CN104120577A - Dyeing machine waste water cyclic utilization device and method - Google Patents
Dyeing machine waste water cyclic utilization device and method Download PDFInfo
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- CN104120577A CN104120577A CN201410362928.4A CN201410362928A CN104120577A CN 104120577 A CN104120577 A CN 104120577A CN 201410362928 A CN201410362928 A CN 201410362928A CN 104120577 A CN104120577 A CN 104120577A
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- dyeing machine
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Abstract
The invention relates to a dyeing machine waste water cyclic utilization device. The dyeing machine waste water cyclic utilization device comprises a dyeing machine, a water supply pool and a water circulation unit, wherein the dyeing machine is provided with a water inlet and a water outlet; the water supply pool is provided with a water inlet and a water outlet; the water outlet of the water supply pool is communicated with the water inlet of the dyeing machine so as to supply water to the dyeing machine; the water circulation unit is communicated with the water outlet of the dyeing machine and the water inlet of the water supply pool so as to supply waste water generated by the dyeing machine to the water supply pool. The invention further provides a dyeing machine waste water cyclic utilization method. According to the dyeing machine waste water cyclic utilization device, the water circulation unit is additionally arranged, the waste water which is directly discharged originally enters the water supply pool again after being subjected to recovery processing and serves as water for dyeing, so waste is changed into something valuable, the use amount of clean water in the water supply pool is reduced, and good cost control is achieved.
Description
Technical field
The present invention relates to dyeing machine technical field, particularly relate to a kind of technology of dyeing machine cycling utilization of wastewater.
Background technology
Textile industry is the traditional pillar industry of China, comprises five parts such as weaving, printing and dyeing, chemical fibre, the manufacture of clothing and textile special equipment.Along with the fast development of national economy, the dyeing industry of China has also entered high-speed development period, and equipment and technical merit obviously promote, and production technology and equipment are constantly updated.Dyeing and printing process is in textile industry in occupation of very important status, and the cost control in dyeing and printing process directly has influence on the economic worth that is directly connected to fabric.Therefore, the dyeing course of fabric is wanted to strict controlling cost.
In dyeing, what mainly utilize is the printing and dyeing that dyeing machine carries out chemical fibre.All kinds of textile dyeings, dyeing is processed poststaining chance and is produced a large amount of waste water, if by the directly discharge without recycling of these waste water, easily cause the significantly increase of dyeing machine water consumption, and be unfavorable for the cost control of dyeing course.
Therefore, in dyeing, be badly in need of a kind of economical and practical dyeing machine wastewater processing technology and solve problems of the prior art.
Summary of the invention
In order to overcome above-mentioned the deficiencies in the prior art, the invention provides a kind of dyeing machine waste water circulation utilized device.The technical solution adopted in the present invention is: a kind of dyeing machine waste water circulation utilized device, it is characterized in that, and comprising: a dyeing machine body, it has a water inlet and a dewatering outlet; One feed cistern, it has a water inlet and a dewatering outlet, and this feed cistern dewatering outlet is communicated in this dyeing machine body water inlet in order to supply water to this dyeing machine body; One water circulation unit, is communicated in this chromosome body dewatering outlet and this feed cistern water inlet, in order to the waste water after this water circulation unit is processed to be provided to this feed cistern.
In a better embodiment, this water circulation unit further comprises a recovery pond, and this recovery pond has a water inlet and a dewatering outlet, and this recovery pond water inlet is communicated in the waste water that discharge in order to store this dyeing machine body this dyeing machine body dewatering outlet; This recovery pond dewatering outlet is communicated in this feed cistern water inlet in order to the waste water through recycling to be provided to this feed cistern.
In a better embodiment, further comprise that one first install pipeline is between this feed cistern and this dyeing machine body, this feed cistern dewatering outlet of this first pipeline communication and this dyeing machine body water inlet.
In a better embodiment, this water circulation unit further comprises a second pipe, and this second pipe is communicated with dewatering outlet and this recovery pond water inlet of this dyeing machine body, in order to the sewage discharge in this dyeing machine body is stored to this recovery pond.
In a better embodiment, this water circulation unit further comprises one the 3rd pipeline, and this recovery pond dewatering outlet of the 3rd pipeline communication and this feed cistern water inlet, in order to provide the waste water through recycling to this feed cistern.
In a better embodiment, this water circulation unit further comprises a filter, offers the waste water of this feed cistern in order to filter this recovery pond.
