CN211718575U

CN211718575U - Automatic assembling machine for optical fiber connecting base pin

Info

Publication number: CN211718575U
Application number: CN202020689735.0U
Authority: CN
Inventors: 黄华春; 张明敏; 马杨姣
Original assignee: Dongguan Jilida Automation Technology Co ltd
Current assignee: Dongguan Jilida Automation Technology Co ltd
Priority date: 2020-04-29
Filing date: 2020-04-29
Publication date: 2020-10-20
Anticipated expiration: 2030-04-29

Abstract

The utility model relates to an automation equipment technical field specifically discloses automatic assembly machine is participated in to fiber connection seat, including frame and control panel, its characterized in that: the base is provided with a feeding mechanism, an optical fiber connecting seat conveying mechanism, a first pin inserting conveying mechanism, a first clamping mechanism, a rotating mechanism, a second pin inserting conveying mechanism, a second clamping mechanism and a discharging mechanism, the feeding mechanism comprises a conveying track arranged in the left-right direction, a pushing plate arranged on the conveying track and a feeding cylinder driving the pushing plate to move along the conveying track, and the optical fiber connecting seat conveying mechanism, the first pin inserting conveying mechanism, the first clamping mechanism, the rotating mechanism, the second pin inserting conveying mechanism, the second clamping mechanism and the discharging mechanism are sequentially arranged in the conveying track direction. The utility model discloses degree of automation is high, and packaging efficiency and precision are high, and low in labor strength can effectually save the cost of labor, can satisfy the market demand.

Description

Automatic assembling machine for optical fiber connecting base pin

Technical Field

The utility model relates to an automation equipment technical field, concretely relates to automatic assembly machine is participated in to fiber connection seat.

Background

With the development of electronic products and the progress of computer technology, computers are widely used and are increasingly used. When the computer was in the networking, need be connected with external optic fibre through the fiber connector seat, the fiber connector seat majority is provided with participating in of circuit board connection in both sides, when participating in the equipment to the fiber connector seat at present, the majority is operated through the manual work, and degree of automation is low, and intensity of labour is high, and the packaging efficiency is lower, and the cost of labor is high, and the precision of equipment is low, can not satisfy the demand in market.

Disclosure of Invention

To the defect of above-mentioned prior art, the utility model provides an automatic assembly machine is participated in to the fiber connector seat, degree of automation is high, and packaging efficiency and precision are high, and low in labor strength can effectually save the cost of labor, can satisfy the market demand.

In order to achieve the above object, the utility model adopts the following technical scheme:

