CN209380243U - Fibre-optical splice assembly equipment - Google Patents
Fibre-optical splice assembly equipment Download PDFInfo
- Publication number
- CN209380243U CN209380243U CN201820602997.1U CN201820602997U CN209380243U CN 209380243 U CN209380243 U CN 209380243U CN 201820602997 U CN201820602997 U CN 201820602997U CN 209380243 U CN209380243 U CN 209380243U
- Authority
- CN
- China
- Prior art keywords
- retainer plate
- core retainer
- lock pin
- square set
- cylinder
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model discloses a kind of fibre-optical splice assembly equipments, it is related to fibre-optical splice production, aim to solve the problem that the lower problem of hand assembled fibre-optical splice production efficiency, its key points of the technical solution are that: a kind of fibre-optical splice assembly equipment, including pedestal, the assembly disk group being set on pedestal, the square set feeding device being arranged centered on assembly disk group, lock pin feeding device, core retainer plate feeding device and spring feeding device.A kind of fibre-optical splice assembly equipment of the utility model reduces labour to reach, improves the technical effect of production efficiency by replacing traditional hand assembled.
Description
Technical field
The utility model relates to fibre-optical splice productions, more specifically, it relates to a kind of fibre-optical splice assembly equipment.
Background technique
SC fibre-optical splice is one kind of common fibre-optical splice, is made of four parts, as shown in Figure 31, Figure 32, point
Not are as follows: square set 91, square set 91 is opposite to offer horizontal card slot 911, and the inside of square set 91 is relatively set with casting lug thereon 912, square set
91 two sides for being not provided with casting lug thereon 912 offer vertical slot 913 relatively;
Core retainer plate 92, core retainer plate 92 include great circle section 921 and roundlet section 922, the junction phase of great circle section 921 and roundlet section 922
To being provided with snap-gauge 923;
Lock pin 93, lock pin 93 include hollow metal column 931, are plugged and fixed in the ceramics pole 932 in hollow metal column 931,
Hollow metal column 931 in the connecting pin of ceramics pole 932 integrally formed with annulus along 933, annulus along 933 angularly open up there are four
Notch 934;
Spring 94, spring 94 are compressed spring, are set between lock pin 93 and core retainer plate 92;
Above four are assembled by mode as shown in figure 30 and are integrated.
In the prior art, the assembling process of fibre-optical splice is generally had been manually done by worker, and such assembly method is not only
A large amount of labours are wasted, and there is a problem of that production efficiency is low;Therefore it needs to propose the new technical solution of one kind to solve
The above problem.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of fibre-optical splice assembly equipment,
By replacing traditional hand assembled, labour is reduced to reach, improves the technical effect of production efficiency.
The above-mentioned technical purpose of the utility model has the technical scheme that a kind of fibre-optical splice assembly
Equipment, including pedestal, the assembly disk group being set on pedestal, square set feeding device, the lock pin being arranged centered on assembly disk group
Feeding device, core retainer plate feeding device and spring feeding device;The assembly disk group includes the first dress connecting with base rotation
With disk and the second assembly disk, the first assembly disk is angularly equipped with multiple fixtures, and the fixture includes square set folder and lock pin
Folder, the second assembly disk upper surface have angularly been arranged alternately lock pin mould and core retainer plate mould, and the lock pin mould straight skidding is connected with slotting
Stem cylinder, the core retainer plate mould straight skidding are connected with core retainer plate column casing;The square set feeding device includes square set feeding machanism, sub-material
Mechanism and the 8th cylinder, the piston rod of the 8th cylinder are directed toward the clamping opening of square set folder;The lock pin feeding device includes inserting
Core feeding machanism and gripping body, the gripping body include upright guide plate, the lock pin lifting with the sliding connection of upright guide plate
Seat, the clamping jaw cylinder for being installed on the lock pin rodless cylinder of lock pin lifting seat and being installed on the sliding block of lock pin rodless cylinder;Institute
Stating core retainer plate feeding device includes core retainer plate feeding machanism, inserting and taking-out mechanism and releasing mechanism, the inserting and taking-out mechanism include vertical guide plate,
The core retainer plate lifting seat connected, the core retainer plate rodless cylinder being installed on core retainer plate lifting seat are slid with vertical guide plate and are set to core retainer plate
Vertical contact pin on the sliding block of rodless cylinder, the vertical contact pin are wrapped with rubber sleeve, the rubber sleeve and the interference of core retainer plate inner circle
Cooperation;The spring feeding device includes spring feeding machanism, horizontal delivery device and pushing component, the horizontal pusher
Structure includes rectangle matrix, slides the expansion plate for being connected to rectangle matrix upper surface and the 5th cylinder for pushing expansion plate,
The expansion plate offers the through-hole being connected to spring pipeline bottom end, and the expansion plate lower surface connects in through-hole two sides Relative sliding
It is connected to fixture block, the pushing component includes the 6th cylinder being set to right above predetermined station, the 6th cylinder piston rod end
It is fixedly installed the lower compression leg for being directed toward core retainer plate column casing, the lower compression leg fits with the through hole.
By using above-mentioned technical proposal, in normal work, the first assembly disk rotates forward a work to the utility model
Position, the second assembly disk rotate forward two stations;After the first assembly disk and static the second assembly disk, by the 8th cylinder by square set
The independent square set that feeding machanism and feeding distribution mechanism provide pushes in the clamping opening of square set folder, to press from both sides clamping limitation side by square set
Set.
At the same time, lock pin rodless cylinder drive clamping jaw cylinder be moved to lock pin feeding machanism offer lock pin just on
Side, the decline of lock pin lifting seat is in the clamping opening of clamping jaw cylinder up to corresponding lock pin, after clamping jaw cylinder clamping lock pin, lock pin liter
It drops seat to rise, lock pin rodless cylinder drives the lock pin that is clamped to be moved to the surface of corresponding lock pin column casing, under lock pin lifting seat
For drop until lock pin is inserted into lock pin column casing, clamping jaw cylinder unclamps the clamping for lock pin, to complete the feeding movement of lock pin.
At the same time, core retainer plate rodless cylinder drive vertical contact pin be moved to core retainer plate feeding machanism offer core retainer plate just on
Side, the decline of core retainer plate lifting seat is until vertical contact pin is inserted into the inner circle of core retainer plate, so that the elastic deformation ability of rubber sleeve be utilized to connect
Vertical contact pin and core retainer plate, core retainer plate lifting seat rise, and core retainer plate rodless cylinder, which drives, is moved to corresponding core retainer plate column casing by the core retainer plate of grafting
Surface, the decline of core retainer plate lifting seat finally separates core retainer plate and vertical contact pin by releasing mechanism until core retainer plate is inserted into core retainer plate column casing,
To complete the feeding movement of core retainer plate.
At the same time, it pulls expansion plate to be reset to through-hole by the 5th cylinder and is connected to spring feeding machanism, spring is by gravity
Effect enters through-hole, and two pieces of fixture blocks are opposite to slide fastening spring, after the clamping for completing spring, pushes expansion plate sliding by the 5th cylinder
It moves to through-hole bottom end in alignment with corresponding core retainer plate, the 6th cylinder pushes lower compression leg to move down at this time, thus by lower compression leg bottom end to spring
Apply lower pressure, and then the clamping opening that spring pushes away two pieces of fixture blocks is entered into core retainer plate, to complete the feeding movement of spring.
At the same time, the lock pin column casing immediately below square set moves up, and pushes in lock pin insertion square set, at this time lock pin top
It is inserted into the clamping opening of lock pin folder, thus by lock pin clamping limitation lock pin, and then complete the connection of lock pin and square set.
At the same time, the core retainer plate column casing immediately below square set and lock pin moves up, and pushes in core retainer plate and spring insertion square set,
At this time in the horizontal card slot of the snap-gauge insertion square set of core retainer plate, to complete the assembly work of entire fibre-optical splice.
Be further arranged to: square set folder include the first fixed block for being fixedly installed on the first assembly disk lower surface, with
The first compressed spring the first hinged rotating block of first fixed block and be set between the first fixed block and the first rotating block;
Lock pin folder includes the second fixed block, second rotating block hinged with the second fixed block and is set to the second fixed block and the
The second compressed spring between two rotating blocks, the square set folder clamping opening are in the underface of lock pin folder clamping opening.
The utility model is further arranged to: the center of circle of first assembly disk and the second assembly disk is fixedly installed respectively
Shaft, the shaft are connect with base rotation;The pedestal is fixedly installed stepper motor, and the stepper motor is fixedly installed
Main shaft is respectively arranged with Bevel Gear Transmission between the main shaft and two shafts.
The utility model is further arranged to: the square set feeding machanism includes square set barrel, along square set barrel inner periphery
The square set track that surface helix rises and the square set vibrating disc being set in square set barrel, square set track top is connected with perpendicular
Straight panel road, the thickness in the vertical plate road are not more than the width of vertical slot.
