CN109811482A - A kind of fiber dehydration polishing method - Google Patents
A kind of fiber dehydration polishing method Download PDFInfo
- Publication number
- CN109811482A CN109811482A CN201910144072.6A CN201910144072A CN109811482A CN 109811482 A CN109811482 A CN 109811482A CN 201910144072 A CN201910144072 A CN 201910144072A CN 109811482 A CN109811482 A CN 109811482A
- Authority
- CN
- China
- Prior art keywords
- fiber
- conveying
- fibre material
- dehydration
- section
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 239000000835 fiber Substances 0.000 title claims abstract description 301
- 230000018044 dehydration Effects 0.000 title claims abstract description 107
- 238000006297 dehydration reaction Methods 0.000 title claims abstract description 107
- 238000005498 polishing Methods 0.000 title claims abstract description 85
- 238000000034 method Methods 0.000 title claims abstract description 56
- 239000000463 material Substances 0.000 claims abstract description 139
- 239000002657 fibrous material Substances 0.000 claims abstract description 20
- 238000005096 rolling process Methods 0.000 claims abstract description 15
- 238000005422 blasting Methods 0.000 claims abstract description 8
- 230000007246 mechanism Effects 0.000 claims description 23
- 239000007921 spray Substances 0.000 claims description 23
- 238000012545 processing Methods 0.000 claims description 21
- 238000012546 transfer Methods 0.000 claims description 17
- 238000010828 elution Methods 0.000 claims description 7
- 230000008859 change Effects 0.000 claims description 4
- 238000004140 cleaning Methods 0.000 claims description 3
- 230000000694 effects Effects 0.000 abstract description 43
- 230000008569 process Effects 0.000 abstract description 17
- 238000007517 polishing process Methods 0.000 abstract description 2
- 238000007599 discharging Methods 0.000 description 17
- 230000015572 biosynthetic process Effects 0.000 description 8
- 238000005755 formation reaction Methods 0.000 description 8
- 238000003825 pressing Methods 0.000 description 8
- 238000010586 diagram Methods 0.000 description 7
- 238000013016 damping Methods 0.000 description 3
- 230000008901 benefit Effects 0.000 description 2
- 230000001351 cycling effect Effects 0.000 description 2
- 238000013461 design Methods 0.000 description 2
- 238000009499 grossing Methods 0.000 description 2
- 230000001737 promoting effect Effects 0.000 description 2
- 230000003252 repetitive effect Effects 0.000 description 2
- 230000006641 stabilisation Effects 0.000 description 2
- 238000011105 stabilization Methods 0.000 description 2
- 241000254032 Acrididae Species 0.000 description 1
- 244000025254 Cannabis sativa Species 0.000 description 1
- 235000012766 Cannabis sativa ssp. sativa var. sativa Nutrition 0.000 description 1
- 235000012765 Cannabis sativa ssp. sativa var. spontanea Nutrition 0.000 description 1
- 241000196324 Embryophyta Species 0.000 description 1
- 241001465754 Metazoa Species 0.000 description 1
- 235000009120 camo Nutrition 0.000 description 1
- 235000005607 chanvre indien Nutrition 0.000 description 1
- 239000002131 composite material Substances 0.000 description 1
- 235000013399 edible fruits Nutrition 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 239000011487 hemp Substances 0.000 description 1
- 238000009940 knitting Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 238000011017 operating method Methods 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
- 239000003381 stabilizer Substances 0.000 description 1
Landscapes
- Treatment Of Fiber Materials (AREA)
Abstract
The present invention relates to a kind of fiber dehydration polishing methods to include the following steps, step 1: fibre material is set up on a conveyor;Step 2: conveying device conveying fiber material is carried out dehydrating;Step 3: conveying device conveying fiber material is processed by shot blasting;Fibre material is removed after completing;The present invention is in such a way that conveying device conveying fiber is by dehydration procedure and polishing process, it can be realized the working process of pipeline system, it is high-efficient, by using the mode for rolling dehydration, not only dehydrating effect is good, while being convenient for the conveying of fibre material, the mode of polishing is contacted with fiber suspention section by using revolving body surface, realize the polishing treatment that carries out to fiber transported on the transport device, polishing effect is good, can the whole body section to fiber polish.
Description
Technical field
The present invention relates to fiber process fields, and in particular to a kind of fiber dehydration polishing method.
Background technique
In animal and plant body, fiber plays an important role maintaining organizational aspects.Fiber applications are extensive, can be made into filament,
The end of a thread and the rope made of hemp, papermaking or while knitting felt, can also be made into fibrous layer;It is also commonly used to manufacture unclassified stores, and and unclassified stores simultaneously
Collectively constitute composite material.
When processing fiber, dehydration and polishing to fiber are important processing means, present fiber dehydration and polishing
Method it is relatively simple, processing efficiency is low, cannot cannot achieve the dehydration of fiber together with polishing treatment connection group
Pipeline system working process.
Summary of the invention
The object of the present invention is to provide a kind of fibers to be dehydrated polishing method, realizes the dehydration to fiber and polishing.
The technical solution that the present invention takes is specific as follows.
A kind of dehydration polishing method, includes the following steps, step 1: fibre material is set up on a conveyor;Step
Two: conveying device conveying fiber material is carried out dehydrating;Step 3: conveying device conveying fiber material is processed by shot blasting;
Fibre material is removed after completing.
Preferably, it is set up in step 1, in the middle part of fibre material on a conveyor, both ends are in suspention shape arrangement downwards.
Preferably, in step 2, fibre material transported on the transport device is dehydrated by the way of rolling dehydration
Processing.
Preferably, in step 2, fibre material is carried out by the way of rolling dehydration repeatedly to roll dehydration.
Preferably, the pressure that dehydration applies is rolled to fibre material to be incremented by step by step along the conveying direction of conveying device.
Preferably, fibre material is carried out using dehydration roll arranged up and down rolling dehydration, the fixed cloth of the dehydration roll of lower section
It sets, the dehydration roll of top, which floats, arranges there is active force on the dehydration roll of top, so that the dehydration roll of top is pressed to down always
The dehydration roll of side realizes that carrying out elasticity to the fibre material passed through rolls dehydration.
Preferably, it in step 3, is polished in such a way that revolving body surface is contacted with fibre material, the length of revolving body
Degree direction is consistent with the conveying direction of conveying device, and the revolving body surface of rotation is contacted with two suspention sections of fibre material and thrown
Light.
Preferably, revolving body along conveying device conveying direction arranged for interval, each revolving body surface to fibre material not
It is polished with figure.
Preferably, before fibre material is contacted with revolving body surface, the two of fibre material suspention sections are smoothed out with the fingers and to one side, just
In subsequent polishing treatment.
Preferably, during fibre material is polished, the means transferred using material are by fibre material from conveying
The previous conveying section of device is transferred to latter conveying section, and fibre material is on the previous conveying section of conveying device and latter conveying section
It is different to set up place, convenient for polishing to fibre material whole body section.
Preferably, by arranging guide part in the previous conveying section of conveying device and latter conveying section, fibre material is with defeated
The continuous traveling of the previous conveying section of device is sent, the suspention section of fibre material is constantly supported expansion by guide part, supports spread
Fiber set up on the latter conveying section of conveying device again, can be completed and change fiber and set up the transfer work at place.
