CN105293029B - A kind of ceramic insertion core discharge device - Google Patents
A kind of ceramic insertion core discharge device Download PDFInfo
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- CN105293029B CN105293029B CN201510716303.8A CN201510716303A CN105293029B CN 105293029 B CN105293029 B CN 105293029B CN 201510716303 A CN201510716303 A CN 201510716303A CN 105293029 B CN105293029 B CN 105293029B
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Abstract
The present invention provides a kind of ceramic insertion core discharge device, including:Feed pipe, ceramic insertion core sends into discharge device from feed pipe;First discharge nozzle, it is below feed pipe, and the entrance of the first discharge nozzle is relative with the outlet of feed pipe;Screening module, it is located between feed pipe and the first discharge nozzle, and screening module is suitable to make the small end ceramic insertion core directed downwardly fallen from feed pipe fall into the first discharge nozzle by screening module, and the end greatly fallen from feed pipe ceramic insertion core directed downwardly is released into screening module;And second discharge nozzle, for discharging the ceramic insertion core released from screening module.
Description
Technical field
Ceramic insertion core can be discharged with identical direction the present invention relates to a kind of ceramic insertion core discharge device, more particularly to one kind
Discharge device.
Background technology
Ceramic insertion core is the core component of the joints of optical fibre, due to the two ends of ceramic insertion core and asymmetric, therefore ceramics are inserted
After core is machined, identical direction need to will be arranged as towards unordered ceramic insertion core.If by manually to ceramic insertion core
Towards being selected, substantial amounts of human resources will be wasted, production efficiency can be also greatly reduced, therefore be badly in need of in actual production
There is provided a kind of can will be converted to device towards orderly ceramic insertion core towards unordered ceramic insertion core.
The content of the invention
It is a primary object of the present invention to provide a kind of ceramic insertion core discharge device, the discharge device can be by different directions
Ceramic insertion core is separated, so as to realize the ordered arrangement of ceramic insertion core.
To achieve the above objectives, the present invention provides a kind of ceramic insertion core discharge device, including:
Feed pipe, ceramic insertion core sends into the discharge device from the feed pipe;
First discharge nozzle, it is below the feed pipe, the entrance of first discharge nozzle and going out for the feed pipe
Mouth is relative;
Screening module, it is located between the feed pipe and first discharge nozzle, and the screening module is suitable to make from institute
State the small end ceramic insertion core directed downwardly that feed pipe falls and first discharge nozzle fallen into by the screening module, will from it is described enter
The ceramic insertion core directed downwardly of end greatly that expects pipe is fallen removes the screening module, and the screening module includes a block and a release
Baffle plate, the block can be up or down located at the side of the feed pipe and first discharge nozzle, the side of the block
Extend a gear platform below to the feed pipe, the distance of the gear edge of table to the feed pipe center line is less than described
The external diameter at the big end of ceramic insertion core, the external diameter more than the ceramic insertion core small end, the release baffle plate is above the block, institute
Release baffle plate is stated to work in coordination with the block, during make it that the block is moved down into an extreme position, the release gear
Plate is laterally moved to the direction of ceramic insertion core, when center line of the small end ceramic insertion core directed downwardly along the feed pipe is fallen,
The distance of the block movement can not reach the extreme position, and now small end ceramic insertion core directed downwardly falls into first discharging
Pipe, when holding center line of the ceramic insertion core directed downwardly along the feed pipe to fall greatly, promotes the block to be moved to limit position
Put, now the release baffle plate will hold ceramic insertion core directed downwardly to release the screening module greatly;And
Second discharge nozzle, for discharging the ceramic insertion core released from the screening module.
Preferably, the screening module also includes a stopper spring, and the stopper spring acts on the block, suitable for
When the block is not by external force, the block is set to be moved upwards up to initial position.
