CN116550549A - Adhesive dispenser for optical fiber sleeve assembly - Google Patents

Abstract

The invention discloses an optical fiber sleeve component dispensing machine, which is used for dispensing and mounting between a metal piece for optical fibers and a sleeve, and comprises the following components: frame, some glue subassembly, first work platform, first feeding subassembly, second work platform, second feeding subassembly and sleeve pipe remove the installation component. The dispensing assembly is used for dispensing the sleeve. The first working platform is used for accommodating the sleeve. The first feeding assembly is arranged on one side of the dispensing assembly and used for conveying the sleeve to the first working platform. The second working platform is used for accommodating the metal piece for the optical fiber and installing the metal piece and the sleeve. The second feeding assembly is used for conveying the metal piece for the optical fiber to the second working platform. The sleeve moving and installing assembly is arranged above the first working platform and used for moving the dispensing sleeve to the second working platform and installing the sleeve to the optical fiber metal piece. The optical fiber sleeve component dispensing machine can achieve uniform dispensing of the sleeve, and can achieve mounting of the sleeve after dispensing and the optical fiber metal piece.

Description

Adhesive dispenser for optical fiber sleeve assembly

Technical Field

The invention relates to the field of optical fibers, in particular to an optical fiber sleeve assembly dispensing machine.

Background

The optical fibers are connected by a fiber optic ferrule assembly to ensure maximum connectivity between the fiber optic connectors. The optical fiber sleeve assembly is widely applied to the fields of telecommunication metropolitan area networks, backbone networks, access networks, data centers, internet big data storage, cloud computing and the like, and the stability of optical fiber network information transmission is determined to a great extent. The manufacturing requirement of the optical fiber sleeve assembly is higher, the prior art is to manually glue the sleeve for one circle, and then the optical fiber is assembled with the sleeve by using a metal piece, but the phenomenon of uneven rotation of manual glue dispensing is caused, uncertain factors exist, and the quality of the optical fiber sleeve assembly is easy to be unstable. In addition, manual dispensing also has the problem of inefficiency.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

The invention aims to provide an optical fiber sleeve component dispensing machine which can be used for uniformly dispensing a sleeve and mounting the dispensed sleeve and an optical fiber metal piece.

To achieve the above object, an embodiment of the present invention provides an optical fiber ferrule assembly dispensing machine for dispensing and mounting between a metal member for an optical fiber and a ferrule, comprising: frame, some glue subassembly, first work platform, first feeding subassembly, second work platform, second feeding subassembly and sleeve pipe remove the installation component. The dispensing component is arranged on the frame and used for dispensing the sleeve. The first working platform is arranged below the dispensing assembly and is used for accommodating the sleeve. The first feeding assembly is arranged on one side of the dispensing assembly and used for conveying the sleeve to the first working platform. The second working platform is arranged on one side of the first working platform and is used for accommodating the optical fiber metal piece and providing an installation platform for the installation of the optical fiber metal piece and the sleeve. The second feeding assembly is arranged on one side of the frame and used for conveying the metal piece for the optical fiber to the second working platform. The sleeve moving and installing assembly is arranged above the first working platform and used for moving the dispensed sleeve to the second working platform and installing the sleeve to the optical fiber metal piece.

In one or more embodiments of the present invention, the first feeding assembly includes: the device comprises a first vibration disc, a sleeve adjusting mechanism, a CCD detection mechanism, a blanking mechanism, a first conveying pipe and a second conveying pipe. The first vibration disc is used for storing the sleeve to be dispensed; the sleeve adjusting mechanism is connected with the first vibration disc and used for adjusting the front and back of the sleeve; the CCD detection mechanism is arranged above the sleeve adjusting mechanism and is used for observing the front and back of the sleeve; the blanking mechanism is connected with the sleeve adjusting mechanism and used for conveying the sleeve to the first working platform; one end of a first conveying pipe is connected with the first vibration disc, and the other end of the first conveying pipe is connected with the sleeve adjusting mechanism and used for conveying the sleeve; one end of the second conveying pipe is connected with the sleeve adjusting mechanism, and the other end of the second conveying pipe is connected with the blanking mechanism and used for conveying the sleeve.

