CN103938383B - Energy-efficient low emission fur polychromatic dyeing all-in-one and fur colouring method - Google Patents
Energy-efficient low emission fur polychromatic dyeing all-in-one and fur colouring method Download PDFInfo
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- CN103938383B CN103938383B CN201410111035.2A CN201410111035A CN103938383B CN 103938383 B CN103938383 B CN 103938383B CN 201410111035 A CN201410111035 A CN 201410111035A CN 103938383 B CN103938383 B CN 103938383B
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Abstract
The present invention relates to fur dyeing installation field, especially a kind ofly can carry out to fur the energy-efficient low emission fur polychromatic dyeing all-in-one that different colours contaminates system simultaneously, it comprises frame, outer chamber, motor, gearbox and dyeing cylindrical shell, motor drives outer chamber to rotate by gearbox, outer chamber is connected with frame by the axle at two ends, multiple dyeing cylindrical shell is fixed with in the inside of outer chamber, the contact internal walls of dyeing cylindrical shell and outer chamber, and all offer feeding gate at the contact internal walls place of dyeing cylindrical shell and outer chamber, in annular wall in dyeing cylindrical shell, interval is provided with multiple dividing plate uniformly, it adds dyestuff and the auxiliary agent of fur raw material and correspondence in dyeing cylindrical shell that can be different, dye system while can carrying out different colours to fur, improve production efficiency, the waste of the energy can be avoided simultaneously, and heating by steam, the temperature that can realize in whole outer chamber is consistent, thus the temperature of dyeing cylindrical shell is consistent, improve Color.
Description
Technical field
The present invention relates to fur dyeing installation field, especially a kind of energy-efficient low emission fur polychromatic dyeing all-in-one and fur colouring method.
Background technology
Existing fur dyeing machine is all only have the cylindrical shell that dyes, a kind of dye system of color can only be carried out to fur, especially, when small lot polychrome dye is processed, often causes energy waste because dyeing machine is excessive and dye uneven, and one by one time of consuming of dyeing long.
Summary of the invention
The object of the invention is the deficiency in order to solve above-mentioned technology and provide a kind of to carry out to fur energy-efficient low emission fur polychromatic dyeing all-in-one and the fur colouring method that different colours contaminates system simultaneously.
In order to achieve the above object, energy-efficient low emission fur polychromatic dyeing all-in-one designed by the present invention, it comprises frame, outer chamber, motor, gearbox and dyeing cylindrical shell, motor drives outer chamber to rotate by gearbox, it is characterized in that: outer chamber is connected with frame by the axle at two ends, axle is fixedly connected with frame, multiple dyeing cylindrical shell is fixed with in the inside of outer chamber, a pressure valve is equipped with at the side of each dyeing cylindrical shell, the contact internal walls of dyeing cylindrical shell and outer chamber, and all offer feeding gate at the contact internal walls place of dyeing cylindrical shell and outer chamber, in annular wall in dyeing cylindrical shell, interval is provided with multiple dividing plate uniformly, dividing plate is extended by the center of annular wall to dyeing cylindrical shell, and the radical length of dividing plate is less than the radius of dyeing cylindrical shell, the axial length of dividing plate is consistent with the inner length of dyeing cylindrical shell, described feeding gate is between two wherein adjacent dividing plates, temperature detector is provided with in dyeing cylindrical shell, axle on outer chamber is hollow structure, a steam feeding tube and steam delivery line is provided with in axle, steam delivery line is connected with Steam Recovery bucket.Steam feeding tube and steam delivery line can be arranged on the both sides of outer chamber, also can be arranged on the side of outer chamber, and by rotary valve, outer cladding in both are arranged.
Coatedly be provided with one deck outer wall the annular wall of dyeing cylindrical shell is outside, and form gap between outer wall and annular wall, in gap, be provided with a baffle plate carry out axial partition, annular gap is made to be half-duplex channel, steam feeding tube in outer chamber is rotatably connected to the importing of multiple steam to be in charge of, the steam delivery line of inside cavity is outside rotatably connected to steam to derive and be in charge of, be connected with steam in gap on each dyeing cylindrical shell to derive to be in charge of to import with steam and be in charge of, steam imports to be in charge of to derive with steam to be in charge of and to be connected to baffle plate both sides.And in dyeing cylindrical shell rotation direction, steam imports to be in charge of and is positioned at steam and derives the front be in charge of.