the automatic assembling machine for the plug pins of the optical fiber connecting seat comprises a machine base and a control panel, wherein a feeding mechanism, an optical fiber connecting seat conveying mechanism, a first plug pin conveying mechanism, a first clamping mechanism, a rotating mechanism, a second plug pin conveying mechanism, a second clamping mechanism and a discharging mechanism are arranged on the machine base, the feeding mechanism, the optical fiber connecting seat conveying mechanism, the first plug pin conveying mechanism, the first clamping mechanism, the rotating mechanism, the second plug pin conveying mechanism, the second clamping mechanism and the discharging mechanism are connected with the control panel, the feeding mechanism comprises a conveying rail arranged in the left-right direction, a pushing plate arranged on the conveying rail and a feeding cylinder driving the pushing plate to move along the conveying rail, the optical fiber connecting seat conveying mechanism, the first plug pin conveying mechanism, the first clamping mechanism, the rotating mechanism, the second plug pin conveying mechanism, the second clamping mechanism and the discharging mechanism are sequentially arranged along the, the optical fiber connecting seat conveying mechanism comprises an optical fiber connecting seat disc, an optical fiber connecting seat moving channel and a pushing cylinder, one end of the optical fiber connecting seat moving channel is connected with the optical fiber connecting seat disc, the other end of the optical fiber connecting seat moving channel extends to a conveying track, a telescopic rod of the pushing cylinder is connected with a pushing block which is arranged at the tail end of the optical fiber connecting seat moving channel and can push the optical fiber connecting seat on the optical fiber connecting seat moving channel to the conveying track, the first pin conveying mechanism comprises a first pin disc, a first pin moving channel, a first pin mounting claw, a first pin moving cylinder and a first upward moving cylinder, one end of the first pin moving channel is connected with the first pin disc, the other end of the first pin moving channel extends to the conveying track through a first conveying plate, the upper surface of the first conveying plate is lower than the upper surface of the conveying track, the first pin mounting claw is arranged above one end of the first conveying plate close to the conveying track, the first upward moving cylinder is arranged below one end, close to the conveying track, of the first conveying plate, a telescopic rod of the first upward moving cylinder is connected with a first ejector rod used for upwards ejecting an optical fiber connecting seat on the first conveying plate to a first pin mounting claw, a first accommodating groove corresponding to the pin is arranged at the lower end of the first pin mounting claw, the pin can be abutted into the first accommodating groove through the first ejector column, a first abutting column which always has a downward extending trend is arranged in the middle of the first accommodating groove through a first reset spring, the first pin mounting claw drives the pin to be clamped into the optical fiber connecting seat, the first abutting column inwards contracts through an inclined surface of a pin mounting position on the optical fiber connecting seat to enable the pin to be separated from the first accommodating groove, the telescopic rod of the first pin moving cylinder is connected with the first pin mounting claw and can drive the first pin mounting claw to extend to the optical fiber connecting seat of the conveying track, the first clamping mechanism comprises a first clamping jaw and a first clamping cylinder used for driving the first pin to move towards the conveying track, the rotating mechanism comprises an installation vertical plate, an upper displacement cylinder, a lower displacement cylinder and a turnover cylinder, an upper displacement guide rail and a lower displacement guide rail are arranged on the installation vertical plate, an upper displacement sliding seat and a lower displacement sliding seat which can move up and down are arranged on the upper displacement guide rail and driven by the upper displacement cylinder and the lower displacement cylinder, the turnover cylinder is arranged on the upper displacement sliding seat and the lower displacement sliding seat, the second pin conveying mechanism comprises a second pin plate, a second pin moving channel, a second pin installation claw, the second pin moving cylinder and the second upward moving cylinder, one end of the second pin moving channel is connected with the second pin plate, the other end of the second pin moving channel extends to the conveying track through the second conveying plate, the upper surface of the second conveying plate is lower than the upper surface of the conveying track, the second pin installation claw is arranged above one end, close to the conveying track, of the second upward moving cylinder is arranged below one end, close to the conveying track, and a telescopic rod of the second upward moving cylinder is connected A second ejector rod on the claw, a second holding tank corresponding to the plug pin is arranged at the lower end of the second plug pin mounting claw, the plug pin can be pushed into the second holding tank by the second ejector column, a second abutting column always having a downward extending trend is arranged at the middle part of the second holding tank through a second reset spring, the second plug pin mounting claw drives the plug pin to be clamped into the optical fiber connecting seat, the second abutting column is inwards contracted through the inclined surface of the plug pin mounting position on the optical fiber connecting seat to enable the plug pin to be separated from the second holding tank, the telescopic rod of the second plug pin moving cylinder is connected with the second plug pin mounting claw and can drive the second plug pin mounting claw to extend to the optical fiber connecting seat of the conveying track, the second clamping mechanism comprises a second clamping jaw and a second clamping cylinder for driving the second clamping jaw to move towards the conveying track, the discharging mechanism comprises a discharging channel, a discharging cylinder and a defective product recycling box, and the discharging channel is movably arranged, the end of the conveying track is provided with a defective product sensing probe, the discharging cylinder is arranged at the rear of the discharging channel, the telescopic rod of the discharging cylinder is connected with the discharging channel and can drive the discharging channel to move forwards and backwards, the defective product recycling box is arranged below the discharging channel, and the defective product recycling box is used for recycling defective products.