By using above-mentioned technical proposal, for square set feeding machanism in regular supply square set, square set vibrating disc generates vibration,
To drive entire square set barrel to shake, and then square set is forced to move along the track of square set track by shaking force;When square set is mobile
When to vertical plate road, vertical state is gradually turned to by the square set of gravity horizontality, during this, angle is incorrect
Square set is since its vertical slot misalignment is in vertical plate road, and after the square set completes rotation, vertical slot can not be clamped
Vertical plate road, thus fall downwards be detached from vertical plate road, its vertical slot of the correct square set of angle be in vertical plate road just on
Side, for the square set after turning to vertical state, vertical slot clamps vertical plate road in gap, so that party's set has along vertical
The ability of the track Ban Dao sliding, it should be noted that since the mobility of square set opposed vertical plate road rotation is limited, because
This square set two casting lug thereon during sliding along vertical plate road track is always positioned at the two sides in vertical plate road, Jin Ershi
The adjustment of existing square set angle.
The utility model is further arranged to: the feeding distribution mechanism include the Vertical Channel that is connected to vertical plate road of top with
And the horizontal channel being connected to Vertical Channel bottom end, described horizontal channel one end are fixedly installed the 7th cylinder, the 7th gas
The cylinder piston rod end is fixedly installed push square column, and the push square column is mating along horizontal channel length direction;8th cylinder
It is fixedly installed in the horizontal channel other end, the piston rod of the 8th cylinder wears cooperation perpendicular to horizontal channel therewith.
The utility model is further arranged to: the Vertical Channel and horizontal channel offer visually along its length respectively
Window, the visual windows are fixedly installed clear plastic strip.
The utility model is further arranged to: the lock pin feeding machanism includes lock pin barrel, along lock pin barrel inner periphery
The lock pin track that surface helix rises and the lock pin vibrating disc being set in lock pin barrel, lock pin track top is connected with two
Root is in the cylindrical rails of gap setting, and the spacing of two cylindrical rails is greater than the diameter of hollow metal column, but is less than annulus edge
Diameter.
The utility model is further arranged to: two cylindrical rails ends are connected with angular adjustment component, the angle
It includes two pieces of rectangular blocks in gap setting that degree, which adjusts component, and two pieces of rectangular block opposite face upper edges open up restricted respectively
Slot, the spacing of two limiting groove opposite faces is less than the diameter on annulus edge, but is greater than the maximum spacing of opposite notch.
The utility model is further arranged to: the core retainer plate feeding machanism includes core retainer plate barrel, is set in core retainer plate barrel
Core retainer plate vibrating disc and along the spiralling core retainer plate channel of core retainer plate barrel inner peripheral surface, core retainer plate channel top is communicated with core
Upright rail is covered, the upright rail upper surface of core retainer plate offers core retainer plate conduit along its track, and the width of the core retainer plate conduit is greater than small
The diameter of circle section, but it is less than the diameter of great circle section, the upright rail of core retainer plate offers core retainer plate along core retainer plate conduit two sides upper edge and entangles
Inclined slot, the core retainer plate correction slot and great circle section clearance fit.
By using above-mentioned technical proposal, for core retainer plate feeding machanism in regular supply material, core retainer plate vibrating disc generates vibration,
To drive entire core retainer plate barrel to shake, the core retainer plate being placed in core retainer plate barrel is shaken the effect of power, into core retainer plate channel
And along spiral;When core retainer plate enters the upright rail of core retainer plate, it is affected by gravity and rotates, so that diameter is lesser small
Circle section passes through core retainer plate conduit, and the great circle section being relatively large in diameter is stranded on core retainer plate conduit, so force core retainer plate with upright state before
Into;When core retainer plate is moved to correction slot, its snap-gauge of the incorrect core retainer plate of angle is connected to the upright rail upper surface of core retainer plate, at the same time
The shaking force of core retainer plate vibrating disc is transmitted on the upright rail of core retainer plate, so that core retainer plate be forced to be shaken, core retainer plate is in dither process
It rotates, when core retainer plate turns to snap-gauge in alignment with correction slot, core retainer plate is fallen by gravity, when snap-gauge falls into correction slot
When interior, clamping of the snap-gauge two sides by correction slot to limit the turning power of core retainer plate, and then realizes the tune for core retainer plate angle
It is whole.
The utility model is further arranged to: the releasing mechanism includes the third cylinder and fixation fixed with horizontal arm
In the follow block of third cylinder piston rod end, the follow block is connected to snap-gauge upper surface.
In conclusion the utility model has the following beneficial effects: by replacing manpower fitting joint, to reach saving
The technical effect of labour;By it is synchronous carry out square set feeding, lock pin feeding, core retainer plate feeding, spring feeding, connecting core insert and
This six movements of core retainer plate are connected, the assembly efficiency of fibre-optical splice is effectively increased;Drive the first dress simultaneously by a power source
It is rotated with disk and the second assembly disk, the harmony of the two rotation is effectively provided;Square set is limited by Vertical Channel and horizontal channel, from
And realize the technical effect for the state feeding that should not become with vertical and angle;By contacting for follow block and snap-gauge, core is realized
The separation of set and vertical contact pin, structure is simple and control is convenient.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the present embodiment;Fig. 2 is the structural schematic diagram of the present embodiment assembly disk group, mainly
Indicate the matching relationship of the first assembly disk and the second assembly disk;Fig. 3 is the structural schematic diagram of the present embodiment square set feeding device;Figure
4 be the partial structure diagram of the present embodiment lock pin feeding device, the main structure for indicating gripping body;Fig. 5 is the present embodiment
The structural schematic diagram of core retainer plate feeding device;Fig. 6 is the portion the A enlarged diagram of Fig. 5;Fig. 7 is in the present embodiment spring feeding device
Horizontal delivery device and push component structural schematic diagram;Fig. 8 is the structural schematic diagram of the first assembly disk of the present embodiment, mainly
Indicate the matching relationship of fixture and the first assembly disk;Fig. 9 is the structural schematic diagram of the present embodiment fixture;Figure 10 is the present embodiment dress
With the structural schematic diagram after disk group hidden parts structure, the main drive connection for indicating the first assembly disk and the second assembly disk;Figure
11 be the structural schematic diagram of the present embodiment lock pin mould;Figure 12 is the structural schematic diagram of the present embodiment core retainer plate mould;Figure 13 is this implementation
The structural schematic diagram of example shedding mechanism and the first assembly disk, the main matching relationship for indicating the two;The portion B that Figure 14 is Figure 13 amplifies
Schematic diagram;Figure 15 is the structural schematic diagram of the present embodiment square set feeding device hidden parts structure;Figure 16 is the present embodiment square set
The structural schematic diagram of feeding machanism;Figure 17 is the portion the C enlarged diagram of Figure 16, and the main cooperation for indicating square set and vertical plate road is closed
System;Figure 18 is the structural schematic diagram of feeding distribution mechanism in the present embodiment square set feeding device, which is concealed with clear plastic strip;Figure
19 be the structural schematic diagram of the present embodiment square set feeding machanism;Figure 20 is the structural schematic diagram of the present embodiment lock pin feeding device;
Figure 21 is the structural schematic diagram of the present embodiment angular adjustment component;Figure 22 is the portion the D enlarged diagram of Figure 21, mainly indicates angle
Adjust the matching relationship of component and lock pin;Figure 23 is the structural schematic diagram of the present embodiment lock pin barrel;Figure 24 is the present embodiment folder
The structural schematic diagram of pawl cylinder;Figure 25 is the structural schematic diagram of the present embodiment core retainer plate feeding device;Figure 26 is the present embodiment core retainer plate
The structural schematic diagram of upright rail;Figure 27 is the portion the E enlarged diagram of Figure 26, and the main cooperation for indicating core retainer plate correction slot and core retainer plate is closed
System;Figure 28 is the structural schematic diagram of the present embodiment spring feeding machanism;Figure 29 is that the structure of the present embodiment spring feeding device is shown
It is intended to;Figure 30 is the structural schematic diagram of fibre-optical splice;Figure 31 is the explosive view of Figure 30;Figure 32 is the partial sectional view of square set.