In one or more embodiments of the invention, the sleeve adjustment mechanism includes: a rotary motor and a movement control cylinder. One end of the rotating motor is provided with a rotating shaft, and a containing groove capable of containing the sleeve is formed in the rotating shaft. The movement control cylinder is connected with the other end of the rotating motor and used for controlling the rotating motor to move along the axial direction of the rotating shaft.

In one or more embodiments of the present invention, a sensor is sleeved on the second delivery tube for detecting the state of the inner sleeve of the second delivery tube.

In one or more embodiments of the present invention, the second feeding assembly includes: a second vibratory pan, a Ping Zhen flow channel, and a flow control assembly. The second vibration plate is used for storing the metal parts for the optical fibers to be conveyed. And Ping Zhen flow channels, one ends of which are connected with the second vibration disk, and the other ends of which are connected with the second working platform, are used for conveying the sleeve to the second working platform. The runner control assembly is arranged at one end of the Ping Zhen runner connected with the second working platform and used for controlling the quantity of the optical fiber metal pieces entering the second working platform.

In one or more embodiments of the present invention, the flow path control assembly includes: the blocking member and the blocking member control the cylinder. The blocking piece is arranged on the flat vibration flow channel. The blocking piece control cylinder is connected with the blocking piece and used for controlling the lifting of the blocking piece.

Wherein: the flow channel control assembly is provided with a first working state and a second working state, when the flow channel control assembly is in the first working state, the blocking piece is lifted by the blocking piece control cylinder, and a gap for the optical fiber metal piece to pass through is reserved between the blocking piece control cylinder and the flat vibration flow channel; when the flow passage control assembly is in the second working state, the blocking piece is controlled by the blocking piece to descend by the cylinder, and is propped against the Ping Zhen flow passage, and the optical fiber metal piece is blocked on the flat vibration flow passage.

In one or more embodiments of the present invention, an observation camera is disposed on one side of the first working platform, for observing the dispensing condition of the sleeve on the first working platform.

In one or more embodiments of the present invention, a moving cylinder is disposed below the first working platform, for adjusting a position of the first working platform.

In one or more embodiments of the present invention, the fiber optic ferrule assembly dispenser further includes a tooling tray support and a robotic arm. A plurality of work loading trays are arranged on the work loading tray bracket. The mechanical arm is arranged on one side of the tool tray support and used for clamping the assembled optical fiber sleeve component onto the tool tray from the second working platform.

In one or more embodiments of the present invention, a heating plate is provided on the tooling tray support for accelerating the curing of the glue on the fiber optic ferrule assembly.

Compared with the prior art, the optical fiber sleeve component dispensing machine is provided with the first feeding component and the second feeding component which are used for respectively conveying the sleeve and the optical fiber metal piece, so that manual operation is avoided, and the feeding speed can be controlled; secondly, the dispensing machine is provided with a dispensing assembly, so that automatic dispensing can be realized and dispensing is more uniform; in addition, a sleeve moving and installing assembly is also arranged, so that the sleeve moving and the installation of the optical fiber metal piece can be completed; finally, the mechanical arm is also arranged, so that the assembled optical fiber sleeve assembly can be clamped, manual operation is reduced, and the dispensing efficiency is improved.

Drawings

FIG. 1 is a first perspective view of a fiber optic ferrule assembly dispenser according to one embodiment of the present invention;

FIG. 2 is a second perspective view of a fiber optic ferrule assembly dispenser according to one embodiment of the present invention;

FIG. 3 is a third perspective view of a fiber optic ferrule assembly dispenser according to one embodiment of the present invention;

FIG. 4 is an internal block diagram of a fiber optic ferrule assembly dispenser according to one embodiment of the present invention;

fig. 5 is a block diagram of a second feed assembly according to an embodiment of the invention.