In the above description, as preferred, the front end of delivery track is equipped with the mount pad, and the push plate passes through the mounting panel and can movably set up on the mount pad, is equipped with the displacement guide rail around being equipped with on the mounting panel, and the lower extreme of push plate is equipped with displacement slide around being equipped with, and the push plate is connected with the propelling movement cylinder that is used for driving the push plate to remove towards the delivery track direction along displacement guide rail around, and the propelling movement cylinder sets up in the front end of mounting panel, is equipped with a plurality of propelling movement positions with the big or small adaptation of the last optical fiber connecting seat of delivery track on the push plate, and when the push plate moved on the.

In the above description, preferably, the mounting base is provided with a left and right displacement guide rail, the lower end of the mounting plate is provided with a left and right displacement slide seat corresponding to the left and right displacement guide rail, the feeding cylinder is arranged on the left side of the mounting base, and the telescopic rod of the feeding cylinder is connected with the mounting plate and can drive the mounting plate to move along the direction of the left and right displacement guide rail.

In the above description, preferably, a transverse plate is disposed at an upper end of the mounting vertical plate, the vertical displacement cylinder is mounted on the transverse plate, and a telescopic rod of the vertical displacement cylinder penetrates through upper and lower surfaces of the transverse plate downwards to be connected with the vertical displacement slide.

In the above description, the discharge passage is preferably provided obliquely.

The utility model discloses produced beneficial effect is: by arranging the feeding mechanism, the optical fiber connecting seat conveying mechanism, the first pin conveying mechanism, the first clamping mechanism, the rotating mechanism, the second pin conveying mechanism, the second clamping mechanism and the discharging mechanism on the base, the automatic installation of the pins of the optical fiber connecting seat can be realized, the automation degree is high, the labor intensity is low, the labor cost can be effectively saved, and the market demand can be met; through participating in the lower extreme of installation claw at first installation claw and the second of participating in the installation claw and setting up first holding tank and second holding tank respectively, the middle part of first holding tank and second holding tank is respectively through first reset spring and second reset spring setting have the first post and the second of supporting of downward trend of stretching out all the time to support the post, can be more accurate and quick will participate in install the optical fiber connecting seat on, improved the precision of installation effectiveness and equipment.

Drawings

FIG. 1: is a schematic view of an assembly structure of an embodiment of the present invention;

FIG. 2: is a perspective view of the back view direction of the embodiment of the utility model;

FIG. 3: is a schematic structural view of a first pin conveying mechanism according to an embodiment of the present invention;

FIG. 4: is a schematic structural view of a first pin mounting claw according to an embodiment of the present invention;

FIG. 5: is a schematic structural view of a first clamping mechanism of an embodiment of the present invention;

FIG. 6: is a schematic structural view of the rotating mechanism of the embodiment of the present invention;

FIG. 7: is a schematic structural view of a second pin conveying mechanism according to an embodiment of the present invention;

FIG. 8: is a schematic structural view of a second clamping mechanism of the embodiment of the present invention;

FIG. 9: is a schematic structural diagram of a feeding mechanism in an embodiment of the present invention;

FIG. 10: is a schematic structural diagram of an optical fiber connecting seat according to an embodiment of the present invention;

