CN109989202A - Scouring and bleaching production line multilayer cloth inlet mechanism - Google Patents
Scouring and bleaching production line multilayer cloth inlet mechanism Download PDFInfo
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- CN109989202A CN109989202A CN201910357777.6A CN201910357777A CN109989202A CN 109989202 A CN109989202 A CN 109989202A CN 201910357777 A CN201910357777 A CN 201910357777A CN 109989202 A CN109989202 A CN 109989202A
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- cloth
- mesh belt
- multilayer
- tight
- banks
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- 239000004744 fabric Substances 0.000 title claims abstract description 850
- 230000007246 mechanism Effects 0.000 title claims abstract description 700
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 27
- 238000004061 bleaching Methods 0.000 title claims abstract description 26
- 238000009991 scouring Methods 0.000 title claims abstract description 26
- 230000005622 photoelectricity Effects 0.000 claims abstract description 60
- 238000000034 method Methods 0.000 claims abstract description 26
- 230000008569 process Effects 0.000 claims abstract description 16
- 239000003638 chemical reducing agent Substances 0.000 claims description 17
- 238000007667 floating Methods 0.000 claims description 12
- 230000002459 sustained effect Effects 0.000 claims description 12
- 238000003825 pressing Methods 0.000 claims description 11
- 230000013011 mating Effects 0.000 claims description 2
- 230000008901 benefit Effects 0.000 abstract description 4
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 193
- 238000005406 washing Methods 0.000 description 154
- 238000007598 dipping method Methods 0.000 description 71
- 238000007599 discharging Methods 0.000 description 65
- 238000005273 aeration Methods 0.000 description 30
- 239000007921 spray Substances 0.000 description 21
- 238000006073 displacement reaction Methods 0.000 description 20
- 238000010586 diagram Methods 0.000 description 18
- 238000001914 filtration Methods 0.000 description 17
- 238000005192 partition Methods 0.000 description 16
- 239000010865 sewage Substances 0.000 description 13
- 229920000742 Cotton Polymers 0.000 description 8
- 238000003892 spreading Methods 0.000 description 6
- 230000007480 spreading Effects 0.000 description 6
- 230000005540 biological transmission Effects 0.000 description 5
- 230000000694 effects Effects 0.000 description 5
- 238000002386 leaching Methods 0.000 description 5
- 239000007789 gas Substances 0.000 description 4
- 238000005096 rolling process Methods 0.000 description 3
- 238000010025 steaming Methods 0.000 description 3
- 239000002351 wastewater Substances 0.000 description 3
- 230000008859 change Effects 0.000 description 2
- 238000004043 dyeing Methods 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 239000000243 solution Substances 0.000 description 2
- 238000005507 spraying Methods 0.000 description 2
- 239000002699 waste material Substances 0.000 description 2
- 238000004804 winding Methods 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 238000003491 array Methods 0.000 description 1
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 1
- 238000005282 brightening Methods 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 239000012535 impurity Substances 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000006210 lotion Substances 0.000 description 1
- 239000002932 luster Substances 0.000 description 1
- 238000009992 mercerising Methods 0.000 description 1
- 239000001301 oxygen Substances 0.000 description 1
- 229910052760 oxygen Inorganic materials 0.000 description 1
- 239000000049 pigment Substances 0.000 description 1
- 238000010992 reflux Methods 0.000 description 1
- 230000006641 stabilisation Effects 0.000 description 1
- 238000011105 stabilization Methods 0.000 description 1
- 238000003860 storage Methods 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
- 239000012224 working solution Substances 0.000 description 1
Classifications
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/02—Rollers
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/02—Rollers
- D06B23/021—Compressive rollers
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/02—Rollers
- D06B23/023—Guiding rollers
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/04—Carriers or supports for textile materials to be treated
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B23/00—Component parts, details, or accessories of apparatus or machines, specially adapted for the treating of textile materials, not restricted to a particular kind of apparatus, provided for in groups D06B1/00 - D06B21/00
- D06B23/08—Untwisting devices
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06B—TREATING TEXTILE MATERIALS USING LIQUIDS, GASES OR VAPOURS
- D06B3/00—Passing of textile materials through liquids, gases or vapours to effect treatment, e.g. washing, dyeing, bleaching, sizing, impregnating
- D06B3/34—Driving arrangements of machines or apparatus
- D06B3/345—Means for controlling the tension in the textile material
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Treatment Of Fiber Materials (AREA)
Abstract
The present invention relates to a kind of scouring and bleaching production line multilayer cloth inlet mechanisms, including multilayer cloth inlet mechanism rack, left section of multilayer cloth inlet mechanism rack is disposed with multiple spaced apart uncoil-stands from left to right, right section of the multilayer cloth inlet mechanism rack is provided with multiple multilayer cloth inlet mechanism photoelectricity centralising devices from right-to-left, multilayer cloth inlet mechanism draw-out roller is provided with immediately below the photoelectricity centralising device, tight cloth apparatus and multiple gap bridge fabric guide rolls are respectively arranged between multiple uncoil-stands and multiple photoelectricity centralising devices, multiple fabrics pass through the debatching simultaneously of multiple uncoil-stands respectively, through tension cloth apparatus, multiple gap bridge fabric guide rolls, photoelectricity centralising device, it is stacked by multilayer cloth inlet mechanism draw-out roller cloth outputting and from top to bottom, into in next process.A kind of scouring and bleaching production line multilayer cloth inlet mechanism of the invention has the advantages that heap cloth even uniform, is not likely to produce gauffer, high production efficiency, it can be achieved that debatching, stretching, extension, the conveying simultaneously of multiple yardage rolls.
Description
Technical field
The present invention relates to a kind of scouring and bleaching production line multilayer cloth inlet mechanisms, belong to dyeing apparatus technical field.
Background technique
Fabric process is moved back, boiled, floating or the processes such as mercerising, and most of natural and artificial impurity has removed on fabric, capillary
Tube effect significantly improves, and has been able to satisfy the processing request of some kinds.But to the light figured cloth of white goods and lovely luster, color
Dry goods, it is also necessary to improve whiteness, therefore need to further remove the pigment on fabric by scouring and bleaching technique, keep fabric relatively white.
Scouring and bleaching technique is one of fabric brightening process in dyeing, and the fabric for needing scouring and bleaching is immersed in washing lotion and is rinsed.Mesh
Before, many defects such as traditional scouring and bleaching production line cloth inlet mechanism there are heap cloth uneven, difficult opposite side, production efficiency are low cause to look forward to
The economic benefit of industry, which is unable to get, to be effectively improved.
Summary of the invention
The technical problem to be solved by the present invention is to provide a kind of heap cloth even uniform for the above-mentioned prior art, be not easy to produce
The scouring and bleaching production line multilayer cloth inlet mechanism of raw gauffer, high production efficiency.
The present invention solves the above problems used technical solution are as follows: a kind of scouring and bleaching production line multilayer cloth inlet mechanism, including
Multilayer cloth inlet mechanism rack, left section of the multilayer cloth inlet mechanism rack are disposed with multiple spaced apart move back from left to right
Winding apparatus is provided with fabric in the uncoil-stand, and right section of the multilayer cloth inlet mechanism rack is provided with multiple from right-to-left
Multilayer cloth inlet mechanism photoelectricity centralising device is provided with multilayer cloth inlet mechanism draw-out roller immediately below the photoelectricity centralising device, from
The multiple uncoil-stands and tightly arranged from being respectively arranged between multiple photoelectricity centralising devices that right-to-left arranges that left-to-right arranges
Set with multiple gap bridge fabric guide rolls, multiple fabrics respectively by multiple uncoil-stands simultaneously debatching, through tension cloth apparatus, multiple gap bridges
Fabric guide roll, photoelectricity centralising device, multiple fabrics are stacked on one by multiple multilayer cloth inlet mechanism draw-out roller cloth outputtings and from top to bottom
It rises, into next process.
Further, left section of the multilayer cloth inlet mechanism rack is disposed with spaced apart first from left to right
Uncoil-stand, the second uncoil-stand, third uncoil-stand and the 4th uncoil-stand, the first uncoil-stand, the second uncoil-stand,
The first fabric, the second fabric, third fabric and the 4th fabric are respectively arranged in three uncoil-stands and the 4th uncoil-stand, it is described
Right section of multilayer cloth inlet mechanism rack is disposed with the first photoelectricity pair of multilayer cloth inlet mechanism positioned at sustained height from left to right
Middle device, the second photoelectricity of multilayer cloth inlet mechanism centralising device, multilayer cloth inlet mechanism third photoelectricity centralising device and multilayer fabric feeding machine
The 4th photoelectricity centralising device of structure, the first photoelectricity of multilayer cloth inlet mechanism centralising device, the second photoelectricity centering of multilayer cloth inlet mechanism
The underface of the 4th photoelectricity centralising device of device, multilayer cloth inlet mechanism third photoelectricity centralising device and multilayer cloth inlet mechanism is set respectively
It is equipped with the first draw-out roller of multilayer cloth inlet mechanism, the second draw-out roller of multilayer cloth inlet mechanism, multilayer cloth inlet mechanism third draw-out roller, multilayer
The 4th draw-out roller of cloth inlet mechanism,
Multilayer cloth inlet mechanism first is provided between the 4th photoelectricity centralising device of first uncoil-stand and multilayer cloth inlet mechanism
Tight cloth apparatus and multiple the first gap bridge of multilayer cloth inlet mechanism fabric guide rolls, the tight cloth apparatus of the multilayer cloth inlet mechanism first are set to
In the multilayer cloth inlet mechanism rack in the oblique upper right side of the first uncoil-stand;Second uncoil-stand and multilayer cloth inlet mechanism third light
The tight cloth apparatus of multilayer cloth inlet mechanism second and multiple the second gap bridge of multilayer cloth inlet mechanism fabric guide rolls are provided between electric centralising device,
The tight cloth apparatus of the multilayer cloth inlet mechanism second is set in the multilayer cloth inlet mechanism rack in the oblique upper right side of the second uncoil-stand;Institute
It states and is provided with multilayer cloth inlet mechanism third between third uncoil-stand and multilayer cloth inlet mechanism the second photoelectricity centralising device and tightly arranges
It sets and is set to third debatching with multiple multilayer cloth inlet mechanism third gap bridge fabric guide rolls, the tight cloth apparatus of multilayer cloth inlet mechanism third
In the multilayer cloth inlet mechanism rack in the oblique upper right side of device;4th uncoil-stand and multilayer cloth inlet mechanism the first photoelectricity centering dress
The tight cloth apparatus of multilayer cloth inlet mechanism the 4th and multiple the 4th gap bridge fabric guide rolls of multilayer cloth inlet mechanism, the multilayer are provided between setting
The tight cloth apparatus of cloth inlet mechanism the 4th is set in the multilayer cloth inlet mechanism rack in the 4th oblique upper right side of uncoil-stand;
Further, the tight cloth apparatus of the multilayer cloth inlet mechanism first, the tight cloth apparatus of multilayer cloth inlet mechanism second, multilayer cloth feeding
The tight cloth apparatus of mechanism third, the tight cloth apparatus of multilayer cloth inlet mechanism the 4th use mutually isostructural tight cloth apparatus, the tight cloth apparatus
The tight cloth being arranged symmetrically including longitudinally arranged tight cloth apparatus fabric guide roll, longitudinally arranged tight cloth apparatus cloth pressing roller, two front and backs
The second cylinder of tight cloth apparatus, the longitudinally arranged tight tight cloth rewinder roll of cloth apparatus that the first cylinder of device, two front and backs are arranged symmetrically, it is described
The both ends of tight cloth apparatus fabric guide roll pass through two tight cloth apparatus selvage guide roll bearing seats respectively and are fixed in multilayer cloth inlet mechanism rack,
One end of tight cloth apparatus fabric guide roll is provided with tight cloth apparatus speed reducer, and the telescopic end of two the first cylinders of tight cloth apparatus is upward and is in
"/" is in tilted layout in the left side of tight cloth apparatus fabric guide roll, and the fixing end of tight the first cylinder of cloth apparatus passes through tight the first gas of cloth apparatus
Cylinder seat is installed in multilayer cloth inlet mechanism rack, and the tight cloth apparatus cloth pressing roller is set to the oblique upper right of tight cloth apparatus fabric guide roll
Side, the telescopic end of tight first cylinder of cloth apparatus be provided in " " the first swing arm of tight cloth apparatus for being in tilted layout, it is described tight
The both ends of cloth apparatus cloth pressing roller by tight cloth apparatus compress roll bearing seat be installed on two the first swing arms of tight cloth apparatus middle section it
Between, right section of tight the first swing arm of cloth apparatus is installed in multilayer cloth inlet mechanism rack by tight the first swing arm seat of cloth apparatus, and two
Tight the first swing arm seat of cloth apparatus is set to the right side of tight cloth apparatus fabric guide roll and front and back is arranged symmetrically;
The telescopic end of two the second cylinders of tight cloth apparatus is downward and is vertically arranged at the oblique lower right of tight cloth apparatus fabric guide roll, tight cloth
The fixing end of the second cylinder of device is installed on the upper section of multilayer cloth inlet mechanism rack by tight the second cylinder block of cloth apparatus, described tight
The tight cloth rewinder roll of cloth apparatus is set to the right of the telescopic end of two the second cylinders of tight cloth apparatus, and two tight the second cylinders of cloth apparatus are stretched
The left at contracting end is provided with longitudinally arranged tight cloth apparatus rotation axis, and the both ends of tight cloth apparatus rotation axis are turned by tight cloth apparatus
Moving axis bearing block is installed on the lower section of multilayer cloth inlet mechanism rack, and two sections of the front and back of the tight cloth apparatus rotation axis is set with oriented
The tight cloth apparatus floating shelf of right extension, tight cloth apparatus rotation axis can drive tight cloth apparatus floating shelf to rotate, and the tight cloth apparatus is tight
The both ends of cloth rewinder roll are installed between right section of two tight cloth apparatus floating shelf respectively by the tight cloth roll bearing seat of tight cloth apparatus, and two
The telescopic end of the second cylinder of tight cloth apparatus is provided with the second swing arm of tight cloth apparatus extended to the left, and two tight cloth apparatus second are put
Left section of arm is set in the front and back two axial ends of tight cloth apparatus rotation axis.