As optimization, the radical length of described dividing plate is the 10-70% of the radius of dyeing cylindrical shell.
As optimization, the radial cross-section of described dividing plate is spoon type or S type, and the setting direction of dividing plate is consistent; When described dividing plate is spoon-shaped structure, structure is: described dividing plate is recessed to side in the one end at the center near dyeing cylindrical shell, and dividing plate is straight in the one end near annular wall; When described dividing plate is S type structure, structure is: described dividing plate is recessed to side in the one end at the center near dyeing cylindrical shell, and dividing plate is recessed to opposite side in the one end near annular wall.
As optimization, at the coated one layer of heat preservation material of the outer surface of outer chamber.
As preferably, two dividing plates of the arbitrary neighborhood in annular wall, one of them be left side higher than right side, and another is that right side is higher than left side.
As preferably, four dividing plates of the arbitrary neighborhood in annular wall, one of them be left side higher than right side, one be right side higher than left side, two is level, and two of level dividing plates and two other baffle interval are arranged.
Fur colouring method, first fur raw material is added in dyeing cylindrical shell, then in dyeing cylindrical shell, add water, dyestuff and auxiliary agent, pass into steam simultaneously and dyeing cylindrical shell is heated, be warmed to 60-75 when spending, start insulation, detect through temperature detector, if temperature declines, steam be supplemented and heat up, whole dyeing terminates to dyeing from logical Steam Heating, time controling, in 3 hours, is incubated after reaching design temperature, eventually passes the dyeing of corresponding time; Wherein in dyeing course, the rotating speed of dyeing cylindrical shell controls at 5-30 rev/min, and bath raio is 1:2-5; In dyeing cylindrical shell, fur out directly goes to dry.
The energy-efficient low emission fur polychromatic dyeing all-in-one that the present invention obtains and fur colouring method, dyestuff and the auxiliary agent of fur raw material and correspondence is added in dyeing cylindrical shell that can be different, dye system while can carrying out different colours to fur, improve production efficiency, the waste of the energy can be avoided simultaneously, and heating by steam, the temperature that can realize in whole outer chamber is consistent, thus the temperature of dyeing cylindrical shell is consistent, improve Color.
Accompanying drawing explanation
Fig. 1 is structural representation when being in charge of without steam of the present invention;
Fig. 2 is structural representation when having steam to be in charge of of the present invention;
Fig. 3 is the schematic cross-section of A-A of the present invention;
The structural representation of Fig. 4 to be partition part of the present invention be level;
Fig. 5 is the structural representation that dividing plate of the present invention is arc.
Detailed description of the invention
Below by embodiment, the invention will be further described by reference to the accompanying drawings.