the attached drawings indicate the following: 10-machine base, 20-control panel, 30-feeding mechanism, 31-conveying track, 32-pushing plate, 321-pushing position, 33-feeding cylinder, 34-mounting base, 341-left and right displacement guide rail, 35-mounting plate, 36-front and back displacement guide rail, 37-front and back displacement slide base, 38-pushing cylinder, 41-optical fiber connecting base plate, 42-optical fiber connecting base moving channel, 43-pushing cylinder, 44-pushing block, 50-first pin conveying mechanism, 51-first pin plate, 52-first pin moving channel, 53-first pin mounting claw, 531-first accommodating groove, 532-first prop, 54-first pin moving cylinder, 55-first upward moving cylinder, 56-first conveying plate, 57-first ram, 60-first clamping mechanism, 61-first clamping jaw, 62-first clamping cylinder, 70-rotating mechanism, 71-mounting riser, 72-up-down displacement cylinder, 73-turnover cylinder, 74-up-down displacement guide rail, 75-up-down displacement slide, 76-transverse plate, 80-second pin conveying mechanism, 81-second pin plate, 82-second pin moving channel, 83-second pin mounting jaw, 84-second pin moving cylinder, 85-second up-moving cylinder, 86-second conveying plate, 87-second ram, 90-second clamping mechanism, 91-second clamping jaw, 92-second clamping cylinder, 101-discharging channel, 102-discharging cylinder, 103-defective product recovery box, 104-defective sensing probe, 110-optical fiber connecting seat, 111-pin.

Detailed Description

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:

in this embodiment: as shown in fig. 1-10, the automatic assembling machine for the pins of the optical fiber connecting socket comprises a base 10 and a control panel 20, wherein the base 10 is provided with a feeding mechanism 30, an optical fiber connecting socket conveying mechanism, a first pin conveying mechanism 50, a first clamping mechanism 60, a rotating mechanism 70, a second pin conveying mechanism 80, a second clamping mechanism 90 and a discharging mechanism, and the feeding mechanism 30, the optical fiber connecting socket conveying mechanism, the first pin conveying mechanism 50, the first clamping mechanism 60, the rotating mechanism 70, the second pin conveying mechanism 80, the second clamping mechanism 90 and the discharging mechanism are all connected with the control panel 20;

the feeding mechanism 30 comprises a conveying track 31 arranged in the left-right direction, a pushing plate 32 arranged on the conveying track 31 and a feeding cylinder 33 driving the pushing plate 32 to move along the conveying track 31, the front end of the conveying track 31 is provided with an installation seat 34, the pushing plate 32 is movably arranged on the installation seat 34 through an installation plate 35, the installation plate 35 is provided with a front-back displacement guide rail 36, the lower end of the pushing plate 32 is provided with a front-back displacement slide seat 37, the pushing plate 32 is connected with a pushing cylinder 38 used for driving the pushing plate 32 to move towards the conveying track 31 along the front-back displacement guide rail 36, the pushing cylinder 38 is arranged at the front end of the installation plate 35, the pushing plate 32 is provided with a plurality of pushing positions 321 matched with the size of the optical fiber connecting seats 110 on the conveying track 31, when the pushing plate 32 moves onto the conveying track 31, the optical fiber connecting seats 110 are clamped into, the lower end of the mounting plate 35 is provided with a left and right displacement slide seat corresponding to the left and right displacement guide rails 341, the feeding cylinder 33 is arranged on the left side of the mounting seat 34, and the telescopic rod of the feeding cylinder 33 is connected with the mounting plate 35 and can drive the mounting plate 35 to move along the direction of the left and right displacement guide rails 341;

the optical fiber connecting seat conveying mechanism, the first pin conveying mechanism 50, the first clamping mechanism 60, the rotating mechanism 70, the second pin conveying mechanism 80, the second clamping mechanism 90 and the discharging mechanism are sequentially arranged along the direction of the conveying track 31;

the optical fiber connecting seat conveying mechanism comprises an optical fiber connecting seat disc 41, an optical fiber connecting seat moving channel 42 and a pushing cylinder 43, one end of the optical fiber connecting seat moving channel 42 is connected with the optical fiber connecting seat disc 41, the other end of the optical fiber connecting seat moving channel 42 extends to the conveying track 31, the telescopic rod of the pushing cylinder 43 is connected with a pushing block 44, the pushing block 44 is arranged at the tail end of the optical fiber connecting seat moving channel 42, and the optical fiber connecting seat 110 on the optical fiber connecting seat moving channel 42 can be pushed to the conveying track 31;