Fig. 6 is a block diagram of a first feeding assembly, a dispensing assembly, and a sleeve moving and mounting assembly according to an embodiment of the present invention.

Fig. 7 is a block diagram of a first feeding assembly and a dispensing assembly according to an embodiment of the present invention.

Fig. 8 is a block diagram of a sleeve adjustment assembly according to an embodiment of the present invention.

The main reference numerals illustrate:

the device comprises a 1-frame, a 2-dispensing component, a 3-first working platform, a 31-moving cylinder, a 4-first feeding component, a 41-first vibration disk, a 42-sleeve adjusting mechanism, a 421-rotating motor, a 422-rotating shaft, a 4221-accommodating groove, a 423-moving control cylinder, a 43-CCD detection mechanism, a 44-blanking mechanism, a 45-first conveying pipe, a 46-second conveying pipe, a 5-second working platform, a 6-second feeding component, a 61-second vibration disk, a 62-Ping Zhen runner, a 63-runner control component, a 631-blocking piece, a 632-blocking piece control cylinder, a 7-sleeve moving mounting component, an 8-sensor, a 9-observing camera, a 10-tool charging disk bracket, a 101-heating plate, an 11-mechanical arm and a 12-tool charging disk.

Detailed Description

The following detailed description of embodiments of the invention is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

As shown in fig. 1 to 8, an optical fiber ferrule assembly dispenser according to a preferred embodiment of the present invention is used for dispensing and mounting between a metal member for an optical fiber and a ferrule, and includes: the device comprises a frame 1, a dispensing assembly 2, a first working platform 3, a first feeding assembly 4, a second working platform 5, a second feeding assembly 6 and a sleeve moving and mounting assembly 7. The dispensing assembly 2 is arranged on the frame 1 and is used for dispensing the sleeve. The first working platform 3 is arranged below the dispensing assembly 2 and is used for accommodating the sleeve. The first feeding component 4 is arranged at one side of the dispensing component 2 and is used for conveying the sleeve to the first working platform 3. The second working platform 5 is disposed on one side of the first working platform 3, and is used for accommodating the metal piece for the optical fiber and providing an installation platform for installing the metal piece for the optical fiber and the sleeve. The second feeding assembly 6 is disposed at one side of the frame 1, and is used for conveying the optical fiber metal piece to the second working platform 5. And the sleeve moving and mounting assembly 7 is arranged above the first working platform 3 and is used for moving the dispensed sleeve to the second working platform 5 and mounting the sleeve to the optical fiber metal piece.

When the optical fiber sleeve assembly dispensing machine works, the first feeding assembly 4 conveys the sleeve to the first working platform 3, and the second feeding assembly 6 conveys the metal piece for the optical fiber to the second working platform 5. The sleeve is uniformly dispensed by the dispensing assembly 2 on the first working platform 3, then the sleeve moving and mounting assembly 7 moves the sleeve after the dispensing to the upper part of the optical fiber metal piece positioned on the second working platform 5, and then the sleeve is mounted on the optical fiber metal piece, so that an assembled optical fiber sleeve assembly is obtained. In the process, manual operation is not needed, the adhesive dispensing machine of the optical fiber sleeve assembly can automatically work under the control of the control system according to a preset program, and automatic adhesive dispensing and assembly of the optical fiber sleeve are realized.

As shown in fig. 6 to 7, in an embodiment, the first feeding assembly 4 includes: the device comprises a first vibration disc 41, a sleeve adjusting mechanism 42, a CCD detection mechanism 43, a blanking mechanism 44, a first conveying pipe 45 and a second conveying pipe 46. The first vibration plate 41 is used for storing the sleeve to be dispensed. The sleeve adjusting mechanism 42 is connected to the first vibration plate 41 for adjusting the forward and reverse directions of the sleeve. The CCD detection mechanism 43 is disposed above the sleeve adjustment mechanism 42 for observing the forward and reverse directions of the sleeve. The blanking mechanism 44 is connected with the sleeve adjusting mechanism 42 for conveying the sleeve to the first working platform 3. One end of the first conveying pipe 45 is connected to the first vibration plate 41, and the other end is connected to the sleeve adjusting mechanism 42 for conveying the sleeve. One end of the second conveying pipe 46 is connected with the sleeve adjusting mechanism 42, and the other end is connected with the blanking mechanism 44 for conveying the sleeve.