Embodiment 1:
As Fig. 1, Fig. 2, Fig. 3, shown in Fig. 4, the energy-efficient low emission fur polychromatic dyeing all-in-one that the present embodiment describes, it comprises frame 1, outer chamber 2, motor 3, gearbox 4 and dyeing cylindrical shell 5, motor 3 drives outer chamber 2 to rotate by gearbox 4, outer chamber 2 is connected with frame 1 by the axle 7 at two ends, axle 7 is fixedly connected with frame 1, multiple dyeing cylindrical shell 5 is fixed with in the inside of outer chamber 2, a pressure valve 18 is equipped with at the side of each dyeing cylindrical shell 5, the contact internal walls of dyeing cylindrical shell 5 and outer chamber 2, and all offer feeding gate 6 at dyeing cylindrical shell 5 with the contact internal walls place of outer chamber 2, in annular wall 10 in dyeing cylindrical shell 5, interval is provided with multiple dividing plate 11 uniformly, dividing plate 11 is extended by the center of annular wall 10 to dyeing cylindrical shell 5, and the radical length of dividing plate 11 is less than the radius of dyeing cylindrical shell 5, the axle 7 of dividing plate 11 is consistent with the inner length of dyeing cylindrical shell 5 to length, described feeding gate 6 is between two wherein adjacent dividing plates 11, temperature detector is provided with in dyeing cylindrical shell 5, coatedly be provided with one deck outer wall 13 the annular wall 10 of dyeing cylindrical shell 5 is outside, and form gap between outer wall 13 and annular wall 10, in gap, be provided with a baffle plate 17 carry out axle 7 to partition, annular gap is made to be half-duplex channel, axle 7 on outer chamber 2 is hollow structure, and be provided with steam feeding tube 8 in axle 7 at one end, steam delivery line 9 is provided with in the axle 7 of the other end, steam feeding tube 8 in outer chamber 2 is rotatably connected to the importing of multiple steam and is in charge of 16, the steam delivery line 9 of outer chamber 2 inside is rotatably connected to steam derivation and is in charge of 15, be connected with in gap on each dyeing cylindrical shell 5 steam derive be in charge of 15 and steam import be in charge of 16, steam import be in charge of 16 and steam derive and be in charge of 15 and be connected to baffle plate 17 both sides, steam delivery line 9 is connected with Steam Recovery bucket 12, the radical length of described dividing plate 11 is 30% of the radius of dyeing cylindrical shell 5, the radial cross-section of described dividing plate 11 is spoon type, and the setting direction of dividing plate 11 is consistent, when described dividing plate 11 is spoon-shaped structure, structure is: described dividing plate 11 is recessed to side in the one end at the center near dyeing cylindrical shell 5, and dividing plate 11 is straight in the one end near annular wall 10, , at the coated one layer of heat preservation material 14 of the outer surface of outer chamber 2, two dividing plates 11 of the arbitrary neighborhood in annular wall 10, one of them be left side higher than right side, and another be right side higher than left side.
Fur colouring method, first fur raw material is added in dyeing cylindrical shell 5, then in dyeing cylindrical shell 5, add water, dyestuff and auxiliary agent, pass into steam simultaneously and dyeing cylindrical shell 5 is heated, when being warmed to 65 degree, start insulation, detect through temperature detector, if temperature declines, steam be supplemented and heat up, whole dyeing terminates to dyeing from logical Steam Heating, time controling, in 3 hours, is incubated after reaching design temperature, eventually passes the dyeing of corresponding time; Wherein in dyeing course, the rotating speed of dyeing cylindrical shell 5 controls at 10 revs/min, and bath raio is 1:3; In dyeing cylindrical shell 5, fur out directly goes to dry.
Embodiment 2:
As Fig. 1, Fig. 2, Fig. 3, shown in Fig. 5, the energy-efficient low emission fur polychromatic dyeing all-in-one that the present embodiment describes, it comprises frame 1, outer chamber 2, motor 3, gearbox 4 and dyeing cylindrical shell 5, motor 3 drives outer chamber 2 to rotate by gearbox 4, outer chamber 2 is connected with frame 1 by the axle 7 at two ends, axle 7 is fixedly connected with frame 1, multiple dyeing cylindrical shell 5 is fixed with in the inside of outer chamber 2, a pressure valve 18 is equipped with at the side of each dyeing cylindrical shell 5, the contact internal walls of dyeing cylindrical shell 5 and outer chamber 2, and all offer feeding gate 6 at dyeing cylindrical shell 5 with the contact internal walls place of outer chamber 2, in annular wall 10 in dyeing cylindrical shell 5, interval is provided with multiple dividing plate 11 uniformly, dividing plate 11 is extended by the center of annular wall 10 to dyeing cylindrical shell 5, and the radical length of dividing plate 11 is less than the radius of dyeing cylindrical shell 5, the axle 7 of dividing