Preferably, when conveying device conveying fiber material is processed by shot blasting, fibre material is constrained in into conveying device
On conveyer belt.
Preferably, by using sprocket wheel chain mechanism, chain side on the conveyor belt, the direction of travel and conveying device of chain
Conveying direction it is consistent, realize chain fibre material constrain on the conveyor belt.
Preferably, before dehydration, conveying device conveying fiber material also needs to carry out elution processing fibre material.
Preferably, by using spray equipment, the spray head in spray equipment constantly sprays cleaning solution to fibre material, realizes
Elution processing.
The technical effect that the present invention obtains are as follows: the present invention passes through dehydration procedure and buffer using conveying device conveying fiber
The mode of sequence can be realized the working process of pipeline system, high-efficient, and by using the mode for rolling dehydration, not only dehydration is imitated
Fruit is good, while being convenient for the conveying of fibre material, contacts the mode of polishing with fiber suspention section by using revolving body surface, realizes
To fiber transported on the transport device carry out polishing treatment, polishing effect is good, can the whole body section to fiber polish.
Detailed description of the invention
Fig. 1 is that a kind of fiber proposed by the present invention is dehydrated the corresponding device structure schematic diagram of polishing method.
Fig. 2 is the structural representation that a kind of fiber proposed by the present invention is dehydrated burnishing device in the corresponding equipment of polishing method
Figure.
Fig. 3 is the structural representation that a kind of fiber proposed by the present invention is dehydrated pressing device in the corresponding equipment of polishing method
Figure.
Fig. 4 is that a kind of fiber proposed by the present invention is dehydrated leading in material forwarding formations in the corresponding equipment of polishing method
To the structural schematic diagram of part.
Fig. 5 is the structural representation that a kind of fiber proposed by the present invention is dehydrated dehydration device in the corresponding equipment of polishing method
Figure.
Fig. 6 is that a kind of fiber proposed by the present invention is dehydrated in the corresponding equipment of polishing method lower dehydration roll in dehydration device
Structural schematic diagram.
Fig. 7 is the structural representation that a kind of fiber proposed by the present invention is dehydrated the corresponding subsequent device for discharging of equipment of polishing method
Figure.
Fig. 8 is to comb separating device in a kind of corresponding subsequent device for discharging of equipment of fiber dehydration polishing method proposed by the present invention
Structural schematic diagram.
Fig. 9 is that a kind of fiber proposed by the present invention is dehydrated mobile mechanism in the corresponding subsequent device for discharging of equipment of polishing method
With the structural schematic diagram of carrier.
Figure 10 is that a kind of structure of the corresponding subsequent material transfering device of equipment of fiber dehydration polishing method proposed by the present invention is shown
It is intended to.
Figure 11 is oblique two survey that a kind of fiber proposed by the present invention is dehydrated the corresponding subsequent material transfering device of equipment of polishing method
View.
Figure 12 is that a kind of fiber proposed by the present invention is dehydrated transferring machine in the corresponding subsequent material transfering device of equipment of polishing method
The structural schematic diagram of structure.
Figure 13 is that a kind of structure of the corresponding subsequent material transfering device of equipment of fiber dehydration polishing method proposed by the present invention is shown
The structural schematic diagram of load-bearing part and clamping component in intention.
Each drawing reference numeral corresponding relationship is as follows: 100- rack, 111- dehydration roller group, is dehydrated on 111a- 110- dehydration device
Dehydration roll under roller, 111b-, 111b I-open slot, 112- floating support arm, 113- support, 114- spring, 120- burnishing device,
121- polishing roll, 122- are smoothed out with the fingers and roller, 122a- convex ribs, 130- conveying device, the conveying section 131-A, the conveying section 132-B, 140- material
Grass-hopper, 141- guide part, the first conveying section 141a-, the second conveying section 141b-, 150- pressing device, 151- sprocket wheel,
152- chain, 160- spray equipment, 170- plate, 200- device for discharging, 210- expansion part, 220- comb separating device, 221- card wire,
The male needle of 221a-, mother's 221b- needle, 230- mobile mechanism, 231- carrier, 232- conveyer belt, 233a- interconnecting piece, 233b- limit
Portion, 231a- support section, 310- transfer device, 311- cycloconveyor belt, 320- are detached from component, 330- hoisting mechanism, 331- activity
Carrier, 332- telescopic component, 333- lifting assembly, 340- load-bearing part, 350- transfer device, 351- ejection part, the top 351a-
Bar, 352- delivery section, 352a- conveyer belt, 352b- baffle, the incorporating section 353-, 353a- placing groove, 353b- driving part,
353c- movable push, 360- fastener, 370- clamping component, 381- clamping element, 382- bracket, 383- torsional spring, 384- are fixed
Axis.
Specific embodiment
In order to which objects and advantages of the present invention are more clearly understood, the present invention is carried out with reference to embodiments specific
It is bright.It should be appreciated that following text is only used to describe one or more of specific embodiments of the invention, not to the present invention
The protection scope specifically requested carries out considered critical.
Embodiment 1
A kind of fiber that the embodiment of the present invention is proposed is dehydrated polishing method, includes the following steps, step 1: fibre material is taken
If on a conveyor;Step 2: conveying device conveying fiber material is carried out dehydrating;Step 3: conveying device conveying is fine
Dimension material is processed by shot blasting;Fibre material is removed after completing;
It is set up in step 1, in the middle part of fibre material on a conveyor, both ends are in suspention shape arrangement downwards;
In step 2, fibre material transported on the transport device is carried out dehydrating by the way of rolling dehydration;
In step 2, fibre material is carried out by the way of rolling dehydration repeatedly to roll dehydration;
The pressure that dehydration applies is rolled to fibre material to be incremented by step by step along the conveying direction of conveying device;
Fibre material is carried out using dehydration roll arranged up and down to roll dehydration, the dehydration roll fixed and arranged of lower section, top takes off
Damping roller, which floats, arranges there is active force on the dehydration roll of top, so that the dehydration roll of top is pressed to always the dehydration roll of lower section,
Realize that carrying out elasticity to the fibre material passed through rolls dehydration;
In step 3, polished in such a way that revolving body surface is contacted with fibre material, the length direction of revolving body with it is defeated
Send the conveying direction of device consistent, the revolving body surface of rotation is contacted with two suspention sections of fibre material and polished;
For revolving body along the conveying direction arranged for interval of conveying device, each revolving body surface throws the different figures of fibre material
Light;
Before fibre material is contacted with revolving body surface, the two of fibre material suspention sections are smoothed out with the fingers and to one side, convenient for subsequent throwing
Light processing;
During fibre material is polished, the means transferred using material are by fibre material from the previous defeated of conveying device
Section is sent to be transferred to latter conveying section, fibre material sets up place's difference on the previous conveying section of conveying device and latter conveying section,
Convenient for being polished to fibre material whole body section;
By arranging that guide part, fibre material are previous defeated with conveying device in the previous conveying section of conveying device and latter conveying section
The continuous traveling of section is sent, the suspention section of fibre material is constantly supported expansion, the fiber of spread is supported to set up again by guide part
Onto the latter conveying section of conveying device, it can be completed and change the transfer work that fiber sets up place;
When conveying device conveying fiber material is processed by shot blasting, fibre material is constrained on the conveyer belt of conveying device;
By using sprocket wheel chain mechanism, chain side on the conveyor belt, the direction of travel of chain and the conveying direction of conveying device
Unanimously, realize that chain constrains fibre material on the conveyor belt;
Before dehydration, conveying device conveying fiber material also needs to carry out elution processing fibre material;
By using spray equipment, the spray head in spray equipment constantly sprays cleaning solution to fibre material, realizes elution processing.
