CN110042682A - A kind of subregion colouring method - Google Patents
A kind of subregion colouring method Download PDFInfo
- Publication number
- CN110042682A CN110042682A CN201910283156.8A CN201910283156A CN110042682A CN 110042682 A CN110042682 A CN 110042682A CN 201910283156 A CN201910283156 A CN 201910283156A CN 110042682 A CN110042682 A CN 110042682A
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- Prior art keywords
- dye
- dyeing
- color
- spraying
- nano wire
- Prior art date
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- 238000000034 method Methods 0.000 title claims abstract description 53
- 238000004040 coloring Methods 0.000 title claims abstract description 20
- 238000004043 dyeing Methods 0.000 claims abstract description 86
- 230000000694 effects Effects 0.000 claims abstract description 45
- 239000003153 chemical reaction reagent Substances 0.000 claims abstract description 35
- 238000005507 spraying Methods 0.000 claims description 57
- 238000010438 heat treatment Methods 0.000 claims description 51
- 239000002070 nanowire Substances 0.000 claims description 43
- 238000009987 spinning Methods 0.000 claims description 34
- 238000001514 detection method Methods 0.000 claims description 21
- 239000007921 spray Substances 0.000 claims description 16
- 239000007787 solid Substances 0.000 claims description 8
- 239000000975 dye Substances 0.000 description 62
- 238000010586 diagram Methods 0.000 description 3
- FAPWRFPIFSIZLT-UHFFFAOYSA-M Sodium chloride Chemical compound [Na+].[Cl-] FAPWRFPIFSIZLT-UHFFFAOYSA-M 0.000 description 2
- 238000004064 recycling Methods 0.000 description 2
- VZGDMQKNWNREIO-UHFFFAOYSA-N tetrachloromethane Chemical compound ClC(Cl)(Cl)Cl VZGDMQKNWNREIO-UHFFFAOYSA-N 0.000 description 2
- 240000007594 Oryza sativa Species 0.000 description 1
- 235000007164 Oryza sativa Nutrition 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 239000003795 chemical substances by application Substances 0.000 description 1
- 239000000982 direct dye Substances 0.000 description 1
- 238000004090 dissolution Methods 0.000 description 1
- 235000013399 edible fruits Nutrition 0.000 description 1
- 238000004134 energy conservation Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 235000009566 rice Nutrition 0.000 description 1
- 239000011780 sodium chloride Substances 0.000 description 1
- 238000000638 solvent extraction Methods 0.000 description 1
- 238000010186 staining Methods 0.000 description 1
Classifications
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06P—DYEING OR PRINTING TEXTILES; DYEING LEATHER, FURS OR SOLID MACROMOLECULAR SUBSTANCES IN ANY FORM
- D06P5/00—Other features in dyeing or printing textiles, or dyeing leather, furs, or solid macromolecular substances in any form
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Coloring (AREA)
- Treatment Of Fiber Materials (AREA)
Abstract
The invention discloses a kind of subregion colouring methods, include the steps that the first chemical reagent is smeared at the position for needing to contaminate certain color in object to be contaminated, the step of contaminating position second chemical reagent of smearing of this kind of color is not needed in object to be contaminated, and has smeared two chemical reagent and has treated the step of dye object is dyed with dye liquor later;Wherein, the first chemical reagent can react with the dye liquor for contaminating this kind of color, or can be dissolved in the dye liquor for contaminating this kind of color;Second chemical reagent can neither react with the dye liquor for contaminating this kind of color, and cannot be dissolved in the dye liquor for contaminating this kind of color.The present invention can be realized as subregion dyeing only by the different chemical reagent of dye object different parts smearing are treated, and without improving to mechanical structures such as contaminate axle, circulating pumps, without complicated control process, method is simple to operation, at low cost.In addition, dyeing effect of the present invention it is more flexible, naturally, can be realized the uniqueness and nonrepeatability of dyeing product.
Description
Technical field
The present invention relates to colouring arts, more particularly to a kind of subregion colouring method.
