It is a kind of for producing the clean bottle piece conveying device of regenerated fiber
Technical field
The utility model relates to a kind of for producing the clean bottle piece conveying device of regenerated fiber, belong to environment-protection fiber technology
Field.
Background technique
Clean bottle piece conveying device be chiefly used in it is dry after in clean bottle piece conveying, cleaning bottle piece conveying dress in the prior art
It sets when controlling blanking amount, needs to adjust material control device, it cannot be preferably by blanking pipeline during material control device is adjusted
Sealing, dry clean bottle piece can usually block plate sliding slot, and blanking amount is caused to be difficult to control, and fall behind under clean bottle piece, lead to
It crosses blower to be blown away, it is difficult to form pulse stormy waves, wind-force is small, will lead to the clean bottle piece fallen in pipeline and is difficult to blow off, clean
White vase piece lacks monitoring device when flowing back, and the clean bottle piece of reflux will will affect the normal operation of unit.
In view of this, disclosing a kind of bottle of piece conveying device in the patent document application No. is 2014207051599, wrap
The tank therefor of conveyer belt and bottomless uncovered is included, there is cavity in the tank therefor, the top of cavity is feed inlet, and lower part is discharging
Mouthful, the lower section of discharge port is arranged in the conveyer belt;It is characterized in that:It further include the support device for being used to support bottle piece, it is described
Support device is arranged in tank therefor, and several deflector holes are formed between the support device and tank therefor.Above-mentioned documents exist
The disadvantages of poor sealing effect, wind-force is small.
Utility model content
The purpose of the utility model is to overcome the above deficiencies in the existing technologies, and provide a kind of structure design conjunction
The clean bottle piece conveying device for being used to produce regenerated fiber of reason.
The technical scheme in the invention for solving the above technical problem is:This is used to produce the clean bottle piece of regenerated fiber
Conveying device, including conveying device ontology, material controlling mechanism, sealing mechanism, feeding unit, wind direction regulating mechanism and wind guiding mechanism,
The material controlling mechanism, sealing mechanism, feeding unit, wind direction regulating mechanism and wind guiding mechanism are installed on conveying device ontology,
The material controlling mechanism and sealing mechanism cooperate, and the wind direction regulating mechanism and wind guiding mechanism cooperate, and design feature is:It is described
Conveying device ontology includes blanking pipeline, feeding pipe, blanking pipe, charging line, blows pipe material and blow material wind-guiding block, described
Material controlling mechanism includes material controlling plate, material controlling plate guide surface, material controlling screw rod, material controlling bracket and material controlling handwheel, the sealing mechanism
It is led including left sealing block, right sealing block, left sealing sliding block, right sealing sliding block, left Packing spring, right Packing spring, left sealing block
It include conveying to face, right sealing block guide surface, sealing plate, sealing plate guide surface and sealing plate reset spring, the feeding unit
Spiral, the wind direction regulating mechanism include that wind direction adjustment axis, wind direction adjusting plate and wind direction adjust motor, and the wind guiding mechanism includes
Active wind-guiding axis, driven wind-guiding axis, active wind deflector, driven wind deflector, active synchronization belt wheel, driven synchronous pulley, synchronous skin
Band, wind guide motor and feed back monitoring sensor;It is provided with left material controlling plate sliding slot in the blanking pipeline and right material controlling plate is sliding
The left wall face of blanking pipeline is arranged in slot, the left material controlling plate sliding slot, and the right material controlling plate sliding slot is arranged in blanking pipeline
Right wall, the top surface of the left material controlling plate sliding slot is provided with left sealing block installation cavity, the top of the right material controlling plate sliding slot
Face is provided with right sealing block installation cavity, and the wall surface of the left sealing block installation cavity is provided with left sealing sliding slot, the right sealing block
The wall surface of installation cavity is provided with right sealing sliding slot, and material controlling plate mounting hole is provided on the blanking pipeline, and the left material controlling is inserted
Plate sliding slot and right material controlling plate sliding slot are connected to material controlling plate mounting hole, and the top surface of the material controlling plate mounting hole is provided with close
Sealing plate installation cavity, the blanking pipeline are connected to feeding pipe, and the feeding pipe is connected to blanking pipe, and blanking pipe is pacified