Pass through dehydration process and polishing treatment process by using conveying device conveying fiber material, is easy to implement stream
The working process of line type promotes processing efficiency.By using the erection method of fibre material, convenient for subsequent to fibre material
Dehydration and polishing treatment.Fibre material is carried out dehydrating using the method for rolling dehydration, is not only able to guarantee dehydrating effect,
Cooperation conveying device is also convenient for work.Using the method for repeatedly rolling dehydration, dehydrating effect is promoted.By repeatedly rolling,
And grinding pressure is constantly incremented by, and further improves the effect of dehydration.By using dehydration roll arranged up and down to fibre material
It carries out rolling dehydration, be arranged by the floating of upper dehydration roll, realize that carrying out elasticity to the fibre material passed through rolls dehydration, not only
Improve the effect of dehydration, additionally it is possible to it is effective to guarantee that stablizing for dewatering work carries out, the fiber of different-thickness can be carried out
Self-adaptive pressure rolls dehydration.By using above-mentioned polishing method, it is not only able to guarantee polishing effect, is also convenient for and conveys dress
Set cooperating.By using revolving body along the spaced apart means of conveying direction of conveying device, so that each revolving body pair
The different figures for answering fiber suspention section, realize that each revolving body surface polishes the different figures of fibre material.By fine
Two suspention sections of dimension material are smoothed out with the fingers and to one side, on the one hand fibre material are smoothed out with the fingers and to one side, another convenient for subsequent polishing treatment
Aspect can carry out fibre material to smooth out with the fingers suitable, further increase the effect of polishing, at the same can guarantee the stabilization of polishing into
Row.Place is set up in conveying device by changing fiber, fiber whole body section can be polished convenient for subsequent, polishing matter is promoted
Amount and effect avoid polishing dead angle.By using guide part, suspention of the guide part first fibre material in previous conveying section
Section support expansion, then sets up this section fibre on latter conveying section, realizes the transfer function of changing and set up place.By fine
It ties up material constraint on the conveyor belt, can be avoided fibre shedding, guarantee that stablizing for polishing carries out;Further, using chain
Item carrys out about bundle fiber, and fiber constraint is compressed on the conveyor belt.By using spray means, to the fibre object before dehydration
Material carries out elution processing, fiber is cleaned, while fiber can be sprayed and be made in order, convenient for the progress of subsequent dewatering work.
The present invention can be realized assembly line in such a way that conveying device conveying fiber is by dehydration procedure and polishing process
The working process of formula, high-efficient, by using the mode for rolling dehydration, not only dehydrating effect is good, while convenient for fibre material
Conveying contacts the mode of polishing with fiber suspention section by using revolving body surface, realizes to fiber transported on the transport device
The polishing treatment of progress, polishing effect is good, can the whole body section to fiber polish.
Embodiment 2
Referring to Fig.1-13, a kind of fiber is dehydrated polissoir, including rack 100, is provided in rack 100 for conveying fiber object
The conveying device 130 of material, the dehydration device 110 for fibre material dehydration and the burnishing device 120 for fibre material polishing,
Dehydration device 110 and burnishing device 120 are sequentially arranged along the conveying direction of conveying device 130.
Burnishing device 120 includes polishing roll 121, the roller length direction of polishing roll 121 and the conveying direction one of conveying device 130
It causes, is ridden upon in conveying device 130 in the middle part of fibre material, fibre material both ends are in suspention shape arrangement, the polishing roll of rotation downwards
121 roll surfaces are contacted with two suspention sections of fibre material and are polished.
Polishing roll 121 is along the conveying direction arranged for interval of conveying device 130, and each polishing roll 150 is for fibre material
Different figures are polished.
Material forwarding formations 140 are housed, material forwarding formations 140 are for changing fibre object between adjacent polishing roll 121
Material sets up place in conveying device 130.
121 front end of polishing roll, which is provided with, smoothes out with the fingers two suspention figures of fibre material and smoothes out with the fingers simultaneously roller 120 to one side, smoothes out with the fingers simultaneously roller
120 and polishing roll 121 postpone arrangement.
It smoothes out with the fingers and roller 120 includes columnar roll body, roll body is rotatably installed in rack 100, is arranged at intervals on the roll surface of roll body
Convex ribs 122, the length direction of convex ribs 122 and the length direction of roll body are consistent.
The section of convex ribs 122 is semicircle.
Conveying device 130 includes the conveying section A 151 and the conveying section B 152 being sequentially arranged, and the setting of material forwarding formations 140 exists
Between the conveying section A 151 and the conveying section B 152, fibre material is transferred to the conveying section B from the conveying section A 151 by material forwarding formations 140
The conveying section A 151 is ridden upon at 152, a of fibre material to be conveyed, ridden upon at the b of fibre material the conveying section B 152 carry out it is defeated
It send, is at the different figures of fibre material at a and at b.
Material forwarding formations 140 include guide part 141, and guide part 141 includes the first guide section 141a and the second guide section
141b, the first guide section 141a are arranged on the downside of the conveyor surface of the conveying section A 151, and the first guide section 141a is plugged in fibre material
Two suspention sections between, spacing of the second guide section 141b from front end to rear end between the conveying section A gradually becomes larger, second guiding
Section 141b is used to the suspention section of fibre material side prop up expansion, and the second rear end guide section 141b is arranged in the conveying section B 152
On the upside of feed end, the feed end of the conveying section B 152 is arranged between the second conveying section guide section 141b and A 151, fibre material quilt
The figure for propping up expansion, which is taken, to be fallen on the feed end of the conveying section B 152.
Conveying device 130 includes conveyer belt, is provided with pressing device 150 on the upside of conveyer belt, conveyer belt is conveyed through polishing
Roller 121 is constrained with the fiber smoothed out with the fingers and at roller 120 by pressing device 150.
Pressing device 150 includes sprocket wheel chain mechanism, and sprocket wheel 151 is rotatably installed in rack 100, the traveling of chain 152
Direction is consistent with the conveying direction of conveying device 130, and chain 152 is for constraining at the figure that fibre material is contacted with conveyer belt.
Dehydration device 110 includes dehydration roller group 111, and 130 conveying fiber material of conveying device passes through dehydration roller group 111, takes off
Damping roller group 111 carries out fibre material to roll dehydration.
Roller group 111 is dehydrated along the conveying direction arranged for interval of conveying device 130.
Spacing in dehydration roller group 111 between two dehydration rolls is gradually reduced along the conveying direction of conveying device 130.