plate 11 is consistent with the inner length of dyeing cylindrical shell 5 to length, described feeding gate 6 is between two wherein adjacent dividing plates 11, temperature detector is provided with in dyeing cylindrical shell 5, coatedly be provided with one deck outer wall 13 the annular wall 10 of dyeing cylindrical shell 5 is outside, and form gap between outer wall 13 and annular wall 10, in gap, be provided with a baffle plate 17 carry out axle 7 to partition, annular gap is made to be half-duplex channel, axle 7 on outer chamber 2 is hollow structure, and be provided with steam feeding tube 8 in axle 7 at one end, steam delivery line 9 is provided with in the axle 7 of the other end, steam feeding tube 8 in outer chamber 2 is rotatably connected to the importing of multiple steam and is in charge of 16, the steam delivery line 9 of outer chamber 2 inside is rotatably connected to steam derivation and is in charge of 15, be connected with in gap on each dyeing cylindrical shell 5 steam derive be in charge of 15 and steam import be in charge of 16, steam import be in charge of 16 and steam derive and be in charge of 15 and be connected to baffle plate 17 both sides, steam delivery line 9 is connected with Steam Recovery bucket 12, the radical length of described dividing plate 11 is 50% of the radius of dyeing cylindrical shell 5, the radial cross-section of described dividing plate 11 is S type, and the setting direction of dividing plate 11 is consistent, when described dividing plate 11 is S type structure, structure is: described dividing plate 11 is recessed to side in the one end at the center near dyeing cylindrical shell 5, and dividing plate 11 is recessed to opposite side in the one end near annular wall 10, at the coated one layer of heat preservation material 14 of the outer surface of outer chamber 2, four dividing plates 11 of the arbitrary neighborhood in annular wall 10, one of them be left side higher than right side, one be right side higher than left side, two is level, and two of level dividing plates 11 and two other dividing plate 11 interval are arranged.
Fur colouring method, first fur raw material is added in dyeing cylindrical shell 5, then in dyeing cylindrical shell 5, add water, dyestuff and auxiliary agent, pass into steam simultaneously and dyeing cylindrical shell 5 is heated, when being warmed to 70 degree, start insulation, detect through temperature detector, if temperature declines, steam be supplemented and heat up, whole dyeing terminates to dyeing from logical Steam Heating, time controling, in 3 hours, is incubated after reaching design temperature, eventually passes the dyeing of corresponding time; Wherein in dyeing course, the rotating speed of dyeing cylindrical shell 5 controls at 20 revs/min, and bath raio is 1:4; In dyeing cylindrical shell 5, fur out directly goes to dry.
Claims (8)
1. an energy-efficient low emission fur polychromatic dyeing all-in-one, it comprises frame, outer chamber, motor, gearbox and dyeing cylindrical shell, motor drives outer chamber to rotate by gearbox, it is characterized in that: outer chamber is connected with frame by the axle at two ends, axle is fixedly connected with frame, multiple dyeing cylindrical shell is fixed with in the inside of outer chamber, a pressure valve is equipped with at the side of each dyeing cylindrical shell, the contact internal walls of dyeing cylindrical shell and outer chamber, and all offer feeding gate at the contact internal walls place of dyeing cylindrical shell and outer chamber, in annular wall in dyeing cylindrical shell, interval is provided with multiple dividing plate uniformly, dividing plate is extended by the center of annular wall to dyeing cylindrical shell, and the radical length of dividing plate is less than the radius of dyeing cylindrical shell, the axial length of dividing plate is consistent with the inner length of dyeing cylindrical shell, described feeding gate is between two wherein adjacent dividing plates, temperature detector is provided with in dyeing cylindrical shell, axle on outer chamber is hollow structure, a steam feeding tube and steam delivery line is provided with in axle, steam delivery line is connected with Steam Recovery bucket, coatedly be provided with one deck outer wall the annular wall of dyeing cylindrical shell is outside, and form gap between outer wall and annular wall, in gap, be provided with a baffle plate carry out axial partition, annular gap is made to be half-duplex channel, steam feeding tube in outer chamber is rotatably connected to the importing of multiple steam to be in charge of, the steam delivery line of inside cavity is outside rotatably connected to steam to derive and be in charge of, be connected with steam in gap on each dyeing cylindrical shell to derive to be in charge of to import with steam and be in charge of, steam imports to be in charge of to derive with steam to be in charge of and to be connected to baffle plate both sides.