Mounted in the end of feeding pipe, the blanking pipe is connected to charging line, and the charging line is connected to pipe material is blown, described
It blows material wind-guiding block and is mounted on and blow in pipe material, reduction blows pipe material to the resistance of wind, increases the utilization rate of wind, the material controlling bracket
It is mounted on outside blanking pipeline, the material controlling hand wheel rotating is mounted on material controlling bracket, and the material controlling plate is pacified across material controlling plate
Dress hole is inserted on blanking pipeline, and the left side of the material controlling plate is located in left material controlling plate sliding slot, the right side of the material controlling plate
Side is located in right material controlling plate sliding slot, and the side of material controlling plate is arranged in the material controlling plate guide surface, and material controlling plate is oriented to
Face is located in blanking pipeline, and the material controlling screw rod is mounted on the other side of material controlling plate, and material controlling screw rod passes through material controlling bracket, institute
Material controlling handwheel sleeve is stated on material controlling screw rod, the left sealing sliding block is mounted on the wall surface of left sealing block, the left Packing spring
One end connect with left sealing block, the other end of the left Packing spring is connect with left sealing block installation cavity, the left sealing block
The bottom of left sealing block is arranged in guide surface, and the left sealing block is mounted in left sealing block installation cavity, the left sealing sliding block
In left sealing sliding slot, the right sealing sliding block is mounted on the wall surface of right sealing block, one end and the right side of the right Packing spring
Sealing block connection, the other end of the right Packing spring are connect with right sealing block installation cavity, the right sealing block guide surface setting
In the bottom of right sealing block, the right sealing block is mounted in right sealing block installation cavity, and the right sealing sliding block is embedded in right sealing
In sliding slot, the sealing plate is mounted in sealing plate installation cavity, and the bottom of sealing plate is arranged in the sealing plate guide surface, described
Sealing plate is connect by sealing plate reset spring with sealing plate installation cavity, the left sealing block guide surface, right sealing block guide surface
With sealing plate guide surface with material controlling plate guide face contacts, the conveying spiral is mounted in feeding pipe, the conveying spiral shell
Rotation includes conveying section and blanking section, and the conveying section is connect with blanking section, and tapered, the blanking section is arranged in the blanking section
It in the top of blanking pipe, is fallen convenient for clean bottle piece, the wind direction adjusting plate is mounted in wind direction adjustment axis, the wind direction tune
Nodal axisn adjusts motor with wind direction and connect, and the active wind deflector and active synchronization belt wheel are installed on active wind-guiding axis, described
Driven wind deflector and driven synchronous pulley are installed on driven wind-guiding axis, and the active wind-guiding axis and driven wind-guiding axis rotate
It is mounted on and blows on pipe material, the active wind deflector and driven wind deflector are respectively positioned on and blow in pipe material, the active synchronization belt wheel
It is connect with driven synchronous pulley by synchronous belt, the active wind-guiding axis is connect with wind guide motor, the feed back monitoring sensing
Device, which is mounted on, to be blown on pipe material, and feed back monitoring sensor is located at the side for blowing the air outlet of pipe material, and the feed back monitoring passes
Sensor is connect with wind guide motor, and the active wind deflector and driven wind deflector cooperate with wind direction regulating mechanism, when active wind-guiding
When plate is flushed with driven wind deflector, the feed back baffle of active wind deflector and driven wind deflector composition closure;When active wind deflector with
Exist between driven wind deflector apart from when, active wind deflector and driven wind deflector form air-guiding aisle.It is fallen when material controlling plate is located at
When in pipe material, left sealing block guide surface and right sealing block guide surface with material controlling plate guide face contacts, to left material controlling plate
Sliding slot and right material controlling plate sliding slot realize sealing, avoid dry clean bottle piece that left material controlling plate sliding slot and right material controlling plate is sliding
Slot blocking, causes material controlling plate that can not move;When material controlling plate fully opens, sealing plate guide surface connects with material controlling plate guide surface
Touching avoids clean bottle piece dry in blanking pipeline from overflowing, it is ensured that the airtightness of blanking pipeline.