Being dehydrated roller group 111 includes upper dehydration roll 111a arranged up and down and lower dehydration roll 111b, lower dehydration roll 111b rotation
It is mounted in rack 100, upper dehydration roll 111a floating mount is in rack 100.
Upper dehydration roll 111a is rotatably installed on floating support arm 112, and 112 one end of floating support arm passes through with support 113
Articulated manner connection, support 113 are fixed in rack 100, and 112 other end connecting spring 114 of floating support arm, spring 114 connects
Pick frame 100, and upper dehydration roll 111a is pulled to lower dehydration roll 111b by restoring force by spring 114.
The roll surface of lower dehydration roll 111b is provided with the open slot 111b I that conveyer belt passes through.
Spray equipment 140 is provided on front side of dehydration device 110, spray equipment 140 is used for the fiber in conveying device 130
Material is eluted.
Spray equipment 140 includes spray head, and the two sides of conveying device 130 are arranged in spray head.
Plate 150 is provided on front side of dehydration device 140, plate 150 is the folded plate of V-shaped structure, and plate 150 is arranged defeated
Send on the downside of the conveyor surface of device 130, the setting of plate 150 is suspended in midair between section in fibre material two, the plate face of plate 150 respectively with fibre
Two suspention section contacts of material are tieed up, plate 150 is used to support expansion fibre material.
A kind of fiber serialization device for discharging, including rack 100 are provided with conveying device 130, conveying dress in rack 100
130 are set for conveying fiber, fiber middles ride upon in conveying device 130, and both ends are in suspention shape arrangement downwards;In rack 100
It is provided with mobile mechanism 230, the connection support section of mobile mechanism 230, mobile mechanism 230 can drive support section from conveying device
130 moved beneaths to the top of conveying device 130, support section below conveying device 130 to the movement above conveying device 130
In the process, support section contacts and holds up the suspention section of fiber, and fiber is taken out from conveying device 130, holds in the palm and is provided on section
The region passed through for conveying device 130.
Hold in the palm section arranged for interval up and down.
Mobile mechanism 230 includes the cycloconveyor belt 232 of vertical shape arrangement, holds in the palm section arranged for interval on conveyer belt 232.
Support section is made of two carrier, 231 upper surface, and two carrier 231 are arranged in 130 liang of outsides of conveying device.
Mobile mechanism 230 is provided with two groups, and Liang Zu mobile mechanism 230 is arranged in 130 liang of outsides of conveying device, conveying
The carrier 231 in 130 liang of outsides of device is separately mounted to the mobile mechanism 230 of respective side.
Carrier 231 is arranged on conveyer belt 232 in two states, first, carrier 231 is close to conveying device 130
On the conveyer belt 232 of side, the working position state of horizontally or diagonally shape arrangement is presented in the support section of carrier 231, second, support carries
For part 231 on the conveyer belt 232 far from 130 side of conveying device, the support section of carrier 231 is in the inoperative position shape of vertical shape
State.
Arrange that finite place piece 233, locating part 233 include interconnecting piece 233a and limiting section 233b, carrier on conveyer belt 232
231 are rotatably installed on interconnecting piece 233a close to 232 one end of conveyer belt, and carrier 231 is when close to 232 side of conveyer belt, limit
Position portion 233b is contacted with carrier 231, prevents carrier 231 from turning to off working state.
Carrier 231 is net plate structure.
Side of the carrier 231 far from conveyer belt 232 is handled by fillet.
Expansion part 210 is disposed on front side of support section, expansion part 210 is located on the downside of 130 conveyor surface of conveying device, and part is unfolded
210 front ends are plugged in fiber two and suspend in midair between section, and expansion 210 front end of part is no more than along the width of 130 conveying direction of conveying device
The width of 130 conveyor surface of conveying device, expansion 210 rear width of part are greater than the width of 130 conveyor surface of conveying device, part are unfolded
210 front end of part is unfolded to rear end along the width of 130 conveying direction of conveying device to being disposed to extend on the outside of conveying device two in 210 rear ends
Degree incrementally increases.
Comb separating device 220 is provided between expansion part 210 and support section, comb separating device 220 is used for conveying device 130
The fiber comb that the fiber of conveying takes out with support section separates, and comb separating device 220 includes card wire 221, and card wire 221 is arranged in conveying dress
It sets on the upside of 130 conveyor surfaces, card wire 221 is driven by driving mechanism 222, and driving mechanism 222 drives card wire 221 to conveying device
The movement of 130 two sides, fiber is combed and is separated.
Card wire 221 include male needle 221a and mother needle 221b, male needle 221a and mother's needle 221b needle point be in downwards vertical shape side by side
Arrangement, the needle point fitting of male needle 221a and female needle 221b.
A kind of fiber serialization material transfering device, including rack 100 are equipped with hoisting mechanism 330 and transfer device in rack 100
310, in motion process, it is hanging to hold up fiber middles from top to bottom for promoting load-bearing part 340, load-bearing part 340 for hoisting mechanism 330
Expect that body, load-bearing part 340 can pass through the hanging region of fiber material body, transfer device 310 drives load-bearing part 340 far from device for discharging
It 200 and is transferred into subsequent processing.
Load-bearing part 340 is greater than the hanging region of fiber middles in the projected length of horizontal plane in the projected length of horizontal plane, holds
Holder 340 stretches out the hanging region of fiber middles in the projection of horizontal plane at the both ends of the projection of horizontal plane.
Load-bearing part 340 sequentially moves from top to bottom, holds up fiber middles and vacantly expects body.
Hoisting mechanism 330 includes lifting assembly 333 and support carries component, and support carries component and carries load-bearing part 340, lifting group for holding in the palm
Part 333 is for driving support to carry component lifting.
Support carries component and is arranged in 200 side of device for discharging, and it includes telescopic component 332 and activity carrier 331 that support, which carries component,
Activity carrier 331 is mounted on the movable end of telescopic component 332, and the fixing end of telescopic component 332 is mounted on lifting assembly 333
Movable end, for telescopic component 332 for driving 331 transverse movement of activity carrier, activity carrier 331 is in two states,
One: when support section 231a promotes fiber above activity carrier 331 moved beneath to activity carrier 331, activity carrier
331 leave the evacuation state in the hanging region of fiber material body, second, when support section 231a is located at activity 331 top of carrier, activity
Carrier 331 enters the working condition below the hanging region of fiber material body.
Transfer device 310 includes cycloconveyor belt 311, and load-bearing part 340 is removably mounted on cycloconveyor belt 311, holds
The arranged for interval on cycloconveyor belt of holder 340.
Each load-bearing part 340 is removably mounted on cycloconveyor belt 311 by fastener 360 respectively.
Load-bearing part 340 is rod-like element, and the bayonet of fastener 360, which is directed toward, deviates from 311 side of cycloconveyor belt, fastener 360
Bayonet be in closing.
311 side of cycloconveyor belt, which is provided with, is detached from component 320, is detached from component 320 and support section 231a is conveyed along annular
311 conveying direction of band is sequentially arranged, and is detached from component 320 and is used to apply the power to 360 bayonet direction of fastener to load-bearing part 340,
So that load-bearing part 340 and fastener 360 are detached from.