Detailed description of the invention: 11, core retainer plate barrel;12, core retainer plate vibrating disc;13, core retainer plate channel;14, the upright rail of core retainer plate;15, core retainer plate
Conduit;151, correction slot;16, retaining wall;21, vertical guide plate;22, core retainer plate lifting seat;221, the first cylinder;23, core retainer plate is without bar gas
Cylinder;24, vertical contact pin;25, rubber sleeve;26, slippage slot;27, slipping block;28, horizontal arm;29, the second cylinder;291, plate;
292, through slot;293, third cylinder;294, follow block;295, U-lag mouth;31, lock pin barrel;32, lock pin track;33, lock pin shakes
Moving plate;34, cylindrical rails;35, rectangular block;36, limiting groove;37, splicing ring;371, feed back window;38, bar is limited;39, upright
Guide plate;40, lock pin lifting seat;41, lock pin rodless cylinder;42, clamping jaw cylinder;43, arc groove;44, the 4th cylinder;51, spring
Barrel;52, spring track;53, spring vibrating disc;54, spring pipeline;55, rectangle matrix;56, expansion plate;57, the 5th cylinder;
58, through-hole;59, fixture block;60, the 6th cylinder;61, lower compression leg;62, spring glidepath;63, spring splicing ring;64, feed back window
Mouthful;65, spring sub-feed tube;66, control panel;67, tension spring;68, trapezoidal notch;69, column is supported;71, square set barrel;72, square set rail
Road;73, square set vibrating disc;74, vertical plate road;741, horizontal arrow path;75, edge is kept off;76, outer baffle;77, square set splicing ring;78,
Square set feed back window;79, outer retaining wall;791, interior retaining wall;792, gap section;81, Vertical Channel;82, horizontal channel;83, the 7th gas
Cylinder;84, the 8th cylinder;85, visual windows;86, clear plastic strip;87, anti-fall plate;88, square column is pushed;1011, the first dress
With disk;1012, square set is pressed from both sides;1013, lock pin presss from both sides;1014, the first fixed block;1015, the first rotating block;1016, the first compression bullet
Spring;1017, the second fixed block;1018, the second rotating block;1019, the second compressed spring;1021, the second assembly disk;1022, it inserts
Core model;1023, core retainer plate mould;1024, lock pin column casing;1025, core retainer plate column casing;1031, pedestal;1032, shaft;1033, stepping electricity
Machine;1034, main shaft;1035, bevel gear;1036, anti-slop serrations;1037, semicircle groove;1038, convex block is limited;1039, it limits recessed
Slot;1040, the 9th cylinder;1041, uplink pushing block;1051, vertical brace;1052, the tenth cylinder;1053, discharging jacking block;
1054, discharging square tube;1055, horizontal to support column;1056, square column is pushed;1057, stress supports column;1058, receiving hopper;91, square set;
911, horizontal card slot;912, casting lug thereon;913, vertical slot;92, core retainer plate;921, great circle section;922, roundlet section;923, snap-gauge;
93, lock pin;931, hollow metal column;932, ceramics pole;933, annulus edge;934, notch;94, spring.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Fibre-optical splice assembly equipment, as shown in Figure 1, include pedestal 1031, be set on pedestal 1031 assembly disk group, with
Square set feeding device, lock pin feeding device, core retainer plate feeding device and the spring feeding device being arranged centered on assembly disk group;?
When normal work, respectively by square set feeding device, lock pin feeding device, core retainer plate feeding device, by square set 91, lock pin 93, core retainer plate
92 are placed within assembly disk group, and spring 94 is placed in core retainer plate 92 by spring feeding device, finally by assembly disk group completion side
The assembling of set 91, lock pin 93, core retainer plate 92 and spring 94.
Assembly disk group is as shown in Figure 1 and Figure 2, including the first assembly disk 1011 and second being rotatablely connected with pedestal 1031
Assembly disk 1021, the first assembly disk 1011 are angularly equipped with multiple fixtures, and fixture includes square set folder 1012 and lock pin folder
1013,1021 upper surface of the second assembly disk has angularly been arranged alternately lock pin mould 1022 and core retainer plate mould 1023, and lock pin mould 1022 is vertical
It is connected with lock pin column casing 1024 to sliding, 1023 straight skidding of core retainer plate mould is connected with core retainer plate column casing 1025, and the fixation of pedestal 1031 is set
It is equipped with the 9th cylinder 1040,1040 top of the 9th cylinder is fixedly installed to be supported with lock pin column casing 1024 and 1025 bottom end of core retainer plate column casing
Connect the uplink pushing block 1041 of cooperation.
Square set feeding device is as shown in Figure 1, Figure 2, Figure 3 shows, including square set feeding machanism, feeding distribution mechanism and the 8th cylinder
84, the piston rod of the 8th cylinder 84 is directed toward the clamping opening of square set folder 1012.
Lock pin feeding device is as Figure 1 and Figure 4, including lock pin feeding machanism and gripping body, and gripping body includes straight
Vertical guide plate 39, the lock pin lifting seat 40 connected with the sliding of upright guide plate 39, the lock pin rodless cylinder for being installed on lock pin lifting seat 40
41 and the clamping jaw cylinder 42 that is installed on the sliding block of lock pin rodless cylinder 41, wherein the fixed setting of 39 top of upright guide plate is useful
In the 4th cylinder 44 of driving lock pin lifting seat 40.
Core retainer plate feeding device is as shown in Fig. 1, Fig. 5, Fig. 6, including core retainer plate feeding machanism, inserting and taking-out mechanism and releasing mechanism,
Inserting and taking-out mechanism includes vertical guide plate 21, the core retainer plate lifting seat 22 connected with the sliding of vertical guide plate 21, is installed on core retainer plate lifting seat 22
On core retainer plate rodless cylinder 23 and the vertical contact pin 24 that is fixed on the sliding block of core retainer plate rodless cylinder 23, wherein vertical guide plate
21 tops are fixedly installed the first cylinder 221, and the piston rod of the first cylinder 221 straight down, and is fixed with core retainer plate lifting seat 22,
Vertical contact pin 24 wraps the intrinsic rubber sleeve 25 of attached and glue, and rubber sleeve 25 and 92 inner circle of core retainer plate are interference fitted.
Spring feeding device is as shown in Figure 1, Figure 7 shows, including spring feeding machanism, horizontal delivery device and pushing component,
Horizontal delivery device includes rectangle matrix 55, slides the expansion plate 56 for being connected to 55 upper surface of rectangle matrix and stretch for pushing
5th cylinder 57 of contracting plate 56, expansion plate 56 offer through-hole 58, and 56 lower surface of expansion plate connects in 58 two sides Relative sliding of through-hole
It is connected to fixture block 59, pushing component includes the 6th cylinder 60 being set to right above predetermined station, and 60 tailpiece of the piston rod of the 6th cylinder is solid
Surely be provided with and be directed toward core retainer plate column casing 1025(and be shown in Fig. 2) lower compression leg 61, lower compression leg 61 and 58 clearance fit of through-hole.
The more specific course of work of the utility model is as follows, and as shown in figs. 1-7, the first assembly disk 1011 rotates clockwise one
A station, the second assembly disk 1021 rotate counterclockwise two stations, when the first assembly disk 1011 and the second assembly disk 1021 are static
Afterwards, the clamping opening into square set folder 1012 is pushed by the independent square set 91 that the 8th cylinder 84 provides square set feeding machanism and feeding distribution mechanism
It is interior, thus by 1012 clamping limitation square set 91 of square set folder;At the same time, lock pin rodless cylinder 41 drives clamping jaw cylinder 42 to be moved to
By the surface for the lock pin 93 that lock pin feeding machanism provides, the decline of lock pin lifting seat 40 is pushed by the 4th cylinder 44 until corresponding insert
Core 93 is in the clamping opening of clamping jaw cylinder 42, and after clamping lock pin 93 by clamping jaw cylinder 42, the 4th cylinder pulls lock pin lifting seat 40
Rise, the lock pin 93 that the drive of lock pin rodless cylinder 41 is clamped is moved to the surface of corresponding lock pin column casing 1024, lock pin lifting
For 40 decline of seat until lock pin 93 is inserted into lock pin column casing 1024, clamping jaw cylinder 42 unclamps the clamping for lock pin 93, to complete to insert
The feeding of core 93 acts;At the same time, core retainer plate rodless cylinder 23 drives vertical contact pin 24 to be moved to the offer of core retainer plate feeding machanism
The surface of core retainer plate 92, and the decline of core retainer plate lifting seat 22 is pushed until vertical contact pin 24 is inserted into core retainer plate 92 by the first cylinder 221
Inner circle, to connect vertical contact pin 24 and core retainer plate 92 using the elastic deformation ability of rubber sleeve 25, the first cylinder 221 drives core retainer plate
Lifting seat 22 rises, and core retainer plate rodless cylinder 23 drives the surface that corresponding core retainer plate column casing 1025 is moved to by the core retainer plate 92 of grafting,
The decline of core retainer plate lifting seat 22 is until core retainer plate 92 is inserted into core retainer plate column casing 1025, finally by releasing mechanism separation core retainer plate 92 and vertical contact pin
24, to complete the feeding movement of core retainer plate 92;At the same time, it pulls expansion plate 56 to be reset to through-hole 58 by the 5th cylinder 57 to be connected to
In spring feeding machanism, spring is fallen into through-hole 58 by gravity, and the opposite sliding fastening spring 94 of two pieces of fixture blocks 59 completes spring
After 94 clamping, expansion plate 56 is pushed to slide into 58 bottom end of through-hole in alignment with corresponding core retainer plate 92 by the 5th cylinder 57, at this time the 6th
Cylinder 60 pushes lower compression leg 61 to move down, to apply lower pressure to spring 94 by lower 61 bottom end of compression leg, and then spring 94 is pushed away
The clamping opening of two pieces of fixture blocks 59 enters core retainer plate 92, is finally completed the feeding movement of spring 94;At the same time, the 9th cylinder 1040 pushes
Uplink pushing block 1041 moves up, so that the lock pin column casing 1024 immediately below square set 91 be pushed to move up, forces 93 side of insertion of lock pin
In set 91, in the clamping opening of the lock pin of 93 top of lock pin insertion at this time folder 1013, thus by 1013 clamping limitation lock pin 93 of lock pin folder, into
And the connection of lock pin 93 Yu square set 91 is completed, during uplink pushing block 1041 moves up while pushing in square set 91 and lock pin 93 just
The core retainer plate column casing 1025 of lower section moves up, so that core retainer plate 92 and spring 94 be forced to be inserted into square set 91, the snap-gauge 923 of core retainer plate 92 is embedding at this time
Enter the horizontal card slot 911 of square set 91, and then completes the assembly work of entire fibre-optical splice.