In a better embodiment, this water circulation unit further comprises that an aspirator is arranged between this recovery pond and this feed cistern, in order to pressure to be provided so that the waste water in this recovery pond enters in this feed cistern smoothly.
In a better embodiment, this dyeing machine body comprises the coating roll that a plurality of staining troughs and a plurality of correspondence arrange those staining troughs, and this coating roll dyes to the cloth by this staining trough by rotation, and the cloth that dyeing is completed moves to next station.
In a better embodiment, this water circulation unit further comprises the pollution detection device that those staining troughs of a plurality of correspondences arrange, this pollution detection device is in order to detect the pollution level of the waste water of discharging via staining trough, when the pollution level of the waste water of staining trough reaches predetermined standard, pollution detection device cuts out the dewatering outlet of corresponding staining trough, stops this recovery pond its waste water is reclaimed.
In a better embodiment, this recovery pond is a sedimentation basin.
The present invention provides a kind of method of dyeing machine cycling utilization of wastewater in addition, it is characterized in that, comprises the following steps: S1, a feed cistern is provided, and it has a water inlet and a dewatering outlet; S2, provides a dyeing machine body, and it has a water inlet and a dewatering outlet; S3, is communicated with this feed cistern dewatering outlet and this dyeing machine body water inlet, in order to supply water to this dyeing machine body; S4, provides a water circulation unit, is communicated in this chromosome body dewatering outlet and this feed cistern water inlet; S5, provides through the waste water after this water circulation unit processing to supply with this feed cistern.
In a better embodiment, more comprise a water supply step S0 before the S1, in order to the needed clear water of this feed cistern complementary stain machine body.
In a better embodiment, this water circulation unit is processed and is more comprised a filtration step S6, in order to filter through the waste water after this water circulation unit processing to supply with this feed cistern.
In a better embodiment, this water circulation unit is more processed and is comprised a detecting step S7, whether the waste water of supplying with this feed cistern in order to detect this water circulation unit meets default pollution norms, if meet standard, controls this water circulation unit and continues to supply water to this feed cistern.
In a better embodiment, when this water circulation unit being detected and supply with the waste water of this feed cistern and do not meet default pollution norms, this water circulation unit stops supplying water to this feed cistern, and the waste water that does not meet default pollution norms is discharged via a blowdown step S8.
Compared with prior art, the invention has the beneficial effects as follows:
The present invention, by having increased water circulation unit, enters the waste water being originally directly discharged again feed cistern as dyeing water after recycling, turns waste into wealth, and has saved the consumption of clear water in feed cistern, thereby has reached good cost control.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the first embodiment of the present invention's dyeing machine waste water circulation utilized device;
Fig. 2 is the schematic diagram of the second embodiment of the present invention's dyeing machine waste water circulation utilized device;
Fig. 3 is the schematic diagram of the 3rd embodiment of the present invention's dyeing machine waste water circulation utilized device;
Fig. 4 is the schematic diagram of the 4th embodiment of the present invention's dyeing machine waste water circulation utilized device;
Fig. 5 is the schematic diagram of the 5th embodiment of the present invention's dyeing machine waste water circulation utilized device;
Fig. 6 is the schematic diagram of the 6th embodiment of the present invention's dyeing machine waste water circulation utilized device;
Fig. 7 is the flow chart of the first embodiment of method of the present invention's dyeing machine cycling utilization of wastewater;
Fig. 8 is the flow chart of the second embodiment of method of the present invention's dyeing machine cycling utilization of wastewater;
Fig. 9 is the flow chart of the 3rd embodiment of method of the present invention's dyeing machine cycling utilization of wastewater;
Figure 10 is the flow chart of the 4th embodiment of method of the present invention's dyeing machine cycling utilization of wastewater;
The specific embodiment
In details is below described, element numbers can be indicated in becomes some wherein in the diagram of enclosing, and represents with the particular example describing mode of practicable this embodiment.This class embodiment can illustrate that enough details are able to tool to implement in order to do the general skill personage who makes this field.The person of readding must recognize in the present invention, also can utilize other embodiment or under the prerequisite departing from described embodiment not, make structural, logicality and electrically on change.Therefore, details is below described will not want to be considered to be a kind of restriction, otherwise the embodiment that wherein comprised will be defined by claim scope.