Further, the tight cloth apparatus of the multilayer cloth inlet mechanism first, the second tight cloth apparatus, multilayer cloth inlet mechanism third
Mesh belt is provided with below tight cloth apparatus, the tight cloth apparatus of multilayer cloth inlet mechanism the 4th and banks up mechanism, and the mesh belt banks up mechanism packet
Include that the mesh belt being vertically arranged banks up the first frame of mechanism and the mesh belt of lateral arrangement banks up the second frame of mechanism, the mesh belt is banked up
The first frame of mechanism is set to left section that mesh belt banks up the second frame roof of mechanism;
The mesh belt, which is banked up, to be set as mesh belt and banks up mechanism fabric input mouth at the top of the first frame of mechanism, and is located at the tight cloth of tight cloth apparatus
The underface of roller, the mesh belt bank up left section of the top of the first frame of mechanism and right section set up respectively in " " inclination
The mesh belt of arrangement banks up the first inclined plate of mechanism and banks up the second inclined plate of mechanism in the mesh belt that "/" is in tilted layout, and the mesh belt is banked up
The bottom that the first inclined plate of mechanism and mesh belt bank up the second inclined plate of mechanism be extended with separately down mesh belt bank up mechanism starting stave and
Mesh belt banks up the second riser of mechanism, wherein the bottom that mesh belt banks up mechanism starting stave extends downward into mesh belt and banks up mechanism
The upper section of one frame, mesh belt bank up the second riser of mechanism and extend downward into the middle section that mesh belt banks up the first frame of mechanism, the net
Band, which is banked up, to be provided with longitudinally arranged mesh belt and banks up mechanism heap cloth rewinder roll below the second riser of mechanism, mesh belt banks up mechanism heap cloth rewinder roll
Front and back two axial ends stretch out two wall surface of front and back that mesh belt banks up the first frame of mechanism respectively, and mechanism heap cloth rewinder roll is banked up by mesh belt
Bearing block is installed on the lower section that mesh belt banks up the first frame of mechanism, and the mesh belt banks up the roll surface of mechanism heap cloth rewinder roll along its circumference side
Mechanism cord is banked up to more longitudinally arranged mesh belts are equipped with, the mesh belt is banked up and is provided with mesh belt on the left of mechanism heap cloth rewinder roll
Mechanism arc plate is banked up, mechanism heap cloth rewinder roll is banked up towards mesh belt in the concave surface that the mesh belt banks up mechanism arc plate, and mesh belt is banked up
The top of mechanism arc plate is fixedly connected with the bottom that mesh belt banks up mechanism starting stave, and mesh belt banks up the bottom of mechanism arc plate
Extend downward into the intersection that mesh belt banks up the first frame of mechanism and mesh belt banks up the second frame of mechanism;
The mesh belt bank up right section of the second frame of mechanism and left section be respectively arranged with longitudinally arranged mesh belt bank up mechanism actively
Roller and longitudinally arranged mesh belt bank up mechanism passive guide roller, and the mesh belt banks up mechanism drive roll and mesh belt banks up mechanism passive guide roller position
In in same level, right section of the top that the mesh belt banks up the second frame of mechanism has set up mesh belt and has banked up mechanism gear
Plate, mesh belt bank up mechanism baffle and are located at the top that mesh belt banks up mechanism drive roll, and the mesh belt banks up mechanism passive guide roller and is located at net
Band banks up the lower section of the first frame of mechanism, and one end that the mesh belt banks up mechanism drive roll is provided with mesh belt and banks up mechanism deceleration
Machine, the mesh belt banks up mechanism drive roll and mesh belt is banked up and is set with mesh belt between mechanism passive guide roller and banks up mechanism foraminous conveyer,
The preceding shaft end that the mesh belt banks up mechanism passive guide roller is provided with mesh belt and banks up the first driving wheel of mechanism, banks up mechanism corresponding to mesh belt
Mesh belt on front side of heap cloth rewinder roll, which is banked up, to be provided with vertical mesh belt on the outer wall of the first frame of mechanism and banks up mechanism mounting base, the net
Band, which is banked up, to be offered mesh belt along its length and banks up mechanism waist type groove in mechanism mounting base, mesh belt is banked up to be set in mechanism waist type groove
It is equipped with mesh belt and banks up the second driving wheel of mechanism, the mesh belt banks up the second driving wheel of mechanism and mesh belt banks up the sliding of mechanism mounting base
Connection, the shaft end that the mesh belt that the mesh belt banks up outer wall before the first frame of mechanism banks up mechanism heap cloth rewinder roll are provided with mesh belt and bank up machine
Structure third driving wheel, the mesh belt banks up the first driving wheel of mechanism and mesh belt is banked up and is set with mesh belt between the second driving wheel of mechanism
Mechanism driving band is banked up, the mesh belt banks up mechanism third driving wheel and mesh belt banks up the mating connection of mechanism driving band.
Further, first draw-out roller of multilayer cloth inlet mechanism, the second draw-out roller of multilayer cloth inlet mechanism, multilayer cloth feeding
Mechanism third draw-out roller, the 4th draw-out roller of multilayer cloth inlet mechanism are located at sustained height.
Further, the tight cloth apparatus of the multilayer cloth inlet mechanism first, the tight cloth apparatus of multilayer cloth inlet mechanism second, multilayer
The tight cloth apparatus of cloth inlet mechanism third, the tight cloth apparatus of multilayer cloth inlet mechanism the 4th are located at sustained height.
Further, the tight cloth apparatus of the multilayer cloth inlet mechanism first, the tight cloth apparatus of multilayer cloth inlet mechanism second, multilayer
The tight cloth apparatus of cloth inlet mechanism third, the tight cloth apparatus of multilayer cloth inlet mechanism the 4th are located at sustained height.
Compared with the prior art, the advantages of the present invention are as follows:
A kind of scouring and bleaching production line multilayer cloth inlet mechanism of the invention is, it can be achieved that the debatching simultaneously of multiple yardage rolls, stretching, extension, above and below multilayer fabric
It is overlapped to stack and be delivered in next procedure, to improve production efficiency, and during progress, heap cloth even uniform is not easy to produce
Raw gauffer, promotes the quality of fabric.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of multilayer scouring and bleaching production line of the present invention.
Fig. 2 is the structural schematic diagram of multilayer cloth inlet mechanism.
Fig. 3 is the structural schematic diagram of tight cloth apparatus.
Fig. 4 is the structural schematic diagram that mesh belt banks up mechanism.
Fig. 5 is the structural schematic diagram of pre- tank-washer.
Fig. 6 is the structural schematic diagram for repeatedly padding mechanism.
Fig. 7 is the structural schematic diagram of high-capacity squeezer.
Fig. 8 is the structural schematic diagram of dipping box.
Fig. 9 is the structural schematic diagram that two rollers close padding machine.
Figure 10 is the side view of Fig. 9.
Figure 11 is the structural schematic diagram of mesh belt steam box.
Figure 12 is the structural schematic diagram of mesh belt heap cloth wheel apparatus.
Figure 13 is the cross-sectional view of A-A in Figure 12.
Figure 14 is the structural schematic diagram of water washing mechanism.
Figure 15 is the structural schematic diagram of water washing chamber.
Figure 16 is the structural schematic diagram of spray equipment.
Figure 17 is the side view of water washing chamber and filter device.
Figure 18 is the structural schematic diagram of filter device.
Figure 19 is the side view of Figure 18.
Figure 20 is the structural schematic diagram of multilayer cloth-discharging mechanism.
Figure 21 is the structural schematic diagram of clot sub-wire device.
Figure 22 is the top view of clot sub-wire device.
Figure 23 is the top view of the double-deck aeration tank.
Figure 24 is the front view of the double-deck aeration tank.
Figure 25 is the structural block diagram of sewage disposal system.
Wherein:
Multilayer cloth inlet mechanism 100, multilayer cloth inlet mechanism rack 101, the first uncoil-stand 102, the second uncoil-stand 103, third
Uncoil-stand 104, the 4th uncoil-stand 105, the first photoelectricity of multilayer cloth inlet mechanism centralising device 106, multilayer cloth inlet mechanism second
Photoelectricity centralising device 107, multilayer cloth inlet mechanism third photoelectricity centralising device 108, the 4th photoelectricity centralising device of multilayer cloth inlet mechanism
109, the tight cloth apparatus 110 of multilayer cloth inlet mechanism first, tight cloth apparatus fabric guide roll 110.1, tight cloth apparatus cloth pressing roller 110.2, tight cloth
The first cylinder of device 110.3, the second cylinder of tight cloth apparatus 110.4, tight cloth apparatus speed reducer 110.5, the first swing arm of tight cloth apparatus
110.6, tight the first swing arm seat of cloth apparatus 110.7, the first cylinder block of tight cloth apparatus 110.8, the tight cloth rewinder roll 110.9 of tight cloth apparatus, tight
The second cylinder block of cloth apparatus 110.10, tight cloth apparatus rotation bearing housing 110.12, tightly arranges tight cloth apparatus floating shelf 110.11
Set the second swing arm 110.13, the first gap bridge of multilayer cloth inlet mechanism fabric guide roll 111, the tight cloth apparatus 112 of multilayer cloth inlet mechanism second, more
Layer the second gap bridge of cloth inlet mechanism fabric guide roll 113, the tight cloth apparatus 114 of multilayer cloth inlet mechanism third, multilayer cloth inlet mechanism third are passed a bridge
Fabric guide roll 115, the tight cloth apparatus 116 of multilayer cloth inlet mechanism the 4th, the 4th gap bridge fabric guide roll 117 of multilayer cloth inlet mechanism, multilayer cloth feeding
The first draw-out roller of mechanism 118, the second draw-out roller of multilayer cloth inlet mechanism 119, multilayer cloth inlet mechanism third draw-out roller 120, multilayer into
The 4th draw-out roller 121 of cloth mechanism
Pre- tank-washer 200, prewashing box body 201, fabric guide roll 203 under fabric guide roll 202, pre- tank-washer on pre- tank-washer
Mechanism 300 is repeatedly padded, mechanism high-capacity squeezer 301 is repeatedly padded, repeatedly pads mechanism high-capacity squeezer rack 301.1, is more
It is secondary to pad mechanism high-capacity squeezer topping roll 301.2, repeatedly pad mechanism high-capacity squeezer bottom roll 301.3, repeatedly pad mechanism height
Effect padding machine supporting plate 301.4 repeatedly pads mechanism high-capacity squeezer cylinder 301.5, repeatedly pads mechanism high-capacity squeezer cylinder block
301.6, dipping box 302, dipping box body 302.1, fabric guide roll 302.3, dipping under fabric guide roll 302.2, dipping box on dipping box
Case jockey pulley 302.4, dipping box adjust cylinder 302.5, dipping box adjustment axis 302.6, dipping box straight displacement elastic devices 302.7, dipping box
Swing arm 302.8 repeatedly pads two roller of mechanism closing padding machine 303, repeatedly pads two roller of mechanism closing padding machine cabinet 303.1, is multiple
Two roller of mechanism closing padding machine topping roll 303.2 is padded, two roller of mechanism closing padding machine bottom roll 303.3 is repeatedly padded, repeatedly pads
Two roller of mechanism closing padding machine speed reducer 303.4 repeatedly pads two roller of mechanism closing padding machine bracket 303.5, repeatedly pads mechanism two
Roller closing padding machine cylinder 303.6 repeatedly pads two roller of mechanism closing padding machine swing arm 303.7, repeatedly pads two roller of mechanism and close and roll
Vehicle spreading roll 303.8 repeatedly pads two roller of mechanism closing padding machine fabric guide roll 303.9
Mesh belt steam box 400, mesh belt steam box cabinet 401, net belt conveying apparatus drive roll 402, net belt conveying apparatus passive guide roller 403,