2. one according to claim 1 energy-efficient low emission fur polychromatic dyeing all-in-one, is characterized in that: the radical length of described dividing plate is the 10-70% of the radius of dyeing cylindrical shell.
3. one according to claim 2 energy-efficient low emission fur polychromatic dyeing all-in-one, is characterized in that: the radial cross-section of described dividing plate is spoon type or S type, and the setting direction of dividing plate is consistent.
4. one according to claim 3 energy-efficient low emission fur polychromatic dyeing all-in-one, it is characterized in that: when described dividing plate is spoon-shaped structure, structure is: described dividing plate is recessed to side in the one end at the center near dyeing cylindrical shell, and dividing plate is straight in the one end near annular wall; When described dividing plate is S type structure, structure is: described dividing plate is recessed to side in the one end at the center near dyeing cylindrical shell, and dividing plate is recessed to opposite side in the one end near annular wall.
5. one according to claim 4 energy-efficient low emission fur polychromatic dyeing all-in-one, is characterized in that: at the coated one layer of heat preservation material of the outer surface of outer chamber.
6. one according to claim 5 energy-efficient low emission fur polychromatic dyeing all-in-one, is characterized in that: two dividing plates of the arbitrary neighborhood in annular wall, one of them be left side higher than right side, and another be right side higher than left side.
7. one according to claim 5 energy-efficient low emission fur polychromatic dyeing all-in-one, it is characterized in that: four dividing plates of the arbitrary neighborhood in annular wall, one of them is that left side is higher than right side, one is that right side is higher than left side, two is level, and two of level dividing plates and two other baffle interval are arranged.
8. the fur colouring method using energy-efficient low emission fur polychromatic dyeing all-in-one as claimed in claim 1 to carry out, it is characterized in that: first fur raw material is added in dyeing cylindrical shell, then in dyeing cylindrical shell, water is added, dyestuff and auxiliary agent, pass into steam to heat to dyeing cylindrical shell simultaneously, be warmed to 60-75 when spending, start insulation, detect through temperature detector, if temperature declines, steam be supplemented and heat up, whole dyeing terminates to dyeing from logical Steam Heating, time controling is in 3 hours, be incubated after reaching design temperature, eventually pass the dyeing of corresponding time, wherein in dyeing course, the rotating speed of dyeing cylindrical shell controls at 5-30 rev/min, and bath raio is 1:2-5, in dyeing cylindrical shell, fur out directly goes to dry.
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CN103924400B (en) * | 2014-03-24 | 2015-12-09 | 桐乡市新时代皮草有限公司 | Energy-efficient low emission fur dyeing machine and fur colouring method |
CN105568600A (en) * | 2016-01-25 | 2016-05-11 | 桐乡市新时代皮草有限公司 | Baffle of rotating drum type woolen sweater dyeing machine |
CN105568594B (en) * | 2016-01-25 | 2017-12-05 | 桐乡市新时代皮草有限公司 | Woolen sweater dyeing machine |
CN106012373A (en) * | 2016-07-21 | 2016-10-12 | 桐乡市新时代皮草有限公司 | Multi-barrel roller dyeing machine |
CN107099955A (en) * | 2017-06-07 | 2017-08-29 | 浙江安丹纺织科技有限公司 | A kind of equipment for textile spray dyeing |
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CN101988245B (en) * | 2009-08-07 | 2012-08-22 | 夏筛根 | High-temperature high-pressure dyeing lab extruder |
CN201738170U (en) * | 2010-06-08 | 2011-02-09 | 桐乡市新时代皮草有限公司 | Automatic temperature control device for dyeing pot |
CN202809272U (en) * | 2012-07-12 | 2013-03-20 | 无锡阳博印染机械设备有限公司 | Color tester |
CN103924400B (en) * | 2014-03-24 | 2015-12-09 | 桐乡市新时代皮草有限公司 | Energy-efficient low emission fur dyeing machine and fur colouring method |
CN203741569U (en) * | 2014-03-24 | 2014-07-30 | 桐乡市新时代皮草有限公司 | Efficient, energy-saving and low-emission fur multi-color dyeing all-in-one machine |
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