Being detached from component 320 includes extensible member and mandril, and extensible member driving mandril is done and fastener bayonet direction is consistent stretches
Contracting movement, mandril is in two states, first, mandril goes out the working condition of fastener against load-bearing part 340 and load-supporting roof,
Two: evacuation state of the mandril far from load-bearing part 340.
Load-bearing part 340 is used for bearing fiber, and fiber middles ride upon on load-bearing part 340, and fiber both ends are in suspention shape downwards
Arrangement.
Cycloconveyor belt 311 includes two groups of annular delivery sections, and it is detachable that 340 both ends of load-bearing part pass through fastener 360 respectively
Formula is mounted in two groups of annular delivery sections.
Clamping component 370 is provided between two groups of annular delivery sections, clamping component 370 is for clamping on load-bearing part 340
Fiber.
Each load-bearing part 340 respectively corresponds one group of clamping component 370 of setting in annular delivery section.
Clamping component 370 includes driving assembly and clamping element 381, and driving assembly drives clamping element 381 to move, clamping element
381 are in two states on cycloconveyor belt 311, first, clamping element 381 sticks on load-bearing part 340 work for compressing fiber
Make state, is convenient for removing the evacuation state of fiber second, clamping element 381 is detached from load-bearing part 340.
Clamping element 381 is plate-like piece, and 381 length direction of clamping element is consistent with 340 length direction of load-bearing part, clamping element 381
Length it is identical as the spacing between the fastener 360 on 340 both ends of load-bearing part.
Clamping element is provided with two groups, and driving assembly is mounted on cycloconveyor belt 311, and driving assembly drives two groups of clamping elements
381 rotations.
Driving assembly includes torsional spring 383, and 383 both ends stabilizer blade of torsional spring is separately fixed on two clamping elements 381, and 383 sets of torsional spring
It connects in fixing axle 384, fixing axle 384 is fixedly arranged on cycloconveyor belt 311, and torsional spring 383 applies around torsion two clamping elements 381
The power that spring 383 rotates, enables clamping element 381 to stick on load-bearing part 340 and compresses fiber.
Driving assembly further includes bracket 382, and bracket 382 is arranged in clamping element 381 far from 340 side of load-bearing part, bracket 382
Be provided with two, in two brackets 382 it is hinged, 382 one end of two stands is separately mounted on two clamping elements 381, right
When 382 other end of two stands applies the power being located remotely from each other, two clamping elements 381 rotate around torsional spring 383 and leave load-bearing part
340。
Driving assembly further includes pressure piece, and pressure piece is arranged in the discharge end of cycloconveyor belt 311, cycloconveyor belt 311
When conveying load-bearing part 340 by below pressure piece, pressure piece squeezes the one end of two stands far from load-bearing part, so that two stands 382
It rotates and then the rotation of clamping element 381 is driven to be detached from load-bearing part 340.
Transfer device 350 is provided with below cycloconveyor belt 311, transfer device 350 what is fallen off in fastener for holding
Holder 340 is transferred in activity carrier 331.
Transfer device 350 includes incorporating section 353, delivery section 352 and ejection part 351, and incorporating section 353 is for storing from card
The load-bearing part 340 to fall off on fastener 360, delivery section 352 are used to for load-bearing part 340 being transported to corresponding with movable load-bearing part 331
Position, ejection part 351 are used to make it fall into activity carrier 331 ejection of load-bearing part 340 in delivery section 352.
Incorporating section 353 is arranged in the feed side of cycloconveyor belt 311,353 upper end flare of incorporating section opening, incorporating section
353 opening, which is arranged in, is detached from 320 lower section of component, and 320 lower end of incorporating section is provided with the placing groove 353a for holding load-bearing part 340,
Placing groove 353a is open at one end, and the placing groove 353a other end is equipped with movable push 353c, and movable push 353c passes through driving part
353b driving is for releasing placing groove 353a for load-bearing part 340.
Delivery section 352 includes conveyer belt 352b, and conveyer belt 352b feed end is arranged on the downside of the open end placing groove 353a, defeated
Arranged for interval on band 353b is sent to have baffle 352a, the load-bearing part 340 released from incorporating section 353 falls on conveyer belt 352b and leads to
Cross baffle 352a limit.
Ejection part 351 includes mandril 351a, and mandril 351a and activity carrier 331 postpone arrangement, mandril 351a and activity
Carrier 331 is placed in the two sides conveyer belt 352b, and mandril 351a is in two states by actuator driving, first, mandril 351a
The working condition that load-bearing part 340 on conveyer belt 352b is ejected, second, mandril 351a from baffle 352a and conveyer belt 352b it
Between the evacuation state that is detached from.
Fiber is dehydrated polissoir at work, and fiber middles are ridden upon to the conveying section A in conveying device 130 first
On 151, fibre material both ends are in suspention shape arrangement downwards, and 151 conveying fiber of the conveying section A passes through plate 150, plate 150 first
Suspend fiber two in midair section support expansion, while spray equipment 140 elutes fiber, the fiber conveying after eluting passes through de-
Damping roller group 111, dehydration roller group 111 fiber is carried out to roll dehydration, roll dehydration after fiber be conveyed through smooth out with the fingers simultaneously roller
120, it smoothes out with the fingers and roller 120 smoothes out with the fingers the suspention figure of fiber two and to one side, be then conveyed through polishing roll 121,121 pairs of fibres of polishing roll
Dimension suspention figure is processed by shot blasting that the fiber after polishing treatment passes through material forwarding formations 140, first passes around guide part
141, the suspention of fiber two section is strutted, then suspention section in fiber side is directed to the conveying section B 152, and fiber side suspention section is set up
On the conveying section B 152, conveying fiber is continued in the conveying section B 152, and conveying fiber is smoothed out with the fingers and roller 120 is by fiber two by smoothing out with the fingers and roller 120
Suspention figure is smoothed out with the fingers and to one side, and polishing roll 121 is then conveyed through, and polishing roll 121 carries out at polishing fiber suspention figure
Reason rides upon the figure in conveying device 130 by changing fiber, the polishing treatment to fiber whole body section can be completed, right
When fiber smooth out with the fingers simultaneously and be polished, by the about bundle fiber of pressing device 150, fibre shedding, the chain in pressing device 150 are avoided
152 is identical as the direction of travel of conveying device 130 and speed, and is pressed on 130 conveyor surface of conveying device, to the fibre on conveyor surface
Dimension is compressed, and fiber passes through after polishing treatment, continues conveying fiber at device for discharging by conveying device 130.