Net belt conveying apparatus foraminous conveyer 404, mesh belt heap cotton piece buff device guiding roller 405, mesh belt heap cloth wheel apparatus heap cloth rewinder roll 406, mesh belt
Heap cloth wheel apparatus circular arc guide plate 407, mesh belt heap cloth wheel apparatus motor 408, mesh belt heap cloth wheel apparatus motor cabinet 409, mesh belt heap
Cotton piece buff device annular slab 410
Water washing mechanism 500, water washing mechanism high-capacity squeezer 501, water washing chamber 502, washing box body 502.1, water washing chamber water inlet
502.2, water washing chamber water outlet 502.3, fabric guide roll 502.5, water washing chamber jockey pulley under fabric guide roll 502.4, water washing chamber on water washing chamber
502.6, water washing chamber adjusts cylinder 502.7, water washing chamber adjustment axis 502.8, water washing chamber straight displacement elastic devices 502.9, water washing chamber swing arm
502.10, water washing chamber water-stop sheet 502.11, spray equipment 502.12, spray tube 502.12.1, spray equipment waterproof casing
502.12.2, spray equipment water receiving pipe 502.12.3, water washing chamber water inlet 502.13, first circulation water pipe 502.14, rinsing machine
Two roller of structure closes padding machine 503
Multilayer cloth-discharging mechanism 600, multilayer cloth-discharging mechanism rack 601, the first clot sub-wire device 602, the support of clot sub-wire device
Frame 602.1, clot sub-wire device cursor 602.1.1, clot sub-wire device rotation axis 602.1.2, the connection of clot sub-wire device
Axis 602.1.3, clot sub-wire device fabric guide roll 602.2, clot sub-wire device sub-wire roller 602.3, clot sub-wire device cloth beam
602.4, clot sub-wire device A cabinet frame 602.5, the first drive sprocket of clot sub-wire device 602.6, clot sub-wire device second pass
Movable sprocket 602.7, clot sub-wire device chain 602.8, clot sub-wire device cylinder 602.9, clot sub-wire device speed reducer
602.10, the second clot sub-wire device 603, third clot sub-wire device 604, the 4th clot sub-wire device 605, multilayer cloth outputting machine
It is the tight cloth apparatus 606 of structure first, the tight cloth apparatus 607 of multilayer cloth-discharging mechanism second, the tight cloth apparatus 608 of multilayer cloth-discharging mechanism third, more
The tight cloth apparatus 609 of layer cloth-discharging mechanism the 4th, the first electrooptical device of multilayer cloth-discharging mechanism 610, the second photoelectricity of multilayer cloth-discharging mechanism dress
Set 611, multilayer cloth-discharging mechanism third electrooptical device 612, the 4th electrooptical device 613 of layer cloth-discharging mechanism, multilayer cloth-discharging mechanism cloth outputting
Roller 614, the first gap bridge of multilayer cloth-discharging mechanism fabric guide roll 615, the second gap bridge of multilayer cloth-discharging mechanism fabric guide roll 616, multilayer cloth outputting machine
Structure third gap bridge fabric guide roll 617, the 4th gap bridge fabric guide roll 618 of multilayer cloth-discharging mechanism
Mesh belt banks up mechanism 700, mesh belt banks up the first frame of mechanism 701, mesh belt banks up the second frame of mechanism 702, mesh belt is banked up
The first inclined plate of mechanism 703, mesh belt bank up the second inclined plate of mechanism 704, mesh belt banks up mechanism starting stave 705, mesh belt banks up mechanism
Second riser 706, mesh belt bank up mechanism heap cloth rewinder roll 707, mesh belt banks up mechanism cord 708, mesh belt banks up mechanism arc plate 709,
Mesh belt banks up mechanism drive roll 710, mesh belt banks up mechanism passive guide roller 711, mesh belt banks up mechanism mounting base 712, mesh belt banks up machine
The first driving wheel of structure 713, mesh belt bank up the second driving wheel of mechanism 714, mesh belt banks up mechanism foraminous conveyer 715, mesh belt banks up machine
Structure third driving wheel 716, mesh belt bank up mechanism driving band 717, mesh belt banks up mechanism baffle 718
Filter device 800, filter device cabinet 801, filter device bracket 802, filter device bottom bracket 803, filter device
Speed reducer 805, filter device water outlet 806, filter device water inlet 807, filter device under upper speed reducer 804, filter device
Partition 808, filter device fulcrum bearing 809, the first transmission shaft of filter device 810, filter device brush roll 811, filter device filter
Net roll 812, filter device second driving shaft 813, filter device flange sleeve 814, filter device guide plate 815, filter device gear
Water plate 816, filter device water receiving case 817, water pump 818
The double-deck aeration tank 900, aeration tank ontology 901, S type partition 902, aeration tank water inlet 903, aeration tank water outlet 904, on
Aeration tube 905, lower aeration tube 906.
Specific embodiment
The present invention will be described in further detail below with reference to the embodiments of the drawings.
Referring to Fig. 1-Figure 25, a kind of multilayer scouring and bleaching production line of the present invention, including multilayer cloth inlet mechanism 100, prewashing
Case 200 repeatedly pads mechanism 300, mesh belt steam box 400, water washing mechanism 500, multilayer cloth-discharging mechanism 600, sewage disposal system,
In, multilayer cloth inlet mechanism 100, repeatedly pads mechanism 300, mesh belt steam box 400, water washing mechanism 500, multilayer cloth outputting at pre- tank-washer 200
Mechanism 600 is arranged successively arrangement from left to right;
The multilayer cloth inlet mechanism 100 include multilayer cloth inlet mechanism rack 101, left section of the multilayer cloth inlet mechanism rack 101
It is disposed with spaced apart first uncoil-stand 102, the second uncoil-stand 103,104 and of third uncoil-stand from left to right
4th uncoil-stand 105, the first uncoil-stand 102, the second uncoil-stand 103, third uncoil-stand 104 and the 4th uncoil-stand
The first fabric, the second fabric, third fabric and the 4th fabric are respectively arranged in 105, the multilayer cloth inlet mechanism rack 101
Be disposed with from left to right on right section the first photoelectricity of multilayer cloth inlet mechanism centralising device 106 positioned at sustained height, multilayer into
Cloth mechanism the second photoelectricity centralising device 107, multilayer cloth inlet mechanism third photoelectricity centralising device 108 and the 4th light of multilayer cloth inlet mechanism
Electric centralising device 109, the first photoelectricity of multilayer cloth inlet mechanism centralising device 106, multilayer cloth inlet mechanism the second photoelectricity centering dress
Set 107, multilayer cloth inlet mechanism third photoelectricity centralising device 108 and the 4th photoelectricity centralising device 109 of multilayer cloth inlet mechanism just under
Side is respectively arranged with the first draw-out roller of multilayer cloth inlet mechanism 118, the second draw-out roller of multilayer cloth inlet mechanism 119, multilayer cloth inlet mechanism
Third draw-out roller 120, the 4th draw-out roller 121 of multilayer cloth inlet mechanism, the first draw-out roller of multilayer cloth inlet mechanism 118, multilayer fabric feeding machine
The second draw-out roller of structure 119, multilayer cloth inlet mechanism third draw-out roller 120, the 4th draw-out roller 121 of multilayer cloth inlet mechanism are located at same height
Degree;
Multilayer fabric feeding machine is provided between the 4th photoelectricity centralising device 109 of first uncoil-stand 102 and multilayer cloth inlet mechanism
The tight cloth apparatus 110 of structure first and multiple the first gap bridge of multilayer cloth inlet mechanism fabric guide rolls 111, the multilayer cloth inlet mechanism first are tight
Cloth apparatus 110 is set in the multilayer cloth inlet mechanism rack 101 in the oblique upper right side of the first uncoil-stand 102;The second debatching dress
It sets and is provided with tight 112 He of cloth apparatus of multilayer cloth inlet mechanism second between 103 and multilayer cloth inlet mechanism third photoelectricity centralising device 108
Multiple the second gap bridge of multilayer cloth inlet mechanism fabric guide rolls 113, the tight cloth apparatus 112 of the multilayer cloth inlet mechanism second are set to second and move back
In the multilayer cloth inlet mechanism rack 101 in the oblique upper right side of winding apparatus 103;The third uncoil-stand 104 and multilayer cloth inlet mechanism
The tight cloth apparatus 114 of multilayer cloth inlet mechanism third and multiple multilayer cloth inlet mechanism thirds are provided between two photoelectricity centralising devices 107
Gap bridge fabric guide roll 115, the tight cloth apparatus 114 of multilayer cloth inlet mechanism third are set to the oblique upper right side of third uncoil-stand 104
In multilayer cloth inlet mechanism rack 101;4th uncoil-stand 105 and the first photoelectricity of multilayer cloth inlet mechanism centralising device 106 it
Between be provided with the tight cloth apparatus 116 of multilayer cloth inlet mechanism the 4th and multiple the 4th gap bridge fabric guide rolls 117 of multilayer cloth inlet mechanism, it is described more
The layer tight cloth apparatus 116 of cloth inlet mechanism the 4th is set to the multilayer cloth inlet mechanism rack 101 in the oblique upper right side of the 4th uncoil-stand 105
On;The tight cloth apparatus 110 of the multilayer cloth inlet mechanism first, the tight cloth apparatus 112 of multilayer cloth inlet mechanism second, multilayer cloth inlet mechanism
Three tight cloth apparatus 114, the tight cloth apparatus 116 of multilayer cloth inlet mechanism the 4th are located at sustained height;
First fabric is by 102 debatching of the first uncoil-stand, by the tight cloth apparatus 110 of multilayer cloth inlet mechanism first, multiple multilayers
The first gap bridge of cloth inlet mechanism fabric guide roll 111 and the 4th photoelectricity centralising device 109 of multilayer cloth inlet mechanism pass through multilayer cloth inlet mechanism
One draw-out roller, 118 cloth outputting;Second fabric is by 103 debatching of the second uncoil-stand, by the tight cloth apparatus of multilayer cloth inlet mechanism second
112, multiple the second gap bridge of multilayer cloth inlet mechanism fabric guide rolls 113 and multilayer cloth inlet mechanism third photoelectricity centralising device 108, by more
119 cloth outputting of the second draw-out roller of layer cloth inlet mechanism;Third fabric is by 104 debatching of third uncoil-stand, by multilayer cloth inlet mechanism
The tight cloth apparatus 114 of third, multiple multilayer cloth inlet mechanism third gap bridge fabric guide rolls 115 and multilayer cloth inlet mechanism the second photoelectricity centering dress
107 are set, 120 cloth outputting of multilayer cloth inlet mechanism third draw-out roller is passed through;4th fabric is passed through by 105 debatching of the 4th uncoil-stand
The tight cloth apparatus 116 of multilayer cloth inlet mechanism the 4th, the 4th gap bridge fabric guide roll 117 of multiple multilayer cloth inlet mechanisms and multilayer cloth inlet mechanism
One photoelectricity centralising device 106 passes through multilayer cloth inlet mechanism first by 121 cloth outputting of the 4th draw-out roller of multilayer cloth inlet mechanism respectively
Draw-out roller 118, the second draw-out roller of multilayer cloth inlet mechanism 119, multilayer cloth inlet mechanism third draw-out roller 120, multilayer cloth inlet mechanism
The first fabric, the second fabric, third fabric and the 4th fabric after four draw-out rollers, 121 cloth outputting are stacked from top to bottom,
Into next process.
The first photoelectricity of multilayer cloth inlet mechanism centralising device 106, the second photoelectricity of multilayer cloth inlet mechanism centralising device 107,
Multilayer cloth inlet mechanism third photoelectricity centralising device 108, the 4th photoelectricity centralising device 109 of multilayer cloth inlet mechanism be located at sustained height and
Using mutually isostructural photoelectricity centralising device, the photoelectricity centralising device passes through infrared electro transmitting tube and infrared electro reception pipe
Cloth cover position is detected, fabric operation conditions is accordingly adjusted according to position signal, guarantees that cloth cover is placed in the middle.