Preferably, the screening module also includes a tumbler and a rotation spring, and the tumbler is rotationally set
In the opposite side of the block, the upper end of the tumbler is extended to above the block, and the upper end of the tumbler forms one
Arc surface, the rotation spring acts on the tumbler, suitable for making the arc surface of the tumbler laterally be inserted to the ceramics
The direction movement of core, the middle part of the tumbler, which is tilted, is butted on the block so that when the block is moved down, the rotation
The arc surface of part is laterally moved to the direction of the ceramic insertion core, and the baffle plate of releasing is located at the interior of the arc surface of the tumbler
Side.
Preferably, the arc surface of the tumbler has one first limit track, and the upper surface of the block has one the
Extend a connection piece on rear side of two limit tracks, the release baffle plate, the connector is removable through the first limit track
Ground is located at second limit track, and first limit track and second limit track have an extreme position, work as institute
When stating connector and being moved to the extreme position of first limit track and second limit track, the block is moved to it
Extreme position, before the connector is moved to the extreme position of first limit track and second limit track,
The connector drives the arc surface for releasing baffle plate along the tumbler to rotate, when the connector is moved to described the
After the extreme position of one limit track and second limit track, the connector drives the release baffle plate relative to described
The arc surface of tumbler laterally inwardly move by side, so that the ceramic insertion core is released into the screening module.
Preferably, the discharge device also includes swinging to module, and the module of swinging to includes rotating disk, motor, lock pin support,
The lock pin branch is set up in the side of the screening module, described suitable for supporting the ceramic insertion core released from the screening module
Rotating disk is rotatably arranged in the side of the lock pin support, and the motor is used to drive the rotating disk to rotate, and the rotating disk includes
Multiple lock pin fixed pins, when the rotating disk is rotated, the lock pin fixed pin passes periodically through the lock pin support, when described
When having ceramic insertion core on lock pin support, the lock pin fixed pin can be inserted into the lock pin hole of the ceramic insertion core, so that described turn
Disk drives the ceramic insertion core to rotate, and second discharge nozzle is located at the opposite side of the rotating disk so that fall from the rotating disk
Under the ceramic insertion core fall into second discharge nozzle.
Preferably, the feed pipe is the plastic tube with certain deformability.
Preferably, the module of swinging to also includes transmission bracket, and the transmission bracket includes a rocking bar and a driving lever, institute
Rotating disk is stated including a rotating shaft and multiple fixture blocks, each fixture block is corresponding with each lock pin fixed pin, described rocking bar one end and
The output shaft connection of the motor, the other end in the middle part of the driving lever with being hinged, the front end of driving lever formation Y shaped bracket, institute
The Y shaped bracket that the fixture block on rotating disk is suitable to be caught in the driving lever is stated, the rear end of the driving lever has a slide rail, the rotating shaft
Through the slide rail of the driving lever, when being moved in a circle under drive of the rocking bar in the motor, the driving lever shakes described
Rotate, move up and down simultaneously so that the Y shape branch of the driving lever under the drive of bar and in the circular arc of limitation lower edge one of the rotating shaft
Frame is separated or clamping successively with each fixture block on the rotating disk, is rotated so as to stir the rotating disk.
The preferred embodiment above of the present invention has the advantages that:The ceramic insertion core discharge device that the present invention is provided can
Effectively and quickly the ceramic insertion core of different directions is separated, and the ceramic insertion core of separation is discharged from different drainage conduits respectively,
So that the ceramic insertion core in each drainage conduit is all towards arranging according to identical, the ordered arrangement of ceramic insertion core is realized;Pass through
Reversing mechanism so that the direction of the ceramic insertion core of two drainage conduits discharge is identical, further increases operating efficiency;The present invention is provided
Ceramic insertion core discharge device in screening, due to the setting of tumbler so that ceramic insertion core is not easy stuck state occur;
The structure that ceramic insertion core discharge device is related to all is lower-cost mechanical mechanism, therefore holistic cost is low.