First please refer to Fig. 1, it shows the schematic diagram of the first embodiment of the dyeing machine waste water circulation utilized device according to the present invention; As shown in Figure 1, dyeing machine waste water circulation utilized device 1 comprises a feed cistern 10, and feed cistern 10 comprises that a feed cistern water inlet 101 and that is arranged on feed cistern 10 upper surfaces is arranged on the feed cistern dewatering outlet 102 of feed cistern 10 sidewalls.It should be noted that, in other embodiments, according to different demands, feed cistern water inlet 101 and feed cistern dewatering outlet 102 can be positioned at the different parts of feed cistern 10, in addition, in a preferred embodiment, feed cistern water inlet 101 and a feed cistern dewatering outlet 102 can be added has switch element (not shown) in order to control the water inlet of feed cistern 10 and to discharge water, and switch element (not shown) can be selected hand of the prior art, or self-action, this is not restricted.
One dyeing machine body 20, dyeing machine body 20 comprises that a dyeing machine body water inlet 201 and that is arranged on dyeing machine body 20 upper surfaces is arranged on the dyeing machine body dewatering outlet 202 of dyeing machine body 20 sidewalls.It should be noted that, in other embodiments, according to different demands, dyeing machine body water inlet 201 and dyeing machine body dewatering outlet 202 can position dyeing machine body 20 different parts, in addition, in a preferred embodiment, dyeing machine body water inlet 201 and dyeing machine body dewatering outlet 202 can be added has switch element (not shown) in order to control the water inlet of dyeing machine body 20 and to discharge water, and switch element (not shown) can be selected hand of the prior art, or self-action, this is not restricted.
Feed cistern dewatering outlet 102 is communicated in this dyeing machine body water inlet 201 in order to supply water to this dyeing machine body 20.In actual production is used, what in feed cistern 10, store is clear water, and the cloth of processing in order to the dyeing in dyeing machine body 20 rinses.
In a better embodiment, feed cistern 10 is by being arranged on the first pipeline 40 between this feed cistern 10 and this dyeing machine body 20 with being communicated with of this dyeing machine body 20, and this first pipeline 40 is communicated with this feed cistern dewatering outlet 102 and this dyeing machine body water inlet 201.One first pipeline 40 is arranged between this feed cistern 10 and this dyeing machine body 20, and this first pipeline 40 is communicated with this feed cistern dewatering outlet 102 and this dyeing machine body water inlet 201.One water circulation unit 30, is communicated in this chromosome body dewatering outlet 202 and this feed cistern water inlet 101, in order to the waste water after water circulation unit 30 is processed to be provided to this feed cistern 10.
Please refer to Fig. 2, it shows the schematic diagram of the second embodiment of the dyeing machine waste water circulation utilized device according to the present invention; As shown in Figure 2, present embodiment and the first embodiment are roughly the same, difference is: this water circulation unit 30 further comprises a recovery pond 31, this recovery pond 31 comprises a recovery pond water inlet 311 and a recovery pond dewatering outlet 312, and this recovery pond water inlet 311 is communicated in the waste water that discharge in order to store this dyeing machine body 20 this dyeing machine body dewatering outlet 202; This recovery pond dewatering outlet 312 is communicated in this feed cistern water inlet 101 in order to the waste water through recycling to be provided to this feed cistern 10.In a better embodiment, recovery pond 31 is by being arranged on the second pipe 32 between recovery pond 31 and this dyeing machine body 20 with being communicated with of this dyeing machine body 20, this second pipe 32 is communicated with dewatering outlet 202 and this recovery pond water inlet 311 of this dyeing machine body, in order to the sewage discharge in this dyeing machine body 20 is carried out to unified recovery storage in this recovery pond 31.In a better embodiment, recovery pond 31 is by being arranged on the 3rd pipeline 33 between recovery pond 31 and feed cistern 10 with being communicated with of feed cistern 10, the 3rd pipeline 33 is communicated with this recovery pond dewatering outlet 312 and this feed cistern water inlet 101, in order to waste water after recycling to be provided to this feed cistern 10.It should be noted that quantitatively, recovery pond 31 is not one to one with dyeing machine body 20, according to different operation environments, as, in factory, there is the situation of many dyeing machine bodies 20, can utilize the waste water of a recovery pond 31 system one-to-many platform dyeing machine bodies 20 to reclaim storage.