The tight cloth apparatus 110 of the multilayer cloth inlet mechanism first, the tight cloth apparatus 112 of multilayer cloth inlet mechanism second, multilayer cloth feeding
The tight cloth apparatus 114 of mechanism third, the tight cloth apparatus 116 of multilayer cloth inlet mechanism the 4th are located at sustained height, and using mutually isostructural
Tight cloth apparatus, the tight cloth apparatus include longitudinally arranged tight cloth apparatus fabric guide roll 110.1, longitudinally arranged tight cloth apparatus compress
The tight cloth apparatus that 110.3, two front and backs of the first cylinder of tight cloth apparatus that 110.2, two, roller front and back is arranged symmetrically are arranged symmetrically the
Two cylinders 110.4, the longitudinally arranged tight tight cloth rewinder roll 110.9 of cloth apparatus, the both ends of the tight cloth apparatus fabric guide roll 110.1 lead to respectively
It crosses two tight cloth apparatus selvage guide roll bearing seats to be fixed in multilayer cloth inlet mechanism rack 101, the one of tight cloth apparatus fabric guide roll 110.1
End is provided with tight cloth apparatus speed reducer 110.5, and the telescopic end of two the first cylinders of tight cloth apparatus 110.3 tilts upwards and in "/"
It is arranged in the left side of tight cloth apparatus fabric guide roll 110.1, the fixing end of tight the first cylinder of cloth apparatus 110.3 passes through tight cloth apparatus first
Cylinder block 110.8 is installed in multilayer cloth inlet mechanism rack 101, and the tight cloth apparatus cloth pressing roller 110.2 is set to tight cloth apparatus
The oblique upper right side of fabric guide roll 110.1, the telescopic end of tight first cylinder of cloth apparatus 110.3 be provided in " " be in tilted layout
The first swing arm of tight cloth apparatus 110.6, the both ends of the tight cloth apparatus cloth pressing roller 110.2 are pacified by tight cloth apparatus compress roll bearing seat
Between middle section loaded on two the first swing arms of tight cloth apparatus 110.6, right section of tight the first swing arm of cloth apparatus 110.6 is by tightly arranging
It sets the first swing arm seat 110.7 to be set in multilayer cloth inlet mechanism rack 101, two the first swing arm seats of tight cloth apparatus 110.7 are arranged
In tight cloth apparatus fabric guide roll 110.1 right side and front and back be arranged symmetrically, the bottom of tight the first swing arm seat of cloth apparatus 110.7 and multilayer
The top surface of cloth inlet mechanism rack 101 is fixedly connected, by controlling the tight stretching of the first cylinder of cloth apparatus 110.3 and retracting, so that tightly
The first swing arm of cloth apparatus 110.6 is taken up the first swing arm seat of cloth apparatus 110.7 and is swung, and tight cloth apparatus cloth pressing roller 110.2 is driven
It is mobile so that tight cloth apparatus cloth pressing roller 110.2 and tight 110.1 cooperating of cloth apparatus fabric guide roll, realize to the compression of fabric with
It unclamps;
The telescopic end of two the second cylinders of tight cloth apparatus 110.4 is downward and is vertically arranged at the oblique of tight cloth apparatus fabric guide roll 110.1
Lower right, the fixing end of tight the second cylinder of cloth apparatus 110.4 by tight the second cylinder block of cloth apparatus 110.10 be installed on multilayer into
The upper section of cloth mechanism rack 101, the tight tight cloth rewinder roll 110.9 of cloth apparatus are set to two the second cylinders of tight cloth apparatus 110.4
The left of the right of telescopic end, the telescopic end of two the second cylinders of tight cloth apparatus 110.4 is provided with longitudinally arranged tight cloth apparatus
Rotation axis, the both ends of tight cloth apparatus rotation axis rotate bearing housing 110.12 by tight cloth apparatus and are installed on multilayer cloth inlet mechanism machine
The lower section of frame 101, two sections of the front and back of the tight cloth apparatus rotation axis are set with the tight cloth apparatus floating shelf extended to the right
110.11, tight cloth apparatus rotation axis can drive tight cloth apparatus floating shelf 110.11 to rotate, the tight tight cloth rewinder roll 110.9 of cloth apparatus
Both ends are installed between right section of two tight cloth apparatus floating shelf 110.11 respectively by the tight cloth roll bearing seat of tight cloth apparatus, and two
The telescopic end of the second cylinder of tight cloth apparatus 110.4 is provided with the second swing arm of tight cloth apparatus 110.13 extended to the left, and two tight
Left section of the second swing arm of cloth apparatus 110.13 is set in the front and back two axial ends of tight cloth apparatus rotation axis, tight cloth apparatus second
Swing arm 110.13 can drive tight cloth apparatus rotation axis to rotate, and be stretched out and retraction, control by controlling tight the second cylinder of cloth apparatus 110.4
It makes tight the second swing arm of cloth apparatus 110.13 to swing back and forth, tight cloth apparatus rotation axis is driven to rotate, so that tight cloth apparatus floating shelf
110.11, which take up cloth apparatus rotation axis, is rotated upwardly and downwardly, and drives the tight cloth rewinder roll 110.9 of tight cloth apparatus mobile, to realize to fabric
Tightening and release;
Pass through the tight cloth apparatus 110 of multilayer cloth inlet mechanism first, the tight cloth apparatus 112 of multilayer cloth inlet mechanism second, multilayer cloth inlet mechanism
The tensile speed of respective fabric can be effectively controlled in the tight cloth apparatus 114 of third, the tight cloth apparatus 116 of multilayer cloth inlet mechanism the 4th, it is ensured that
First fabric, the second fabric, third fabric and the 4th fabric pass through respectively the first draw-out roller of multilayer cloth inlet mechanism 118, multilayer into
The second draw-out roller of cloth mechanism 119, multilayer cloth inlet mechanism third draw-out roller 120,121 cloth outputting of the 4th draw-out roller of multilayer cloth inlet mechanism it
After can be completely coincident and be stacked, avoid multilayer cloth cover from gauffer, unevenness phenomenon occur, to add into next process
Work.
The tight cloth apparatus 110 of the multilayer cloth inlet mechanism first, the second tight cloth apparatus 11, multilayer cloth inlet mechanism third tightly arrange
It sets and is provided with J-type stacking box below the tight cloth apparatus 116 of 114, multilayer cloth inlet mechanism the 4th or mesh belt banks up mechanism;
Preferably, mechanism 700 is banked up using mesh belt and carries out temporary cloth, mesh belt, which banks up mesh belt described in mechanism and banks up mechanism 700, includes
The mesh belt being vertically arranged banks up the first frame of mechanism 701 and the mesh belt of lateral arrangement banks up the second frame of mechanism 702, the mesh belt
It banks up the first frame of mechanism 701 and is set to left section that mesh belt banks up 702 top of the second frame of mechanism;
The top that the mesh belt banks up the first frame of mechanism 701 is set as mesh belt and banks up mechanism fabric input mouth, and is located at tight cloth apparatus
The underface of tight cloth rewinder roll 110.9, the mesh belt banks up left section of the top of the first frame of mechanism 701 and right section sets up respectively
Have in " " be in tilted layout mesh belt bank up the first inclined plate of mechanism 703 and in "/" be in tilted layout mesh belt bank up the second inclined plate of mechanism
704, the mesh belt banks up the first inclined plate of mechanism 703 and mesh belt is banked up the bottom of the second inclined plate of mechanism 704 and is extended with separately down
Mesh belt banks up mechanism starting stave 705 and mesh belt banks up the second riser of mechanism 706, wherein mesh belt banks up mechanism starting stave 705
Bottom extend downward into the upper section that mesh belt banks up the first frame of mechanism 701, mesh belt is banked up the second riser of mechanism 706 and is extended downwardly
The middle section of the first frame of mechanism 701 is banked up to mesh belt, the lower section that the mesh belt banks up the second riser of mechanism 706 is provided with longitudinal cloth
The mesh belt set banks up mechanism heap cloth rewinder roll 707, and the front and back two axial ends that mesh belt banks up mechanism heap cloth rewinder roll 707 stretch out mesh belt respectively and bank up machine
Two wall surface of front and back of the first frame of structure 701, and mechanism heap cloth roll bearing seat banked up by mesh belt be installed on mesh belt and bank up mechanism
The lower section of one frame 701, the roll surface that the mesh belt banks up mechanism heap cloth rewinder roll 707 are equipped with more along its circumferencial direction and are longitudinally arranged
Mesh belt bank up mechanism cord 708, the left side that the mesh belt banks up mechanism heap cloth rewinder roll 707 is provided with mesh belt and banks up mechanism arc plate
709, mechanism heap cloth rewinder roll 707 is banked up towards mesh belt in the concave surface that the mesh belt banks up mechanism arc plate 709, and mesh belt banks up mechanism circle
The top of arc plate 709 is fixedly connected with the bottom that mesh belt banks up mechanism starting stave 705, and mesh belt banks up mechanism arc plate 709
Bottom extends downward into the intersection that mesh belt banks up the first frame of mechanism 701 and mesh belt banks up the second frame of mechanism 702;
The mesh belt, which banks up right section of the second frame of mechanism 702 and left section and is respectively arranged with longitudinally arranged mesh belt, banks up mechanism master
Dynamic roller 710 and longitudinally arranged mesh belt bank up mechanism passive guide roller 711, and the mesh belt banks up mechanism drive roll 710 and mesh belt is banked up
Mechanism passive guide roller 711 is located in same level, and right section of the top that the mesh belt banks up the second frame of mechanism 702 is set up
There is mesh belt to bank up mechanism baffle 718, mesh belt banks up mechanism baffle 718 and is located at the top that mesh belt banks up mechanism drive roll 710, described
Mesh belt banks up mechanism passive guide roller 711 and is located at the lower section that mesh belt banks up the first frame of mechanism 701, and the mesh belt banks up mechanism drive roll
710 one end is provided with mesh belt and banks up mechanism speed reducer, the mesh belt bank up mechanism drive roll 710 and mesh belt to bank up mechanism passive
It is set with mesh belt between roller 711 and banks up mechanism foraminous conveyer 715, the mesh belt banks up the preceding shaft end setting of mechanism passive guide roller 711
There is mesh belt to bank up the first driving wheel of mechanism 713, the mesh belt for banking up 707 front side of mechanism heap cloth rewinder roll corresponding to mesh belt banks up mechanism first
It is provided with vertical mesh belt on the outer wall of frame 701 and banks up mechanism mounting base 712, the mesh belt is banked up in mechanism mounting base 712
Mesh belt is offered along its length and banks up mechanism waist type groove, and mesh belt, which is banked up, to be provided with mesh belt and bank up mechanism in mechanism waist type groove
Two driving wheels 714, the mesh belt, which banks up the second driving wheel of mechanism 714 and banks up mechanism mounting base 712 with mesh belt, to be slidably connected, described
The shaft end that the mesh belt that mesh belt banks up outer wall before the first frame of mechanism 701 banks up mechanism heap cloth rewinder roll 707 is provided with mesh belt and banks up mechanism
Third driving wheel 716, the mesh belt banks up the first driving wheel of mechanism 713 and mesh belt is banked up and covered between the second driving wheel of mechanism 714
Mechanism driving band 717 is banked up equipped with mesh belt, the mesh belt banks up mechanism third driving wheel 716 and mesh belt banks up mechanism driving band
717 are cooperatively connected;
Preferably, the mesh belt banks up the first driving wheel of mechanism 713, mesh belt banks up the second driving wheel of mechanism 714, mesh belt banks up machine
Structure third driving wheel 716 uses sprocket wheel, and the mesh belt banks up mechanism driving band 717 using chain.
When encountering trouble hunting in later process, the fabric for continuing stretching, extension conveying, which can first be kept in mesh belt, banks up mechanism
In 700, mesh belt banks up the starting of mechanism speed reducer, and mesh belt banks up the rotation of mechanism drive roll 710, banks up mechanism transmission net by mesh belt
Band 715 drives mesh belt to bank up the rotation of mechanism passive guide roller 711, so that mesh belt banks up the rotation of the first driving wheel of mechanism 713, passes through mesh belt
Banking up mechanism driving band 717 drives mesh belt to bank up the second driving wheel of mechanism 714 and mesh belt banks up 716 turns of mechanism third driving wheel
Dynamic, so that mesh belt banks up the rotation of mechanism heap cloth rewinder roll 707, fabric banks up the mesh belt at 701 top of the first frame of mechanism from mesh belt
The entrance of mechanism fabric input mouth is banked up, banks up the first inclined plate of mechanism 703 along mesh belt, mesh belt banks up the second inclined plate of mechanism 704, mesh belt heap
It sets mechanism starting stave 705 and mesh belt banks up the guiding of the second riser of mechanism 706 and drops down onto the mesh belt of rotation and bank up mechanism heap cloth rewinder roll
On 707, so that fabric banks up mechanism foraminous conveyer 715 along the orderly heap of guiding to the mesh belt that mesh belt banks up mechanism arc plate 709
On.The mesh belt banks up mechanism 700 and deposits that cloth amount is big, and special structure design can effectively avoid fabric and heap occurs during storage
Cloth is uneven, overturns phenomena such as compress, guarantees that fabric being capable of smooth stabilization in rear sort run.
The pre- tank-washer 200 includes prewashing box body 201, and the upper section in 201 inner cavity of prewashing box body is along its length
Lower section of the direction arrangement there are five fabric guide roll 202 on spaced apart longitudinal pre- tank-washer, in 201 inner cavity of prewashing box body
Arrangement is there are six fabric guide roll 203 under spaced apart longitudinal pre- tank-washer along its length, fabric guide roll 202 on five pre- tank-washers
With about 203 interlaced arrangement of fabric guide roll under six pre- tank-washers.