In the working process of the optical fiber sleeve assembly dispensing machine, a large number of sleeves to be dispensed are stored in the first vibration disc 41. The first vibration plate 41 vibrates the bushings one by one from the first vibration plate 41 by continuously vibrating, and the vibrated bushings are conveyed to the bushing adjusting mechanism 42 along the first conveying pipe 45. A CCD detection mechanism 43 is provided above the sleeve adjustment mechanism 42. The CCD detecting mechanism 43 can detect whether the forward and reverse directions of the head and the tail of the sleeve at the sleeve adjusting mechanism 42 are correct by the CCD camera.

Because the cannula is delivered along the first delivery tube 45, no transverse placement of the cannula on the cannula adjustment mechanism 42 occurs, but rather only a back-to-back cannula. When the CCD detection mechanism 43 detects that the front and back of the sleeve are wrong, a related signal is sent to the sleeve adjusting mechanism 42; the sleeve adjusting mechanism 42 adjusts the forward and reverse directions of the sleeve. When the forward and reverse adjustment of the sleeve is completed or the CCD detecting mechanism 43 does not detect a problem with the forward and reverse direction of the sleeve, the sleeve adjusting mechanism 42 will send the sleeve to the blanking mechanism 44 along the second conveying pipe 46. The blanking mechanism 44 then feeds the sleeve onto the first work platform 3. The sleeve is dispensed on the first work platform 3 and waits for the next process. The setting can guarantee that optical fiber sleeve subassembly point gum machine can not appear the mixed and disorderly condition in the course of the work to the automatic efficiency of point gum machine has been improved, the frequency of manual participation has been reduced.

As shown in fig. 8, in one embodiment, the sleeve adjusting mechanism 42 includes a rotary motor 421 and a movement control cylinder 423. One end of the rotary motor 421 is provided with a rotary shaft 422, and the rotary shaft 422 is provided with a housing groove 4221 in which the sleeve can be housed. A movement control cylinder 423 is connected to the other end of the rotary electric machine 421 for controlling the axial movement of the rotary electric machine 421 along the rotation shaft 422. After the sleeve is conveyed from the first conveying pipe 45 to the sleeve adjusting mechanism 42, the sleeve is positioned in the accommodation groove 4221 of the rotating shaft. When the CCD detecting mechanism 43 detects that there is a problem in the front and back of the sleeve in the housing 4221, the rotary motor 421 drives the rotary shaft 422 to rotate 180 °, and the front and back of the sleeve are adjusted. Then, the movement control cylinder 423 pushes the rotary motor 421 to move, the housing groove 4221 is located above the second conveying pipe 46, and the sleeve is introduced into the second conveying pipe 46 from the housing groove 4221. If the sleeve does not need to be adjusted, the movement control cylinder 423 directly pushes the rotating motor 421 to move, so that the accommodating groove 4221 is located above the second conveying pipe 46. Then, the movement control cylinder 423 resets the rotary electric machine 421 again, waiting for the next operation.

In order to ensure stable operation of the optical fiber ferrule assembly dispenser, a sensor 8 is provided on the second delivery tube 46 to enable detection of the condition of the ferrule within the second delivery tube 46. When there is too little or no casing in the second duct 46, the sensor 8 can feed back to the control system. The control system adjusts the feeding speed of the first feeding assembly 4, so that the efficiency of the dispenser is further improved. In addition, in order to improve the efficiency of the dispenser, two second conveying pipes 46 are provided, the blanking mechanism 44 is provided with two blanking openings respectively connected with the two second conveying pipes 46, and the blanking mechanism 44 can convey two sleeves to the first working platform 3 at a time. Also, the dispensing assembly 2 is also provided with two dispensing heads, which can dispense two sleeves at a time. The sleeve moving and mounting assembly 7 can also move two sleeves simultaneously, so that the working efficiency of the optical fiber sleeve assembly dispensing machine is improved.