At work, 130 conveying fiber of conveying device is to fiber serialization for fiber serialization device for discharging and material transfering device
Device for discharging is advanced, and 130 conveying fiber of conveying device passes through expansion part 210 first, and expansion part 210 supports fiber suspention section upwards
Expansion is played, conveying device 130 continues the fiber of conveying expansion, and the fiber of expansion is transported in carrier 231, the fibre of expansion
When 231 pop-up section of carrier is paved with by dimension, conveying device 130 is suspended, and conveyer belt 232 starts, and carrier 231 is mentioned upwards
It rises, while carrier 231 is lifted up, comb separating device 220 starts, and driving mechanism 222 drives male needle 221a and female needle
221b is moved to 130 two sides of conveying device, fiber and the fiber comb on support section in conveying device 130 is separated, when next
When a support section is risen on rear side of expansion part, conveyer belt 232 suspends, and conveying device 130 starts, and continues conveying fiber, will be unfolded
Fiber be transported in carrier 231, when conveyer belt 232 promotes carrier 231 to highest order, mentioned by material transfering device picking-up
It rising fiber middles and vacantly expects that body takes fiber away, carrier 231 passes through highest order, and the inoperative position state of shape is set up in rotation,
In rotation process, two sections of material bodies of fiber smooth out with the fingers suitable.
Ask section 231a when being promoted fiber below activity carrier 331 to above activity carrier, telescopic component
332 driving activity carrier 331 leave the hanging region of fiber material body, and the interference of activity carrier 331 is avoided to hinder support section
231a, which is promoted, holds up fiber.Support section 231a is stopped when promoting fiber to above activity carrier, and the driving of telescopic component 332 is lived
Dynamic carrier 331 enters the lower section in the hanging region of fiber material body.
At this point, before load-bearing part 340 is transported to activity carrier 331 by the delivery section 352 in transfer device 350, ejection part
Mandril 351a in 351 pushes up load-bearing part 340 into activity carrier 331.
After load-bearing part 340 enters in activity carrier 331,333 driving activity carrier 331 of lifting assembly and carrying
Part 340 rises, and in the process, load-bearing part 340 holds up the fiber being positioned above, and load-bearing part 340 is simultaneously hanging from fiber middles
Region passes through, and conveyer belt 232, which promotes carrier 231, passes through highest order, smoothes out with the fingers to 340 liang of suspention section fibre material bodies of load-bearing part
It is suitable.
Fiber middles ride upon on load-bearing part 340, and fiber both ends are in suspention shape arrangement downwards, then will pass through lifting assembly
333 jack up load-bearing part 340, and 340 both ends of load-bearing part snap fit onto the fastener 360 on cycloconveyor belt 311, carry simultaneously
The load-bearing part of fiber snaps onto two plate clamping elements 381, applies pressure to two plate clamping elements 381 by torsional spring 383 and makes
Clamping element 381, which sticks on load-bearing part 340, compresses fiber, and then cycloconveyor belt 311 is defeated by the load-bearing part 340 for carrying fiber
It sees off, is transported in subsequent processing and fiber is processed, the fiber after completing the process, cycloconveyor belt 311 continues to convey,
When being transported to delivery end, by pressure piece, pressure piece is a ramp member, and when bracket 382 is by inclined-plane, inclined-plane is to bracket
382 apply the power that 382 both ends of bracket are located remotely from each other, and 382 other end of bracket is connect with clamping element 381, and obtains folder
Tight part 381 rotates, so that clamping element 381 leaves load-bearing part 340, at this moment removing fiber can be completed the work of discharging taking-up, branch
After inclined-plane, bracket 382 resets frame 382, and cycloconveyor belt 311 conveys load-bearing part 340 and clamping component shuttling movement, fortune
Before moving above support section 231a, load-bearing part 340 is removed by being detached from component 320, when moving to above support section, is repeated
Above-mentioned steps can be completed serialization circulation and turn material transportation work, and cycloconveyor belt 311 is run, and load-bearing part 340 and fiber is defeated
It is sent in subsequent processing, in subsequent processing, fiber is removed, and cycloconveyor belt 311 drives the circulation fortune of load-bearing part 340 again
It is dynamic, before moving to above device for discharging, moves to and be detached from 320 downside of component.
Mandril applies the power to 360 bayonet direction of fastener to load-bearing part 340 in disengaging component 320, so that load-bearing part 340
It being detached from fastener 360, the load-bearing part 340 after being detached from fastener 360 falls, it drops into the opening of incorporating section upper end,
It later falls into the placing groove 353a into incorporating section.
The movable push 353c of the one end placing groove 353a passes through the driving of driving part 353b, and the release of load-bearing part 340 is put
Slot 353a is set, load-bearing part 340 drops on conveyer belt 352b, and limits by baffle 352a, and conveyer belt 352b conveys load-bearing part
340, which move to position corresponding with movable load-bearing part 331, suspends, and then repeats the above steps, automation serialization can be realized
Discharging and circulation turn material a job.
In fiber dehydration polissoir, the present invention realizes the conveying function of fiber by the conveying device 130 of setting;
Fiber suspention section is strutted by plate 150 and is eluted convenient for spray equipment 140, fiber is sprayed by spray equipment 140
Processing;By the polishing roll 121 of setting, 121 roll surface of polishing roll for realizing rotation contacts progress with two suspention sections of fibre material
Polishing;By the material forwarding formations 140 of setting, realizes that place is set up in fiber change, be easy to implement the polishing to fiber whole body section
Processing;By the simultaneously roller 122 of smoothing out with the fingers of setting, realization before polishing smoothes out with the fingers fiber suspention section and to one side, is convenient for subsequent polishing
Progress;By polishing roll 121 along the conveying direction arranged for interval of conveying device 130, each polishing roll 131 can be to fibre material
Different figures polished;By the pressing device 150 of setting, it can be realized and fibre material is constrained in conveying device 130
Conveyer belt on, avoid fibre shedding, guarantee polishing stablize carry out;By the plate 170 of setting, set up for being unfolded
Fiber is also convenient for cooperation spray equipment 160 and elutes to fiber not only convenient for the dehydration of subsequent dehydration roller group 111;
By the dehydration roller group 111 of setting, realization carries out fibre material to roll dehydration;Roller group is dehydrated by spaced multiple groups
111, it realizes and dehydration is repeatedly rolled to fiber;By the spacing between two dehydration rolls in dehydration roller group 111 along conveying device 130
Conveying direction gradually reduce, realization increase dewatering pressure step by step, further improve dehydrating effect;By being dehydrated roller group
The floating setting of upper dehydration roll 111a, realization roll dehydration to the elasticity of fibre material in 111;Pass through the burnishing device of setting
120, realize the polishing treatment to fiber.
In fiber serialization device for discharging, by the setting of conveying device 130, it is used for conveying fiber, by holding in the palm section
Setting, hold in the palm section in motion process from top to bottom, by with fiber suspend in midair section contact and picking-up, realize by fiber from
It is taken out in conveying device 130, by holding in the palm the arranged for interval up and down of section, can be realized the fibre for constantly conveying conveying device 130
Dimension take out, by the setting of carrier 231 and mobile mechanism 230, be easy to implement, by carrier 231 on conveyer belt 232 not
With the arrangement of state, the space that carrier 231 occupies is saved, carrier 231, can be effective by the design of mesh-plate structure
Mitigate own wt, side of the carrier 231 far from conveyer belt 232 handles by fillet, effectively avoid side and cut off
The problem of hurting fiber is realized fiber suspention section holding up expansion, and be oriented to carrier 231, make by the way that the setting of part 210 is unfolded
It obtains carrier 231 and preferably holds up fiber, guarantee the stabilization of operation, it, being capable of conveying device by combing the setting of separating device 220
Fiber comb on fiber and carrier 231 on 130 separates, and avoids person's adhesion between fiber, fibre shedding etc. is caused to be asked
Stablizing and going on smoothly for operational process is effectively guaranteed in topic.
