with the direction of gravity.

Claims (9)

1. The utility model provides a lock pin through-hole mechanism which characterized in that: comprises that

The platform (1) is provided with a positioning hole (11) for placing the inserting core;

the through hole needle (2) is arranged above the platform (1) corresponding to the positioning hole (11);

the pressure sensor (3) is arranged at the top of the through hole needle (2);

and the first driving device (4) is connected with the through-hole needle (2) and can drive the through-hole needle (2) to move up and down.

2. The ferrule through-hole mechanism of claim 1, wherein: a first blanking device (5) for collecting the qualified through-hole inserting cores and a second blanking device (6) for collecting the hole-plugging inserting cores are arranged beside the platform (1);

the automatic feeding device is characterized in that a second driving device (7) capable of driving the platform (1) to rotate is arranged below the platform (1), and the second driving device (7) drives the platform (1) to rotate so that a positioning hole (11) in the platform (1) can be aligned to the first feeding device (5) or the second feeding device (6).

3. The ferrule through-hole mechanism of claim 2, wherein: the first blanking device (5) and the second blanking device (6) are arranged on the same side of the driving platform (1), and a fixed seat (8) is arranged below the second driving device (7); the fixed seat (8) is connected with a telescopic driver (9) to drive the fixed seat (8) to reciprocate, so that the platform (1) is close to and far away from the first blanking device (5) and the second blanking device (6).

4. A ferrule through-hole mechanism according to any one of claims 1 to 3, wherein: the ceramic ferrule positioning device comprises a feeding device (100) used for feeding ceramic ferrules, a ferrule direction adjusting device (200) used for identifying and adjusting the directions of the ferrules, and a guide pipe (300) used for conveying the ferrules into a positioning hole (11) of the platform (1), wherein an outlet of the feeding device (100) and an inlet of the guide pipe (300) are respectively butted with the ferrule direction adjusting device (200).

5. The ferrule through-hole mechanism of claim 4, wherein: a first mounting seat (301) is arranged beside one end of the platform (1), and the outlet end of the guide pipe (300) is fixed on the first mounting seat (301) corresponding to the position of the positioning hole (11) in the platform (1).

6. A ferrule through-hole mechanism according to any one of claims 1 to 3, wherein: the utility model discloses a platform, including platform (1), platform (1) other end, be provided with second mount pad (21) on second mount pad (21), be provided with locating piece (22) that extend to platform (1) top on locating piece (22), be provided with the guiding hole that supplies through-hole needle (2) to penetrate on locating piece (22).

7. The ferrule through-hole mechanism of claim 6, wherein: a hollow guide pipe (23) is arranged on the positioning block (22) corresponding to the guide hole, and the through hole needle (2) penetrates through the guide pipe (23).

8. A ferrule through-hole mechanism according to any one of claims 1 to 3, wherein: the first driving device (4) comprises a motor (41), a guide seat (42), a sliding block (43) and a connecting plate (44), the guide seat (42) is vertically arranged, the sliding block (43) can be limited on the guide seat (42) in a vertical moving mode, the driving end of the motor (41) is connected with the sliding block (43), the connecting plate (44) is fixedly connected onto the sliding block (43), and the through-hole needle (2) is fixed onto the connecting plate (44).

9. A ferrule through-hole mechanism according to claim 8, wherein: the connecting plate (44) is provided with a connecting seat (441), the pressure sensor (3) is arranged above the connecting seat (441), and the through-hole needle (2) is connected to the connecting seat (441) and the top end of the through-hole needle is pressed against the pressure sensor (3).

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