Further, the feeding unit further includes conveying motor, conveying driving pulley, conveying driven pulley and conveying skin
Band, the conveying driving pulley are mounted on conveying motor, and the conveying driven pulley is mounted in conveying section, the conveying master
Movable belt pulley is connected with conveying driven pulley by conveyor belt.The bottle piece of dried and clean is transported to conveying pipeline by conveying spiral
The end in road avoids the bottle piece of dried and clean from flowing back.
Further, it is provided with internal screw thread on the material controlling handwheel, external screw thread, the control are provided on the material controlling screw rod
Material handwheel is connected through a screw thread with material controlling screw rod.The size that blanking amount is adjusted by rotation material controlling handwheel is more convenient accurate
Control.
Further, the left sealing sliding block and right sealing sliding block are T-type sliding block, the left sealing sliding slot and right sealing
Sliding slot is T-type sliding slot, and the left sealing sliding block, right sealing sliding block, left sealing sliding slot and the right quantity for sealing sliding slot are more
A, the left sealing sliding block and left sealing sliding slot correspond, and the right sealing sliding block and right sealing sliding slot correspond.It limits
The direction of left sealing block and the sliding of right sealing block.
Further, the left Packing spring, right Packing spring and sealing plate reset spring are compressed spring.Realization pair
The reset of left sealing block, right sealing block and sealing plate avoids dry clean bottle piece from overflowing.
Further, the shape for blowing pipe material is cuboid, and the quantity of the wind direction adjusting plate is six, described six
A wind direction adjusting plate is installed circumferentially in wind direction adjustment axis each along wind direction adjustment axis, the folder between every two wind direction adjusting plate
Angle is 60 °, and the width of the wind direction adjusting plate is identical as the height of blowing pipe material, is respectively provided on six wind direction adjusting plates
There is fillet, reduce wind direction adjusting plate and blows the friction between pipe material.
Further, the air inlet for blowing pipe material, which is connected with, blows material blower.Power source is provided for conveying device.
Further, the active wind deflector and driven wind deflector composition air-guiding aisle when, the active wind deflector with from
Dynamic wind deflector is parallel, and the air-guiding aisle includes positive air-guiding aisle and reversed air-guiding aisle.
Compared with prior art, the utility model has the following advantages that:
1, the conveying device has the sealing performance increased, and when material controlling plate is located in blanking pipeline, left sealing block is led
It is real to left material controlling plate sliding slot and right material controlling plate sliding slot to face and right sealing block guide surface with material controlling plate guide face contacts
Now seal, dry clean bottle piece avoided to block left material controlling plate sliding slot and right material controlling plate sliding slot, cause material controlling plate without
Method is mobile;When material controlling plate fully opens, sealing plate guide surface and material controlling plate guide face contacts are avoided dry in blanking pipeline
Clean bottle piece overflow, it is ensured that the airtightness of blanking pipeline.
2, on the one hand the conveying device provides power source by blowing material blower for it, on the other hand adjusts machine by wind direction
Structure is that it provides power source, expects the distinguished and admirable through positive air-guiding aisle, after contacting with wind direction adjusting plate, wind direction of blower blowout when blowing
Adjustable plate rotates forward, and direct impulse formula stormy waves is formed during wind direction adjusting plate rotates forward;Or it is blown out when blowing material blower
It is distinguished and admirable through reversed air-guiding aisle, after contacting with wind direction adjusting plate, wind direction adjusting plate is rotated backward, and is reversely turned in wind direction adjusting plate
Reverse impulse formula stormy waves is formed during dynamic;Wind-force can be increased and blown to the clean bottle piece dried in charging line is cleaner
Subsequent processing.