the first pin transfer mechanism 50 includes a first pin tray 51, a first pin transfer passage 52, a first pin mounting claw 53, a first pin transfer cylinder 54, and a first upward movement cylinder 55, wherein one end of the first pin transfer passage 52 is connected to the first pin tray 51, the other end of the first pin transfer passage 52 extends to the transfer rail 31 through a first transfer plate 56, the upper surface of the first transfer plate 56 is lower than the upper surface of the transfer rail 31, the first pin mounting claw 53 is disposed above one end of the first transfer plate 56 close to the transfer rail 31, the first upward movement cylinder 55 is disposed below one end of the first transfer plate 56 close to the transfer rail 31, a first push rod 57 for pushing up the optical fiber connecting seat 110 on the first transfer plate 56 to the first pin mounting claw 53 is connected to an expansion rod of the first upward movement cylinder 55, a first receiving groove 531 corresponding to the pin 111 is disposed at the lower end of the first pin mounting claw 53, the plug pin 111 can be abutted into the first accommodating groove 531 by the first top column, the middle part of the first accommodating groove 531 is provided with a first abutting column 532 with a downward extending trend all the time through a first return spring, the first plug pin mounting claw 53 drives the plug pin 111 to be clamped into the optical fiber connecting seat 110, the first abutting column 532 is inwards contracted through the inclined surface of the plug pin mounting position on the optical fiber connecting seat 110, the plug pin 111 is separated from the first accommodating groove 531, the telescopic rod of the first plug pin moving cylinder 54 is connected with the first plug pin mounting claw 53, and the first plug pin mounting claw 53 can be driven to extend to the optical fiber connecting seat 110 of the conveying track 31;

the first clamping mechanism 60 comprises a first clamping jaw 61 and a first clamping cylinder 62 for driving the first clamping jaw 61 to move towards the conveying track 31;

the rotating mechanism 70 comprises a mounting vertical plate 71, an up-down displacement cylinder 72 and a turning cylinder 73, wherein an up-down displacement guide rail 74 is arranged on the mounting vertical plate 71, an up-down displacement slide seat 75 which can be driven by the up-down displacement cylinder 72 to move up and down is arranged on the up-down displacement guide rail 74, the turning cylinder 73 is arranged on the up-down displacement slide seat 75, a transverse plate 76 which is transversely arranged is arranged at the upper end of the mounting vertical plate 71, the up-down displacement cylinder 72 is arranged on the transverse plate 76, and an expansion rod of the up-down displacement cylinder 72 penetrates through the upper surface and the;

the second pin transfer mechanism 80 includes a second pin tray 81, a second pin transfer passage 82, a second pin mounting claw 83, a second pin transfer cylinder 84, and a second upward movement cylinder 85, one end of the second pin transfer passage 82 is connected to the second pin tray 81, the other end of the second pin transfer passage 82 extends to the transfer rail 31 through a second transfer plate 86, the upper surface of the second transfer plate 86 is lower than the upper surface of the transfer rail 31, the second pin mounting claw 83 is disposed above one end of the second transfer plate 86 close to the transfer rail 31, the second upward movement cylinder 85 is disposed below one end of the second transfer plate 86 close to the transfer rail 31, a second push rod 87 for pushing the optical fiber connecting seat 110 on the second transfer plate 86 upward to the second pin mounting claw 83 is connected to an expansion link of the second upward movement cylinder 85, a second receiving groove corresponding to the pin 111 is disposed at the lower end of the second pin mounting claw 83, the plug pin 111 can be abutted into the second accommodating groove by the second top column, the middle part of the second accommodating groove is provided with a second abutting column which always has a downward extending trend through a second return spring, the second plug pin mounting claw 83 drives the plug pin 111 to be clamped into the optical fiber connecting seat 110, the second abutting column is inwards contracted through the inclined surface of the plug pin mounting position on the optical fiber connecting seat 110, so that the plug pin 111 is separated from the second accommodating groove, the telescopic rod of the second plug pin moving cylinder 84 is connected with the second plug pin mounting claw 83, and the second plug pin mounting claw 83 can be driven to extend to the optical fiber connecting seat 110 of the conveying track 31;