In fiber serialization material transfering device, by 340 bearing fiber of load-bearing part, is driven, will be held by hoisting mechanism 330
Holder 340 and fiber are lifted up, so that fiber leaves device for discharging 200, by the driving of transfer device 310, so that carrying
Part 340 and fiber are transferred in subsequent processing far from device for discharging 200;By load-bearing part 340 horizontal plane projected length
Greater than the hanging region of fiber middles in the projected length of horizontal plane, load-bearing part 340 is in the both ends of the projection of horizontal plane stretching fiber
The hanging region in middle part enables load-bearing part 340 that the fiber on section 231a will be ask all to hold in the palm in the setting of the projection of horizontal plane
It rises, avoids omitting;Load-bearing part sequentially moves from top to bottom, can be realized serialization and holds up fiber;Pass through setting for lifting assembly 333
It sets, carries component for going up and down support, by the setting of carrier component, carry load-bearing part 340 for holding in the palm;Pass through telescopic component 332
Setting, for driving the stretching motion of activity carrier 331, for evacuation state and work to be arrived in the driving of activity carrier 331
State carries load-bearing part 340 for holding in the palm by the setting of activity carrier 331;By the setting of cycloconveyor belt 311, for driving
Dynamic 340 iterative motion of load-bearing part, load-bearing part 340 are removably mounted on cycloconveyor belt 311, can be realized load-bearing part
311 disassembly so that load-bearing part 340 is proposing that switching is quick between mechanism 330 and transfer device 310, while being also convenient for carrying
The repetitive cycling of part 340 uses, by load-bearing part 340 on cycloconveyor belt arranged for interval, it is fine to can be realized serialization transfer
Dimension;By the setting of fastener 360, so that load-bearing part 340 and the detachable connection of cycloconveyor belt 311 are easy to implement;It is logical
The bayonet for crossing setting and fastener 360 that load-bearing part 340 is rod-like element is directed toward back 311 side of cycloconveyor belt, fastener
360 bayonet is in the setting of closing, so that load-bearing part 340 dismounts efficient and convenient, dismounting movement is simple, is easy to implement;Pass through
It is detached from the setting of component 320, carrier 340 is detached from from fastener 360 towards bayonet direction, is detached from fast, together
When be detached from component 320 and be made up of mandril and extensible member, be easy to implement, implement to be easy.
By the setting of load-bearing part 340, it is used for bearing fiber, load-bearing part 340 to be removably mounted to by fastener 360
On cycloconveyor belt 311, load-bearing part 340 is dismantled from cycloconveyor belt 311, is easily carried the repetition benefit of part 340
With being also convenient for realizing switching of the load-bearing part 340 in different institutions;Pass through the detachable of 340 both ends of load-bearing part and fastener 360
Connection, position of the one load-bearing part 340 between fastener 360 can be used in bearing fiber, while fastener 360 can also
Fiber is avoided to skid off from 340 both ends of load-bearing part, the two is arranged in this manner, can guarantee that load-bearing part 340 is conveyed in annular
With the stable conveying on 311, prevent load-bearing part 340 from falling off;By the setting of clamping component 370, so that clamping on load-bearing part 340
Fiber, avoid the problem that fiber is easy to fall off, while being also convenient for processing fiber;Distinguished by each load-bearing part 340
The setting of corresponding one group of clamping component 370 realizes that load-bearing part 340 and clamping component 370 are independently arranged in groups, each other mutually not
Interference, while convenient for the progress of subsequent handling and unloading work;Pass through the setting of driving assembly and clamping element 381, Neng Goushi
The working condition of the clamping of existing clamping element and the evacuation state of release, when working condition, the progress of process easy to process avoids fibre
Dimension falls off, and when avoiding state, the progress of work is taken out convenient for discharging, is removed from load-bearing part 340 convenient for fiber;Pass through plate-like piece
Setting, be easy to implement, while the fastener 360 at 381 both ends of plate clamping element and 340 both ends of load-bearing part will be against can will hold
The fiber carried in holder 340 all clamps, and avoids losing;By the way that two groups of clamping elements 381 are arranged, on the one hand effectively improve
Clamping effect, then two groups of clamping element rotations are driven by driving assembly, so that turning between clamping element working condition and evacuation state
It changes efficient and convenient;It by the setting of torsional spring 383, realizes and is easy, can effectively realize the working condition of clamping element, without providing
Extrinsic motive, can be realized to stick on clamping element 381 on load-bearing part 340 and compresses fiber;By the setting of bracket 382, and lead to
The connection between the hinged and bracket 382 between two stands 382 and clamping element 381 is crossed, it can be by applying to bracket 382
The power being located remotely from each other can rotate clamping element 381, away from load-bearing part 340, take out convenient for fiber;Pass through pressure piece
Setting, for applying the power being located remotely from each other to bracket 382, so that clamping element 381 rotates, it is convenient to realize, implements to be easy.
By the design of transfer device 350, it can be realized the load-bearing part 340 that will be fallen off and be transferred in activity carrier 331,
The repetitive cycling for being easily carried part 340 uses;By the setting of incorporating section 353, the load-bearing part 340 that falls off from fastener 360
It drops into the opening of 353 upper end of incorporating section, later falls into the placing groove 353a of incorporating section 353, placing groove 353a first
The movable push 353c of one end is driven by driving part 353b and releases carrier 340 from the opening of the other end;Pass through conveying
The setting in portion 352, the load-bearing part 340 released out of placing groove 353a are dropped on conveyer belt 352b, are limited by baffle 352a;
By the setting of ejection part 351, the mandril 351a in ejection part 351 ejects the load-bearing part 340 that delivery section is transported to its front end,
It pushes up in activity carrier 331.
The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art
For member, without departing from the principle of the present invention, it can also make several improvements and retouch, these improvements and modifications are also answered
It is considered as protection scope of the present invention.Structure, device and the operating method for not specifically describing and illustrating in the present invention, such as nothing
It illustrates and limits, implemented according to the conventional means of this field.
Claims (10)
1. a kind of fiber is dehydrated polishing method, which is characterized in that include the following steps, step 1: fibre material being ridden upon defeated
It send on device;Step 2: conveying device conveying fiber material is carried out dehydrating;Step 3: conveying device conveying fiber material
It is processed by shot blasting;Fibre material is removed after completing.
2. fiber according to claim 1 is dehydrated polishing method, which is characterized in that in step 1, the middle part of fibre material
It sets up on a conveyor, both ends are in suspention shape arrangement downwards.
3. fiber according to claim 2 is dehydrated polishing method, which is characterized in that in step 2, using rolling dehydration
Mode is carried out dehydrating fibre material transported on the transport device.
4. fiber according to claim 2 is dehydrated polishing method, which is characterized in that in step 2, using rolling dehydration
Mode carries out fibre material repeatedly to roll dehydration.