3, when feed back monitoring sensor detect dry clean bottle piece flow back into blow in pipe material when, feed back monitoring pass
Sensor feeds back signal to wind guide motor, and active wind deflector and driven wind deflector is made to form feed back baffle, blows material blower at this time and stops
It only works, dry clean bottle piece reflux is avoided, when the own rotation for passing through wind direction regulating mechanism, by the cleaning of the drying of reflux
Bottle piece is further continued for work after blowing clean.
4, by the conveying device, waste and old plastic bottle can be recycled, carries out spinning, re-used, avoid waste and old
Plastic bottle pollutes environment, while also reducing production cost.
Detailed description of the invention
Fig. 1 is the schematic perspective view of the conveying device of the utility model embodiment.
Fig. 2 is the left view structural representation of the conveying device of the utility model embodiment.
Fig. 3 is IV-IV the schematic diagram of the section structure in Fig. 2.
Fig. 4 is V-V the schematic diagram of the section structure in Fig. 2.
Fig. 5 is the left view fault structure schematic diagram of the conveying device ontology of the utility model embodiment.
Fig. 6 is VI-VI the schematic diagram of the section structure in Fig. 5.
Fig. 7 is the portion VIII enlarged structure schematic diagram in Fig. 6.
Fig. 8 is VII-VII section structure schematic diagram in Fig. 6.
Fig. 9 is the portion IX enlarged structure schematic diagram in Fig. 8.
Figure 10 is the schematic perspective view of the sealing mechanism of the utility model embodiment.
Figure 11 is the schematic perspective view of the sealing mechanism of the utility model embodiment.
Figure 12 is the schematic perspective view of the sealing mechanism of the utility model embodiment.
Figure 13 is the schematic perspective view of the material controlling mechanism of the utility model embodiment.
Figure 14 is that the active wind deflector of the utility model embodiment and driven wind deflector form feed back baffle arrangement schematic diagram.
Figure 15 is that the active wind deflector of the utility model embodiment and driven wind deflector form positive air-guiding aisle structure and show
It is intended to.
Figure 16 is that the active wind deflector of the utility model embodiment and driven wind deflector form reversed air-guiding aisle structure and show
It is intended to.
In figure:Conveying device ontology B1, material controlling mechanism B2, sealing mechanism B3, feeding unit B4, wind direction regulating mechanism B5,
Wind guiding mechanism B6, blanking pipeline B11, feeding pipe B12, blanking pipe B13, charging line B14, pipe material B15 blown, blow material and leads
Pomphus B16, material controlling plate B21, material controlling plate guide surface B22, material controlling screw rod B23, material controlling bracket B24, material controlling handwheel B25, a left side
Sealing block B31, right sealing block B32, left sealing slide block B 33, right sealing slide block B 34, left Packing spring B35, right Packing spring
B36, left sealing block guide surface B37, right sealing block guide surface B38, sealing plate B39, sealing plate guide surface B391, sealing sheet reset
Spring B 392, conveying spiral B41, conveying motor B42, conveying driving pulley B43, conveying driven pulley B44, conveyor belt B45,
Wind direction adjustment axis B51, wind direction adjusting plate B52, wind direction adjust motor B53, active wind-guiding axis B61, driven wind-guiding axis B62, active
Wind deflector B63, driven wind deflector B64, active synchronization belt wheel B65, driven synchronous pulley B66, synchronous belt B67, wind guide motor
B68, feed back monitoring sensor B69, left material controlling plate sliding slot B111, right material controlling plate sliding slot B112, left sealing block installation cavity
B113, right sealing block installation cavity B114, left sealing sliding slot B115, right sealing sliding slot B116, material controlling plate mounting hole B117, sealing
Plate installation cavity B118.