Background technique
It is disclosed point application No. is the patent of invention of 201610326338.5, entitled subregion dyeing installation and method
The method of area's dyeing, including two steps of subregion and dyeing, wherein partitioning step needs to improve contaminate axle, each subregion
Contaminate axle will also have independent circulating pump, and staining procedure also needs to control the opening and closing of each circulating pump respectively.As it can be seen that in the prior art
The control process of this subregion colouring method is complicated, and needs to improve the mechanical structures such as contaminate axle, circulating pump.
Summary of the invention
Goal of the invention: the object of the present invention is to provide a kind of subregion colouring methods, are able to solve existing in the prior art
The technical issues of " control process is complicated, and needs to improve the mechanical structures such as contaminate axle, circulating pump ".
Technical solution: subregion colouring method of the present invention, the position including needing to contaminate certain color in object to be contaminated apply
The step of smearing the first chemical reagent does not need the step of contaminating position second chemical reagent of smearing of this kind of color in object to be contaminated, with
And it smears two chemical reagent and has treated the step of dye object is dyed with dye liquor later;Wherein, the first chemical reagent can be with
Dye liquor for contaminating this kind of color reacts, or can be dissolved in the dye liquor for contaminating this kind of color;Second chemistry examination
Agent can neither react with the dye liquor for contaminating this kind of color, and cannot be dissolved in the dye liquor for contaminating this kind of color.
Further, second chemical reagent is more more volatile than the dye liquor.In this way the can be in by control condition
Two chemical reagent can volatilize and in the range of dye liquor will not volatilize, allow the second chemical reagent to volatilize, to come to the second chemistry
Reagent carries out recycling and reusing, and dye liquor will not volatilize, and advantageously reduce cost and energy conservation and environmental protection.
It further, further include the process that dyeing effect is detected and compensated.
Further, the process that dyeing effect is detected and is compensated the following steps are included:
S61: it is detected by dyeing effect of the detection device to the object to be contaminated after dyeing: if existed not wait contaminate in object
There is the position for reaching default dyeing effect, then carries out step S62;Otherwise, step S65 is carried out;
S62: it is treated by positioning device and does not reach the position of default dyeing effect in dye object and positioned;
S63: selection paint-spraying head, the dye liquor color that the paint-spraying head sprays and the solid colour wait contaminate dye needed for object, according to
Positioning result control paint-spraying head carries out spraying dyeing after moving to corresponding position;
S64: heating region will be reached after adiabatic zone wait contaminate object after spraying dyeing, treat dye object in heating region
It is heated;
S65: terminate.
Wherein, why object to be contaminated will just reach heating region by adiabatic zone, be because adiabatic zone can prevent
The paint-spraying head for being thermally conducted to prime, positioning device and the detection device of heating region, and influence the operation of these devices of prime.It
It is that object carries out heating fixation because heating region can treat dye, so that color is stronger so to be ultimately sent to heating region.
Further, described when heating region is treated dye object and heated, the spinneret of spraying colorless nano wire is capable of in selection
Head controls after the spinning head moves to corresponding position according to positioning result and carries out spraying nano wire.Dye object can be treated in this way
The position of dyeing is wrapped, to protect the position of dyeing colour-fast.
Further, the process that dyeing effect is detected and is compensated the following steps are included:
S71: it is detected by dyeing effect of the detection device to the object to be contaminated after dyeing: if existed not wait contaminate in object
There is the position for reaching default dyeing effect, then carries out step S72;Otherwise, step S75 is carried out;
S72: it is treated by positioning device and does not reach the position of default dyeing effect in dye object and positioned;
S73: selection spinning head, the color for the nano wire that the spinning head sprays and the solid colour wait contaminate dye needed for object,
It is controlled after spinning head moves to corresponding position according to positioning result and carries out spraying nano wire;
S74: heating region is reached after adiabatic zone wait contaminate object by sprayed nano wire, treats dye in heating region
Object is heated;
S75: terminate.