Brief description of the drawings
Fig. 1 is the use state figure of a preferred embodiment of the ceramic insertion core discharge device according to the present invention.
Fig. 2 is the schematic perspective view of a preferred embodiment of the ceramic insertion core discharge device according to the present invention.
Fig. 3 is the schematic diagram of the screening module of a preferred embodiment of the ceramic insertion core discharge device according to the present invention.
Fig. 4 is the schematic diagram for swinging to module of a preferred embodiment of the ceramic insertion core discharge device according to the present invention.
Fig. 5 is the explosive view for swinging to module of a preferred embodiment of the ceramic insertion core discharge device according to the present invention.
Change schematic diagram when Fig. 6 A-D show the big end of ceramic insertion core down.
Fig. 7 A-C show change schematic diagram when ceramic insertion core small end is downward.
Embodiment
Describe to be used to disclose the present invention below so that those skilled in the art can realize the present invention.It is excellent in describing below
Embodiment is selected to be only used as citing, it may occur to persons skilled in the art that other obvious modifications.
Fig. 1 shows a kind of real use state of ceramic insertion core discharge device 1 of the present invention.The material of discharge device 1 and one
Bucket 2 is connected, and hopper 2 is suitable to disorderly being sequentially sent to ceramic insertion core into discharge device 1.Hopper 2 has a conveying track, the fortune
The width of defeated track is matched with the width of ceramic insertion core, so that ceramic insertion core is sequentially sent to discharge device 1 one by one.Material
The transport of 2 pairs of ceramic insertion cores of bucket is prior art, and the present invention is no longer described in detail.
As shown in Fig. 2 discharge device 1 includes feed pipe 11, screening module 12, the first discharge nozzle 14 and the second discharge nozzle
15.The entrance of feed pipe 11 is connected with hopper 2, and the outlet of feed pipe 11 is relative with the top of screening module 12, so that ceramics are inserted
Enter screening module 12 when the outlet of core from feed pipe 11 is fallen.The lower section of screening module 12 is relative with the first discharge nozzle 14, sieve
Modeling block 12 is suitable to make the ceramic insertion core of predetermined direction discharge by and from the first discharge nozzle 14, the ceramics opposite with predetermined direction
Lock pin is moved out of screening module 12.Second discharge nozzle 15 is suitable to the ceramic insertion core that discharge is removed from screening module 12.Pass through screening
Module 12 will be separated towards opposite ceramic insertion core.
In the above-described embodiments, although the direction of the first discharge nozzle 14 and the ceramic insertion core in the second discharge nozzle 15 on the contrary,
But the follow-up direction for only needing to once sexually revise ceramic insertion core in the first discharge nozzle 14 or the second discharge nozzle 15, you can so that institute
There is the direction of ceramic insertion core identical.Therefore compared with artificial sequence, the embodiment still drastically increases operating efficiency.
In a further advantageous embodiment, discharge device 1 also includes swinging to module 13, and swinging to module 13 is used to invert ceramics
The direction of lock pin.The side that module 13 is located at screening module 12 is swung to, so that ceramic insertion core enters after being moved out of screening module 12
Module 13 is swung to, swings to that the discharge nozzle 15 of module 13 and second is relative, by swinging to ceramic insertion core that module 13 swings to according to predetermined
Towards being discharged from the second discharge nozzle 15, so that the direction of the first discharge nozzle 14 and the ceramic insertion core of the second discharge nozzle 15 discharge
It is identical.
Preferably, discharge device 1 also includes a mounting shell 100.Screening module 12 is installed on mounting shell 100;Feed pipe 11
Located at mounting shell 100, and the top in screening module 12, fallen into the ceramic insertion core for causing the outlet from feed pipe 11 to fall
Screening module 12;Swing to module 13 and be installed on mounting shell 100, and the side in screening module 12, to cause from screening module
12 ceramic insertion cores removed, which enter, swings to module 13;First discharge nozzle 14 is located at mounting shell 100, and under screening module 12
Side, to cause the ceramic insertion core by screening module 12 to be discharged from the first discharge nozzle 14;Second discharge nozzle 15 is located at mounting shell
100, and it is relative with swinging to module 13, to cause the ceramic insertion core swung to by swinging to module 13 to be discharged from the second discharge nozzle 15.