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawing and by embodiment, and following embodiment is pair
The explanation of the utility model and the utility model is not limited to following embodiment.
Embodiment.
Referring to shown in Fig. 1 to Figure 16, it should however be clear that this specification structure depicted in this specification institute accompanying drawings, ratio, size etc., only
To cooperate the revealed content of specification, so that those skilled in the art understands and reads, it is not limited to practical
Novel enforceable qualifications, therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or big
Small adjustment should all still be fallen in practical in the case where not influencing the effect of the utility model can be generated and the purpose that can reach
In the range of novel revealed technology contents can be covered.Meanwhile if in this specification with reference as "upper", "lower", " left side ",
The term on " right side ", " centre " and " one " etc. is merely convenient to being illustrated for narration, rather than enforceable to limit the utility model
Range, relativeness are altered or modified, under the content of no substantial changes in technology, enforceable when being also considered as the utility model
Scope.
The clean bottle piece conveying device for being used to produce regenerated fiber in the present embodiment, including conveying device ontology B1, control
Expect mechanism B2, sealing mechanism B3, feeding unit B4, wind direction regulating mechanism B5 and wind guiding mechanism B6, material controlling mechanism B2, sealing mechanism
B3, feeding unit B4, wind direction regulating mechanism B5 and wind guiding mechanism B6 are installed on conveying device ontology B1, material controlling mechanism B2 with
Sealing mechanism B3 cooperation, wind direction regulating mechanism B5 and wind guiding mechanism B6 cooperate.
Conveying device ontology B1 in the present embodiment includes blanking pipeline B11, feeding pipe B12, blanking pipe B13, send
Pipe material B14, it blows pipe material B15 and blows material wind-guiding block B16, material controlling mechanism B2 includes material controlling plate B21, material controlling plate guide surface
B22, material controlling screw rod B23, material controlling bracket B24 and material controlling handwheel B25, sealing mechanism B3 include left sealing block B31, right sealing block
B32, left sealing slide block B 33, right sealing slide block B 34, left Packing spring B35, right Packing spring B36, left sealing block guide surface
B37, right sealing block guide surface B38, sealing plate B39, sealing plate guide surface B391 and sealing plate reset spring B392, feeding unit
B4 includes conveying spiral B41, and wind direction regulating mechanism B5 includes that wind direction adjustment axis B51, wind direction adjusting plate B52 and wind direction adjust motor
B53, wind guiding mechanism B6 include active wind-guiding axis B61, driven wind-guiding axis B62, active wind deflector B63, driven wind deflector B64, master
Dynamic synchronous pulley B65, driven synchronous pulley B66, synchronous belt B67, wind guide motor B68 and feed back monitoring sensor B69.
Left material controlling plate sliding slot B111 and right material controlling plate sliding slot are provided in blanking pipeline B11 in the present embodiment
The left wall face of blanking pipeline B11 is arranged in B112, left material controlling plate sliding slot B111, and right material controlling plate sliding slot B112 is arranged in blanking
The right wall of pipeline B11, the top surface of left material controlling plate sliding slot B111 are provided with left sealing block installation cavity B113, and right material controlling plate is sliding
The top surface of slot B112 is provided with right sealing block installation cavity B114, and the wall surface of left sealing block installation cavity B113 is provided with left sealing sliding slot
B115, the wall surface of right sealing block installation cavity B114 are provided with right sealing sliding slot B116, are provided with material controlling plate on blanking pipeline B11
Mounting hole B117, left material controlling plate sliding slot B111 and right material controlling plate sliding slot B112 are connected to material controlling plate mounting hole B117,
The top surface of material controlling plate mounting hole B117 is provided with sealing plate installation cavity B118.
Blanking pipeline B11 in the present embodiment is connected to feeding pipe B12, and feeding pipe B12 and blanking pipe B13 connect
It is logical, and blanking pipe B13 is mounted on the end of feeding pipe B12, blanking pipe B13 is connected to charging line B14, charging line
B14 is connected to pipe material B15 is blown, and is blown material wind-guiding block B16 and is mounted on and blow in pipe material B15, resistance of the pipe material B15 to wind is blown in reduction
Power increases the utilization rate of wind, and material controlling bracket B24 is mounted on outside blanking pipeline B11, and material controlling handwheel B25 is rotatably installed in material controlling branch
On frame B24, material controlling plate B21 passes through material controlling plate mounting hole B117 and is inserted on blanking pipeline B11, a left side of material controlling plate B21
Side is located in left material controlling plate sliding slot B111, and the right side of material controlling plate B21 is located in right material controlling plate sliding slot B112, material controlling plate
The side of material controlling plate B21 is arranged in guide surface B22, and material controlling plate guide surface B22 is located in blanking pipeline B11, material controlling spiral shell
Bar B23 is mounted on the other side of material controlling plate B21, and material controlling screw rod B23 passes through material controlling bracket B24, and material controlling handwheel B25 is sleeved on
On material controlling screw rod B23, left sealing slide block B 33 is mounted on the wall surface of left sealing block B31, and one end and a left side of left Packing spring B35 is close
Block B31 connection is sealed, the other end of left Packing spring B35 is connect with left sealing block installation cavity B113, and left sealing block guide surface B37 is set
It sets in the bottom of left sealing block B31, left sealing block B31 is mounted in left sealing block installation cavity B113, and left sealing slide block B 33 is embedded in
In left sealing sliding slot B115, right sealing slide block B 34 is mounted on the wall surface of right sealing block B32, one end and the right side of right Packing spring B36
Sealing block B32 connection, the other end of right Packing spring B36 are connect with right sealing block installation cavity B114, right sealing block guide surface B38
The bottom of right sealing block B32 is set, and right sealing block B32 is mounted in right sealing block installation cavity B114, and right sealing slide block B 34 is embedding
In right sealing sliding slot B116, sealing plate B39 is mounted in sealing plate installation cavity B118, and sealing plate guide surface B391 is arranged close
The bottom of sealing plate B39, sealing plate B39 are connect by sealing plate reset spring B392 with sealing plate installation cavity B118, left sealing block
Guide surface B37, right sealing block guide surface B38 and sealing plate guide surface B391 are contacted with material controlling plate guide surface B22.
Conveying spiral B41 in the present embodiment is mounted in feeding pipe B12, and conveying spiral B41 includes conveying section under
Expect that section, conveying section are connect with blanking section, the setting of blanking section is tapered, and blanking section is located at the top of blanking pipe B13, convenient for cleaning
Bottle piece is fallen, and wind direction adjusting plate B52 is mounted on wind direction adjustment axis B51, and wind direction adjustment axis B51 and wind direction adjust motor B53 and connect
It connects, active wind deflector B63 and active synchronization belt wheel B65 are installed on active wind-guiding axis B61, driven wind deflector B64 and driven
Synchronous pulley B66 is installed on driven wind-guiding axis B62, and active wind-guiding axis B61 and driven wind-guiding axis B62 are rotatably installed in and blow
On pipe material B15, active wind deflector B63 and driven wind deflector B64 are respectively positioned on and blow in pipe material B15, active synchronization belt wheel B65 with
Driven synchronous pulley B66 is connected by synchronous belt B67, and active wind-guiding axis B61 is connect with wind guide motor B68, and feed back monitoring passes
Sensor B69, which is mounted on, to be blown on pipe material B15, and feed back monitoring sensor B69 is located at the side for blowing the air outlet of pipe material B15,
Feed back monitoring sensor B69 is connect with wind guide motor B68.
Active wind deflector B63 and driven wind deflector B64 in the present embodiment cooperate with wind direction regulating mechanism B5, when actively
When wind deflector B63 is flushed with driven wind deflector B64, the feed back of active wind deflector B63 and driven wind deflector B64 composition closure is kept off
Plate;When exist between active wind deflector B63 and driven wind deflector B64 apart from when, active wind deflector B63 and driven wind deflector B64
Form air-guiding aisle.
Feeding unit B4 in the present embodiment further includes conveying motor B42, conveying driving pulley B43, conveying driven pulley
B44 and conveyor belt B45, conveying driving pulley B43 are mounted on conveying motor B42, and conveying driven pulley B44 is mounted on conveying
Duan Shang, conveying driving pulley B43 and conveying driven pulley B44 are connected by conveyor belt B45;It is provided on material controlling handwheel B25
Internal screw thread is provided with external screw thread on material controlling screw rod B23, and material controlling handwheel B25 is connected through a screw thread with material controlling screw rod B23.
Left sealing slide block B 33 and right sealing slide block B 34 in the present embodiment are T-type sliding block, left sealing sliding slot B115 and
Right sealing sliding slot B116 is T-type sliding slot, left sealing slide block B 33, right sealing slide block B 34, left sealing sliding slot B115 and right sealing
The quantity of sliding slot B116 be it is multiple, left sealing slide block B 33 and left sealing sliding slot B115 is corresponded, right sealing slide block B 34 and
Right sealing sliding slot B116 is corresponded;Left Packing spring B35, right Packing spring B36 and sealing plate reset spring B392 are pressure
Contracting spring.
The shape for blowing pipe material B15 in the present embodiment is cuboid, and the quantity of wind direction adjusting plate B52 is six, six
Wind direction adjusting plate B52 is installed circumferentially on wind direction adjustment axis B51 each along wind direction adjustment axis B51's, every two wind direction adjusting plate
Angle between B52 is 60 °, identical, six wind directions adjustings of the width of wind direction adjusting plate B52 and the height for blowing pipe material B15
It is provided with fillet on plate B52, reduce wind direction adjusting plate B52 and blows the friction between pipe material B15.
The air inlet for blowing pipe material B15 in the present embodiment, which is connected with, blows material blower;Active wind deflector B63 and driven wind-guiding
When plate B64 forms air-guiding aisle, active wind deflector B63 is parallel with driven wind deflector B64, and air-guiding aisle includes positive air-guiding aisle
With reversed air-guiding aisle.
The delivery method of the clean bottle piece conveying device for producing regenerated fiber in the present embodiment, including walk as follows
Suddenly:
The first step:Dry clean bottle piece drops into blanking pipeline B11, by rotating material controlling handwheel B25, makes material controlling screw rod
B23 is flexible, and material controlling screw rod B23 drives material controlling plate B21 mobile, and then adjusts the blanking amount of feeding pipe B12;
Second step:When material controlling handwheel B25 rotation, when material controlling plate B21 is moved into blanking pipeline B11, left sealing block
Guide surface B37 and right sealing block guide surface B38 are contacted with material controlling plate guide surface B22, make left sealing block B31 and right sealing block
B32 upward sliding, blanking amount reduce;Or when material controlling handwheel B25 rotation, material controlling plate B21 is moved to outside blanking pipeline B11
When, left sealing block B31 is by left Packing spring B35, and right sealing block B32 is by right Packing spring B36 slide downward, by left close
It seals block B31 and sealing is realized to left material controlling plate sliding slot B111, right material controlling plate sliding slot B112 is realized by right sealing block B32 close
Envelope avoids dry clean bottle piece from entering in left material controlling plate sliding slot B111 and right material controlling plate sliding slot B112, influences material controlling
The movement of plate B21 causes the airtight performance of material controlling plate B21 to reduce, when sealing plate B39 passes through sealing plate reset spring B392
It falls, and when sealing plate guide surface B391 and material controlling plate guide surface B22 are contacted, material controlling plate B21 is fully opened, and blanking amount is most
Greatly;
Third step:Clean bottle piece dry in feeding pipe B12 is transported to blanking pipe B13 by conveying spiral B41
Interior, dry clean bottle piece passes sequentially through conveying section and blanking section is transported in blanking pipe B13, then falls into charging line
B14;
4th step:That blows that material blower generates distinguished and admirable blown pipe material B15 and is blown clean bottle piece dry in charging line B14
To subsequent processing.
In 4th step of the present embodiment, blown when feed back monitoring sensor B69 detects that dry clean bottle piece flows back into
When in pipe material B15, feed back monitoring sensor B69 feeds back signal to wind guide motor B68, make active wind deflector B63 with it is driven
Wind deflector B64 forms feed back baffle, blows material blower at this time and stops working, by the rotation of wind direction regulating mechanism B5, by reflux
After dry clean bottle piece is blown clean, then by feed back monitoring sensor B69 it will test what dry clean bottle piece was blown clean
Signal feedback makes active wind deflector B63 and driven wind deflector B64 form air-guiding aisle to wind guide motor B68;Pass through wind guide motor
B68 controls active synchronization belt wheel B65 and driven synchronous pulley B66 and rotates synchronously, when wind guide motor B68 is rotated forward, actively
Wind deflector B63 and driven wind deflector B64 forms positive air-guiding aisle, and wind direction regulating mechanism B5 is rotated forward at this time;When wind-guiding electricity
When machine B68 is rotated backward, active wind deflector B63 and driven wind deflector B64 form reversed air-guiding aisle, at this time wind direction regulating mechanism
B5 is rotated backward;It blows the distinguished and admirable of material blower blowout and rotates forward the wind for making to generate with wind guide motor B68 after positive air-guiding aisle
In conjunction with, blow material blower blowout it is distinguished and admirable being rotated backward after reversed air-guiding aisle with wind guide motor B68 make generate wind in conjunction with;Into
And dry clean bottle piece is blown into subsequent processing.
In Figure 14, feed back monitoring sensor B69 detects dry clean bottle piece reflux, blows material blower and stops working, main
Dynamic wind deflector B63 and driven wind deflector B64 forms feed back baffle, when the rotation by wind direction regulating mechanism B5 is by dry cleaning
After bottle piece is blown clean, active wind deflector B63 and driven wind deflector B64 form air-guiding aisle.
In Figure 15, when wind guide motor B68 is rotated forward, active wind deflector B63 and driven wind deflector B64 form positive wind-guiding
The distinguished and admirable through positive air-guiding aisle of material blower blowout is blown in channel, and wind direction regulating mechanism B5 is rotated forward at this time;Blow material blower blowout
Wind and the wind guide motor B68 wind that wind direction adjusting plate B52 is generated when rotating forward form pulsed stormy waves for dry clean bottle
Piece blows to subsequent processing.
In Figure 16, when wind guide motor B68 is rotated backward, active wind deflector B63 and driven wind deflector B64 form reversed wind-guiding
The distinguished and admirable through reversed air-guiding aisle of material blower blowout is blown in channel, and wind direction regulating mechanism B5 is rotated backward at this time;Blow material blower blowout
Wind and the wind guide motor B68 wind that wind direction adjusting plate B52 is generated when rotating backward form pulsed stormy waves for dry clean bottle
Piece blows to subsequent processing.
Clean bottle piece in the present embodiment is the clean bottle piece after drying.
In addition, it should be noted that, the specific embodiments described in this specification, the shape of parts and components are named
Title etc. can be different, and above content is only to the utility model structure example explanation described in this specification.
All equivalence changes or simple change done according to structure, feature and principle described in the concept of the patent of the utility model, are wrapped
It includes in the protection scope of the utility model patent.Those skilled in the art of the present invention can be to described
Specific embodiment does various modifications or additions or is substituted in a similar manner, without departing from the knot of the utility model
Structure or beyond the scope defined by this claim, all should belong to the protection range of the utility model.