Please refer to Fig. 3, it shows the schematic diagram of the 3rd embodiment of the dyeing machine waste water circulation utilized device according to the present invention; As shown in Figure 3, present embodiment and the second embodiment are roughly the same, difference is: this water circulation unit 30 further comprises a filter 34, the waste water that dyeing machine body 20 is discharged first flows through filter 34 entering the front meeting of recovery pond 31, thereby can utilize filter 34 to reach filtration, reduce the impurity of the waste water that enters recovery pond 31, thereby make the waste water of transporting to feed cistern 10 there is good spatter property.In present embodiment, filter 34 is for being arranged on the filter screen structure at recovery pond 31 middle parts.In other embodiments, filter 34 can be arranged on the diverse location of recovery pond 31 according to different demands, gets corresponding filtration.And filter 34 also can be not limited to the filter screen structure in present embodiment, can be other devices that can get filtration.
In addition, in a better embodiment, this recovery pond 31 is a sedimentation basin.It specifically act as application precipitation and removes suspended matter in waste water.Thereby make the waste water of transporting to feed cistern 10 there is good spatter property.The type of sedimentation basin can adopt flat flow of the prior art, vertical-flow and radial-flow etc., at this, does not limit.
It should be noted that, the recycling mode of the waste water that 30 pairs of dyeing machine bodies of water circle device 20 are discharged is not limited to aforesaid filtration treatment and precipitation process, in other embodiments, also can adopt other processing mode to make waste water reach the standard of recycling.
Please refer to Fig. 4, it shows the schematic diagram of the 4th embodiment of the dyeing machine waste water circulation utilized device according to the present invention; As shown in Figure 4, present embodiment and the second embodiment are roughly the same, difference is: this water circulation unit 30 further comprises that an aspirator 35 is arranged between this recovery pond 31 and this feed cistern 10, in order to pressure to be provided so that the waste water in this recovery pond 31 enters in this feed cistern 10 smoothly.
Please refer to Fig. 5, it shows the schematic diagram of the 5th embodiment of the dyeing machine waste water circulation utilized device according to the present invention; As shown in Figure 5, in present embodiment: this dyeing machine body 20 comprises a plurality of staining troughs 21, staining trough 21 comprises that a staining trough water inlet 211 and that is arranged on staining trough 21 upper surfaces is arranged on the staining trough dewatering outlet 212 of staining trough 21 lower surfaces.It should be noted that, in other embodiments, according to different demands, staining trough water inlet 211 and staining trough dewatering outlet 212 can be positioned at the different parts of staining trough 21, in addition, and in a preferred embodiment, staining trough water inlet 211 and staining trough dewatering outlet 212 can be added to be had switch element (not shown) in order to the water inlet of staining trough 21 and discharges water, and switch element (not shown) can be selected hand of the prior art, or self-action, this is not restricted.
A plurality of correspondences arrange the coating roll 22 of those staining troughs 21, and this coating roll 22 dyes to the cloth by this staining trough 21 by turning effort, and the cloth that dyeing is completed moves to next station (as shown by arrows in FIG.).
Wherein, in present embodiment, feed cistern 10 supplies water respectively by 40 pairs of a plurality of staining trough 21 water inlets 211 of a plurality of the first pipelines, and the waste water that recovery pond 31 is discharged via staining trough dewatering outlet 212 by 32 pairs of a plurality of staining troughs 21 of a plurality of second pipes is unified to reclaim.
Please refer to Fig. 6, it shows the schematic diagram of the 6th embodiment of the dyeing machine waste water circulation utilized device according to the present invention; As shown in Figure 6, present embodiment and the 5th embodiment are roughly the same, difference is: this water circulation unit 30 further comprises the pollution detection device 50 that those staining troughs 21 of a plurality of correspondences arrange, this pollution detection device 50 is in order to detect the pollution level of the waste water of discharging via staining trough 21, when the pollution level of the waste water of staining trough 21 reaches predetermined standard, pollution detection device 50 cuts out the staining trough dewatering outlet 212 of corresponding staining trough 21, stops this recovery pond 31 its waste water is reclaimed.Thereby the pollution level that can guarantee the waste water in recovery pond 31 meets the standard of again utilizing.
In addition, the difference of using according to actual production, recovery pond 31 can optionally be communicated with staining trough 21, be specially, when certain staining trough 21 produced aborning waste water belong to serious pollution level other, now, can select this staining trough 21 not to be communicated with recovery pond 31, but be directly communicated in other containers, process, as cesspool.Thereby the pollution level that can guarantee the waste water in recovery pond 31 meets the standard of again utilizing.