In a preferred embodiment of the invention, screening module 12 is suitable to pass through small end ceramic insertion core directed downwardly, will
Ceramic insertion core directed downwardly is held to remove screening module 12 greatly.It is noted that the small end of ceramic insertion core refers to carry out at chamfering
One end of reason, the external diameter of the small end of ceramic insertion core is significantly less than the external diameter held greatly.As shown in figure 3, screening module 12 includes a gear
Block 121, a stopper spring 122, a tumbler 123, a rotation spring 124 and one release baffle plate 125.
The outlet of feed pipe 11 is relative with the entrance of the first discharge nozzle 14, and more than one ceramics of distance between the two are slotting
The length of core.Block 121 can be located at the side of the discharge nozzle 14 of feed pipe 11 and first up or down by stopper spring 122,
A gear platform is extended in the lower section of one lateral feed pipe 11 of block 121, the gear edge of table to the center line of feed pipe 11 away from
From the external diameter less than the big end of ceramic insertion core, the external diameter more than ceramic insertion core small end, so that when ceramic insertion core is fallen from feed pipe 11
And when being offseted with block 121, ceramic insertion core promotes block 121 to move downwardly together, when block 121 is moved down, block bullet
Spring 122 is deformed upon.It is noted that the position of the gear platform due to block 121 so that there was only the outside ability of ceramic insertion core
Contacted with the gear platform of block 121, and the less small end of ceramic insertion core external diameter, it is impossible to touch the gear platform of block 121.In order to ensure
When the outlet of each ceramic insertion core from feed pipe 11 is fallen, the center line of ceramic insertion core is overlapped with the center line of feed pipe 11, charging
The internal diameter of pipe 11 is less times greater than ceramic insertion core external diameter, to ensure that ceramic insertion core, when falling, is not moved left and right.Pass through the above
Structure so that when the ceramic insertion core of different directions falls, the distance that ceramic insertion core promotes block 121 to move down is different, namely
When the big end of ceramic insertion core falls down, block 121 move distance than ceramic insertion core small end down when distance because work as
The small end of ceramic insertion core down when, one section of ceramic insertion core front end is not reached with block 121, it is impossible to promote block 121 downward
It is mobile.
Preferably, mounting shell 100 includes a set of axle 101, covers the center line of axle 101 and the centerline parallel of feed pipe 11,
Block 121 is movable to located at set axle 101, so that block 121 can be moved up and down along the center line of set axle 101.Stopper spring
122 are sheathed on axle 101, and the lower end of stopper spring 122 is fixed, upper end and block 121 offset, thus when block 121 along
When set axle 101 is moved down, stopper spring 122 is extruded generation elastic deformation.When block 121 is not by external force, stopper spring
122 cause block 121 to be between the discharge nozzle 14 of feed pipe 11 and first.
Tumbler 123 is rotatably arranged in the opposite side of block 121, and the upper end of tumbler 123 is extended on block 121
Side, the upper end of the tumbler 123 forms an arc surface 1231, and the radian of arc surface 1231 is matched with the radian of ceramic insertion core,
So that ceramic insertion core is moved down when being fallen from feed pipe 11 along the arc surface 1231 of the tumbler 123.Rotation spring 124
Tumbler 123 is acted on, suitable for making the arc surface 1231 of tumbler 123 laterally be moved to ceramic insertion core.Tumbler 123 is obliquely
The opposite side of block 121 is butted on, so that when block 121 is moved down, tumbler 123 rotates, the circular arc of tumbler 123
Laterally moved to the direction of ceramic insertion core in face 1231.Pass through above structure so that ceramic insertion core promotes what block 121 was moved down
Meanwhile, the arc surface 1231 of tumbler 123 promotes ceramic insertion core transverse shifting, and this is to ensure that ceramic insertion core is moved to first
During the entrance of discharge nozzle 14, ceramic insertion core is separated with block 121, it is to avoid stuck situation occur.
Preferably, tumbler 123 is into obtuse angle shape, and the arc surface 1231 of tumbler 123 is in the traversing section of tumbler 123
Block 121 is butted in the middle part of one end, the tilting section of tumbler 123, the lower end of the tilting section of tumbler 123 is articulated with mounting shell
100.Mounting shell 100 is fixed in one end of rotation spring 124, and the other end is connected with the tilting section of tumbler 123, so as to keep turning
Moving part 123 is rotated to the direction of ceramic insertion core, namely keeps the arc surface 1231 of tumbler 123 laterally to be moved to ceramic insertion core.
Release baffle plate 125 is an arc-shaped baffle, and the radian for releasing baffle plate 125 is matched with the radian of ceramic insertion core, is released
Baffle plate 125 is located at the inner side of the arc surface 1231 of tumbler 123, when ceramic insertion core is fallen, and releases baffle plate 125 and ceramic insertion core
Directly contact.
The arc surface 1231 of tumbler 123 has one first limit track 1232, and the upper surface of block 121 has one second
Limit track 1211, the rear side for releasing baffle plate 125 extends a connection piece 1251, and connector 1251 passes through the first limit track
1232 are movably disposed in the second limit track 1211, are pushed away so as to be driven when block 121 is moved down by connector 1251
Go out baffle plate 125 to move down, while connector 1251 is moved in the first limit track 1232 with the second limit track 1211, and
Release baffle plate 125 is driven to move.First limit track 1232 and the second limit track 1211 have an extreme position, work as connector
1251 are moved to before extreme position, and connector 1251 drives 1231 turns of arc surface for releasing baffle plate 125 along tumbler 123
It is dynamic;After connector 1251 is moved to the extreme position of the first limit track 1232 and the second limit track 1211, connector
1251 motion track changes, and connector 1251, which drives, releases arc surface 1231 horizontal stroke of the baffle plate 125 relative to tumbler 123
To moving inward, so that ceramic insertion core is pushed away between the discharge nozzle 14 of feed pipe 11 and first, also ceramic insertion core is released
Screening module 12.That is, before connector 1251 turns to extreme position, release baffle plate 125 and do not occur transverse shifting,
Ceramic insertion core smoothly falls;After connector 1251 turns to extreme position, release baffle plate 125 and occur transverse shifting, by ceramics
Lock pin is laterally released.It is noted that when connector 1251 is moved to extreme position, connector 1251 is in arc surface
One section of 1231 outsides is vertical with the first limit track 1232, so as to ensure that connector 1251 may pass through the first limit track
1232 transverse shiftings.
When falling with reference to the ceramic insertion cores of different directions, ceramic insertion core promotes the distance that moves down of block 121 different, leads to
Crossing the first limit track 1232 of adjustment can cause with the second limit track 1211:The small end of ceramic insertion core down when, block 121
Mobile distance can not make connector 1251 be moved to extreme position, so that ceramic insertion core is not pushed out, but smoothly fall into
One discharge nozzle 14;The big end of ceramic insertion core down when, block 121 move distance can make connector 1251 turn to the limit position
Put, so that ceramic insertion core is released into screening module 12.
Furthermore it is preferred that feed pipe 11 is the plastic tube with certain deformability, this is allowed for:From feed pipe 11
Under fall on the ceramic insertion core of half under the promotion of tumbler 123, it may occur that slight transverse shifting, and if now feed pipe
11 be rigidity, it is possible that the state that ceramic insertion core is stuck, it is therefore preferred that feed pipe 11 has certain flexibility.But
It is that the flexibility of feed pipe 11 is difficult excessive, is otherwise difficult to ensure that each ceramic insertion core falls when falling along straight line.
As described in Fig. 4,5, swinging to module 13 includes rotating disk 131, motor 132, lock pin support 133.Lock pin support 133 is located at
The side of screening module 12, suitable for temporarily supporting the ceramic insertion core released from screening module 12.Rotating disk 131 includes multiple lock pins
Fixed pin 1311, rotating disk 131 is rotatably arranged in the side of lock pin support 133, so that when rotating disk 131 is rotated, lock pin is fixed
Pin 1311 passes periodically through lock pin support 133, and when having ceramic insertion core on lock pin support 133, lock pin fixed pin 1311 is just
In the lock pin hole for inserting ceramic insertion core, so that rotating disk 131 drives ceramic insertion core to rotate, rotating disk 131 turns over half with ceramic insertion core
Zhou Hou, the direction of ceramic insertion core changes, and ceramic insertion core is fallen from lock pin fixed pin 1311 under gravity.Second goes out
Expects pipe 15 is located at the opposite side of rotating disk 131 so that the ceramic insertion core fallen from rotating disk 131 just falls into the second discharge nozzle 15.
Motor 132 is connected with rotating disk 131, is rotated for driving rotating disk 131.
Preferably, swinging to module 13 also includes transmission bracket 134, and the effect of transmission bracket 134 is the dynamic of motor 132
Power is transmitted to rotating disk 131 with certain frequency and speed, to ensure time of two lock pin fixed pins 1311 by lock pin support 133
The time interval that interval is successively moved out of with two neighboring ceramic insertion core.Transmission bracket 134 includes a rocking bar 1341 and one group
Bar 1342.Rotating disk 131 is rotatably arranged in mounting shell 100 by a rotating shaft 1312.Rotating disk 131 also includes multiple fixture blocks 1313,
Each fixture block 1313 is corresponding with a lock pin fixed pin 1311.
One end of rocking bar 1341 is connected with the output shaft of motor 132, and the middle part of the other end and driving lever 1342 is hinged.Driving lever
The fixture block 1313 that 1342 front end is formed on Y shaped bracket, rotating disk 131 is suitable to the Y shaped bracket for being caught in driving lever 1342.Driving lever 1342
Rear end has a slide rail, and rotating shaft 1312 is installed on mounting shell 100 through the slide rail of driving lever 1342, so that driving lever 1342 can be along turning
Axle 1312 is moved up and down, or 1312 is rotated around the shaft.When being moved in a circle under drive of the rocking bar 1341 in motor 132, driving lever
1342 under the drive of rocking bar 1341 and under the limitation of rotating shaft 1312, is moved up and down while rotation along a circular arc, so as to dial
Bar 1342 is separated or clamping with the fixture block 1313 on rotating disk 131.When driving lever 1342 and 1313 clamping of fixture block, driving lever 1342 drives
Rotating disk 131 is rotated, and rotating disk 131 is turned over after certain angle, and driving lever 1342 is separated with fixture block 1313, then driving lever 1342 with it is next
The clamping of fixture block 1313, continues to drive rotating disk 131 to rotate.
Fig. 6 A-D show state when the big end of ceramic insertion core falls down.First, ceramic insertion core 3 is fallen from feed pipe 11
Afterwards, the big end of ceramic insertion core 3 is butted on block 121, as shown in Figure 6A;Ceramic insertion core 3 is moved down under gravity, promotes gear
Block 121 is moved down, while tumbler 123 rotates, the arc surface 1231 of tumbler 123 promotes ceramic insertion core in whereabouts
Transverse shifting occurs simultaneously, as shown in Fig. 6 B, C;After connector 1251 turns to extreme position, release baffle plate 125 and laterally move
It is dynamic, ceramic insertion core is laterally released, now block 121 is moved up in the presence of stopper spring 122, tumbler 123 also with
Rotation, as shown in Figure 6 D.After ceramic insertion core is laterally released, just fall on lock pin support 133, now on rotating disk 131
Lock pin fixed pin 1311 just turns to the lower section of ceramic insertion core, so that rotating disk 131 takes away ceramic insertion core.
Fig. 7 A-C show state when ceramic insertion core small end falls down.First, the feed pipe 11 of ceramic insertion core 3 is fallen
Afterwards, the front end of ceramic insertion core 3 is not contacted with block 121, but is butted on block 121 on rear side of the front end of ceramic insertion core 3, such as Fig. 7 A institutes
Show;Ceramic insertion core 3 is moved down under gravity, promotes block 121 to move down, while tumbler 123 rotates, is turned
The arc surface 1231 of moving part 123 promotes ceramic insertion core to occur transverse shifting while falling, as shown in Figure 7 B;Work as ceramic insertion core
3 when being moved to the porch of the first discharge nozzle 14, and connector 1251 is also not moved to extreme position, and now ceramic insertion core 3 is laterally
Mobile distance is also just separated with block 121, and ceramic insertion core smoothly enters the first discharge nozzle 14, as seen in figure 7 c, and ceramics are inserted
After core is separated with block 121, block 121 is moved upwards up to home position in the effect of stopper spring 122, while tumbler 123
Arc surface 1231 move laterally to home position.
General principle, principal character and the advantages of the present invention of the present invention has been shown and described above.The technology of the industry
Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and that described in above-described embodiment and specification is the present invention
Principle, various changes and modifications of the present invention are possible without departing from the spirit and scope of the present invention, these change and
Improvement is both fallen within the range of claimed invention.The protection domain of application claims by appended claims and its
Equivalent is defined.
Claims (7)
1. a kind of ceramic insertion core discharge device, including:Feed pipe, the first discharge nozzle, screening module and the second discharge nozzle, ceramics
Lock pin sends into the discharge device from the feed pipe, and first discharge nozzle is below the feed pipe, and described first goes out
The entrance of expects pipe is relative with the outlet of the feed pipe, the screening module located at the feed pipe and first discharge nozzle it
Between, it is characterised in that the screening module is described suitable for passing through the small end ceramic insertion core directed downwardly fallen from the feed pipe
Screening module falls into first discharge nozzle, and the end greatly fallen from the feed pipe ceramic insertion core directed downwardly is removed into the screening
Module, the screening module includes a block and a release baffle plate, and the block can be located at the feed pipe up or down
With the side of first discharge nozzle, extend a gear platform, the gear platform below a lateral feed pipe of the block
Edge to the feed pipe center line distance be less than the big end of the ceramic insertion core external diameter, more than the ceramic insertion core small end
External diameter, the release baffle plate is above the block, and the release baffle plate is worked in coordination with the block, described in causing
When block is moved down into an extreme position, the release baffle plate is laterally moved to the direction of ceramic insertion core, when small end is directed downwardly
When center line of the ceramic insertion core along the feed pipe is fallen, the distance of the block movement can not reach the extreme position,
Now small end ceramic insertion core directed downwardly falls into first discharge nozzle, when holding ceramic insertion core directed downwardly greatly along the feed pipe
When center line is fallen, the block is promoted to be moved to extreme position, now the release baffle plate will hold ceramic insertion core directed downwardly greatly
Release the screening module;Second discharge nozzle is used to discharge the ceramic insertion core released from the screening module.
2. discharge device according to claim 1, it is characterised in that the screening module also includes a stopper spring, institute
State stopper spring and act on the block, suitable for when the block is not by external force, making the block be moved upwards up to initial bit
Put.
3. discharge device according to claim 2, it is characterised in that the screening module also includes a tumbler and one
Rotation spring, the tumbler is rotatably arranged in the opposite side of the block, and the upper end of the tumbler extends to the gear
Above block, the upper end of the tumbler forms an arc surface, and the rotation spring acts on the tumbler, suitable for making described turn
The arc surface of moving part is laterally moved to the direction of the ceramic insertion core, and the middle part of the tumbler, which is tilted, is butted on the block, makes
Block when moving down, the arc surface of the tumbler is laterally moved to the direction of the ceramic insertion core, described to release
Baffle plate is located at the inner side of the arc surface of the tumbler.
4. discharge device according to claim 3, it is characterised in that the arc surface of the tumbler is spacing with one first
Track, the upper surface of the block has extends a connection piece on rear side of one second limit track, the release baffle plate, described
Connector is movably disposed in second limit track, first limit track and described second through the first limit track
Limit track has an extreme position, when the connector is moved to first limit track and second limit track
During extreme position, the block is moved to its extreme position, when the connector is moved to first limit track and described
Before the extreme position of second limit track, the connector drives the arc surface for releasing baffle plate along the tumbler to turn
It is dynamic, after the connector is moved to the extreme position of first limit track and second limit track, the connection
Part drives the release baffle plate relative to the arc surface laterally inwardly side movement of the tumbler, so that the ceramic insertion core be pushed away
Go out the screening module.
5. according to any described discharge devices of claim 1-4, it is characterised in that the discharge device also includes swinging to mould
Block, the module of swinging to includes rotating disk, motor, lock pin support, and the lock pin branch is set up in the side of the screening module, is suitable to
The ceramic insertion core released from the screening module is supported, the rotating disk is rotatably arranged in the side of the lock pin support, described
Motor is used to drive the rotating disk to rotate, and the rotating disk includes multiple lock pin fixed pins, when the rotating disk is rotated, the lock pin
Fixed pin passes periodically through the lock pin support, and when having ceramic insertion core on the lock pin support, the lock pin fixed pin can
Insert in the lock pin hole of the ceramic insertion core, so that ceramic insertion core described in the driven by rotary disc is rotated, second discharge nozzle is set
In the opposite side of the rotating disk so that the ceramic insertion core fallen from the rotating disk falls into second discharge nozzle.
6. discharge device according to claim 5, it is characterised in that the feed pipe is the modeling with certain deformability
Expects pipe.
7. discharge device according to claim 5, it is characterised in that the module of swinging to also includes transmission bracket, described
Transmission bracket includes a rocking bar and a driving lever, and the rotating disk includes a rotating shaft and multiple fixture blocks, each fixture block and each institute
Lock pin fixed pin correspondence is stated, described rocking bar one end is connected with the output shaft of the motor, the middle part of the other end and the driving lever is cut with scissors
Connect, the fixture block that the front end of the driving lever is formed on Y shaped bracket, the rotating disk is suitable to the Y shaped bracket for being caught in the driving lever, institute
Stating the rear end of driving lever has a slide rail, and the rotating shaft passes through the slide rail of the driving lever, when the rocking bar is in the drive of the motor
Under when moving in a circle, the driving lever is rotated under the drive of the rocking bar and in the circular arc of limitation lower edge one of the rotating shaft,
Move up and down simultaneously so that the Y shaped bracket of the driving lever is separated or clamping successively with each fixture block on the rotating disk, so that
The rotating disk is stirred to rotate.
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CN108689148B (en) * | 2018-05-29 | 2023-11-17 | 重庆顺翔力通智能装备有限公司 | Propelling structure and feeding device |
CN115351697B (en) * | 2022-09-20 | 2023-12-01 | 鹤壁市威讯光电有限公司 | Optical fiber connector lock pin grinds loading attachment |
CN115417105A (en) * | 2022-09-27 | 2022-12-02 | 江苏理工学院 | Heat pipe autosegregation conveyer |
CN117566403B (en) * | 2023-10-08 | 2024-06-11 | 滁州爱沃富光电科技有限公司 | Automatic row of multi-functional core tube towards equipment |
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