Wherein, why object to be contaminated will just reach heating region by adiabatic zone, be because adiabatic zone can prevent
The spinning head for being thermally conducted to prime, positioning device and the detection device of heating region, and influence the operation of these devices of prime.It
It is dyed so to treat dye object by spraying nano wire, is that there are two advantages because nano wire has: first is that nano wire
Size is Nano grade, can be dyed to extremely small region, and so as to improve the precision of dyeing, it is fixed to realize
To dyeing;Second is that dyeing part can be protected after nano wire spraying, interference of the dyeing part by other regions is avoided.Why
It is ultimately sent to heating region, is that object carries out heating fixation because heating region can treat dye, so that color is stronger.
Further, described when heating region is treated dye object and heated, the spinneret of spraying colorless nano wire is capable of in selection
Head controls after the spinning head moves to corresponding position according to positioning result and carries out spraying nano wire.Dye object can be treated in this way
The position of dyeing is wrapped, to protect the position of dyeing colour-fast.
Further, the process that dyeing effect is detected and is compensated the following steps are included:
S81: it is detected by dyeing effect of the detection device to the object to be contaminated after dyeing: if existed not wait contaminate in object
There is the position for reaching default dyeing effect, then carries out step S82;Otherwise, step S86 is carried out;
S82: it is treated by positioning device and does not reach the position of default dyeing effect in dye object and positioned;
S83: selection paint-spraying head, the dye liquor color that the paint-spraying head sprays and the solid colour wait contaminate dye needed for object, according to
Positioning result control paint-spraying head carries out spraying dyeing after moving to corresponding position;
S84: nano wire is sprayed by spinning head to the object to be contaminated after spraying dyeing, described nano wire itself is without color;
S85: heating region is reached after adiabatic zone wait contaminate object by sprayed nano wire, treats dye in heating region
Object is heated;
S86: terminate.
Wherein, why object to be contaminated will just reach heating region by adiabatic zone, be because adiabatic zone can prevent
The paint-spraying head for being thermally conducted to prime, spinning head, positioning device and the detection device of heating region, and influence prime these devices
Operation.Why spraying dyeing after object to be contaminated also to carry out spraying nano wire, be because nano wire can treat dye object dye
The position of color is wrapped, to protect the position of dyeing colour-fast.Why it to be ultimately sent to heating region, be because of heating
Region can treat dye object and carry out heating fixation, so that color is stronger.
Further, in the step S84, the process that spinning head sprays nano wire is that spinning head fortune is controlled according to positioning result
Spraying nano wire is carried out after moving to corresponding position, or nano wire is sprayed to entirely object to be contaminated.
Further, it is described heating region treat the process that is heated of dye object be only to corresponding to positioning result wait contaminate
Position in object is heated, or is heated to entirely object to be contaminated.
The utility model has the advantages that the invention discloses a kind of subregion colouring methods, compared with prior art, there is following beneficial effect
Fruit:
1) present invention smears the first chemical reagent at the position that object to be contaminated needs to contaminate certain color, does not need to contaminate in object to be contaminated
The second chemical reagent is smeared at the position of this kind of color, smears different chemical reagent just only by treating dye object different parts in this way
It can be realized subregion dyeing, without improving to mechanical structures such as contaminate axle, circulating pumps, without complicated control process, side
Method is simple to operation, at low cost;
2) present invention is dissolved in dye liquor by the chemical reaction of the first chemical reagent and dye liquor or the first chemical reagent
Realize dyeing, because chemically reacting and dissolution requires the time, a little variation can be had at any time by dyeing the color come in this way, contaminate
Color effect is more flexible, naturally, can be realized the uniqueness and nonrepeatability of dyeing product.
Detailed description of the invention
Fig. 1 is adopted by the embodiment 1 for the process for being detected and being compensated to dyeing effect in the specific embodiment of the invention
The schematic diagram of device;
Fig. 2 is adopted by the embodiment 2 for the process for being detected and being compensated to dyeing effect in the specific embodiment of the invention
The schematic diagram of device;
Fig. 3 is adopted by the embodiment 3 for the process for being detected and being compensated to dyeing effect in the specific embodiment of the invention
The schematic diagram of device.
Specific embodiment
With reference to embodiment and attached drawing, technical solution of the present invention is described further.
Present embodiment discloses a kind of subregion colouring method, the position including needing to contaminate certain color in object to be contaminated
The step of smearing the first chemical reagent does not need the step of contaminating position second chemical reagent of smearing of this kind of color in object to be contaminated,
And it smears two chemical reagent and has treated the step of dye object is dyed with dye liquor later.Wherein, the first chemical reagent can
It reacts, or can be dissolved in the dye liquor for contaminating this kind of color with the dye liquor for contaminating this kind of color;Second chemistry
Reagent can neither react with the dye liquor for contaminating this kind of color, and cannot be dissolved in the dye liquor for contaminating this kind of color.
Second chemical reagent is more more volatile than dye liquor, is conducive to recycling and reusing in this way.It smears as directly smearing or air bubble spinning spray
It applies.Treating the mode that is dyed of dye object with dye liquor is that object to be contaminated is immersed in dye liquor or dye liquor is sprayed into wait contaminate on object.
Such as: it is the situation of direct black this direct dyes dye liquor of N-BN for dye liquor, the first chemical reagent can be used sodium chloride, and second
Carbon tetrachloride can be used in chemical reagent.The citing of the above dye liquor, the first chemical reagent and the second chemical reagent is not constituted to them
Limitation, their own selection only need to meet above-mentioned function.
In addition, this method further includes the process that dyeing effect is detected and compensated.To dyeing effect carry out detection and
The process of compensation has following three embodiments.
Embodiment 1:
As shown in Figure 1, the process that dyeing effect is detected and is compensated the following steps are included:
S61: it is detected by dyeing effect of the detection device to the object to be contaminated 41 after dyeing: if deposited in object to be contaminated 41
At the position for not reaching default dyeing effect, then step S62 is carried out;Otherwise, step S65 is carried out;
S62: it is treated by positioning device 21 and does not reach the position of default dyeing effect in dye object 41 and positioned;
S63: selection paint-spraying head 31, the solid colour of the dye liquor color that paint-spraying head 31 sprays and dye needed for object 41 to be contaminated, root
Spraying dyeing is carried out after moving to corresponding position according to positioning result control paint-spraying head 31;
S64: heating region 61 will be reached after adiabatic zone 51 wait contaminate object 41 after spraying dyeing, in heating region 61
Dye object 41 is treated to be heated;
S65: terminate.
Wherein, detection device Fig. 1 is not shown, detection device, positioning device 21, paint-spraying head 31, adiabatic zone 51 and heating
Region 61 is all provided in heald frame 11.Heald frame 11 in the present embodiment is different from traditional heald frame, and traditional heald frame is flat
Two-dimensional structure, without depth, and the heald frame 11 in the present embodiment has certain depth, and each device above-mentioned is provided in depth
The region and.In addition, detection device, positioning device 21, paint-spraying head 31, adiabatic zone 51 and heating region 61 can use it is existing
Technology realizes that their own structure is not the place of innovation of the invention, therefore does not provide their structure in the present invention.
In addition, when heating region is treated dye object and heated, it is also an option that capableing of the spinneret of spraying colorless nano wire
Head controls after spinning head moves to corresponding position according to positioning result and carries out spraying nano wire.
Embodiment 2:
As shown in Fig. 2, the process that dyeing effect is detected and is compensated the following steps are included:
S71: it is detected by dyeing effect of the detection device to the object to be contaminated 42 after dyeing: if deposited in object to be contaminated 42
At the position for not reaching default dyeing effect, then step S72 is carried out;Otherwise, step S75 is carried out;
S72: it is treated by positioning device 22 and does not reach the position of default dyeing effect in dye object 42 and positioned;
S73: selection spinning head 32, the color one of the color and dye needed for object 42 to be contaminated of the nano wire that spinning head 32 sprays
It causes, is controlled after spinning head 32 moves to corresponding position according to positioning result and carry out spraying nano wire;
S74: heating region 62 is reached after adiabatic zone 52 wait contaminate object 42 by sprayed nano wire, in heating region
62, which treat dye object 42, is heated;
S75: terminate.
Wherein, detection device Fig. 2 is not shown, detection device, positioning device 22, spinning head 32, adiabatic zone 52 and heating
Region 62 is all provided in heald frame 12.Heald frame 12 in the present embodiment is different from traditional heald frame, and traditional heald frame is flat
Two-dimensional structure, without depth, and the heald frame 12 in the present embodiment has certain depth, and each device above-mentioned is provided in depth
The region and.Spinning head 32 needs to connect electrostatic generator, and electrostatic generator Fig. 2 is not shown.In addition, detection device, positioning
Device 22, spinning head 32, adiabatic zone 52 and heating region 62 can realize that their own structure is not using the prior art
It is the place of innovation of the invention, therefore does not provide their structure in the present invention.
In addition, when heating region is treated dye object and heated, it is also an option that capableing of the spinneret of spraying colorless nano wire
Head controls after spinning head moves to corresponding position according to positioning result and carries out spraying nano wire.
Embodiment 3:
As shown in figure 3, the process that dyeing effect is detected and is compensated the following steps are included:
S81: it is detected by dyeing effect of the detection device to the object to be contaminated 43 after dyeing: if deposited in object to be contaminated 43
At the position for not reaching default dyeing effect, then step S82 is carried out;Otherwise, step S86 is carried out;
S82: it is treated by positioning device 23 and does not reach the position of default dyeing effect in dye object 43 and positioned;
S83: selection paint-spraying head 331, the solid colour of the dye liquor color that paint-spraying head 331 sprays and dye needed for object 43 to be contaminated,
It is controlled after paint-spraying head 331 moves to corresponding position according to positioning result and carries out spraying dyeing;
S84: nano wire is sprayed by spinning head 332 to the object to be contaminated 43 after spraying dyeing, nano wire itself is without color;Spray
The process that silk head 332 sprays nano wire is to move to behind corresponding position spray according to positioning result control spinning head 332 to receive
Rice silk, or nano wire is sprayed to entirely object 43 to be contaminated;
S85: heating region 63 is reached after adiabatic zone 53 wait contaminate object 43 by sprayed nano wire, in heating region
63, which treat dye object 43, is heated;
S86: terminate.
Wherein, detection device Fig. 3 is not shown, detection device, positioning device 23, paint-spraying head 331, spinning head 332, adiabatic region
Domain 53 and heating region 63 are all provided in heald frame 13.Heald frame 13 in the present embodiment is different from traditional heald frame, and traditional is comprehensive
Frame is flat two-dimensional structure, and without depth, and the heald frame 13 in the present embodiment has certain depth, is provided in depth aforementioned
Each device and region.Spinning head 332 needs to connect electrostatic generator, and electrostatic generator Fig. 3 is not shown.In addition, inspection
Existing skill can be used by surveying device, positioning device 23, paint-spraying head 331, spinning head 332, adiabatic zone 53 and heating region 63
Art realizes that their own structure is not the place of innovation of the invention, therefore does not provide their structure in the present invention.
In above three embodiments, treating the process that dye object is heated in heating region is only to corresponding to positioning result
The position wait contaminate in object heated, or entirely object to be contaminated is heated.
In addition, this method can recycle repeatedly, and then realize the primary dyeing or repeatedly dyeing to different parts, realize
The diversity of color change.
Claims (10)
1. a kind of subregion colouring method, it is characterised in that: smear first and change in the position including needing to contaminate certain color in object to be contaminated
The step of learning reagent does not need the step of contaminating position second chemical reagent of smearing of this kind of color in object to be contaminated, and smears
The step of dye object is dyed is treated with dye liquor after two chemical reagent;Wherein, the first chemical reagent can with for contaminating this
The dye liquor of kind color reacts, or can be dissolved in the dye liquor for contaminating this kind of color;Second chemical reagent can neither
It reacts, and cannot be dissolved in the dye liquor for contaminating this kind of color with the dye liquor for contaminating this kind of color.
2. subregion colouring method according to claim 1, it is characterised in that: second chemical reagent is more than the dye liquor
It is volatile.
3. subregion colouring method according to claim 1, it is characterised in that: further include that dyeing effect is detected and mended
The process repaid.
4. subregion colouring method according to claim 3, it is characterised in that: described that dyeing effect is detected and compensated
Process the following steps are included:
S61: it is detected by dyeing effect of the detection device to the object to be contaminated after dyeing: if do not reached wait contaminate to exist in object
To the position of default dyeing effect, then step S62 is carried out;Otherwise, step S65 is carried out;
S62: it is treated by positioning device and does not reach the position of default dyeing effect in dye object and positioned;
S63: selection paint-spraying head, the dye liquor color that the paint-spraying head sprays and the solid colour wait contaminate dye needed for object, according to positioning
As a result control paint-spraying head carries out spraying dyeing after moving to corresponding position;
S64: heating region will be reached after adiabatic zone wait contaminate object after spraying dyeing, treat dye object in heating region and carry out
Heating;
S65: terminate.
5. subregion colouring method according to claim 4, it is characterised in that: it is described heating region treat dye object added
When hot, the spinning head of spraying colorless nano wire is capable of in selection, is controlled the spinning head according to positioning result and is moved to corresponding position
After carry out spraying nano wire.
6. subregion colouring method according to claim 3, it is characterised in that: described that dyeing effect is detected and compensated
Process the following steps are included:
S71: it is detected by dyeing effect of the detection device to the object to be contaminated after dyeing: if do not reached wait contaminate to exist in object
To the position of default dyeing effect, then step S72 is carried out;Otherwise, step S75 is carried out;
S72: it is treated by positioning device and does not reach the position of default dyeing effect in dye object and positioned;
S73: selection spinning head, the color for the nano wire that the spinning head sprays and the solid colour wait contaminate dye needed for object, according to
Positioning result control spinning head carries out spraying nano wire after moving to corresponding position;
S74: reaching heating region wait contaminate object for sprayed nano wire after adiabatic zone, heating region treat dye object into
Row heating;
S75: terminate.
7. subregion colouring method according to claim 6, it is characterised in that: it is described heating region treat dye object added
When hot, the spinning head of spraying colorless nano wire is capable of in selection, is controlled the spinning head according to positioning result and is moved to corresponding position
After carry out spraying nano wire.
8. subregion colouring method according to claim 3, it is characterised in that: described that dyeing effect is detected and compensated
Process the following steps are included:
S81: it is detected by dyeing effect of the detection device to the object to be contaminated after dyeing: if do not reached wait contaminate to exist in object
To the position of default dyeing effect, then step S82 is carried out;Otherwise, step S86 is carried out;
S82: it is treated by positioning device and does not reach the position of default dyeing effect in dye object and positioned;
S83: selection paint-spraying head, the dye liquor color that the paint-spraying head sprays and the solid colour wait contaminate dye needed for object, according to positioning
As a result control paint-spraying head carries out spraying dyeing after moving to corresponding position;
S84: nano wire is sprayed by spinning head to the object to be contaminated after spraying dyeing, described nano wire itself is without color;
S85: reaching heating region wait contaminate object for sprayed nano wire after adiabatic zone, heating region treat dye object into
Row heating;
S86: terminate.
9. subregion colouring method according to claim 8, it is characterised in that: in the step S84, spinning head sprays nanometer
The process of silk carries out spraying nano wire to move to behind corresponding position according to positioning result control spinning head, or to entirely wait contaminate
Object sprays nano wire.
10. the subregion colouring method according to any one of claim 4-9, it is characterised in that: described in heating region
The process that dye object is heated is treated only to heat to the position corresponding to positioning result wait contaminate in object, or to entire
Object to be contaminated is heated.
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CN101245560A (en) * | 2008-03-25 | 2008-08-20 | 东华大学 | Dyeing method for improving reactive dye fabric tray dyeing color strength |
CN201347502Y (en) * | 2009-01-08 | 2009-11-18 | 宋子奎 | Normal temperature and pressure jet clothes dyeing device |
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CN105821601A (en) * | 2016-05-17 | 2016-08-03 | 广东溢达纺织有限公司 | Partitioned dyeing equipment and method |
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TW451012B (en) * | 2000-08-19 | 2001-08-21 | Chen Ming Tze | The method of intersection circulative for fabric dyeing |
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