Square set folder 1012 clamps square set 91 in the following way, and as shown in Figure 8, Figure 9, square set folder 1012 is fixed including bolt
In the first fixed block 1014 of 1011 lower surface of the first assembly disk, first rotating block 1015 hinged with the first fixed block 1014 with
And it is set to the first compressed spring 1016 between the first fixed block 1014 and the first rotating block 1015, when square set 91 is gradually pushed away
During entering in the clamping opening of square set folder 1012, the first rotating block 1015 is rotated by component effect, at this time the first compression bullet
Spring 1016 is in compressive deformation state, to push the first rotating block 1015 using the elastic potential energy of the first compressed spring 1016
The first fixed block 1014 is cooperated to clamp square set 91.
Lock pin folder 1013 clamps lock pin 93 in the following way, and as shown in Figure 8, Figure 9, lock pin folder 1013 includes second fixed
Block 1017, second rotating block 1018 hinged with the second fixed block 1017 and it is set to the second fixed block 1017 and the second rotation
The second compressed spring 1019 between block 1018, square set press from both sides 1012 clamping opening and are in the underface that lock pin presss from both sides 1013 clamping opening;Work as lock pin
93 when being from bottom to top inserted into square set 91, and the ceramics pole 932 of lock pin 93 is inserted into the second fixed block 1017 and the second rotating block 1018
In clamping opening, to force the second rotating block 1018 to cooperate the second fixed block using the elastic potential energy of the second compressed spring 1019
1017 clamp lock pin 93.
For the rotation harmony for improving the first assembly disk 1011 and the second assembly disk 1021, as shown in Figure 10, the first assembly
Keyway is fixed with shaft 1032 respectively in the center of circle of disk 1011 and the second assembly disk 1021, and shaft 1032 is shown in pedestal 1031(
It Fig. 1) is rotatablely connected, 1031 bolt of pedestal is fixed with stepper motor 1033, and stepper motor 1033 is fixedly installed main shaft 1034, main
The transmission of bevel gear 1035 is respectively arranged between axis 1034 and two shafts 1032;1034 turns of 1033 driving spindle of stepper motor
Dynamic, main shaft 1034 passes through the transmission of two groups of bevel gears 1035 during rotation, while driving the first assembly disk 1011 and second
Assembly disk 1021 rotates, and drives 1021 turns of the first assembly disk 1011 and the second assembly disk simultaneously by a power source to realize
It is dynamic, effectively improve the rotation harmony of the two.
To improve square set folder 1012 for the clamping effect of square set 91, as shown in figure 9, the first fixed block 1014 and first turn
The opposite face of motion block 1015 is respectively integrally formed with anti-slop serrations 1036, to improve the first fixed block 1014 and the first rotating block
The surface roughness of 1015 opposite faces, and then the frictional force between the two and square set 91 is improved, the final square set that improves presss from both sides 1012 pairs
In the clamping effect of square set 91.
It is to improve lock pin folder 1013 for the clamping effect of lock pin 93, as shown in Figure 8, Figure 9, the second fixed block 1017 and the
The opposite face of two rotating blocks 1018 offers semicircle groove 1037 respectively, when 1018 benefit of the second fixed block 1017 and the second rotating block
When clamping lock pin 93 with the elastic potential energy of the second compressed spring 1019, lock pin 93 is in two semicircle grooves 1037 simultaneously, from
And increase the contact area of lock pin 93 and lock pin folder 1013, and then improve the frictional force between lock pin folder 1013 and lock pin 93, most
Lock pin folder 1013 is improved eventually for the clamping effect of lock pin 93.
Second assembly disk 1021 is inevitably present vibration during rotation, to avoid leading to lock pin 93 because of vibration
It rotates, as shown in figure 11,1024 upper open end of lock pin column casing is integrally formed with the limitation convex block chimeric with notch 934
1038;When lock pin 93 is in lock pin column casing 1024, limitation convex block 1038 is embedded in the notch 934 of lock pin 93, to limit
The mobility that lock pin 93 is rotated using own axes as center of rotation, and then avoid leading to the angle of lock pin 93 because of factors such as vibrations
It changes.
To avoid causing core retainer plate 92 to rotate because of vibration, as shown in figure 12,1025 inner peripheral surface of core retainer plate column casing is opposite to be opened
Equipped with the confinement groove 1039 being embedded in for snap-gauge 923;When core retainer plate 92 is in core retainer plate column casing 1025, the snap-gauge 923 of core retainer plate 92
It is embedded in confinement groove 1039, to limit the mobility that core retainer plate 92 is rotated using own axes as center of rotation, and then is avoided because of shake
The factors such as dynamic, cause the angle of core retainer plate 92 to change.
Fibre-optical splice assembly equipment further includes shedding mechanism, and as shown in figs. 13 and 14, pedestal 1031 is fixedly installed vertically
Brace 1051, shedding mechanism include that level is fixed on the tenth cylinder 1052 on vertical 1051 top of brace, is fixedly installed in the tenth
The discharging jacking block 1053 of 1052 tailpiece of the piston rod of cylinder and the discharging square tube 1054 for being fixedly welded on vertical 1051 midpoint of brace,
Wherein, discharging jacking block 1053 is fixedly installed level and supports column 1055, and level supports column 1055 and is directed toward the separate folder of the second rotating block 1018
Mouth one end, 1053 side bolt of discharging jacking block, which is fixed with, pushes square column 1056, and the first rotating block 1015 is fixed far from clamping opening one end
It is provided with and supports column 1057 with the stress for pushing square column 1056 to contact.
When carrying station of the clamp movement for completing the fibre-optical splice of assembly to face shedding mechanism, the tenth cylinder
1052 push discharging jacking blocks 1053 towards the clamp movement, and during this, it is separate to the second rotating block 1018 that level supports column 1055
Clamping opening one end applies thrust, so that lock pin folder 1013 is forced gradually to open, meanwhile, it pushes square column 1056 to support column 1057 to stress and applies
Add thrust, so that square set folder 1012 be forced gradually to open, in conjunction with the above two o'clock, after fibre-optical splice loses chucking power, is made by gravity
It is acted with the discharging of the arrival end for falling into discharging square tube 1054 downwards, and then completion fibre-optical splice.
For convenient for collecting the fibre-optical splice unloaded, as shown in figs. 13 and 14, whole be tilted down of discharging square tube 1054 is set
It sets, outlet end is placed with receiving hopper 1058, so that the fibre-optical splice for falling into discharging square tube 1054 continues by gravity, edge
Discharging square tube 1054 slides into receiving hopper 1058, to realize the automatic collection of fibre-optical splice, and then mention to collect fibre-optical splice
For convenience.
Square set feeding device realizes the feeding movement of square set 91, as shown in Figure 15, Figure 16, Figure 17, side in the following way
Covering feeding machanism includes square set barrel 71, along the spiralling square set track 72 of 71 inner peripheral surface of square set barrel and the side of being set to
The square set vibrating disc 73 in barrel 71 is covered, 72 top of square set track is connected with vertical plate road 74, and the thickness in vertical plate road 74 is little
In the width of vertical slot 913;As shown in Figure 15,18, feeding distribution mechanism includes the Vertical Channel that top is connected to vertical plate road 74
81 and the horizontal channel 82 that is connected to 81 bottom end of Vertical Channel, 82 one end bolt of horizontal channel be fixed with the 7th cylinder 83,
For seven cylinders, 83 tailpiece of the piston rod integrally formed with push square column 88, push square column 88 is mating along 82 length direction of horizontal channel;
8th cylinder 84 is fixedly installed in 82 other end of horizontal channel, the piston rod of the 8th cylinder 84 perpendicular to horizontal channel 82, and with
Wear cooperation.