As shown in fig. 5, in an embodiment, the second feeding assembly 6 includes the second feeding assembly 6 including: the second vibration disk 61, ping Zhen flow channel 62 and flow channel control assembly 63. The second vibration plate 61 is used for storing the optical fiber metal piece to be conveyed. One end of the Ping Zhen runner 62 is connected to the second vibration plate 61, and the other end thereof is connected to the second working platform 5 for conveying the casing to the second working platform 5. And a flow channel control assembly 63, which is arranged at one end of the Ping Zhen flow channel 62 connected with the second working platform 5, and is used for controlling the quantity of the optical fiber metal pieces entering the second working platform 5. The second vibration plate 61 conveys the optical fiber metal member to the flat vibration flow path 62 by vibration. The optical fiber metal member is then conveyed to the second work platform 5 along the flat vibration flow path 62. The flow channel control unit 63 controls the number of optical fiber metal pieces entering the second working platform 5 from the flat vibration flow channel 62, and prevents too many optical fiber metal pieces from being stacked on the second working platform 5, thereby affecting the assembly of the ferrule and the optical fiber metal pieces.

The flow path control assembly 63 includes: a blocking member 631 and a blocking member control cylinder 632. The stopper 631 is provided on the flat vibration flow path 62. The blocking member control cylinder 632 is connected to the blocking member 631 for controlling the elevation and depression of the blocking member 631. Wherein: the flow channel control assembly 63 has a first operating state and a second operating state, and when the flow channel control assembly 63 is in the first operating state, the blocking member 631 is lifted by the blocking member control cylinder 632, and a gap is left between the blocking member and the Ping Zhen flow channel 62 for the optical fiber metal member to pass through. When the flow path control unit 63 is in the second operating state, the stopper 631 is lowered by the stopper control cylinder 632 and abuts against the Ping Zhen flow path 62, and the optical fiber metal member is stopped on the flat vibration flow path 62 and cannot enter the second working platform 5. After the fiber optic hardware and ferrule on the second work platform 5 are assembled and removed, the flow control assembly 63 will allow the fiber optic hardware on the flow channel 62 at Yu Pingzhen to enter the second work platform 5.

In an embodiment, an observation camera 9 is disposed on one side of the first working platform 3, and the observation camera 9 can observe the dispensing condition of the sleeve on the first working platform 3. When an operator of the dispensing machine observes that the dispensing of the sleeve is uneven through the observation camera 9, the sleeve can be taken out, so that the defective sleeve can be found in advance, and the yield of the optical fiber sleeve assembly is improved. In addition, a moving cylinder 31 is further arranged below the first working platform 3, and the moving cylinder 31 can adjust the position of the first working platform 3. When dispensing of the sleeve on the first working platform 3 is completed, the moving cylinder 31 can drive the first working platform 3 to the lower part of the blanking mechanism 44 to receive a new sleeve.

In order to further improve the automation degree of the optical fiber sleeve dispensing machine, the optical fiber sleeve dispensing machine further comprises an industrial charging tray bracket 10 and a mechanical arm 11. A plurality of work load trays 12 are positioned on the work load tray support 10. The mechanical arm 11 is disposed on one side of the tooling pallet support 10 for clamping the assembled fiber ferrule assembly from the second work platform 5 to the tooling pallet 12. And in order to accelerate the curing speed of the glue on the fiber sleeve assembly, a heating plate 101 is arranged on the tooling tray support 10.

The foregoing descriptions of specific exemplary embodiments of the present invention are presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (10)

1. An optical fiber ferrule assembly dispensing machine for dispensing and connecting between a metal piece for an optical fiber and a ferrule, comprising:

a frame;

the dispensing assembly is arranged on the rack and is used for dispensing the sleeve;

the first working platform is arranged below the dispensing assembly and is used for accommodating the sleeve;

the first feeding assembly is arranged on one side of the dispensing assembly and is used for conveying the sleeve to the first working platform;

the second working platform is arranged on one side of the first working platform and is used for accommodating the optical fiber metal piece and providing an installation platform for the installation of the optical fiber metal piece and the sleeve;

the second feeding assembly is arranged on one side of the rack and is used for conveying the metal piece for the optical fiber to the second working platform; and

and the sleeve moving and installing assembly is arranged above the first working platform and is used for moving the sleeve after dispensing to the second working platform and installing the sleeve to the optical fiber metal piece.

2. The fiber optic ferrule assembly dispenser of claim 1, wherein the first feed assembly comprises:

the first vibration disc is used for storing the sleeve to be dispensed;

the sleeve adjusting mechanism is connected with the first vibration disc and used for adjusting the front and back of the sleeve;

the CCD detection mechanism is arranged above the sleeve adjusting mechanism and is used for observing the front and back of the sleeve;

the blanking mechanism is connected with the sleeve adjusting mechanism and used for conveying the sleeve to the first working platform;

one end of the first conveying pipe is connected with the first vibration disc, and the other end of the first conveying pipe is connected with the sleeve adjusting mechanism and is used for conveying the sleeve; and

and one end of the second conveying pipe is connected with the sleeve adjusting mechanism, and the other end of the second conveying pipe is connected with the blanking mechanism and is used for conveying the sleeve.

3. The fiber optic ferrule assembly dispenser of claim 2, wherein the ferrule adjustment mechanism comprises:

a rotating motor, one end of which is provided with a rotating shaft, and the rotating shaft is provided with a containing groove capable of containing the sleeve; and

and the movement control cylinder is connected with the other end of the rotating motor and used for controlling the rotating motor to move along the axial direction of the rotating shaft.

4. The fiber optic ferrule assembly dispenser of claim 2, wherein the second delivery tube is sleeved with a sensor for detecting the condition of the inner ferrule of the second delivery tube.

5. The fiber optic ferrule assembly dispenser of claim 1, wherein the second feed assembly comprises:

the second vibration disc is used for storing the metal parts for the optical fibers to be conveyed;

ping Zhen flow passage, one end of which is connected with the second vibration disk, and the other end of which is connected with the second working platform and is used for conveying the sleeve to the second working platform; and

the runner control assembly is arranged at one end of the Ping Zhen runner connected with the second working platform and is used for controlling the quantity of the optical fiber metal pieces entering the second working platform.

6. The fiber optic ferrule assembly dispenser of claim 5, wherein the flow channel control assembly comprises:

the blocking piece is arranged on the flat vibration flow channel; and

the blocking piece control cylinder is connected with the blocking piece and used for controlling the lifting of the blocking piece;

wherein: the flow channel control assembly is provided with a first working state and a second working state, when the flow channel control assembly is in the first working state, the blocking piece is lifted by the blocking piece control cylinder, and a gap for the optical fiber metal piece to pass through is reserved between the blocking piece control cylinder and the flat vibration flow channel; when the flow passage control assembly is in the second working state, the blocking piece is controlled by the blocking piece to descend by the cylinder, and is propped against the Ping Zhen flow passage, and the optical fiber metal piece is blocked on the flat vibration flow passage.

7. The fiber optic ferrule assembly dispenser of claim 1, wherein an observation camera is provided on one side of the first work platform for observing dispensing of the ferrule on the first work platform.

8. The fiber optic ferrule assembly dispenser of claim 1, wherein a moving cylinder is disposed below the first work platform for adjusting the position of the first work platform.

9. The fiber optic ferrule assembly dispenser of claim 1, further comprising:

a work loading tray bracket provided with a plurality of work loading trays; and

the mechanical arm is arranged on one side of the tool tray support and is used for clamping the assembled optical fiber sleeve assembly from the second working platform to the tool tray.

10. The fiber optic ferrule assembly dispenser of claim 9, wherein the tooling tray support is provided with a heating plate for accelerating the curing of the glue on the fiber optic ferrule assembly.