The mechanism 300 of repeatedly padding includes repeatedly padding mechanism high-capacity squeezer 301, described repeatedly to pad mechanism and efficiently roll
The right side setting of vehicle 301 repeatedly pads two roller of mechanism closing padding machine 303 there are two spaced apart dipping box 302 and two, and two
A dipping box 302 and two multiple two rollers of mechanism that pad close 303 or so interlaced arrangement of padding machine, and repeatedly pad two roller of mechanism envelope
Close the right side that padding machine 303 is set to dipping box 302;
The mechanism high-capacity squeezer 301 that repeatedly pads includes repeatedly padding mechanism high-capacity squeezer rack 301.1, described repeatedly to pad
It is provided in mechanism high-capacity squeezer rack 301.1 and longitudinally arranged repeatedly pads mechanism high-capacity squeezer roll stacks, multiple padder
Structure high-capacity squeezer roll stacks include be arranged in parallel up and down repeatedly pad mechanism high-capacity squeezer topping roll 301.2 and multiple padder
Structure high-capacity squeezer bottom roll 301.3, the both ends for repeatedly padding mechanism high-capacity squeezer topping roll 301.2 pass through multiple padder
Structure high-capacity squeezer topping roll bearing block is set to the top for repeatedly padding mechanism high-capacity squeezer rack 301.1, described repeatedly to pad
The rear side of mechanism high-capacity squeezer rack 301.1, which is provided with, repeatedly pads mechanism high-capacity squeezer bracket, described repeatedly to pad mechanism height
It is provided on effect padding machine bracket and repeatedly pads mechanism high-capacity squeezer motor, the output for repeatedly padding mechanism high-capacity squeezer motor
End is connect by repeatedly padding mechanism high-capacity squeezer shaft coupling with the rear end for repeatedly padding mechanism high-capacity squeezer topping roll 301.2;
It is described repeatedly pad mechanism high-capacity squeezer 301 further include two front and backs be arranged symmetrically repeatedly pad mechanism high-capacity squeezer support
What plate 301.4 and two front and backs were arranged symmetrically repeatedly pads mechanism high-capacity squeezer cylinder 301.5, and described repeatedly to pad mechanism efficient
The upper section of padding machine supporting plate 301.4, which is provided with, repeatedly pads mechanism high-capacity squeezer bottom roll bearing block, described repeatedly to pad mechanism height
Effect padding machine bottom roll 301.3 is set to two and repeatedly pads between mechanism high-capacity squeezer bottom roll bearing block, described repeatedly to pad
Pass through connection between the top section of mechanism high-capacity squeezer supporting plate 301.4 and the upper section for repeatedly padding mechanism high-capacity squeezer rack 301.1
Part is hinged, repeatedly pad mechanism high-capacity squeezer supporting plate 301.4 bottom section with repeatedly pad mechanism high-capacity squeezer cylinder 301.5
Telescopic end connection, the fixing end for repeatedly padding mechanism high-capacity squeezer cylinder 301.5 is by repeatedly padding mechanism high-capacity squeezer
Cylinder block 301.6 is fixedly connected with the lower section for repeatedly padding mechanism high-capacity squeezer rack 301.1, and described repeatedly to pad mechanism efficient
Padding machine cylinder 301.5 in " " be obliquely installed.The stretching of mechanism high-capacity squeezer cylinder 301.5 is repeatedly padded in control, and drive is repeatedly padded
Mechanism high-capacity squeezer supporting plate 301.4 by with repeatedly pad mechanism high-capacity squeezer rack 301.1 hinged place centered on put upwards pendulum
It is dynamic, it moves up so that repeatedly padding mechanism high-capacity squeezer bottom roll 301.3, is rolled to realize and repeatedly pad mechanism high-capacity squeezer
Roller group washes efficiently rolling for fabric.
The mechanism dipping box 302 that repeatedly pads includes dipping box body 302.1,302.1 inner cavity of dipping box body
Middle section and lower section be arranged with fabric guide roll 302.2 and multiple longitudinal leachings on multiple longitudinal dipping box respectively along its length
Fabric guide roll 302.3 under stain case, about 302.3 fabric guide roll interlocks cloth under fabric guide roll 302.2 and multiple dipping box on multiple dipping box
It sets, wherein be provided with longitudinally arranged dipping box jockey pulley 302.4, dipping box on two dipping box between fabric guide roll 302.2
Power roller 302.4 is set to the top of fabric guide roll 302.2 on dipping box, and the upper section of fabric guide roll 302.2 is provided on multiple dipping box
The elastic adjusting component of dipping box, the elastic component that adjusts of the dipping box includes the dipping box adjusting cylinder that two front and backs are arranged symmetrically
302.5, the dipping box straight displacement elastic devices 302.7 that 302.6, two front and backs of longitudinally arranged dipping box adjustment axis are arranged symmetrically, the leaching
Stain case adjusts 302.5 lateral arrangement of cylinder and telescopic end to the left, and the fixing end that two dipping box adjust cylinder 302.5 passes through dipping
Case adjusts the upper section that cylinder block is respectively arranged in two wall surface of front and back of dipping box body 302.1, the dipping box adjustment axis 302.6
It is set to dipping box to adjust on cylinder 302.5 and dipping box between fabric guide roll 302.2, and dipping box adjustment axis 302.6 is located at leaching
The left side of stain case jockey pulley 302.4 is simultaneously located in same level, and the both ends of the dipping box adjustment axis 302.6 pass through dipping box
It adjusts bearing housing to be installed between the front and back wall surface of dipping box body 302.1, the dipping box adjusts the flexible of cylinder 302.5
It holds and is connected with dipping box swing arm 302.8 between the shaft end of dipping box adjustment axis 302.6, the one of the dipping box swing arm 302.8
Hold the telescopic end for adjusting cylinder 302.5 with dipping box hinged, the other end of dipping box swing arm 302.8 is set in dipping box adjustment axis
On 302.6 shaft end, dipping box swing arm 302.8 can drive dipping box adjustment axis 302.6 to rotate, the dipping box jockey pulley
302.4 both ends are installed between right section of two dipping box straight displacement elastic devices 302.7 by dipping box tension roll bearing seat, two leachings
Left section of stain case straight displacement elastic devices 302.7 is set on two sections of the front and back of dipping box adjustment axis 302.6, dipping box adjustment axis
302.6 can drive dipping box straight displacement elastic devices 302.7 to rotate upwardly and downwardly, and be provided with dipping box angle on the dipping box straight displacement elastic devices 302.7
Sensor;
Preferably, fabric guide roll 302.2 is set as 2 on the dipping box, and fabric guide roll 302.3 is set as 3-4 under the dipping box
It is a;
When the fabric rate of stretch of preceding working procedure and later process is inconsistent, after causing fabric to enter dipping box body 302.1
Face tension change (tensioning or relaxation), dipping box jockey pulley 302.4 with face tension variation downward or upward
It is mobile, drive dipping box straight displacement elastic devices 302.7 to move downward or upward accordingly, dipping box adjustment axis 302.6 rotates with it, and drives
Dipping box swing arm 302.8 is swung, so that the telescopic rod stress that dipping box adjusts cylinder 302.5 is stretched out or retracted, passes through dipping box
Angular transducer detects the rotational angle of dipping box straight displacement elastic devices 302.7, and will test information and be converted to electric signal and feed back to control
System, when dipping box straight displacement elastic devices 302.7 are after rotating upwardly and downwardly angle beyond setting range, control system controls dipping box and adjusts
The telescopic rod of cylinder 302.5 is stretched out or is retracted, and is turned in setting range to control dipping box straight displacement elastic devices 302.7, same with this
When, the fabric rate of stretch of the preceding working procedure fabric rate of stretch or later process is controlled, guarantees that fabric enters dipping box body
Face tension after 302.1 is within controlled range.
Two roller of the mechanism closing padding machine 303 that repeatedly pads includes repeatedly padding two roller of mechanism closing padding machine cabinet 303.1,
It is described repeatedly pad two roller of mechanism closing padding machine cabinet 303.1 in be provided with it is longitudinally arranged repeatedly pad two roller of mechanism closing roll
Vehicle roll stacks, it is described repeatedly pad two roller of mechanism closing padding machine roll stacks include be arranged in parallel up and down repeatedly pad two roller of mechanism
Closing padding machine topping roll 303.2 and multiple two roller of mechanism that pads close padding machine bottom roll 303.3, described repeatedly to pad two roller of mechanism
The both ends of closing padding machine bottom roll 303.3 are installed on multiple leaching by repeatedly padding two roller of mechanism closing padding machine bottom roll bearing block
Two roller of rolling mechanism is closed between the front and back wall surface of padding machine cabinet 303.1, described repeatedly to pad two roller of mechanism closing padding machine bottom roll
303.3 rear end, which is connected with, repeatedly pads two roller of mechanism closing padding machine speed reducer 303.4, described repeatedly to pad the closing of two roller of mechanism
Padding machine speed reducer 303.4 repeatedly pads two roller of mechanism envelope by repeatedly padding two roller of mechanism and closing padding machine bracket 303.5 and be installed on
Close the rear of padding machine cabinet 303.1;
It is described repeatedly pad two roller of mechanism closing padding machine 303 further include two front and backs be arranged symmetrically vertical repeatedly pad mechanism
Lateral two roller of mechanism that repeatedly pads that two rollers closing padding machine cylinder 303.6 and two front and backs are arranged symmetrically closes padding machine swing arm
303.7, the both ends for repeatedly padding two roller of mechanism closing padding machine topping roll 303.2 are rolled by repeatedly padding the closing of two roller of mechanism
Vehicle topping roll bearing block is installed between two multiple left sections for padding the closing padding machine swing arm 303.7 of two roller of mechanism, described multiple
Right section for padding the closing padding machine swing arm 303.7 of two roller of mechanism pads two roller of mechanism closing padding machine cylinder by connector and repeatedly
303.6 telescopic end is hinged, and two fixing ends for repeatedly padding two roller of mechanism closing padding machine cylinder 303.6 pass through multiple padder
Two roller of structure closes lower section of the padding machine cylinder block respectively with two wall surface of front and back for repeatedly padding two roller of mechanism closing padding machine cabinet 303.1
Connection, it is described repeatedly pad two roller of mechanism closing padding machine cylinder 303.6 be set to repeatedly pad two roller of mechanism closing padding machine roll
The right of group;
The left for repeatedly padding two roller of mechanism closing padding machine bottom roll 303.3, which is provided with, longitudinally arranged repeatedly pads mechanism
Two rollers close padding machine spreading roll 303.8, and the both ends for repeatedly padding two roller of mechanism closing padding machine spreading roll 303.8 pass through multiple
It pads two roller of mechanism closing padding machine expanding roll bearing seat and is installed on the front and back for repeatedly padding two roller of mechanism closing padding machine cabinet 303.1
Between two wall surfaces, described one end for repeatedly padding two roller of mechanism closing padding machine spreading roll 303.8, which is provided with, repeatedly pads mechanism two
Roller closes the second motor of padding machine, and the roll surface for repeatedly padding two roller of mechanism closing padding machine spreading roll 303.8 is along its axis direction
Middle section reversed screw thread convex ribs are extended with to both ends;
The lower section for repeatedly padding two roller of mechanism closing padding machine cylinder 303.6, which is provided with, repeatedly pads two roller of mechanism closing padding machine
Fabric guide roll 303.9, the both ends for repeatedly padding two roller of mechanism closing padding machine fabric guide roll 303.9 are by repeatedly padding two roller of mechanism
Closing padding machine selvage guide roll bearing seat is installed between two wall surface of front and back for repeatedly padding two roller of mechanism closing padding machine cabinet 303.1.
Fabric is into after repeatedly padding two roller of mechanism closing padding machine cabinet 303.1, successively by repeatedly padding two roller of mechanism
Closing padding machine spreading roll 303.8 repeatedly pads two roller of mechanism closing padding machine roll stacks and repeatedly pads two roller of mechanism closing padding machine
Fabric guide roll 303.9, control are repeatedly padded two roller of mechanism closing padding machine cylinder 303.6 and are acted, drives and repeatedly pad two roller of mechanism envelope
The swing of padding machine swing arm 303.7 is closed, is pressed downward so that repeatedly padding two roller of mechanism closing padding machine topping roll 303.2, multiple padder
It two roller of structure closing padding machine bottom roll 303.3 and repeatedly pads two roller of mechanism and closes 303.2 cooperating of padding machine topping roll and shut out and knit
Working solution in object.
The mesh belt steam box 400 includes mesh belt steam box cabinet 401, and it is defeated to be provided with mesh belt in the mesh belt steam box cabinet 401
Device and mesh belt heap cloth wheel apparatus are sent, the net belt conveying apparatus is set to the lower section of mesh belt steam box cabinet 401, and the mesh belt is defeated
Sending device includes the longitudinal net belt conveying apparatus drive roll 402 and longitudinal net belt conveying apparatus passive guide roller 403 of left and right arrangement,
The both ends of the net belt conveying apparatus drive roll 402 and net belt conveying apparatus passive guide roller 403 pass through net belt conveying apparatus master respectively
Action roller shaft holds seat and the passive roll bearing seat of net belt conveying apparatus is set between the front and back wall surface of mesh belt steam box cabinet 401, described
Net belt conveying apparatus foraminous conveyer is provided between net belt conveying apparatus drive roll 402 and net belt conveying apparatus passive guide roller 403
404, one end of the net belt conveying apparatus drive roll 402 is provided with net belt conveying apparatus motor, net belt conveying apparatus drive roll
402 other end is provided with net belt conveying apparatus sprocket wheel;
The mesh belt heap cloth wheel apparatus is set to the top at left section (cropping end) of mesh belt steam box foraminous conveyer 404, the mesh belt
Heap cloth wheel apparatus includes multiple longitudinally arranged mesh belt heap cotton piece buff device guiding rollers 405, longitudinally arranged mesh belt heap cloth wheel apparatus
The mesh belt heap cloth wheel apparatus circular arc guide plate 407 that 406, two front and backs of heap cloth rewinder roll are arranged symmetrically, two mesh belt heap cloth wheel apparatus circles
Arc guide plate 407 is respectively arranged on the front and back wall surface of mesh belt steam box cabinet 401, the multiple mesh belt heap cotton piece buff device guiding roller
405 are set between two mesh belt heap cloth wheel apparatus circular arc guide plates 407, and along mesh belt heap cloth wheel apparatus circular arc guide plate
407 length direction is alternatively arranged arrangement from top to bottom, and the rear and front end of the mesh belt heap cotton piece buff device guiding roller 405 is set respectively
It is equipped with mesh belt the first sprocket wheel of heap cloth wheel apparatus and mesh belt heap cloth the second sprocket wheel of wheel apparatus, each adjacent two mesh belt heap cloth wheel apparatus is led
Connected between roller 405 by chain conveyer, the net belt conveying apparatus sprocket wheel on the net belt conveying apparatus drive roll 402 with it is most lower
Mesh belt heap cloth wheel apparatus is connected between mesh belt heap cloth the first sprocket wheel of wheel apparatus on the mesh belt heap cotton piece buff device guiding roller 405 of side
Chain;
The mesh belt heap cloth wheel apparatus heap cloth rewinder roll 406 is set to the right of 407 upper section of mesh belt heap cloth wheel apparatus circular arc guide plate, institute
The both ends for stating mesh belt heap cloth wheel apparatus heap cloth rewinder roll 406 are set to mesh belt steam box case by mesh belt heap cloth wheel apparatus heap cloth roll bearing seat
Between the front and back wall surface of body 401, multiple mesh, institute are uniformly provided on the roll surface of the mesh belt heap cloth wheel apparatus heap cloth rewinder roll 406
It states and is equipped with multiple spaced apart mesh belt heap cotton piece buff dresses on the roll surface of mesh belt heap cloth wheel apparatus heap cloth rewinder roll 406 along its length
Annular slab 410 is set, the rear end of the mesh belt heap cloth wheel apparatus heap cloth rewinder roll 406 is provided with mesh belt heap cloth wheel apparatus motor 408, mesh belt
Heap cloth wheel apparatus motor 408 is set to the rear side outside wall surface of mesh belt steam box cabinet 401 by mesh belt heap cloth wheel apparatus motor cabinet 409
On.