the second clamping mechanism 90 comprises a second clamping jaw 91 and a second clamping cylinder 92 for driving the second clamping jaw 91 to move towards the conveying track 31;

discharge mechanism includes discharging channel 101, discharging cylinder 102 and defective products retrieve box 103, discharging channel 101 is mobilizable to be set up in delivery track 31 end, delivery track 31's end is equipped with defective products and responds to probe 104, discharging cylinder 102 sets up in discharging channel 101's rear, and discharging cylinder 102's telescopic link is connected with discharging channel 101, and can drive discharging channel 101 activity from beginning to end, discharging channel 101 slope sets up, defective products retrieve box 103 and set up in discharging channel 101's below, defective products retrieve box 103 is used for retrieving defective products.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, so any modifications, equivalent replacements, improvements, etc. made to the above embodiments by the technology of the present invention are all within the scope of the technical solution of the present invention.

Claims

1. Automatic assembling machine for optical fiber connecting base pins comprises a machine base and a control panel, and is characterized in that: the machine base is provided with a feeding mechanism, an optical fiber connecting seat conveying mechanism, a first pin conveying mechanism, a first clamping mechanism, a rotating mechanism, a second pin conveying mechanism, a second clamping mechanism and a discharging mechanism, the feeding mechanism, the optical fiber connecting seat conveying mechanism, the first pin conveying mechanism, the first clamping mechanism, the rotating mechanism, the second pin conveying mechanism, the second clamping mechanism and the discharging mechanism are all connected with the control panel, the feeding mechanism comprises a conveying rail arranged in the left-right direction, a pushing plate arranged on the conveying rail and a feeding cylinder driving the pushing plate to move along the conveying rail, the optical fiber connecting seat conveying mechanism, the first pin conveying mechanism, the first clamping mechanism, the rotating mechanism, the second pin conveying mechanism, the second clamping mechanism and the discharging mechanism are sequentially arranged along the conveying rail direction, and the optical fiber connecting seat conveying mechanism comprises an optical fiber connecting seat disc, a first pin conveying mechanism, a second, The optical fiber connecting seat conveying mechanism comprises a first pin plate, a first pin moving channel, a first pin mounting claw, a first pin moving cylinder and a first upward moving cylinder, wherein one end of the optical fiber connecting seat moving channel is connected with the optical fiber connecting seat plate, the other end of the optical fiber connecting seat moving channel extends to a conveying track, the telescopic rod of the pushing cylinder is connected with the pushing block which is arranged at the tail end of the optical fiber connecting seat moving channel and can push the optical fiber connecting seat on the optical fiber connecting seat moving channel to the conveying track, the first pin conveying mechanism comprises a first pin plate, a first pin moving channel, a first pin mounting claw, a first pin moving cylinder and a first upward moving cylinder, one end of the first pin moving channel is connected with the first pin plate, the other end of the first pin moving channel extends to the conveying track through a first conveying plate, the upper surface of the first conveying plate is lower than the upper surface of the conveying track, the first upward moving cylinder is arranged below one end, close to the conveying track, of the first conveying plate, a telescopic rod of the first upward moving cylinder is connected with a first ejector rod used for upwards ejecting an optical fiber connecting seat on the first conveying plate to a first pin mounting claw, a first accommodating groove corresponding to the pin is arranged at the lower end of the first pin mounting claw, the pin can be abutted into the first accommodating groove through the first ejector column, a first abutting column which always has a downward extending trend is arranged in the middle of the first accommodating groove through a first reset spring, the first pin mounting claw drives the pin to be clamped into the optical fiber connecting seat, the first abutting column inwards contracts through an inclined surface of a pin mounting position on the optical fiber connecting seat to enable the pin to be separated from the first accommodating groove, the telescopic rod of the first pin moving cylinder is connected with the first pin mounting claw and can drive the first pin mounting claw to extend to