In normal work, as shown in figures 15-18, square set vibrating disc 73 generates vibration to square set feeding device, to drive
Entire square set barrel 71 shakes, and then forces square set 91 to move along the track of square set track 72 by shaking force;When square set 91 is mobile
When to vertical plate road 74, vertical state is gradually turned to by the square set 91 of gravity horizontality, during this, angle is not just
True square set 91 is vertical after the square set 91 completes rotation since its vertical 913 misalignment of slot is in vertical plate road 74
Slot 913 can not clamp vertical plate road 74, be detached from vertical plate road 74 to fall downwards, the correct square set 91 of angle its vertical insert
Slot 913 is in the surface in vertical plate road 74, and after turning to vertical state, vertical slot 913 presss from both sides the square set 91 in gap
Vertical plate road 74 is held, so that the square set 91 has the ability of the track sliding along vertical plate road 74, it should be noted that due to this
The mobility of 91 opposed vertical plate road 74 of square set rotation is limited, therefore the square set 91 is in the track sliding along vertical plate road 74
In the process, two casting lug thereon 912 is always positioned at the two sides in vertical plate road 74, and then realizes the angle adjustment of square set 91;Vertically
And angle correct square set 91 is entered Vertical Channel 81 by gravity and slid downwards when sliding into 74 end of vertical plate road,
Enter horizontal channel 82 when the square set 91 landing to 81 bottom end of Vertical Channel, at this point, pushing the square set 91 by the 7th cylinder 83
It is slided along horizontal channel 82, so that the separation of the square set 91 and top square set 91 is realized, when the square set 91 slides onto horizontal channel
When 82 discharge end, by the 8th cylinder 84 push 91 horizontal sliding of square set to square set folder 1012(be shown in Fig. 2) clamping opening in;
In conclusion square set 91 is adjusted to vertical state by vertical plate road 74, and by 82 side of limitation of Vertical Channel 81 and horizontal channel
Set 91, to realize with the technical effect of vertical and constant angle state feeding.
Square set 91 needs to fit in 71 inner wall of square set barrel, and in square set track 72, can realize spiral shell because of shaking force
Liter is screwed on, to enter square set track 72 convenient for square set 91, as shown in figure 16, square set vibrating disc 73 is in truncated cone-shaped, and its roundlet
Up, to force the square set 91 in square set barrel 71 to be affixed to the inner peripheral surface of square set barrel 71 by gradient, from
And reach the technical effect that square set 91 more easily enters square set track 72.
To reduce a possibility that square set 91 is fallen by 72 edge of square set track, 72 edge bending and molding of square set track has gear edge
75, thus by keeping off the edge for stopping square set track 72 along 75, and then reduce a possibility that square set 91 is fallen;It should be noted that
Keep off along 75 height be less than square set 91 width, it is extra when excessive square set 91 is accumulated in the single position of square set track 72
Square set 91 can drop back into square set barrel 71 by 72 edge of square set track, and then avoid causing to block because the quantity of square set 91 is excessive
The problem of occur.
To avoid because of interfering with each other between square set 91, and the smooth connection of square set 91 Yu vertical plate road 74 is influenced, such as schemed
16, shown in Figure 17, horizontal arrow path 741 is provided between square set track 72 and vertical plate road 74, the width of horizontal arrow path 741 is equal to
The width of square set 91, horizontal 741 outer edge bending and molding of arrow path have outer baffle 76;When more than one square set 91 enters water simultaneously
When flat arrow path 741, due to mutually pushing between square set 91, extra square set 91 will pushed away from horizontal arrow path 741, to realize
Square set 91 is arranged by horizontal arrow path 741, and then reaches the technical effect that square set 91 sequentially enters vertical plate road 74, the side of effectivelying prevent
Interfering with each other between set 91.
Be scattered everywhere to avoid being removed the square set 91 fallen, as shown in Figure 17, Figure 19,71 outer circumference surface of square set barrel in
Square set splicing ring 77 is welded under horizontal arrow path 741 and vertical plate road 74,77 sections of square set splicing ring are L-shaped, thus
The square set 91 fallen is picked up by square set splicing ring 77, and then square set 91 is avoided to be scattered everywhere;It should be noted that square set splicing ring
77 is whole helically down-set, and square set barrel 71 offers square set feed back window 78, square set feed back window 78 and square set splicing ring 77
Least significant end connection, the square set 91 picked up is by the effect of shaking force, and the gradient along square set splicing ring 77 is slided, when sliding into square set
When the lowermost end of splicing ring 77, square set barrel 71 is fallen back by square set feed back window 78, to reach the square set for automatically retracting and falling
91 technical effect.
To avoid square set 91 from being detached from during sliding along vertical plate road 74, as shown in Figure 16, Figure 17, vertical plate
74 two sides of road, which are respectively welded, is fixed with outer retaining wall 79 and interior retaining wall 791, between outer retaining wall 79 and the spacing and square set 91 of interior retaining wall 791
Gap cooperation, so that square set 91, while being limited by vertical plate road 74, the cooperation also by outer retaining wall 79 and interior retaining wall 791 limits
System effectively prevent square set 91 to be detached from vertical plate road 74;It should be noted that retaining between interior retaining wall 791 and horizontal arrow path 741 has
Gap section 792 so that the incorrect square set 91 of angle can be fallen by gap section, and then is avoided because being provided with interior 791 He of retaining wall
Outer retaining wall 79 and cause the arrival end in vertical plate road 74 to block.
Found in practice, Vertical Channel 81 and horizontal channel 82 may block, thus such as Figure 15, Figure 17,
Shown in Figure 18, Vertical Channel 81 and horizontal channel 82 offer visual windows 85 along its length respectively, so that worker can pass through
Visual windows 85 observe the stopping state in Vertical Channel 81 or horizontal channel 82, and then make counter-measure in time for worker
Convenience is provided;Visual windows 85 are provided with clear plastic strip 86, thus avoid influencing because of visual windows 85 Vertical Channel 81 or
The restriction effect of person horizontal channel 82;It should be noted that bolt is fixed on Vertical Channel 81 to two clear plastic strips 86 respectively
With horizontal channel 82, thus when blockage problem occurs, worker can unload clear plastic strip 86 dredge Vertical Channel 81 or
Horizontal channel 82, and then convenience is provided for dredging.
During square set 91 enters Vertical Channel 81 by vertical plate road 74, need to change its direction of motion, therefore the mistake
Journey, which belongs to, easily falls position, and thus as shown in Figure 15, Figure 17, Vertical Channel 81 and the connecting pin in vertical plate road 74 are welded with
The anti-fall plate 87 being in U-shape is overlooked, the opening of anti-fall plate 87 is towards vertical plate road 74, to stop square set by anti-fall plate 87
91 fall.
The feeding movement that lock pin feeding device completes lock pin 93 in the following way is inserted as shown in Figure 20, Figure 21, Figure 22
Core feeding machanism includes lock pin barrel 31, along the spiralling lock pin track 32 of 31 inner peripheral surface of lock pin barrel and is installed on slotting
Lock pin vibrating disc 33 in core material cylinder 31,32 top of lock pin track be connected with two be in gap setting cylindrical rails 34, two
The spacing of cylindrical rails 34 is greater than the diameter of hollow metal column 931, but is less than annulus along 933 diameter;Two cylindrical rails 34
End is connected with angular adjustment component, and angular adjustment component includes two pieces of rectangular blocks 35 in gap setting, two pieces of rectangular blocks 35
Opposite face upper edge offers limiting groove 36 respectively, and the spacing of two 36 opposite faces of limiting groove is less than annulus along 933 diameter, but
Greater than the maximum spacing of opposite notch 934, (under theoretical condition, the spacing of two limiting grooves 36 should be equal to opposite notch 934
Maximum spacing).
In normal work, lock pin vibrating disc 33 generates vibration to lock pin feeding device, to drive entire lock pin barrel 31
Vibration, and then force lock pin along 32 spiral of lock pin track by shaking force;When lock pin 93 enter two cylindrical rails 34 it
Between when, lock pin 93 is rotated by gravity (needs to illustrate that the weight of hollow metal column 931 is greater than ceramics pole 932 herein
Weight), so that hollow metal column 931, across two cylindrical rails 34, annulus is connected to two cylinder rails along 933 at this time
On road 34, and then reach the technical effect of upright lock pin 93;Work of the lock pin 93 by gravity and shaking force under upright state
With along two advances of cylindrical rails 34;When being moved to the junction of rectangular block 35 and cylindrical rails 34, angle is incorrect to be inserted
Core 93, annulus along 933 periphery simultaneously be connected to the feed end of limiting groove 36, therefore cannot be introduced into two pieces of rectangular blocks 35 it
Between, when two notches 934 opposite because vibration turns to of lock pin 93 are aligned with the opposite face of limiting groove 36, lock pin 93 is sliding
Enter between two rectangular blocks 35, the clamping that lock pin 93 is restricted slot 36 at this time can not rotate, and then realize for 93 jiaos of lock pin
The adjustment of degree.
It is found in practice, during lock pin 93 is entered cylindrical rails 34 by lock pin track 32, it may occur however that insert
Core 93 derailing the problem of falling, for convenient for collecting the lock pin 93 dropped out, as shown in Figure 21, Figure 23,31 outer circumference surface of lock pin barrel
It encloses and effectively avoids lock pin 93 from rolling everywhere to pick up the lock pin 93 dropped out by splicing ring 37 equipped with the L-shaped splicing ring 37 in section
It is dynamic, and then convenience is provided to collect the lock pin 93 dropped out;Splicing ring 37 advanced optimizes as the bottom surface of splicing ring 37 is inclined
Setting, lock pin barrel 31 offer feed back window 371, and feed back window 371 is connected to 37 least significant end of splicing ring, to fall into splicing
Gradient of the lock pin 93 of ring 37 by gravity along splicing ring 37 is slided, and drops back into lock pin barrel 31 finally by feed back window 371
Inside, to reach the technical effect for collecting the lock pin 93 fallen without worker.
Two diameters of the utilization annulus of limiting grooves 36 along 933, the maximum spacing with respect to notch 934, the difference of the two are realized
The adjusting of the angle of lock pin 93, if but lock pin 93 is whole inclined, not easily pass through the adjusting which realizes angle,
Thus as shown in Figure 21, Figure 22, fixed restricted bar 38 is respectively welded in two pieces of rectangular blocks 35, and two limitation bars 38 are clamped in gap
Hollow metal column 931, so that one end of hollow metal column 931, by two clamping limitations of cylindrical rails 34, the other end is limited by two
The clamping of bar 38 limitation processed, and then realize and limit hollow metal column 931 by both ends, the principle of straight line is determined in conjunction with two o'clock, is had
Effect prevents lock pin 93 from skew occurs, and then avoids the skew because of lock pin 93, and it is caused to cannot be introduced between two pieces of rectangular blocks 35
The problem of occur.
Herein it is to be appreciated that enter between two limitation bars 38 convenient for hollow metal column 931, as shown in figure 21, two
It limits bar 38 and overlooks and be arranged in splayed configuration, and be located at neighbouring 35 end of rectangular block at the minimum spacing of the two, to increase two limits
The size of 38 arrival end of bar processed, and then enter between two limitation bars 38 for hollow metal column 931 and convenience is provided.
For the clamping effect for improving clamping jaw cylinder 42, as shown in Figure 21, Figure 24, two clamping jaws of clamping jaw cylinder 42 it is vertical and
Opposite to offer arc groove 43, when clamping jaw cylinder 42 firmly grasps lock pin 93, lock pin 93 is within two arc grooves 43, to increase
The contact area of big clamping jaw cylinder 42 and lock pin 93, and then improve the clamping effect of clamping jaw cylinder 42.
Core retainer plate feeding device realizes the feeding movement of core retainer plate 92, as shown in Figure 25, Figure 26, Figure 27, core in the following way
Set feeding machanism includes core retainer plate barrel 11, the core retainer plate vibrating disc 12 being set in core retainer plate barrel 11 and along 11 inner circle of core retainer plate barrel
The spiralling core retainer plate channel 13 of circumferential surface, 13 top of core retainer plate channel are communicated with the upright rail 14 of core retainer plate, upright 14 upper surface of rail of core retainer plate
Core retainer plate conduit 15 is offered along its track, the width of core retainer plate conduit 15 is greater than the diameter of roundlet section 922, but is less than great circle section 921
Diameter, the upright rail 14 of core retainer plate along 15 two sides upper edge of core retainer plate conduit offer core retainer plate correction slot 151, core retainer plate rectify a deviation slot 151 with
921 clearance fit of great circle section.
In normal work, core retainer plate vibrating disc 12 generates vibration to core retainer plate feeding device, to drive entire core retainer plate barrel 11
Vibration, the core retainer plate 92 being placed in core retainer plate barrel 11 is shaken the effect of power, into core retainer plate channel 13 and along spiral;
When the rail 14 upright into core retainer plate of core retainer plate 92, it is affected by gravity and rotates, so that the lesser roundlet section 922 of diameter passes through
Core retainer plate conduit 15, the great circle section 921 being relatively large in diameter are stranded on core retainer plate conduit 15, so force core retainer plate 92 with upright state before
Into;When core retainer plate 92 is moved to correction slot 151, its snap-gauge 923 of the incorrect core retainer plate 92 of angle is connected on the upright rail 14 of core retainer plate
Surface, the shaking force of core retainer plate vibrating disc 12 is transmitted on the upright rail 14 of core retainer plate at the same time, so that core retainer plate 92 be forced to be trembled
Dynamic, core retainer plate 92 rotates in dither process, when core retainer plate 92 turns to snap-gauge 923 in alignment with correction slot 151, core retainer plate 92 by
It falls to gravity, when snap-gauge 923 is fallen into correction slot 151, clamping of 923 two sides of snap-gauge by correction slot 151, thus
The turning power of core retainer plate 92 is limited, and then realizes the adjustment for 92 angle of core retainer plate.
Core retainer plate 92 needs to realize spiral along core retainer plate channel 13, to enter core retainer plate channel 13 convenient for core retainer plate 92, such as schemes
Shown in 25,12 upper surface of core retainer plate vibrating disc so that core retainer plate 92 be forced to be affixed to the inner wall of core retainer plate barrel 11, and then reaches in coniform
Core retainer plate is easier to enter the technical effect in core retainer plate channel 13.
To reduce a possibility that 92 spiral of core retainer plate is fallen by core retainer plate channel 13 in the process, as shown in Figure 25, Figure 26, core
The edge in channel 13 is covered integrally formed with retaining wall 16, to stop the edge in core retainer plate channel 13 by retaining wall 16, core retainer plate is effectively reduced
92 have a possibility that core retainer plate channel 13 is fallen;But found in practice, if stopping all core retainer plates 92, core retainer plate can be generated
The excessive core retainer plate 92 of accumulation in channel 13, to lead to the problem of blocking, the height of retaining wall 16 is less than the diameter of core retainer plate 92 thus, from
And stop core retainer plate 92 to a certain extent, while when being stacked with when the core retainer plate of a certain position 92 is excessive, the core retainer plate 92 of top
Core retainer plate channel 13 can be forced down, and then reduces the hidden danger that core retainer plate channel 13 blocks.Core retainer plate lifting seat 22 in the following way with
The vertical sliding of guide plate 21 connection, as shown in figure 5, vertical 21 two sides of guide plate offer slippage slot 26, core retainer plate along its length respectively
Lifting seat 22 integrally formed with two pieces of slipping blocks 27 with corresponding 26 movable fit of slippage slot respectively, thus by slipping block 27 with
Cooperation between slippage slot 26 realizes that core retainer plate lifting seat 22 is connect with the sliding of vertical guide plate 21.
It is found in practice, not being due to the outer circumference surface of core retainer plate 92 is smooth face, and there are adjacent core retainer plates
92 the problem of mutually linking, to avoid therefore causing end core retainer plate 92 from driving adjacent core retainer plate 92 when being raised, such as Fig. 5, Fig. 6 institute
Show, vertical guide plate 21 is welded with horizontal arm 28, and horizontal arm 28 is equipped with the second cylinder 29, the weldering of 29 tailpiece of the piston rod of the second cylinder
It connects and is fixed with plate 291, the upright rail 14 of core retainer plate offers the through slot 292 being inserted into for plate 291, through slot 292 to the upright rail of core retainer plate
The distance of 14 ends only accommodates a core retainer plate 92.
Before vertical contact pin 24 is inserted into 92 inner circle of core retainer plate, the second cylinder 29 pushes plate 291 to pass through through slot 292, thus
The core retainer plate 92 and adjacent core retainer plate 92 of upright 14 end of rail of core retainer plate are separated by plate 291, and then are avoided mutual because of adjacent core retainer plate 92
It links, and vertical contact pin 24 is caused to drive adjacent core retainer plate 92 when with abterminal core retainer plate 92;When vertical contact pin 24 is by end
When core retainer plate 92 takes away core retainer plate upright rail 14, the second cylinder 29 controls plate 291 and bounces back, and is detached from the upright rail 14 of core retainer plate, to keep away
Exempt to influence the end that next core retainer plate 92 is moved to the upright rail 14 of core retainer plate because of plate 291.
Releasing mechanism separates vertical contact pin 24 and core retainer plate 92 in the following way, and as shown in Figure 5, Figure 6, releasing mechanism includes
Fixed third cylinder 293 and it is fixed on the follow block 294 of 293 tailpiece of the piston rod of third cylinder with horizontal arm 28, follow block 294 abuts
In 923 upper surface of snap-gauge;When vertical contact pin 24 is from top to bottom inserted into core retainer plate column casing 1025 with core retainer plate 92, third cylinder 293 is pushed away
Dynamic follow block 294, which moves forward to, is connected to 923 upper surface of snap-gauge, so that the upward mobility of core retainer plate 92 is limited by follow block 294, when vertical
It when contact pin 24 is driven rising, since core retainer plate 92 can not move up, is stranded in core retainer plate column casing 1025, and then completes
The separation of core retainer plate 92 and vertical contact pin 24.
It should be noted that as shown in Figure 5, Figure 6, follow block 294 offers U-lag mouth 295, U-lag mouth 295 and great circle section
921 clearance fits, thus when third cylinder 293 push follow block 294 move forward after, follow block 294 be connected to simultaneously two pieces of snap-gauges 923 it
On, and then it is implemented in the technical effect that two sides apply down force to core retainer plate 92 simultaneously, and then the stress for improving core retainer plate 92 is equal
Even property.
Spring feeding machanism supplies spring in the following way, and as shown in Fig. 7, Figure 28, Figure 29, feeding machanism includes spring
Barrel 51 shakes along the spiralling spring track 52 of 51 inner peripheral surface of spring barrel and the spring being installed in spring barrel 51
Moving plate 53,52 top of spring track, which is connected, spring pipeline 54, and 54 bottom end of spring channels can be connected to through-hole 58.
In normal work, spring vibrating disc 53 generates vibration to spring feeding device, so that spring barrel 51 is driven to shake,
And then force spring 94 along 52 spiral of spring track by shaking force;When spring 94 rises to spring 52 top of track,
It is slid into spring pipeline 54 by gravity, and is snapped down to along spring pipeline 54 and fits in 56 upper surface of expansion plate;At the same time,
It pulls expansion plate 56 to slide into through-hole 58 by the 5th cylinder 57 and is connected to spring pipeline 54, so that 94 bottom end of spring lacks support, by
Gravity is fallen into the clamping opening of two pieces of fixture blocks 59, the opposite sliding fastening spring 94 of two pieces of fixture blocks 59;Complete the clamping of spring 94
Afterwards, expansion plate 56 is pushed to slide into 58 bottom end of through-hole in alignment with predetermined station by the 5th cylinder 57, the 6th cylinder 60 pushes at this time
Lower compression leg 61 moves down, to apply lower pressure to spring 94 by lower 61 bottom end of compression leg, and then spring 94 is pushed away two pieces of fixture blocks 59
Clamping opening, and from top to bottom enter core retainer plate 92 in, complete spring 94 feeding process.
Spring track 52 is connected to spring pipeline 54 in the following way, as shown in figure 29,51 outer circumference surface of spring barrel
Downward spiral is fixed with spring glidepath 62, and 62 top of spring glidepath is connected to spring track 52, bottom end and spring pipeline
54 connections, so that the connection of spring track 52 and spring pipeline 54 is realized by spring glidepath 62, simultaneously because spring glidepath
62 is whole in downtrend, therefore can use gravity and accelerate the speed of spring 94, and then reach spring 94 and be easier to pour
The technical effect of spring pipeline 54.
The internal diameter in bourdon tube road 54 and 94 clearance fit of spring in the utility model, to avoid more than one spring 94 crowded
In the arrival end of spring pipeline 54, as shown in figure 29, the semi arch that 62 section of spring glidepath faces upward in inner arc, and its inner arc
Face diameter is equal to the diameter of spring 94, thus when more than two springs 94 enter spring glidepath 62 simultaneously, extra bullet
Spring 94, which will be pushed out, drops off spring glidepath 62, and then realizes the technical effect that spring 94 is arranged by spring glidepath 62, has
Effect avoids the crowded arrival end in spring pipeline 54 of more than two springs 94.
It is rolled to avoid the spring 94 4 fallen from dissipating, as shown in figure 29,51 outer circumference surface of spring barrel is in spring glidepath
Spring splicing ring 63 is welded under 62, the section of spring splicing ring 63 is L-shaped, to be picked up by spring splicing ring 63
The spring 94 fallen, and then avoid the spring 94 4 fallen from dissipating and roll;It should be noted that spring splicing ring 63 it is whole helically to
Lower setting, spring barrel 51 offer feed back window 64, and feed back window 64 is connected to 63 least significant end of spring splicing ring, to fall
Spring 94 rolled along the gradient of spring splicing ring 63, when spring 94 is rolled to spring splicing 63 least significant end of ring, the spring 94
Spring barrel 51 is dropped back by feed back window 64, is finally reached the technical effect for automatically retracting and falling spring 94.
As shown in Fig. 7, Figure 28, Figure 29, bourdon tube road 54 uses pvc pipe in the utility model, and bottom end is connected with spring
Sub-feed tube 65, spring sub-feed tube 65 are the stainless steel tube of vertical state, and bottom end is bonded with 56 upper surface of expansion plate, multiple springs
When in 94 entrance spring sub-feed tubes 65, joins end to end and be stacked in spring sub-feed tube 65, to only need to ensure 58 upper opening of through-hole
It is equal to the length of spring 94 to the distance of 55 upper surface of rectangle matrix, that is, can reach spring 94 and the top of the lowermost end in feeding
The isolated technical effect of spring 94.
Fastening spring 94 in the following way in the utility model, as shown in Fig. 7, Figure 28, Figure 29, two pieces of fixture blocks 59 are opposite
Face integrally formed with control panel 66, is provided with tension spring 67 respectively between control panel 66 and expansion plate 56, to utilize tension spring 67
Elastic potential energy pushes two fixture blocks, 59 fastening spring 94;When being fallen under spring 94 in the clamping opening of two pieces of fixture blocks 59, two fixture blocks
59 clamping opening necessarily is in open configuration, and control panel 66, which offers, thus overlooks trapezoidal notch 68 in a rectangular trapezoid, rectangle base
55 upper surface of block is fixedly installed to column 69, is contacted to column 69 and the inclined-plane of trapezoidal notch 68.
When expansion plate 56 slides into during through-hole 58 is connected to 54 bottom end of spring pipeline, dovetail groove is connected to column 69
It on the inclined-plane of mouth 68, is decomposed through stress, generates outside thrust, so that two fixture blocks 59 be pushed to slide opposite to each other, and then completed
The opening of two fixture blocks 59 (tension spring 67 is in tensional state at this time);When expansion plate 56 is slided towards predetermined station, column 69 is supported
Trapezoidal notch 68 is gradually disengaged, so that tension spring 67 discharges elastic potential energy, pushes two 59 relative motions of fixture block, and then complete two
The clamping of fixture block 59.
Claims (10)
1. a kind of fibre-optical splice assembly equipment, it is characterised in that: including pedestal (1031), the assembly being set on pedestal (1031)
Disk group, the square set feeding device being arranged centered on assembly disk group, lock pin feeding device, core retainer plate feeding device and spring feeding
Device;
The assembly disk group includes the first assembly disk (1011) and the second assembly disk with pedestal (1031) rotation connection
(1021), the first assembly disk (1011) is angularly equipped with multiple fixtures, and the fixture includes square set folder (1012) and lock pin
It presss from both sides (1013), the second assembly disk (1021) upper surface has angularly been arranged alternately lock pin mould (1022) and core retainer plate mould (1023), institute
It states lock pin mould (1022) straight skidding to be connected with lock pin column casing (1024), core retainer plate mould (1023) straight skidding is connected with core retainer plate
Column casing (1025);
The square set feeding device includes square set feeding machanism, feeding distribution mechanism and the 8th cylinder (84), the 8th cylinder
(84) piston rod is directed toward the clamping opening of square set folder (1012);
The lock pin feeding device includes lock pin feeding machanism and gripping body, and the gripping body includes upright guide plate
(39), the lock pin lifting seat (40) of connection is slid with upright guide plate (39), is installed on the lock pin of lock pin lifting seat (40) without bar gas
Cylinder (41) and the clamping jaw cylinder (42) being installed on the sliding block of lock pin rodless cylinder (41);
The core retainer plate feeding device includes core retainer plate feeding machanism, inserting and taking-out mechanism and releasing mechanism, and the inserting and taking-out mechanism includes perpendicular
Straight guide plate (21), the core retainer plate lifting seat (22) connected with vertical guide plate (21) sliding, the core being installed on core retainer plate lifting seat (22)
Set rodless cylinder (23) and the vertical contact pin (24) being set on the sliding block of core retainer plate rodless cylinder (23), the vertical contact pin
(24) it is wrapped with rubber sleeve (25), the rubber sleeve (25) and core retainer plate (92) inner circle are interference fitted;
The spring feeding device includes spring feeding machanism, horizontal delivery device and pushing component, the horizontal pusher
Structure include rectangle matrix (55), sliding be connected to the expansion plate (56) of rectangle matrix (55) upper surface and for pushing expansion plate
(56) the 5th cylinder (57), the expansion plate (56) offer through-hole (58), and expansion plate (56) lower surface is in through-hole
(58) two sides Relative sliding is connected with fixture block (59), and the pushing component includes the 6th cylinder being set to right above predetermined station
(60), the 6th cylinder (60) tailpiece of the piston rod is fixedly installed the lower compression leg (61) for being directed toward core retainer plate column casing (1025), under described
Compression leg (61) and through-hole (58) clearance fit.
2. fibre-optical splice assembly equipment according to claim 1, it is characterised in that: the square set folder (1012) includes fixing
Be set to the first assembly disk (1011) lower surface the first fixed block (1014), first turn hinged with the first fixed block (1014)
Motion block (1015) and the first compressed spring being set between the first fixed block (1014) and the first rotating block (1015)
(1016);The lock pin folder (1013) includes the second fixed block (1017), second rotation hinged with the second fixed block (1017)
Block (1018) and the second compressed spring (1019) being set between the second fixed block (1017) and the second rotating block (1018),
Square set folder (1012) clamping opening is in the underface of lock pin folder (1013) clamping opening.
3. fibre-optical splice assembly equipment according to claim 2, it is characterised in that: first assembly disk (1011) and
The center of circle of two assembly disks (1021) is fixedly installed shaft (1032) respectively, and the shaft (1032) and pedestal (1031) rotation connect
It connects;The pedestal (1031) is fixedly installed stepper motor (1033), and the stepper motor (1033) is fixedly installed main shaft
(1034), bevel gear (1035) transmission is respectively arranged between the main shaft (1034) and two shafts (1032).
4. fibre-optical splice assembly equipment according to claim 3, it is characterised in that: the square set feeding machanism includes square set
Barrel (71) along the spiralling square set track (72) of square set barrel (71) inner peripheral surface and is set in square set barrel (71)
Square set vibrating disc (73), square set track (72) top is connected with vertical plate road (74), the thickness of the vertical plate road (74)
Degree is not more than the width of vertical slot (913).
5. fibre-optical splice assembly equipment according to claim 4, it is characterised in that: the feeding distribution mechanism includes top and erects
The Vertical Channel (81) of straight panel road (74) connection and the horizontal channel (82) being connected to Vertical Channel (81) bottom end, the level
Channel (82) one end is fixedly installed the 7th cylinder (83), and the 7th cylinder (83) tailpiece of the piston rod is fixedly installed push square column
(88), the push square column (88) is mating along horizontal channel (82) length direction;8th cylinder (84) is fixedly installed in water
Flat channel (82) other end, the piston rod of the 8th cylinder (84) wear cooperation perpendicular to horizontal channel (82) therewith.
6. fibre-optical splice assembly equipment according to claim 5, it is characterised in that: the Vertical Channel (81) and level are logical
Road (82) offers visual windows (85) along its length respectively, and the visual windows (85) are fixedly installed clear plastic strip
(86).
7. fibre-optical splice assembly equipment according to claim 3, it is characterised in that: the lock pin feeding machanism includes lock pin
Barrel (31) along the spiralling lock pin track (32) of lock pin barrel (31) inner peripheral surface and is set in lock pin barrel (31)
Lock pin vibrating disc (33), lock pin track (32) top be connected with two be in gap setting cylindrical rails (34), two
The spacing of cylindrical rails (34) is greater than the diameter of hollow metal column (931), but is less than annulus along the diameter of (933).
8. fibre-optical splice assembly equipment according to claim 7, it is characterised in that: two cylindrical rails (34) ends
It is connected with angular adjustment component, the angular adjustment component includes two pieces of rectangular blocks (35) in gap setting, two pieces of squares
Shape block (35) opposite face upper edge offers limiting groove (36) respectively, and the spacing of two limiting groove (36) opposite faces is less than circle
The diameter on ring edge (933), but it is greater than the maximum spacing of opposite notch (934).
9. fibre-optical splice assembly equipment according to claim 2, it is characterised in that: the core retainer plate feeding machanism includes core retainer plate
Barrel (11), the core retainer plate vibrating disc (12) being set in core retainer plate barrel (11) and in core retainer plate barrel (11) inner peripheral surface spiral
The core retainer plate channel (13) risen, core retainer plate channel (13) top is communicated with the upright rail of core retainer plate (14), the upright rail of core retainer plate (14)
Upper surface offers core retainer plate conduit (15) along its track, and the width of the core retainer plate conduit (15) is greater than the diameter of roundlet section (922),
But it is less than the diameter of great circle section (921), the upright rail of core retainer plate (14) offers core retainer plate along core retainer plate conduit (15) two sides upper edge
It rectifies a deviation slot (151), core retainer plate correction slot (151) and great circle section (921) clearance fit.
10. fibre-optical splice assembly equipment according to claim 3, it is characterised in that: the releasing mechanism includes and level
The fixed third cylinder (293) of arm (28) and the follow block (294) for being fixed on third cylinder (293) tailpiece of the piston rod, the follow block
(294) it is connected to snap-gauge (923) upper surface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820602997.1U CN209380243U (en) | 2018-04-25 | 2018-04-25 | Fibre-optical splice assembly equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820602997.1U CN209380243U (en) | 2018-04-25 | 2018-04-25 | Fibre-optical splice assembly equipment |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209380243U true CN209380243U (en) | 2019-09-13 |
Family
ID=67868487
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820602997.1U Active CN209380243U (en) | 2018-04-25 | 2018-04-25 | Fibre-optical splice assembly equipment |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209380243U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110919356A (en) * | 2019-12-12 | 2020-03-27 | 朱立怀 | Optical fiber connector assembling device |
CN112404937A (en) * | 2020-11-18 | 2021-02-26 | 南京艾龙自动化装备有限公司 | Automatic assembly equipment for elastic piece current strips |
CN114227189A (en) * | 2021-07-06 | 2022-03-25 | 深圳市厚物科技有限公司 | PXIe controller assembly mechanism |
-
2018
- 2018-04-25 CN CN201820602997.1U patent/CN209380243U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110919356A (en) * | 2019-12-12 | 2020-03-27 | 朱立怀 | Optical fiber connector assembling device |
CN112404937A (en) * | 2020-11-18 | 2021-02-26 | 南京艾龙自动化装备有限公司 | Automatic assembly equipment for elastic piece current strips |
CN112404937B (en) * | 2020-11-18 | 2021-09-07 | 南京艾龙自动化装备有限公司 | Automatic assembly equipment for elastic piece current strips |
CN114227189A (en) * | 2021-07-06 | 2022-03-25 | 深圳市厚物科技有限公司 | PXIe controller assembly mechanism |
CN114227189B (en) * | 2021-07-06 | 2023-03-14 | 深圳市厚物科技有限公司 | PXIe controller assembly mechanism |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN209380243U (en) | Fibre-optical splice assembly equipment | |
CN108381170A (en) | Fibre-optical splice assembly equipment | |
CN111541197B (en) | Protective fixing structure for power cable | |
CN209239515U (en) | A kind of adjustable milling intake and exhaust side fixture | |
CN103624173A (en) | Automatic metal pipe expanding machine | |
CN106736523A (en) | The assemble mechanism of rotary extrusion type spinning isolator star-wheel flexible roller automatic assembling machine | |
CN106312452A (en) | Processing technology and processing equipment for refrigerant delivery pipe | |
CN209050348U (en) | A kind of processing bearing supporting frame pusher | |
CN107634437A (en) | Nut automatic locking machine | |
CN206464805U (en) | Rotary extrusion type spinning isolator star-wheel flexible roller automatic assembling machine | |
CN115365905B (en) | Stainless steel reducing pipe fine grinding device | |
CN115179167A (en) | Intelligent machining robot for metal pipe fittings | |
CN209170165U (en) | A kind of gasket insertion equipment of rotor | |
CN214556331U (en) | High-precision steel pipe cold-drawing machine | |
CN115318979A (en) | Pneumatic adjustable wire equipment of bending | |
CN208135440U (en) | A kind of cam lever-type automatic feed mechanism | |
CN105058128B (en) | For the frock of heat exchanger tube perforate | |
CN207882515U (en) | Core retainer plate feeding device for fibre-optical splice assembly equipment | |
CN209424464U (en) | A kind of diameter changing device of coiling machine | |
CN207577857U (en) | Automatic lock core marble flip machine | |
CN113441634A (en) | Method for bending and processing snakelike condensation copper pipe | |
CN110014346A (en) | Piston ring automatically grinding device | |
CN116922038A (en) | Assembling device for oil meter production | |
CN107497976A (en) | A kind of reversing turntable for adjusting spring-leaf retainer | |
CN210504250U (en) | Wire guide for construction of oil gas gathering and transportation pipeline |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20230306 Address after: 314199 Room 302, Unit 1, Building 25, Rose Lane, Yulanxin Village, Weitang Town, Jiashan County, Jiaxing City, Zhejiang Province Patentee after: Lv Zhijian Address before: 314199 four, building 1, No. 18, No. 1, GUI Wu Road, Luo Xing street, Jiashan, Jiaxing, Zhejiang. Patentee before: ZHEJIANG ONEDREAM COMMUNICATION TECHNOLOGY CO.,LTD. |