5. fiber according to claim 4 is dehydrated polishing method, which is characterized in that roll what dehydration applied to fibre material
Pressure is incremented by step by step along the conveying direction of conveying device.
6. fiber according to claim 2 is dehydrated polishing method, which is characterized in that using dehydration roll arranged up and down to fibre
Dimension material carries out rolling dehydration, and the dehydration roll fixed and arranged of lower section, the dehydration roll of top, which floats, arranges have on the dehydration roll of top
There is active force, so that the dehydration roll of top is pressed to always the dehydration roll of lower section, realizes and elasticity is carried out to the fibre material passed through
Roll dehydration.
7. fiber according to claim 2 is dehydrated polishing method, which is characterized in that in step 3, using revolving body surface
The mode contacted with fibre material is polished, and the length direction of revolving body and the conveying direction of conveying device are consistent, rotation
Revolving body surface is contacted with two suspention sections of fibre material and is polished.
8. fiber according to claim 7 is dehydrated polishing method, which is characterized in that revolving body is along the conveying side of conveying device
To arranged for interval, each revolving body surface polishes the different figures of fibre material.
9. fiber according to claim 8 is dehydrated polishing method, which is characterized in that connect in fibre material and revolving body surface
Before touching, the two of fibre material suspention sections are smoothed out with the fingers and to one side, convenient for subsequent polishing treatment.
10. fiber according to claim 1 is dehydrated polishing method, which is characterized in that also include the following features one in A-F
Person or a few persons:
A: during fibre material is polished, the means transferred using material are by fibre material from the previous of conveying device
Conveying section is transferred to latter conveying section, and set up place of the fibre material on the previous conveying section of conveying device and latter conveying section is not
Together, convenient for being polished to fibre material whole body section;
B: by arranging that guide part, fibre material are previous with conveying device in the previous conveying section of conveying device and latter conveying section
The suspention section of fibre material is constantly supported expansion, the fiber of spread is supported to take again by the continuous traveling of conveying section, guide part
It is set on the latter conveying section of conveying device, can be completed and change the transfer work that fiber sets up place;
C: when conveying device conveying fiber material is processed by shot blasting, fibre material is constrained on the conveyer belt of conveying device;
D: by using sprocket wheel chain mechanism, chain side on the conveyor belt, the direction of travel of chain and the conveying side of conveying device
To consistent, realize that chain constrains fibre material on the conveyor belt;
E: before dehydration, conveying device conveying fiber material also needs to carry out elution processing fibre material;
F: by using spray equipment, the spray head in spray equipment constantly sprays cleaning solution to fibre material, realizes elution processing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910144072.6A CN109811482B (en) | 2019-02-27 | 2019-02-27 | Fiber dehydration polishing method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910144072.6A CN109811482B (en) | 2019-02-27 | 2019-02-27 | Fiber dehydration polishing method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN109811482A true CN109811482A (en) | 2019-05-28 |
CN109811482B CN109811482B (en) | 2023-12-26 |
Family
ID=66607488
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201910144072.6A Active CN109811482B (en) | 2019-02-27 | 2019-02-27 | Fiber dehydration polishing method |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109811482B (en) |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2001060566A1 (en) * | 2000-02-17 | 2001-08-23 | Nippon Paper Industries Co., Ltd. | Roll polishing device and roll polishing method |
US20060156476A1 (en) * | 2002-12-02 | 2006-07-20 | Arnold Lyndon N H | Mercerisation of cellulosic fibres |
KR20130041632A (en) * | 2011-10-17 | 2013-04-25 | (재)한국섬유소재연구소 | Both sides polishing apparatus for textile fabric |
CN103806236A (en) * | 2014-01-09 | 2014-05-21 | 绍兴国周纺织新材料有限公司 | Continuous drying squeezing device for loose fibers |
CN105648539A (en) * | 2016-04-01 | 2016-06-08 | 钟秋汉 | Method and equipment for processing sisal leaves |
CN108714849A (en) * | 2018-08-20 | 2018-10-30 | 苏州存异新材料科技有限公司 | A kind of textile fabric processing polishing roll |
CN208055632U (en) * | 2018-01-16 | 2018-11-06 | 绍兴国周针织科技有限公司 | A kind of staple in bulk processing unit |
-
2019
- 2019-02-27 CN CN201910144072.6A patent/CN109811482B/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2001060566A1 (en) * | 2000-02-17 | 2001-08-23 | Nippon Paper Industries Co., Ltd. | Roll polishing device and roll polishing method |
US20060156476A1 (en) * | 2002-12-02 | 2006-07-20 | Arnold Lyndon N H | Mercerisation of cellulosic fibres |
KR20130041632A (en) * | 2011-10-17 | 2013-04-25 | (재)한국섬유소재연구소 | Both sides polishing apparatus for textile fabric |
CN103806236A (en) * | 2014-01-09 | 2014-05-21 | 绍兴国周纺织新材料有限公司 | Continuous drying squeezing device for loose fibers |
CN105648539A (en) * | 2016-04-01 | 2016-06-08 | 钟秋汉 | Method and equipment for processing sisal leaves |
CN208055632U (en) * | 2018-01-16 | 2018-11-06 | 绍兴国周针织科技有限公司 | A kind of staple in bulk processing unit |
CN108714849A (en) * | 2018-08-20 | 2018-10-30 | 苏州存异新材料科技有限公司 | A kind of textile fabric processing polishing roll |
Also Published As
Publication number | Publication date |
---|---|
CN109811482B (en) | 2023-12-26 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106914362A (en) | A kind of ceramic tile overturns automatic waxing equipment | |
CN109706662A (en) | A kind of fiber dehydration polissoir | |
CN109702628A (en) | A kind of burnishing device for fiber | |
CN209665070U (en) | Burnishing device | |
CN109811482A (en) | A kind of fiber dehydration polishing method | |
CN209582904U (en) | Material transfering device | |
CN209582905U (en) | Continuous discharge device | |
CN110465893A (en) | A kind of waste and old spring recycling secondary operation device of mattress | |
CN109720827A (en) | A kind of fiber serialization device for discharging | |
CN209741430U (en) | Fiber dewatering and polishing equipment | |
CN209582696U (en) | One kind turning material conveyer belt | |
CN209425701U (en) | It is a kind of to send trigger with clearing function | |
CN209349180U (en) | A kind of ultrasonic cleaning drying line | |
CN207986171U (en) | A kind of glass cleaning drier | |
CN109665293A (en) | A kind of fiber serialization discharge method | |
CN109720828A (en) | Material transfering device | |
CN209407295U (en) | A kind of robot for mesh braiding | |
CN115448029A (en) | Stacker, sorting system and sorting method | |
CN109665259A (en) | Turn material conveyer belt | |
CN203652517U (en) | Textile material conveyor belt structure | |
CN109945617A (en) | A kind of fiber furnace drying method | |
CN203952305U (en) | A kind of steaming apparatus being exclusively used in tire chrysanthemum green-keeping machine | |
CN207873981U (en) | A kind of bent axle automatically grinding Working piece positioning device | |
CN105817972A (en) | Profiling machine for wood processing | |
CN207142407U (en) | The textile machines spool being conveniently replaceable |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |