SUPERCRITICAL FLUID DYEING AND FINISHING SYSTEM AND METHOD

Abstract

A supercritical fluid dyeing and finishing system has a fabric warp beam dyeing kettle. A fabric warp beam dyeing and finishing unit is arranged in the fabric warp beam dyeing kettle. An external magnetic transmission device II is arranged outside the fabric warp beam dyeing kettle. The fabric warp beam dyeing and finishing unit includes a porous pipe I and a porous pipe II. The porous pipe I and the porous pipe II are connected with an inlet of the fabric warp beam dyeing and finishing unit through a bearing I and a bearing II. A fluid ejector is connected with the inlet of the fabric warp beam dyeing and finishing unit and disposed in the vicinity of the porous pipe I and the porous pipe II.

Claims

1. A supercritical fluid dyeing and finishing system, comprising a fabric warp beam dyeing kettle; the fabric warp beam dyeing kettle comprises a fabric warp beam dyeing and finishing unit and an external magnetic transmission device II, wherein the fabric warp beam dyeing and finishing unit is arranged in the fabric warp beam dyeing kettle, and the external magnetic transmission device II is arranged outside the fabric warp beam dyeing kettle; the fabric warp beam dyeing and finishing unit comprises a porous pipe I, a porous pipe II, a bearing I, a bearing II, an internal magnetic transmission device II, an internal magnetic transmission device III and a fluid ejector, wherein the porous pipe I and the porous pipe II are connected with an inlet of the fabric warp beam dyeing and finishing unit through the bearing I and the bearing II respectively, distributed in the fabric warp beam dyeing and finishing unit and provided with the internal magnetic transmission device II and the internal magnetic transmission device III respectively; the fluid ejector is connected with the inlet of the fabric warp beam dyeing and finishing unit and disposed about the porous pipe I and the porous pipe II.

2. The system according to claim 1, wherein the fabric warp beam dyeing and finishing unit comprises stoppers which are arranged on the porous pipe I and the porous pipe II respectively.

3. The system according to claim 2, wherein the fabric warp beam dyeing kettle comprises a rotary cover shaft, a connecting rod and a hoop, wherein the rotary cover shaft is fixed on a kettle body of the fabric warp beam dyeing kettle; the connecting rod is configured to connect the rotary cover shaft with a kettle cover of the fabric warp beam dyeing kettle; the hoop is configured to connect the kettle body with the kettle cover.

4. The system according to claim 3, further comprising a dye vat; the dye vat comprises a dye drum, a dye coil pipe and a stirring device, wherein an inlet of the dye vat is sequentially connected with the dye drum, the dye coil pipe and an outlet of the dye vat, and the stirring device is arranged in the dye vat.

5. The system according to claim 4, wherein the dye coil pipe is of a gradient porous structure whose pore diameter increases gradually from 1 m to 1 mm from bottom to top.

6. The system according to claim 5, wherein the dye vat is connected with the fabric warp beam dyeing kettle.

7. The supercritical fluid dyeing and finishing method using the system according to claim 1, comprising the following steps: putting dye and/or a finishing agent in the dye drum, and enabling supercritical carbon dioxide fluid to flow to the dye drum from the inlet of the dye vat, then flow into the dye coil pipe, pass through a hole in the dye coil pipe and flow out from the outlet of the dye vat; enabling the supercritical carbon dioxide fluid in which the dye and/or the finishing agent is dissolved to enter from the inlet of the fabric warp beam dyeing kettle, then enter into the porous pipe I and the porous pipe II on the one hand to dye and finish a fabric wound thereon, such that the porous pipe I and the porous pipe II rotate under the action of the external magnetic transmission device II, the internal magnetic transmission device II and the internal magnetic transmission device III to realize dyeing and finishing of the single-layer fabric, and enter the fluid ejector on the other hand to realize directional dyeing and finishing of the fabric.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] There are three drawings in the present disclosure, in which,

[0022] FIG. 1 is a structural schematic drawing of the dye vat of Embodiment 1;

[0023] FIG. 2 is a structural schematic drawing of the fabric warp beam dyeing kettle of Embodiment 1;

[0024] FIG. 3 is a structural schematic drawing of the hoop of Embodiment 1;

[0025] FIG. 4 shows the details of the fabric warp beam dyeing and finishing unit 21 in FIG. 3.

[0026] wherein reference numerals represent the following components: 1dye vat; 11dye drum; 12dye coil pipe; 13stirring device; 14liquid inlet; 15liquid outlet; 131stirring motor; 132external magnetic transmission device I; 133transmission rod; 134internal magnetic transmission device I; 135stirring blades; 2fabric warp beam dyeing kettle; 21fabric warp beam dyeing and finishing unit; 211porous pipe I; 212porous pipe II; 213bearing I; 214bearing II; 215internal magnetic transmission device II; 216internal magnetic transmission device III; 217stopper; 218fluid ejector; 219cover for porous pipe II (212); 2110cover for porous pipe I (211); 2111cover for the fabric warp beam dyeing and finishing unit (21); 2112hoist ring; 2113fabric; 2114fluid conduit; 2115fluid conduit; 2116fluid inlet; 22external magnetic transmission device II; 23rotary cover shaft; 24connecting rod; and 25hoop.

DETAILED DESCRIPTIONS OF THE PREFERRED EMBODIMENTS

[0027] The following non-limiting embodiments will make those ordinary skilled in the art understand the prevent invention more completely, rather than limiting the present disclosure in any way.

Embodiment 1

[0028] A supercritical fluid dyeing and finishing system includes a dye vat 1 which is connected with a fabric warp beam dyeing kettle 2.

[0029] As shown in FIG. 1, the dye vat 1 includes a dye drum 11, a dye coil pipe 12 and a stirring device 13; an inlet of the dye vat 1 is sequentially connected with the dye drum 11, the dye coil pipe 12 and an outlet of the dye vat 1; the dye coil pipe 12 is of a gradient porous structure whose pore diameter increases gradually from 1 m to 1 mm from bottom to top; the stirring device 13 includes a stirring motor 131, an external magnetic transmission device I 132, a transmission rod 133, an internal magnetic transmission device I 134, and stirring blades 135; the stirring motor 131 is connected with the external magnetic transmission device I 132 and distributed outside the dye vat 1; the transmission rod 133 passes through the dye vat 1 and is connected with the stirring blades 135 in the stirring kettle 1; a part of the transmission rod 133 outside the dye vat 1 is provided with the internal magnetic transmission device I 134. The liquid dye enters the dye vat 1 through the inlet 14 and exits through the outlet 15.

[0030] As shown in FIG. 2 and FIG. 4, the fabric warp beam dyeing kettle 2 includes a fabric warp beam dyeing and finishing unit 21, an external magnetic transmission device II 22, a rotary cover shaft 23, a connecting rod 24 and a hoop 25; the fabric warp beam dyeing and finishing unit 21 is arranged in the fabric warp beam dyeing kettle 2; the external magnetic transmission device II 22 is arranged outside the fabric warp beam dyeing kettle 2. The fabric warp beam dyeing and finishing unit 21 includes a porous pipe I 211, a porous pipe II 212, a bearing I 213, a bearing II 214. The porous pipe I 211 has a cover 2110 while the porous pipe II 212 has a cover 219. There is also an internal magnetic transmission device II 215, an internal magnetic transmission device II 216, stoppers 217, and a fluid ejector 218; the stoppers 217 are arranged on the porous pipe I 211 and the porous pipe II 212 respectively; the porous pipe I 211 and the porous pipe II 212 are connected with an inlet of the fabric warp beam dyeing and finishing unit 21 respectively through the bearing I 213 and the bearing II 214 and distributed in the fabric warp beam dyeing and finishing unit 21; the internal magnetic transmission device II 215, the internal magnetic transmission device II 216 are arranged on the porous pipe I 211 and the porous pipe II 212 respectively. Further, the outer wall and inner wall of unit 21 forms a casing that is connected to the inlet 2116 via fluid conduit 2115. The fluid ejector 218 in Embodiment 1 is formed by providing a plurality of holes on the inner wall of the unit 21. The ejector 218 is disposed about of the porous pipe I 211 and the porous pipe II 212 and liquid dye shoots from the ejector 218 onto the fabric 2113 wound about the porous pipes 211 and 212. The rotary cover shaft 23 is affixed on a kettle body of the fabric warp beam dyeing kettle 2; the connecting rod 24 is configured to connect the rotary cover shaft 23 with a kettle cover of the fabric warp beam dyeing kettle 2; the hoop 25 is configured to connect the kettle body with the kettle cover of the fabric warp beam dyeing kettle 2; the hoop 25 is of a trisectional structure.

Embodiment 2

[0031] A supercritical fluid dyeing and finishing method using the system of Embodiment 1 includes the following steps:

[0032] putting disperse red 60 in the dyeing drum 11 in a proportion of 1 w/w %;

[0033] winding one end of a 1000 m Dacron fabric to the porous pipe I 211 and winding the other end thereof to the porous pipe II 212;

[0034] introducing supercritical carbon dioxide fluid to the dye drum 11 from an inlet of the dye vat 1 to dissolve dye, such that the dye is sufficiently dispersed and dissolved by the dye coil pipe 12 under the impact of the supercritical carbon diode fluid and enters into the dye vat 1 through holes in the dye coil pipe 12, wherein a stirring speed of the stirring blades 135 is 50 r/min; and enabling the supercritical carbon diode fluid in which the dye is dissolved to flow out from an outlet of the dye vat 1 and enter the fabric warp beam dyeing kettle 2 to perform dyeing at a temperature of 140 C. and a pressure of 24 MPa, wherein the supercritical carbon dioxide fluid in which the dye is dissolved enters the porous pipe I 211 and the porous pipe II 212 on the one hand to perform dyeing and finishing on the Dacron fabric wound thereon, such that the porous pipe II 212 rotates for 50 min at a speed of 20 m/min under the action of the external magnetic transmission device II 22, the internal magnetic transmission device II 215 and the internal magnetic transmission device II 216 and drives the Dacron fabric on the porous pipe I 211 to be wound thereon; the supercritical carbon dioxide fluid in which the dye is dissolved on the other hand enters the fluid ejector 218 to be jetted toward the Dacron fabric; after dyeing, the pressure of the fabric warp beam dyeing kettle 2 drops to 0, the hoop 25 is separated from a kettle cover of the fabric warp beam dyeing kettle 2 under the driving of a cover-opening motor, the kettle cover of the fabric warp beam dyeing kettle 2 rotates around the rotary cover shaft 23 under the driving of a hydraulic device to realize opening, and the fabric warp shaft dyeing and finishing unit 21 removes the kettle body of the fabric warp beam dyeing kettle 2 away by using a moving wheel.

[0035] Test results show that the dyeing K/S value of the dyed Dacron fabric is 25.2, and the standard deviation of the K/S value is lower than 0.01. Meanwhile, the color fastness to washing of the dyed Dacron fabric is 5, the dry fastness to abrasion is 5, the wet fastness to abrasion is 5, and the color fastness to sunlight is 6.

Embodiment 3

[0036] A supercritical fluid dyeing and finishing method using the system of Embodiment 1 differs from Embodiment 2 in that:

[0037] disperse blue 79 is put in the dyeing drum 11 in a proportion of 0.5 w/w %;

[0038] one end of a 2000 m Dacron fabric is wound to the porous pipe I 211 and the other end thereof is wound to the porous pipe II 212;

[0039] The stirring speed of the stirring blades 135 is 100 r/min;

[0040] dyeing is performed at a temperature of 120 C. and a pressure of 26 MPa;

[0041] the porous pipe II 212 rotates for 20 min at a speed of 100 m/min;

[0042] When the stoppers 217 detect the remaining layer of the Dacron fabric, the internal magnetic transmission device II 215 stops moving and the internal magnetic transmission device II 216 begins to move, such that the Dacron fabric is rewound onto the porous pipe I 211.

[0043] Test results show that the dyeing K/S value of the dyed Dacron fabric is 16.8, and the standard deviation of the K/S value is lower than 0.02.

Embodiment 4

[0044] A supercritical fluid dyeing and finishing method using the system of Embodiment 1 differs from Embodiment 2 in that:

[0045] disperse yellow 163 is put in the dye drum 11 at a proportion of 2 w/w % one end of a 1000 m wool fabric is wound to the porous pipe I 211 and the other end thereof is wound to the porous pipe II 212;

[0046] dyeing is performed at a temperature of 100 C. and a pressure of 22 MPa.

[0047] After detection, the dyeing K/S value of the dyed Dacron fabric is 8.7, and the standard deviation of the K/S value is lower than 0.01. Meanwhile, after dyeing, the color fastness to washing of the Dacron fabric is 4, the dry fastness to abrasion is 4, the wet fastness to abrasion is 4, and the color fastness to sunlight is 6.

Embodiment 5

[0048] A supercritical fluid dyeing and finishing method using the system of Embodiment 1 differs from Embodiment 2 in that:

[0049] an anti-ultraviolet finishing agent 2-(2-hydroxy-3,5-di-t-phenyl)-5-chlorobenzotriazole is put in the dye drum 11 at a proportion of 0.5 w/w %;

[0050] one end of a 2000 m acrylic fabric is wound to the porous pipe I 211 and the other end thereof is wound to the porous pipe II 212;

[0051] the stirring speed of the stirring blades 135 is 200 r/min;

[0052] dyeing is performed at a temperature of 120 C. and a pressure of 23 MPa;

[0053] the porous pipe II 212 rotates for 20 min at a speed of 100 m/min;

[0054] when the stoppers 217 detect the remaining layer of the acrylic fabric, the internal magnetic transmission device II 215 stops moving and the internal magnetic transmission device II 216 begins to move, such that the acrylic fabric is rewound onto the porous pipe I 211.

[0055] Test results show that the ultraviolet shielding function of the finished acrylic fabric is more than 98%, and the finished acrylic fabric has a long-lasting anti-ultraviolet characteristic.

Embodiment 6

[0056] A supercritical fluid dyeing and finishing method using the system of Embodiment 1 differs from Embodiment 2 in that:

[0057] polyethylene glycol diethylenetriamine is put in the dye drum 11 at a proportion of 2 w/w %

[0058] one end of a 500 m Dacron fabric is wound to the porous pipe I 211 and the other end thereof is wound to the porous pipe II 212;

[0059] the stirring speed of the stirring blades 135 is 150 r/min;

[0060] dyeing is performed at a temperature of 130 C. and a pressure of 25 MPa;

[0061] the porous pipe II 212 rotates for 50 min at a speed of 10 m/min.

[0062] After the detection, the surface resistivity of the finished Dacron fabric falls below 10.sup.10 and the half-life is less than 10 s.

Embodiment 7

[0063] A supercritical fluid dyeing and finishing method using the system of Embodiment 1 differs from Embodiment 2 in that:

[0064] an anti-ultraviolet finishing agent 2-(2-hydroxy-3, 5-di-t-phenyl)-5-chlorobenzotriazole and disperse red 153 are put in the dye drum 11 at a proportion of 0.2 w/w % and a proportion of 1 w/w % respectively;

[0065] one end of a 5000 m Dacron fabric is wound to the porous pipe I 211 and the other end thereof is wound to the porous pipe II 212;

[0066] the stirring speed of the stirring blades 135 is 300 r/min;

[0067] dyeing is performed at a temperature of 120 C. and a pressure of 26 MPa;

[0068] the porous pipe II 212 rotates for 50 min at a speed of 100 m/min.

[0069] Test results show that the dyeing K/S value of the dyed Dacron fabric is 18.2, and the standard deviation of the K/S value is lower than 0.02. Meanwhile, after dyeing, the color fastness to washing of the Dacron fabric is 5, the dry fastness to abrasion is 4 to 5, the wet fastness to abrasion is 4 to 5, and the fastness to sunlight is 6. Furthermore, the ultraviolet shielding function of the finished Dacron fabric is over 98%.