It, can by being used cooperatively for mesh belt heap cloth wheel apparatus heap cloth rewinder roll 406 and multiple mesh belt heap cotton piece buff device guiding rollers 405
It effectively avoids fabric that phenomena such as heap cloth is uneven, heap cloth easily overturns compress occurs during cropping, guarantees the life of later process
Produce efficiency.
The water washing mechanism 500 includes the two water washing mechanism high-capacity squeezers 501 in left and right, two water washing mechanism high-capacity squeezers
Multiple spaced apart water washing chambers 502 are provided between 501, between the discharge port and feed inlet of each adjacent two water washing chamber 502
It is provided with two roller of water washing mechanism closing padding machine 503, the water washing mechanism high-capacity squeezer 501 pads mechanism high-capacity squeezer with multiple
301 use mutually isostructural high-capacity squeezer, and two roller of the water washing mechanism closing padding machine 503 is rolled with the closing of two roller of mechanism is repeatedly padded
Vehicle 303 closes padding machine using mutually isostructural two roller;
The water washing chamber 502 includes washing box body 502.1, and the lower section of the right wall of the washing box body 502.1 is provided with
Water washing chamber water inlet 502.2, the lower section for washing the left wall face of box body 502.1 is provided with water washing chamber water outlet 502.3, described
The upper section and lower section for washing 502.1 inner cavity of box body are arranged with fabric guide roll on multiple longitudinally arranged water washing chambers respectively from left to right
502.4 and multiple longitudinally arranged water washing chambers under fabric guide roll 502.5, fabric guide roll 502.4 and multiple water washing chambers on multiple water washing chambers
Lower about 502.5 interlaced arrangement of fabric guide roll, wherein be provided with water washing chamber jockey pulley between fabric guide roll 502.4 on two water washing chambers
502.6, the water washing chamber jockey pulley 502.6 is set to the lower section of fabric guide roll 502.4 on water washing chamber, fabric guide roll on the water washing chamber
502.4 and water washing chamber under be provided with the elastic adjusting component of water washing chamber, the elastic adjusting component of water washing chamber between fabric guide roll 502.5
Including the vertical water washing chamber that two front and backs are arranged symmetrically adjust cylinder 502.7, longitudinally arranged water washing chamber adjustment axis 502.8,
The water washing chamber straight displacement elastic devices 502.9 that two front and backs are arranged symmetrically, the telescopic end that the water washing chamber adjusts cylinder 502.7 are set up,
The fixing end that two water washing chambers adjust cylinder 502.7 adjusts cylinder block by water washing chamber and is respectively arranged in washing box body 502.1
Two wall surface of front and back lower section, the water washing chamber adjustment axis 502.8 is set to the left side of water washing chamber jockey pulley 502.6 and is located at same
On one horizontal plane, the both ends of the water washing chamber adjustment axis 502.8 adjust bearing housing by water washing chamber and are installed on washing box body
Between 502.1 two wall surface of front and back, the water washing chamber adjusts the telescopic end of cylinder 502.7 and the axis of water washing chamber adjustment axis 502.8
Water washing chamber swing arm 502.10 is connected between end, one end of the water washing chamber swing arm 502.10 and water washing chamber adjust cylinder 502.7
Telescopic end it is hinged, the other end of water washing chamber swing arm 502.10 is set on the shaft end of water washing chamber adjustment axis 502.8, water washing chamber pendulum
Arm 502.10 can drive water washing chamber adjustment axis 502.8 to rotate, and the both ends of the water washing chamber jockey pulley 502.6 pass through water washing chamber tension
Roll bearing seat is installed between right section of two water washing chamber straight displacement elastic devices 502.9, left section of difference of two water washing chamber straight displacement elastic devices 502.9
It is set on two sections of the front and back of water washing chamber adjustment axis 502.8, water washing chamber adjustment axis 502.8 can drive water washing chamber straight displacement elastic devices 502.9
It rotates upwardly and downwardly, is provided with water washing chamber angular transducer on the water washing chamber straight displacement elastic devices 502.9;
Preferably, fabric guide roll 502.4 is set as 4 on the water washing chamber, and fabric guide roll 502.5 is set as 6 under water washing chamber;
The lower section of the rear wall of the washing box body 502.1 is provided with multiple inline water washing chamber water inlets
502.13, multiple water washing chamber water inlets 502.13 are connected with first circulation water pipe 502.14;
When the fabric rate of stretch of preceding working procedure and later process is inconsistent, after causing fabric to enter washing box body 502.1
Face tension change (tensioning or relaxation), water washing chamber jockey pulley 502.6 with face tension variation downward or upward
It is mobile, drive water washing chamber straight displacement elastic devices 502.9 to move downward or upward accordingly, water washing chamber adjustment axis 502.8 rotates with it, and drives
Water washing chamber swing arm 502.10 is swung, so that the telescopic rod stress that water washing chamber adjusts cylinder 502.7 is stretched out or retracted, passes through water washing chamber
Angular transducer detects the rotational angle of water washing chamber straight displacement elastic devices 502.9, and will test information and be converted to electric signal and feed back to control
System, when water washing chamber straight displacement elastic devices 502.9 are after rotating upwardly and downwardly angle beyond setting range, control system controls water washing chamber and adjusts
The telescopic rod of cylinder 502.7 is stretched out or is retracted, and is turned in setting range to control water washing chamber straight displacement elastic devices 502.9, same with this
When, the fabric rate of stretch of the preceding working procedure fabric rate of stretch or later process is controlled, guarantees that fabric enters washing box body
Face tension after 502.1 is within controlled range.
Spray equipment 502.12, the spray equipment are provided in the middle section of the washing 502.1 cloth feeding side of box body
502.12 include four longitudinal spray tube 502.12.1 and outwardly extending spray equipment water receiving pipe arranged in arrays
502.12.3, one end of each spray tube 502.12.1 is connect by installation part with the inner wall for washing box body 502.1, four sprays
The other end of shower pipe 502.12.1 is connect by spray equipment waterproof casing 502.12.2 with spray equipment water receiving pipe 502.12.3,
Wherein, the side obliquely downward of the apparent surface of two spray tube 502.12.1 of top is uniformly provided with multiple intervals along its length
The oblique upside of the hole for water spraying of arrangement, the apparent surface of two spray tube 502.12.1 of lower section is uniformly provided with along its length
Multiple spaced apart hole for water sprayings, cloth between two spray tube 502.12.1 of the left and right sides from when passing through, four spray tubes
502.12.1 centralization enhances cleaning effect to the cloth hydro-peening of process.
The front or behind of the water washing chamber 502 is provided with filter device 800, and the filter device 800 includes filtering dress
Cabinet 801 is set, is provided under filter device bracket 802 and filter device on the left side outer wall of the filter device cabinet 801
Bracket 803, the filter device bracket 802 are located at the top of retreading of filter device bottom bracket 803, the filter device pop-up
It is provided with speed reducer 804 on filter device on frame 802, is provided under filter device and slows down on the filter device bottom bracket 803
Machine 805 offers filter device water outlet 806 in the right wall of the filter device cabinet 801, filter device cabinet 801
Filter device water inlet 807, close filter device water outlet in 801 inner cavity of filter device cabinet are offered on front face
806 ends are provided with the filter device partition 808 of setting, the front and rear sides of the filter device partition 808 and filter device cabinet
801 front and back inner wall is fixedly connected, and the bottom of filter device partition 808 is fixedly connected with the bottom surface of filter device cabinet 801, mistake
It filters there are gap between the top of device partition 808 and the top surface of filter device cabinet 801, the filter device partition 808 will
The inner cavity of filter device cabinet 801 is divided into left chamber and right chamber, and the lower section in the left wall face of the filter device partition 808 is set
It is equipped with filter device fulcrum bearing 809, corresponds at filter device fulcrum bearing 809 on filter device partition 808 and offers circular hole, institute
It states and is provided with filtering between the upper section of the right wall of filter device cabinet 801 and the upper section in the left wall face of filter device partition 808
The first transmission shaft of device 810 is provided with filter device brush roll 811, the filtering on first transmission shaft of filter device 810
The first transmission shaft of device 810 is driven by speed reducer 804 on filter device, and the obliquely downward of the filter device brush roll 811 is set
Be equipped with filtering device filter screen roller 812, the filtering device filter screen roller 812 with filter device brush roll 811 during rotation,
Surface accessible, the left end of the filtering device filter screen roller 812 are provided with filter device second driving shaft 813, the filtering dress
It sets second driving shaft 813 to drive by speed reducer 805 under filter device, the right end of the filtering device filter screen roller 812 is provided with
Filter device flange sleeve 814, the filter device flange sleeve 814 are socketed in filter device fulcrum bearing 809, the filter device
It is logical that water flow is offered between the inside of the inside and filtering device filter screen roller 812 of flange sleeve 814 and filter device fulcrum bearing 809
Road, the rear side outer wall of the filter device cabinet 801, which corresponds at filter device brush roll 811, offers filter device discharge
Mouthful, the filter device guide plate 815 tilted down from top to bottom, the filtering are provided with below the filter device discharge gate
Cross section is provided with above device discharge gate as fan-shaped and downward opening filter device water fender 816, the filter device
The underface of water fender 816 is provided with filter device water receiving case 817, is provided at the top of the filter device water receiving case 817 removable
Unload the filter screen of formula;
The right of the filter device cabinet 801 is provided with water pump 818;
Pass through first circulation between the water washing chamber water inlet 502.13 of the corresponding water washing chamber 502 of filter device water inlet 807
Water pipe 502.14 connects, and is connected between filter device water outlet 806 and the water inlet of water pump 818 by second circulation water pipe, water
It is connected between the water outlet and spray water receiving pipe of pump 818 by third circulating water pipe.
Washing water in water washing chamber 502 is delivered in corresponding filter device 800 by first circulation water pipe 502.14,
Sundries in washing water can be adsorbed on its surface, pass through during agitator treating water by filtering device filter screen roller 812
Filter device brush roll 811 cleans the sundries on 812 surface of filtering device filter screen roller to the filtering at 801 rear of filter device cabinet
In device water receiving case 817, filter screen can separate sundries with waste water in filter device water receiving case 817, can reduce waste water pair in this way
The pollution of environment, the washing water after filtering by filter device 800 pass through water pump 818 again and are transported to third recirculated water
Washing water is delivered in multiple spray tube 502.12.1 by pipe finally by spray water receiving pipe, to the fabric in water washing chamber 502 into
Row rinses.It recycles by this method, wash water is enable to obtain recycled for multiple times, avoid water resource waste, while can also drop
Low production cost is increased economic efficiency.
The multilayer cloth-discharging mechanism 600 includes multilayer cloth-discharging mechanism rack 601, the multilayer cloth-discharging mechanism rack 601
Lower section is disposed with spaced apart first clot sub-wire device 602, the second clot sub-wire device 603, third from left to right
Clot sub-wire device 604, the 4th clot sub-wire device 605, the upper section of the multilayer cloth-discharging mechanism rack 601 is from left to right successively
It is provided with the tight cloth apparatus 606 of spaced apart multilayer cloth-discharging mechanism first, the tight cloth apparatus 607 of multilayer cloth-discharging mechanism second, multilayer
The tight cloth apparatus 608 of cloth-discharging mechanism third, the tight cloth apparatus 609 of multilayer cloth-discharging mechanism the 4th, the tight cloth of the multilayer cloth-discharging mechanism first
Device 606, the tight cloth apparatus 607 of multilayer cloth-discharging mechanism second, the tight cloth apparatus 608 of multilayer cloth-discharging mechanism third and multilayer cloth-discharging mechanism
4th tight cloth apparatus 609 uses mutually isostructural tight cloth apparatus, and the tight cloth apparatus 606 of the multilayer cloth-discharging mechanism first, multilayer go out
The tight cloth apparatus 607 of cloth mechanism second, the tight cloth apparatus 608 of multilayer cloth-discharging mechanism third, the tight cloth apparatus 609 of multilayer cloth-discharging mechanism the 4th
It is respectively arranged at the first clot sub-wire device 602, the second clot sub-wire device 603,604, the 4th dozens, third clot sub-wire device
Roll up the left rectangle of sub-wire device 605;
Multilayer cloth outputting machine is provided between the tight cloth apparatus 606 of the multilayer cloth-discharging mechanism first and the first clot sub-wire device 602
The first electrooptical device of structure 610 is set between the tight cloth apparatus 607 of the multilayer cloth-discharging mechanism second and the second clot sub-wire device 603
It is equipped with the second electrooptical device of multilayer cloth-discharging mechanism 611, the tight cloth apparatus 608 of multilayer cloth-discharging mechanism third and third clot sub-wire
Multilayer cloth-discharging mechanism third electrooptical device 612, the tight cloth apparatus 609 of the multilayer cloth-discharging mechanism the 4th are provided between device 604
The 4th electrooptical device 613 of multilayer cloth-discharging mechanism, the multilayer cloth-discharging mechanism are provided between the 4th clot sub-wire device 605
One electrooptical device 610, the second electrooptical device of multilayer cloth-discharging mechanism 611, multilayer cloth-discharging mechanism third electrooptical device 612, layer cloth outputting
The 4th electrooptical device 613 of mechanism uses mutually isostructural electrooptical device, and is located at the same height of multilayer cloth-discharging mechanism rack 601
Degree, first electrooptical device of multilayer cloth-discharging mechanism 610, the second electrooptical device of multilayer cloth-discharging mechanism 611, multilayer cloth-discharging mechanism the
Three electrooptical devices 612, the 4th electrooptical device 613 of layer cloth-discharging mechanism lower section be provided with multilayer cloth-discharging mechanism draw-out roller 614;
It is provided between the cloth intlet and the tight cloth apparatus 606 of multilayer cloth-discharging mechanism first of multilayer cloth-discharging mechanism rack 601 multiple more
Layer the first gap bridge of cloth-discharging mechanism fabric guide roll 615, the cloth intlet and the tight cloth of multilayer cloth-discharging mechanism second of multilayer cloth-discharging mechanism rack 601
Multiple the second gap bridge of multilayer cloth-discharging mechanism fabric guide rolls 616, the cloth feeding of multilayer cloth-discharging mechanism rack 601 are provided between device 607
Multiple multilayer cloth-discharging mechanism third gap bridge fabric guide rolls 617 are provided between end and the tight cloth apparatus 608 of multilayer cloth-discharging mechanism third, it is more
Multiple multilayer cloth outputtings are provided between the cloth intlet and the tight cloth apparatus 609 of multilayer cloth-discharging mechanism the 4th of layer cloth-discharging mechanism rack 601
The 4th gap bridge fabric guide roll 618 of mechanism;
The tight cloth apparatus 606 of the multilayer cloth-discharging mechanism first, the tight cloth apparatus 607 of multilayer cloth-discharging mechanism second, multilayer cloth-discharging mechanism
The tight cloth apparatus 608 of third, the tight cloth apparatus 609 of multilayer cloth-discharging mechanism the 4th lower section be provided with multilayer cloth-discharging mechanism J-type and bank up
Case or mesh belt bank up mechanism, it is preferred that and mechanism 700 is banked up using mesh belt and carries out temporary cloth,;
The first clot sub-wire device 602, the second clot sub-wire device 603, third clot sub-wire device 604 and the 4th clot
Sub-wire device 605 uses mutually isostructural clot sub-wire device, and the clot sub-wire device includes clot sub-wire device support stand
602.1, the clot sub-wire device cylinder 602.9 that clot sub-wire device A cabinet frame 602.5 and two front and backs are arranged symmetrically, it is described to beat
Volume sub-wire device A cabinet frame 602.2 is set to right section of lower section of clot sub-wire device support stand 602.1, the clot sub-wire dress
Setting support frame 602.1 includes the lateral clot sub-wire device cursor 602.1.1 that two front and backs are arranged symmetrically, two clots point
It is provided with longitudinal clot sub-wire device rotation axis 602.1.2 between left section of silk device cursor 602.1.1, passes through clot point
Silk device rotation axis 602.1.2 and the lower section of multilayer cloth-discharging mechanism rack 601 are rotatablely connected, two clot sub-wire device cursors
602.1.1 multiple longitudinal clot sub-wire device connecting shaft 602.1.3 are also connected between;
Longitudinal clot sub-wire device fabric guide roll is disposed on the clot sub-wire device support stand 602.1 from left to right
602.2, the clot sub-wire device cloth beam 602.4 of longitudinal clot sub-wire device sub-wire roller 602.3 and longitudinal direction, the clot point
Silk device fabric guide roll 602.2 and clot sub-wire device sub-wire roller 602.3 or so are arranged in parallel, the clot sub-wire device cloth beam
602.4 are located at the top of clot sub-wire device A cabinet frame 602.5, and the both ends of the clot sub-wire device cloth beam 602.4 are respectively provided with
There is clot sub-wire device speed reducer 602.10, is set with clot sub-wire on the rear side shaft part of clot sub-wire device cloth beam 602.4
The first drive sprocket of device 602.6 is set with clot sub-wire device on the rear side shaft part of clot sub-wire device sub-wire roller 602.3
Two drive sprockets 602.7, the first drive sprocket of the clot sub-wire device 602.6 and the second drive sprocket of clot sub-wire device
Clot sub-wire device chain 602.8 is connected between 602.7;
Two clot sub-wire device cylinders 602.9 are obliquely installed in "/" in the lower section of clot sub-wire device support stand 602.1, institute
The telescopic end for stating clot sub-wire device cylinder 602.9 and the bottom in the middle section of clot sub-wire device cursor 602.1.1 are hinged, beat
The fixing end of volume sub-wire device cylinder 602.9 is installed in multilayer cloth-discharging mechanism rack 601 by clot sub-wire device cylinder block;
Clot sub-wire device speed reducer 602.10 drives clot sub-wire device cloth beam 602.4 to rotate, and drives clot sub-wire device
The rotation of first drive sprocket 602.6 drives the second drive sprocket of clot sub-wire device by clot sub-wire device chain 602.8
602.7 rotations, so that clot sub-wire device sub-wire roller 602.3 rotates.
The filter device 800 that the sewage disposal system includes above-mentioned multiple water washing chambers 502, connect with water washing chamber 502
And the double-deck aeration tank 900, the bracket height of the multiple water washing chamber 502 increase one by one from left to right, i.e., leftmost washing
Minimum, the base height highest of the water washing chamber 502 of rightmost of base height of case 502, the washing of each adjacent two water washing chamber 502
Be connected with overflow pipe between case water outlet 502.3 and water washing chamber water inlet 502.2, leftmost water washing chamber and the double-deck aeration tank it
Between pass through pipeline connect;
Preferably, it is described washing box body 502.1 lower section be arranged at intervals with from left to right the longitudinally arranged water washing chamber of muti-piece every
Water plate 502.11, muti-piece water washing chamber water-stop sheet 502.11 are staggered front to back arrangement, so that the water entered in washing box body 502.1 is in
Snakelike reflux;
Multilayer fabric is successively cleaned by multiple water washing chambers 502, and the water in first arranged from left to right water washing chamber is
It washing for the first time, the water of second water washing chamber is second of washing, and dustiness is slightly below the dustiness of first water washing chamber, with
This analogizes, and the water of the 4th water washing chamber cleans the most, and using the gravity of difference in height, the 4th used water of water washing chamber is logical
It crosses overflow pipe and flows backward in third water washing chamber and continue to use, the used water of third water washing chamber flows backward to by overflow pipe
It is continued to use in two water washing chambers, the second used water of water washing chamber is flowed backward in first water washing chamber by overflow pipe to be continued
It uses, so that the sewage pollution degree highest in first water washing chamber, and be directly discharged in the double-deck aeration tank, dustiness
Generated energy that is more high more being conducive to power generator, and previous scouring and bleaching production line is in woven just for being processed, each
Washing water in water washing chamber, which only used, once just makees sewage direct emission, serious waste resource, and washing in each water washing chamber
It washs water and only passes through single wash, dustiness is lower, causes the generated energy of power generator insufficient, is unable to satisfy enterprise demand.Cause
This, which enables water resource to obtain Efficient Cycle utilization, can either achieve the purpose that economize on resources, also can
It enough improves generating efficiency, reduce production cost, to improve Business Economic Benefit.
The bilayer aeration tank 900 includes aeration tank ontology 901, and the middle section in the aeration tank ontology 901 is provided with vertical
To the S type partition 902 of arrangement, the front and back wall surface of the S type partition 902 is fixedly connected with the front and back inner wall of aeration tank ontology 901,
The bottom surface of the S type partition 902 is fixedly connected with the bottom surface of aeration tank ontology 901, and the height of the S type partition 902 is lower than exposure
The bottom of the height of gas pond ontology 901,901 one side wall of aeration tank ontology is provided with aeration tank water inlet 903, another side wall
Top be provided with aeration tank water outlet 904, the upper aeration across S type partition 902 is additionally provided in the aeration tank ontology 901
Aeration tube group under Guan Zuhe, upper aeration tube group include multiple from spaced lateral upper aeration tube 905 front to back, lower aeration
Pipe group includes multiple from spaced lateral lower aeration tube 906 front to back, upper aeration tube 905 and about 906 lower aeration tube
Interlaced arrangement.Sewage can be extended in aeration tank ontology 901 using S type partition 902 and flow through path, made by the double-deck aeration tube
Obtaining sewage can come into full contact with air, improve oxygen utilization rate.
A kind of scouring and bleaching production line sewage treatment process:
The gravity of sewage intercepting well difference in height in multiple water washing chambers from down to height arrangement is inversely flowed backward to by overflow pipe
In preceding road water washing chamber, to dilute the concentration of wastewater in preceding road water washing chamber, sewage discharge to the bilayer in the water washing chamber in the road Qian exposes
Carry out Air Exposure in gas pond, the gas generated during Air Exposure is generated electricity by power generator, sewage back through
Cheng Zhong is filtered the sewage in corresponding water washing chamber by multiple filter devices, sundries is separated with washing water, utilizes water pump
Washing water after filtering is delivered in water washing chamber again, by internal spray equipment by the washing water after filtering to water
Fabric in tank-washer is rinsed, and with this multiple circulating filtration, is increased the utilization rate of sewage, is reduced dustiness.
A kind of multilayer scouring and bleaching technique carries out scouring and bleaching processing using multilayer scouring and bleaching production line, and concrete operations are as follows:
Step 1: progress
Debatching, stretching, extension are carried out to multiple fabrics simultaneously by multilayer cloth inlet mechanism, and the multilayer fabric after stretching, extension is overlapped heap
It is folded to be delivered in pre- tank-washer;
Step 2: prewashing
Pre- washing process is carried out to the multilayer fabric after stacking by pre- tank-washer;
Step 3: padding
By repeatedly pad mechanism the multilayer fabric after pre- washing is successively carried out efficiently rolling wash, impregnate together, roll together wash,
Two dippings, two, which roll, washes processing;
Step 4: steaming
Steaming processing is carried out to the multilayer fabric after padding by mesh belt steam box;
Step 5: washing
The multilayer fabric after steaming is successively efficiently rolled together by water washing mechanism wash, together washing, roll together wash, two
Road washing, two, which roll, to wash, three washings, three rolls and wash, four washings, two efficiently roll and wash processing;
Step 6: cloth outputting
Layering clot is carried out into multiple yardage rolls to multilayer fabric by multilayer cloth-discharging mechanism.
In addition to the implementation, all to use equivalent transformation or equivalent replacement the invention also includes there is an other embodiments
The technical solution that mode is formed should all be fallen within the scope of the hereto appended claims.
Claims (7)
1. a kind of scouring and bleaching production line multilayer cloth inlet mechanism, it is characterised in that: including multilayer cloth inlet mechanism rack, the multilayer cloth feeding
Left section of mechanism rack is disposed with multiple spaced apart uncoil-stands from left to right, is provided with and knits in the uncoil-stand
Right section of object, the multilayer cloth inlet mechanism rack is provided with multiple multilayer cloth inlet mechanism photoelectricity centralising devices from right-to-left, described
Multilayer cloth inlet mechanism draw-out roller is provided with immediately below photoelectricity centralising device, the multiple uncoil-stands arranged from left to right and the right side certainly
Tight cloth apparatus and multiple gap bridge fabric guide rolls, multiple fabric difference are respectively arranged between the multiple photoelectricity centralising devices arranged to left bank
By the debatching simultaneously of multiple uncoil-stands, through tension cloth apparatus, multiple gap bridge fabric guide rolls, photoelectricity centralising device, multiple fabrics are logical
It crosses multiple multilayer cloth inlet mechanism draw-out roller cloth outputtings and is stacked from top to bottom, into next process.
2. a kind of scouring and bleaching production line multilayer cloth inlet mechanism according to claim 1, it is characterised in that: the multilayer fabric feeding machine
Left section of structure rack is disposed with spaced apart first uncoil-stand, the second uncoil-stand, third debatching dress from left to right
Set with the 4th uncoil-stand, set in the first uncoil-stand, the second uncoil-stand, third uncoil-stand and the 4th uncoil-stand respectively
Be equipped with the first fabric, the second fabric, third fabric and the 4th fabric, right section of the multilayer cloth inlet mechanism rack from left to right according to
It is secondary to be provided with the first photoelectricity of multilayer cloth inlet mechanism centralising device positioned at sustained height, multilayer cloth inlet mechanism the second photoelectricity centering dress
It sets, the 4th photoelectricity centralising device of multilayer cloth inlet mechanism third photoelectricity centralising device and multilayer cloth inlet mechanism, the multilayer fabric feeding machine
The first photoelectricity of structure centralising device, the second photoelectricity of multilayer cloth inlet mechanism centralising device, multilayer cloth inlet mechanism third photoelectricity centralising device
Be respectively arranged with immediately below the 4th photoelectricity centralising device of multilayer cloth inlet mechanism the first draw-out roller of multilayer cloth inlet mechanism, multilayer into
The second draw-out roller of cloth mechanism, multilayer cloth inlet mechanism third draw-out roller, the 4th draw-out roller of multilayer cloth inlet mechanism,
Multilayer cloth inlet mechanism first is provided between the 4th photoelectricity centralising device of first uncoil-stand and multilayer cloth inlet mechanism
Tight cloth apparatus and multiple the first gap bridge of multilayer cloth inlet mechanism fabric guide rolls, the tight cloth apparatus of the multilayer cloth inlet mechanism first are set to
In the multilayer cloth inlet mechanism rack in the oblique upper right side of the first uncoil-stand;Second uncoil-stand and multilayer cloth inlet mechanism third light
The tight cloth apparatus of multilayer cloth inlet mechanism second and multiple the second gap bridge of multilayer cloth inlet mechanism fabric guide rolls are provided between electric centralising device,
The tight cloth apparatus of the multilayer cloth inlet mechanism second is set in the multilayer cloth inlet mechanism rack in the oblique upper right side of the second uncoil-stand;Institute
It states and is provided with multilayer cloth inlet mechanism third between third uncoil-stand and multilayer cloth inlet mechanism the second photoelectricity centralising device and tightly arranges
It sets and is set to third debatching with multiple multilayer cloth inlet mechanism third gap bridge fabric guide rolls, the tight cloth apparatus of multilayer cloth inlet mechanism third
In the multilayer cloth inlet mechanism rack in the oblique upper right side of device;4th uncoil-stand and multilayer cloth inlet mechanism the first photoelectricity centering dress
The tight cloth apparatus of multilayer cloth inlet mechanism the 4th and multiple the 4th gap bridge fabric guide rolls of multilayer cloth inlet mechanism, the multilayer are provided between setting
The tight cloth apparatus of cloth inlet mechanism the 4th is set in the multilayer cloth inlet mechanism rack in the 4th oblique upper right side of uncoil-stand.
3. a kind of scouring and bleaching production line multilayer cloth inlet mechanism according to claim 2, it is characterised in that: the multilayer fabric feeding machine
The tight cloth apparatus of structure first, the tight cloth apparatus of multilayer cloth inlet mechanism second, the tight cloth apparatus of multilayer cloth inlet mechanism third, multilayer cloth inlet mechanism
4th tight cloth apparatus uses mutually isostructural tight cloth apparatus, the tight cloth apparatus include longitudinally arranged tight cloth apparatus fabric guide roll,
Longitudinally arranged tight cloth apparatus cloth pressing roller, two front and back be arranged symmetrically the first cylinder of tight cloth apparatus, two front and back be arranged symmetrically
The second cylinder of tight cloth apparatus, the longitudinally arranged tight tight cloth rewinder roll of cloth apparatus, the both ends of the tight cloth apparatus fabric guide roll pass through respectively
Two tight cloth apparatus selvage guide roll bearing seats are fixed in multilayer cloth inlet mechanism rack, and one end of tight cloth apparatus fabric guide roll is provided with tightly
Cloth apparatus speed reducer, the telescopic end of two the first cylinders of tight cloth apparatus are in tilted layout in tight cloth apparatus fabric guide roll upwards and in "/"
Left side, the fixing end of tight the first cylinder of cloth apparatus is installed on multilayer cloth inlet mechanism rack by tight the first cylinder block of cloth apparatus
On, the tight cloth apparatus cloth pressing roller is set to the oblique upper right side of tight cloth apparatus fabric guide roll, and tight first cylinder of cloth apparatus is stretched
Contracting end be provided in " " the first swing arm of tight cloth apparatus for being in tilted layout, the both ends of the tight cloth apparatus cloth pressing roller are by tightly arranging
It sets compress roll bearing seat to be installed between the middle section of two the first swing arms of tight cloth apparatus, right section of tight the first swing arm of cloth apparatus passes through
Tight the first swing arm seat of cloth apparatus is installed in multilayer cloth inlet mechanism rack, and two the first swing arm seats of tight cloth apparatus are set to and tightly arrange
The right side and front and back for setting fabric guide roll are arranged symmetrically;
The telescopic end of two the second cylinders of tight cloth apparatus is downward and is vertically arranged at the oblique lower right of tight cloth apparatus fabric guide roll, tight cloth
The fixing end of the second cylinder of device is installed on the upper section of multilayer cloth inlet mechanism rack by tight the second cylinder block of cloth apparatus, described tight
The tight cloth rewinder roll of cloth apparatus is set to the right of the telescopic end of two the second cylinders of tight cloth apparatus, and two tight the second cylinders of cloth apparatus are stretched
The left at contracting end is provided with longitudinally arranged tight cloth apparatus rotation axis, and the both ends of tight cloth apparatus rotation axis are turned by tight cloth apparatus
Moving axis bearing block is installed on the lower section of multilayer cloth inlet mechanism rack, and two sections of the front and back of the tight cloth apparatus rotation axis is set with oriented
The tight cloth apparatus floating shelf of right extension, tight cloth apparatus rotation axis can drive tight cloth apparatus floating shelf to rotate, and the tight cloth apparatus is tight
The both ends of cloth rewinder roll are installed between right section of two tight cloth apparatus floating shelf respectively by the tight cloth roll bearing seat of tight cloth apparatus, and two
The telescopic end of the second cylinder of tight cloth apparatus is provided with the second swing arm of tight cloth apparatus extended to the left, and two tight cloth apparatus second are put
Left section of arm is set in the front and back two axial ends of tight cloth apparatus rotation axis.
4. a kind of scouring and bleaching production line multilayer cloth inlet mechanism according to claim 2, it is characterised in that: the multilayer fabric feeding machine
The tight cloth apparatus of structure first, the second tight cloth apparatus, the tight cloth apparatus of multilayer cloth inlet mechanism third, the tight cloth apparatus of multilayer cloth inlet mechanism the 4th
Lower section is provided with mesh belt and banks up mechanism, the mesh belt bank up mechanism include the mesh belt being vertically arranged bank up the first frame of mechanism and
The mesh belt of lateral arrangement banks up the second frame of mechanism, and the mesh belt, which banks up the first frame of mechanism and is set to mesh belt, banks up mechanism second
Left section of frame roof;
The mesh belt, which is banked up, to be set as mesh belt and banks up mechanism fabric input mouth at the top of the first frame of mechanism, and is located at the tight cloth of tight cloth apparatus
The underface of roller, the mesh belt bank up left section of the top of the first frame of mechanism and right section set up respectively in " " inclination
The mesh belt of arrangement banks up the first inclined plate of mechanism and banks up the second inclined plate of mechanism in the mesh belt that "/" is in tilted layout, and the mesh belt is banked up
The bottom that the first inclined plate of mechanism and mesh belt bank up the second inclined plate of mechanism be extended with separately down mesh belt bank up mechanism starting stave and
Mesh belt banks up the second riser of mechanism, wherein the bottom that mesh belt banks up mechanism starting stave extends downward into mesh belt and banks up mechanism
The upper section of one frame, mesh belt bank up the second riser of mechanism and extend downward into the middle section that mesh belt banks up the first frame of mechanism, the net
Band, which is banked up, to be provided with longitudinally arranged mesh belt and banks up mechanism heap cloth rewinder roll below the second riser of mechanism, mesh belt banks up mechanism heap cloth rewinder roll
Front and back two axial ends stretch out two wall surface of front and back that mesh belt banks up the first frame of mechanism respectively, and mechanism heap cloth rewinder roll is banked up by mesh belt
Bearing block is installed on the lower section that mesh belt banks up the first frame of mechanism, and the mesh belt banks up the roll surface of mechanism heap cloth rewinder roll along its circumference side
Mechanism cord is banked up to more longitudinally arranged mesh belts are equipped with, the mesh belt is banked up and is provided with mesh belt on the left of mechanism heap cloth rewinder roll
Mechanism arc plate is banked up, mechanism heap cloth rewinder roll is banked up towards mesh belt in the concave surface that the mesh belt banks up mechanism arc plate, and mesh belt is banked up
The top of mechanism arc plate is fixedly connected with the bottom that mesh belt banks up mechanism starting stave, and mesh belt banks up the bottom of mechanism arc plate
Extend downward into the intersection that mesh belt banks up the first frame of mechanism and mesh belt banks up the second frame of mechanism;
The mesh belt bank up right section of the second frame of mechanism and left section be respectively arranged with longitudinally arranged mesh belt bank up mechanism actively
Roller and longitudinally arranged mesh belt bank up mechanism passive guide roller, and the mesh belt banks up mechanism drive roll and mesh belt banks up mechanism passive guide roller position
In in same level, right section of the top that the mesh belt banks up the second frame of mechanism has set up mesh belt and has banked up mechanism gear
Plate, mesh belt bank up mechanism baffle and are located at the top that mesh belt banks up mechanism drive roll, and the mesh belt banks up mechanism passive guide roller and is located at net
Band banks up the lower section of the first frame of mechanism, and one end that the mesh belt banks up mechanism drive roll is provided with mesh belt and banks up mechanism deceleration
Machine, the mesh belt banks up mechanism drive roll and mesh belt is banked up and is set with mesh belt between mechanism passive guide roller and banks up mechanism foraminous conveyer,
The preceding shaft end that the mesh belt banks up mechanism passive guide roller is provided with mesh belt and banks up the first driving wheel of mechanism, banks up mechanism corresponding to mesh belt
Mesh belt on front side of heap cloth rewinder roll, which is banked up, to be provided with vertical mesh belt on the outer wall of the first frame of mechanism and banks up mechanism mounting base, the net
Band, which is banked up, to be offered mesh belt along its length and banks up mechanism waist type groove in mechanism mounting base, mesh belt is banked up to be set in mechanism waist type groove
It is equipped with mesh belt and banks up the second driving wheel of mechanism, the mesh belt banks up the second driving wheel of mechanism and mesh belt banks up the sliding of mechanism mounting base
Connection, the shaft end that the mesh belt that the mesh belt banks up outer wall before the first frame of mechanism banks up mechanism heap cloth rewinder roll are provided with mesh belt and bank up machine
Structure third driving wheel, the mesh belt banks up the first driving wheel of mechanism and mesh belt is banked up and is set with mesh belt between the second driving wheel of mechanism
Mechanism driving band is banked up, the mesh belt banks up mechanism third driving wheel and mesh belt banks up the mating connection of mechanism driving band.
5. a kind of scouring and bleaching production line multilayer cloth inlet mechanism according to claim 2, it is characterised in that: the multilayer fabric feeding machine
The first draw-out roller of structure, the second draw-out roller of multilayer cloth inlet mechanism, multilayer cloth inlet mechanism third draw-out roller, multilayer cloth inlet mechanism the 4th go out
Cloth rewinder roll is located at sustained height.
6. a kind of scouring and bleaching production line multilayer cloth inlet mechanism according to claim 2, it is characterised in that: the multilayer fabric feeding machine
The tight cloth apparatus of structure first, the tight cloth apparatus of multilayer cloth inlet mechanism second, the tight cloth apparatus of multilayer cloth inlet mechanism third, multilayer cloth inlet mechanism
4th tight cloth apparatus is located at sustained height.
7. a kind of scouring and bleaching production line multilayer cloth inlet mechanism according to claim 2, it is characterised in that: the multilayer fabric feeding machine
The tight cloth apparatus of structure first, the tight cloth apparatus of multilayer cloth inlet mechanism second, the tight cloth apparatus of multilayer cloth inlet mechanism third, multilayer cloth inlet mechanism
4th tight cloth apparatus is located at sustained height.
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CN201910357777.6A CN109989202A (en) | 2019-04-30 | 2019-04-30 | Scouring and bleaching production line multilayer cloth inlet mechanism |
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CN201910357777.6A CN109989202A (en) | 2019-04-30 | 2019-04-30 | Scouring and bleaching production line multilayer cloth inlet mechanism |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113493970A (en) * | 2021-06-30 | 2021-10-12 | 江苏新联印染机械有限公司 | Double-speed composite annealing, boiling and bleaching machine for open-width four-layer cloth |
CN113832635A (en) * | 2021-09-30 | 2021-12-24 | 江苏新联印染机械有限公司 | Double-speed composite pretreatment washing machine for open-width four-layer cloth |
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