the optical fiber connecting seat of the conveying track, the first clamping mechanism comprises a first clamping jaw and a first clamping cylinder used for driving the first pin to move towards the conveying track, the rotating mechanism comprises an installation vertical plate, an upper displacement cylinder, a lower displacement cylinder and a turnover cylinder, an upper displacement guide rail and a lower displacement guide rail are arranged on the installation vertical plate, an upper displacement sliding seat and a lower displacement sliding seat which can move up and down are arranged on the upper displacement guide rail and driven by the upper displacement cylinder and the lower displacement cylinder, the turnover cylinder is arranged on the upper displacement sliding seat and the lower displacement sliding seat, the second pin conveying mechanism comprises a second pin plate, a second pin moving channel, a second pin installation claw, the second pin moving cylinder and the second upward moving cylinder, one end of the second pin moving channel is connected with the second pin plate, the other end of the second pin moving channel extends to the conveying track through the second conveying plate, the upper surface of the second conveying plate is lower than the upper surface of the conveying track, the second pin installation claw is arranged above one end, close to the conveying track, of the second upward moving cylinder is arranged below one end, close to the conveying track, and a telescopic rod of the second upward moving cylinder is connected A second ejector rod on the claw, a second holding tank corresponding to the plug pin is arranged at the lower end of the second plug pin mounting claw, the plug pin can be pushed into the second holding tank by the second ejector column, a second abutting column always having a downward extending trend is arranged at the middle part of the second holding tank through a second reset spring, the second plug pin mounting claw drives the plug pin to be clamped into the optical fiber connecting seat, the second abutting column is inwards contracted through the inclined surface of the plug pin mounting position on the optical fiber connecting seat to enable the plug pin to be separated from the second holding tank, the telescopic rod of the second plug pin moving cylinder is connected with the second plug pin mounting claw and can drive the second plug pin mounting claw to extend to the optical fiber connecting seat of the conveying track, the second clamping mechanism comprises a second clamping jaw and a second clamping cylinder for driving the second clamping jaw to move towards the conveying track direction, the discharging mechanism comprises a discharging channel, a discharging cylinder and a defective product recycling box, the discharging channel is movably, the end of the conveying track is provided with a defective product sensing probe, the discharging cylinder is arranged at the rear of the discharging channel, the telescopic rod of the discharging cylinder is connected with the discharging channel and can drive the discharging channel to move forwards and backwards, the defective product recycling box is arranged below the discharging channel, and the defective product recycling box is used for recycling defective products.

2. The automatic assembling machine for optical fiber connecting base pins according to claim 1, wherein: the utility model discloses a propelling movement position of carrying track, including mounting panel, propelling movement cylinder, propelling movement position, when the propelling movement is moved to the carrying track, the optical fiber connecting seat card is gone into in the propelling movement position.

3. The automatic assembling machine for optical fiber connecting base pins according to claim 2, wherein: displacement guide rail about being equipped with on the mount pad, the lower extreme of mounting panel is equipped with about with displacement guide rail corresponding displacement slide about, and feeding cylinder sets up in the left side of mount pad, and feeding cylinder's telescopic link is connected with the mounting panel to can drive the mounting panel along controlling the activity of displacement guide rail direction.

4. The automatic assembling machine for optical fiber connecting base pins according to claim 1, wherein: the upper end of installation riser is equipped with the diaphragm of horizontal setting, and upper and lower displacement cylinder is installed on the diaphragm, and the telescopic link of upper and lower displacement cylinder runs through the upper and lower surface and the upper and lower displacement slide of diaphragm downwards and is connected.

5. The automatic assembling machine for optical fiber connecting base pins according to claim 1, wherein: the discharging channel is obliquely arranged.