A kind of Fypro production technology
Technical field
The present invention relates to cotton synthetic fibre slicing technology field, specifically a kind of Fypro production technology.
Background technique
Fypro slice is in polyamide fibre production because its melt strength is low using sheet granulation product obtained by pelletizing technique;
Polyamide fibre is the product name of Fypro, and basic component is the fatty polyamide connected by amido bond,
It is a kind of important synthetic fibers.
Cotton synthetic fibre is sliced in process of production, due to containing a certain amount of water in slice, needs just may be used after drying it
For subsequent textile process;Current drying equipment is sliced when being worked and is easy mixed-stacking together, so that slice
Drying it is uneven, it is partially sliced to be unable to get abundant drying, and in processing, need constantly to use thermal energy and wind energy,
Energy consumption is larger, is not recycled effectively to thermal energy.
Summary of the invention
For the problems of the prior art, the present invention provides a kind of Fypro production technology, in this technique, pass through
The first flow plate, the second flow plate and third flow plate of distribution are staggered successively, effective resistance of slowing down can be carried out to slice
Gear will not be accumulated so that slice successively can slowly fall;Backwardness will be air cured hot wind caused by mechanism and blow under being sliced
It walks, realizes that drying is synchronous with conveying and carry out, and cotton synthetic fibre can be sliced and separate by scattering rod, in heaps will not circulate, avoid cotton synthetic fibre
Slice flocks together and influences drying effect;Hot wind can also flow back into outer tube along row's tube cell while completing to convey blanking
In vivo, and then across the first conveying the mesh-structured of pipe outer wall the first delivery pipe is entered, to be dried again, realization pair
In recycling for thermal energy, required energy consumption when drying is reduced, improves drying effect.
The technical solution adopted by the present invention to solve the technical problems is: a kind of Fypro production technology, the production
Technique the following steps are included:
Slice is put into dedusting in cleaner by S1;
Slice after dedusting in S1 is put into drying equipment and is dried by S2;
Slice in S2 after drying is mixed with coloured copper complex, Masterbatch, is melted, forms spinning melt by S3;
Spinning melt is wound into bobbin after spinning, cooling by S4;
The drying equipment used in this technique includes conveyer belt, processing case, flow mechanism, decentralized institution, air-dries mechanism, is outer
Tube body, conveying mechanism and discharging mechanism;One end bottom of the conveyer belt is equipped with the processing case, and the processing case is to right
Material is conveyed;The inside of the processing case is equipped with the flow mechanism, and the flow mechanism is to subtract material
Speed conveying;The bottom of the flow mechanism is equipped with the decentralized institution, and the decentralized institution is to by material scattering;The processing
The sidewall bottom of case is equipped with the air-dried mechanism, and the air-dried mechanism is oppositely arranged with the flow mechanism, the air-dried mechanism
To blow out hot wind;Another side wall of the processing case is equipped with the outer tube body, and the inside of the outer tube body is equipped with described defeated
Mechanism is sent, the conveying mechanism is to carry out drying conveying to material;The conveying mechanism is connected to the discharging mechanism, described
Discharging mechanism is to discharge and return air.
Specifically, the inner top layer of the processing case is provided with blanking chamber, the inner bottom of the processing case is provided with circulation chamber,
The inside of the blanking chamber is equipped with the shutter being obliquely installed.
Specifically, the inside of the circulation chamber is equipped with the flow mechanism, the flow mechanism include the first flow plate,
Second flow plate and third flow plate, first flow plate, second flow plate and the third flow plate incline
It is arranged obliquely and is from top to bottom sequentially distributed, first flow plate, second flow plate and the third flow plate
Between mutually stagger setting, first flow plate, the third flow plate are fixed on the same inner wall of the processing case, described
Second flow plate is fixed on another inner wall of the processing case, and the bottom end of the shutter is located at the top of first flow plate
Portion.
Specifically, the decentralized institution includes the 4th flow plate, fixed frame and scattering rod, the 4th flow plate is located at
The bottom of second flow plate, the 4th flow plate are arranged diagonally downward, and the 4th flow plate and the third circulate
The bottom surface of plate distribution funnel-shaped, the 4th flow plate is equipped with the fixed frame, and the internal vertical of the fixed frame is equidistant
Equipped with scattering rod described in several.
Specifically, the air-dried mechanism includes box body, exhaust fan and electric network, the box body is set to the processing case
Outer wall, the inside of the box body are fixed with the exhaust fan, and the side of the exhaust fan is equipped with the electric network.
Specifically, the conveying mechanism includes charging cover, the first delivery pipe and the second delivery pipe, the charging cover, institute
The two sides that air-dried mechanism is located at the decentralized institution are stated, the section of the charging cover is horn-like, the charging cover and institute
It states the first delivery pipe to be interconnected, the outer wall of first delivery pipe is mesh-structured, first delivery pipe and described second
Delivery pipe is interconnected, and for first delivery pipe through the middle part of the outer tube body, the outer tube body is cavity structure.
Specifically, the discharging mechanism includes isocon, air-exhausting duct, drainage conduit and web plate, the isocon with it is described
Second delivery pipe is interconnected, and the top of the isocon is communicated with one end of the air-exhausting duct, the other end of the air-exhausting duct
It is connected to the inside of the outer tube body, the inner top layer of the isocon is embedded with the web plate, and the web plate is located at the row
The bottom of air hose, the bottom end of the isocon are communicated with the drainage conduit.
Beneficial effects of the present invention:
(1) a kind of Fypro production technology of the present invention, the drying equipment that this technique uses, in transportational process
In, supporting mechanism can be collapsed together, so that guard mechanism fits together with supporting mechanism, installation people is by staggering successively
The first flow plate, the second flow plate and the third flow plate of distribution can carry out effective slow down to slice and stop, so that cutting
Piece successively can slowly fall, and will not accumulate.
(2) a kind of Fypro production technology of the present invention, in this technique, machine will be air cured by being sliced lower backwardness
Hot wind caused by structure is blown away, and is realized that drying is synchronous with conveying and is carried out, and cotton synthetic fibre can be sliced and separate by scattering rod, Bu Huicheng
Heap circulation, avoiding cotton synthetic fibre slice from flocking together influences drying effect.
(3) a kind of Fypro production technology of the present invention, in this technique, hot wind completes the same of conveying blanking
When, it can also be flow back into outer tube body along row's tube cell, and then pass through the first conveying pipe outer wall mesh-structured to enter first defeated
Pipe is sent, to be dried again, recycling for thermal energy is realized, reduces required energy consumption when drying, improves drying effect
Fruit.
Detailed description of the invention
Present invention will be further explained below with reference to the attached drawings and examples.
Fig. 1 is the structural schematic diagram for the drying equipment that this technique uses;
Fig. 2 is decentralized institution structural schematic diagram shown in FIG. 1;
Fig. 3 is discharging mechanism structural schematic diagram shown in FIG. 1;
Fig. 4 is conveying mechanism structural schematic diagram shown in FIG. 1.
In figure: 1, conveyer belt, 2, processing case, 21, blanking chamber, 22, circulation chamber, 23, shutter, 3, flow mechanism, 31, the
One flow plate, the 32, second flow plate, 33, third flow plate, 4, decentralized institution, the 41, the 4th flow plate, 42, fixed frame, 43, point
Scattered bar, 5, air-dried mechanism, 51, box body, 52, exhaust fan, 53, electric network, 6, outer tube body, 7, conveying mechanism, 71, charging cover, 72,
First delivery pipe, the 73, second delivery pipe, 8, discharging mechanism, 81, isocon, 82, air-exhausting duct, 83, drainage conduit, 84, web plate.
Specific embodiment
In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below
Specific embodiment is closed, the present invention is further explained.
As Figure 1-Figure 4, a kind of Fypro production technology of the present invention, the production technology include following step
It is rapid:
Slice is put into dedusting in cleaner by S1;
Slice after dedusting in S1 is put into drying equipment and is dried by S2;
Slice in S2 after drying is mixed with coloured copper complex, Masterbatch, is melted, forms spinning melt by S3;
Spinning melt is wound into bobbin after spinning, cooling by S4;
The drying equipment used in this technique includes conveyer belt 1, processing case 2, flow mechanism 3, decentralized institution 4, air-dry machine
Structure 5, outer tube body 6, conveying mechanism 7 and discharging mechanism 8;One end bottom of the conveyer belt 1 is equipped with the processing case 2, described
Case 2 is processed to convey to material;The inside of the processing case 2 is equipped with the flow mechanism 3, the flow mechanism 3
To carry out deceleration conveying to material;The bottom of the flow mechanism 3 be equipped with the decentralized institution 4, the decentralized institution 4 to
By material scattering;The sidewall bottom of the processing case 2 is equipped with the air-dried mechanism 5, the air-dried mechanism 5 and the flow mechanism
3 are oppositely arranged, and the air-dried mechanism 5 is to blow out hot wind;Another side wall of the processing case 2 is equipped with the outer tube body 6, described
The inside of outer tube body 6 is equipped with the conveying mechanism 7, and the conveying mechanism 7 is to carry out drying conveying to material;The conveying
Mechanism 7 is connected to the discharging mechanism 8, and the discharging mechanism 8 is to discharge and return air.
Specifically, as shown in Figure 1, the inner top layer of the processing case 2 is provided with blanking chamber 21, the inside of the processing case 2
Bottom is provided with circulation chamber 22, and the inside of the blanking chamber 21 is equipped with the shutter 23 being obliquely installed;It can by shutter 23
Water conservancy diversion is carried out to material, material can quickly be circulated by circulation chamber 22, blanking chamber 21.
Specifically, as shown in Figure 1, the inside of the circulation chamber 22 is equipped with the flow mechanism 3, the flow mechanism 3
Including the first flow plate 31, the second flow plate 32 and third flow plate 33, first flow plate 31, second flow plate
32 and the third flow plate 33 be arranged diagonally downward and be from top to bottom sequentially distributed, it is first flow plate 31, described
Setting, first flow plate 31, the third stream are mutually staggered between second flow plate 32 and the third flow plate 33
Logical plate 33 is fixed on the same inner wall of the processing case 2, and second flow plate 32 is fixed on the another interior of the processing case 2
Wall, the bottom end of the shutter 23 are located at the top of first flow plate 31;Material can pass through the first flow plate 31, second
Logical plate 32 and third flow plate 33 successively flow downward, and can carry out deceleration conveying to material, so that circulation is more convenient.
Specifically, as shown in Fig. 2, the decentralized institution 4 include the 4th flow plate 41, fixed frame 42 and scattering rod 43,
4th flow plate 41 is located at the bottom of second flow plate 32, and the 4th flow plate 41 is arranged diagonally downward, described
The bottom surface of 4th flow plate 41 and the third flow plate 33 distribution funnel-shaped, the 4th flow plate 41 is equipped with the fixation
Frame 42, the internal vertical of the fixed frame 42 are equidistantly equipped with several scattering rods 43;It, can by each scattering rod 43
Material is separated, circulation in heaps is avoided, so that the drying effect being individually sliced is more preferable.
Specifically, as shown in Figure 1, the air-dried mechanism 5 includes box body 51, exhaust fan 52 and electric network 53, the box
Body 51 is set to the outer wall of the processing case 2, and the inside of the box body 51 is fixed with the exhaust fan 52, and the one of the exhaust fan 52
Side is equipped with the electric network 53;Wind-force is generated by exhaust fan 52, by forming hot wind when electric network 53.
Specifically, as shown in figure 4, the conveying mechanism 7 includes charging the 71, first delivery pipe 72 of cover and the second delivery pipe
73, the charging cover 71, the air-dried mechanism 5 are located at the two sides of the decentralized institution 4, and the section of the charging cover 71 is
Horn-like, the charging cover 71 is interconnected with first delivery pipe 72, and the outer wall of first delivery pipe 72 is mesh knot
Structure, first delivery pipe 72 are interconnected with second delivery pipe 73, and first delivery pipe 72 is through the outer tube
The middle part of body 6, the outer tube body 6 are cavity structure;Material can be entered in delivery pipe by charging cover 71, complete in delivery pipe
Synchronous carry out is conveyed at drying.
Specifically, as shown in figure 3, the discharging mechanism 8 includes isocon 81, air-exhausting duct 82, drainage conduit 83 and web plate
84, the isocon 81 is interconnected with second delivery pipe 73, and the top of the isocon 81 is communicated with the air-exhausting duct
82 one end, the other end of the air-exhausting duct 82 are connected to the inside of the outer tube body 6, and the inner top layer of the isocon 81 is embedding
Enter to have the web plate 84, the web plate 84 is located at the bottom of the air-exhausting duct 82, and the bottom end of the isocon 81 is communicated with described
Drainage conduit 83;Hot wind can be led back in delivery pipe by air-exhausting duct 82, realize thermal energy recycling, web plate 84 can hinder material
Gear.
It, can be to cutting by staggering successively the first flow plate 31, the second flow plate 32 and third flow plate 33 of distribution
Piece, which carries out effective slow down, to be stopped, so that slice successively can slowly fall, will not be accumulated;Machine will be air cured by being sliced lower backwardness
Hot wind caused by structure 5 is blown away, and is realized that drying is synchronous with conveying and is carried out, and cotton synthetic fibre can be sliced and separate by scattering rod 43, no
Meeting circulation in heaps, avoiding cotton synthetic fibre slice from flocking together influences drying effect;Hot wind, can also edge while completing to convey blanking
Row's tube cell 82 flow back into outer tube body 6, and then pass through the mesh-structured of 72 outer wall of the first delivery pipe enter the first delivery pipe
72, to be dried again, realize recycling for thermal energy, reduce required energy consumption when drying, improves drying effect.
Specifically have:
(1) cotton synthetic fibre slice is delivered in processing case 2 by conveyer belt 1, and slice is introduced into blanking chamber 21, is then being hidden
It moves, enters on the first flow plate 31 of 22 inner top layer of circulation chamber, along first-class diagonally downward under the action of baffle 23
Logical plate 31 is moved downward and then is fallen on the second flow plate 32, is moved downward further along the second flow plate 32 and is fallen to third stream
On logical plate 33, effective slow down can be carried out to slice by flow plates at different levels and stopped, so that slice successively can slowly fall,
It will not accumulate;
(2) when slice is fallen by the gap between third flow plate 33, the 4th flow plate 41, what exhaust fan 52 generated
Slice will be blowed to decentralized institution 4 by wind, and electric network 53 can heat wind, realize the drying for slice, slice
It when by decentralized institution 4, can be separated by scattering rod 43, so that slice can successively circulate, in heaps will not circulate, avoid cotton
Synthetic fibre slice flocks together and influences drying effect;
(3) cotton synthetic fibre slice will be entered after being dispersed in charging the 71, first delivery pipe 72 of cover, and hot wind can be gathered in first
Continual drying is carried out to slice in delivery pipe 72, is then entered under the propulsion of hot wind in isocon 81, hot wind will
It is divided into two strands, one passes through web plate 84 and moves upwards, and is flowed into outer tube body 6 again along air-exhausting duct 82, due to the first conveying
The outer wall of pipe 72 be it is mesh-structured so that hot wind flows again into the first delivery pipe 72, realize recycling for thermal energy, web plate
84 mesh diameter is identical as the outer wall mesh diameter of the first delivery pipe 72, and mesh diameter is all larger than the diameter of slice, makes
It must be sliced and not pass through web plate 84;Slice will be blown away discharging from drainage conduit 83 by another a blast of hot air.
The present invention is by staggering successively the first flow plate 31, the second flow plate 32 and third flow plate 33 of distribution, energy
Enough slow down effective to slice progress stop, so that slice successively can slowly fall, will not accumulate;Being sliced lower backwardness will be by
It air-dries hot wind caused by mechanism 5 to blow away, realizes that drying is synchronous with conveying and carry out, and cotton synthetic fibre can be sliced and separate by scattering rod 43
It opens, in heaps will not circulate, avoiding cotton synthetic fibre slice from flocking together influences drying effect;Hot wind complete convey blanking while,
It can also be flow back into outer tube body 6 along row's tube cell 82, and then pass through the mesh-structured of 72 outer wall of the first delivery pipe and enter first
Delivery pipe 72 realizes recycling for thermal energy to be dried again, reduces required energy consumption when drying, improves and dries
Dry effect.
The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should
Understand, the present invention is not limited to the above embodiments, and the description in above embodiment and specification only illustrates the present invention
Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these variation and
Improvement is both fallen in the scope of protection of present invention.The claimed scope of the invention is by appended claims and its equivalent
Object defines.