Please refer to Fig. 7, it shows the flow chart of the first embodiment of the method for the dyeing machine cycling utilization of wastewater according to the present invention; As shown in Figure 7, plant the method for dyeing machine cycling utilization of wastewater, comprise the following steps: S1, a feed cistern 10 is provided, it has a water inlet 101 and a dewatering outlet 102; S2, provides a dyeing machine body 20, and it has a water inlet 201 and a dewatering outlet 202; S3, is communicated with this feed cistern dewatering outlet 102 and this dyeing machine body water inlet 201, in order to supply water to this dyeing machine body 10; S4, provides a water circulation unit 30, is communicated in this chromosome body dewatering outlet 202 and this feed cistern water inlet 101; S5, provides waste water after this water circulation unit 30 is processed to supply with this feed cistern 10.
Please refer to Fig. 8, it shows the flow chart of the second embodiment of the method for the dyeing machine cycling utilization of wastewater according to the present invention; As shown in Figure 8, the first embodiment of the method for the aforementioned dyeing machine cycling utilization of wastewater of present embodiment is roughly the same, main distinctive points is: before S1, more comprise a water supply step S0, in order to these feed cistern 10 complementary stain machine body 20 needed clear water, and the mode supplying water can be to be connected directly to hose (not shown) etc., the present invention is not as limit.
Please refer to Fig. 9, it shows the flow chart of the 3rd embodiment of the method for the dyeing machine cycling utilization of wastewater according to the present invention; As shown in Figure 9, the first embodiment of the method for the aforementioned dyeing machine cycling utilization of wastewater of present embodiment is roughly the same, main distinctive points is: this water circulation unit 30 is processed and more comprised a filtration step S6, and the waste water in order to filtration after this water circulation unit 30 is processed is to supply with this feed cistern 10.And the mode of filtering can be by screen pack filtration etc., the present invention is not as limit.
Please refer to Figure 10, it shows the flow chart of the 4th embodiment of the method for the dyeing machine cycling utilization of wastewater according to the present invention; As shown in figure 10, the first embodiment of the method for the aforementioned dyeing machine cycling utilization of wastewater of present embodiment is roughly the same, main distinctive points is: this water circulation unit 30 is more processed and comprised a detecting step S7, in order to detect the waste water of these water circulation unit 30 these feed cisterns 10 of supply, whether meet default pollution norms, if meet standard, control this water circulation unit 30 and continue to supply water to this feed cistern 10.When waste water that this water circulation unit 20 supplies with these feed cisterns 10 being detected and do not meet default pollution norms, this water circulation unit 20 stops supplying water to this feed cistern 10, and the waste water that does not meet default pollution norms is discharged via a blowdown step S8.
To sum up, the present invention, by having increased water circulation unit, enters the waste water being originally directly discharged again feed cistern as dyeing water after recycling, turns waste into wealth, and has saved the consumption of clear water in feed cistern, thereby has reached good cost control.
The foregoing is only embodiments of the present invention, it is not in order to limit scope of patent protection of the present invention.Anyly have the knack of alike skill person, within not departing from spirit of the present invention and scope, the change of doing and the equivalence of retouching are replaced, and are still in scope of patent protection of the present invention.
Claims (10)
1. a dyeing machine waste water circulation utilized device, is characterized in that, comprising:
One dyeing machine body, it has a water inlet and a dewatering outlet;
One feed cistern, it has a water inlet and a dewatering outlet, and this feed cistern dewatering outlet is communicated in this dyeing machine body water inlet in order to supply water to this dyeing machine body;
One water circulation unit, is communicated in this chromosome body dewatering outlet and this feed cistern water inlet, in order to the waste water after this water circulation unit is processed to be provided to this feed cistern.
2. dyeing machine waste water circulation utilized device according to claim 1, it is characterized in that: this water circulation unit further comprises a recovery pond, this recovery pond has a water inlet and a dewatering outlet, and this recovery pond water inlet is communicated in the waste water that discharge in order to store this dyeing machine body this dyeing machine body dewatering outlet; This recovery pond dewatering outlet is communicated in this feed cistern water inlet in order to the waste water through recycling to be provided to this feed cistern.
3. dyeing machine waste water circulation utilized device according to claim 1, is characterized in that: further comprise that one first install pipeline is between this feed cistern and this dyeing machine body, this feed cistern dewatering outlet of this first pipeline communication and this dyeing machine body water inlet.
4. dyeing machine waste water circulation utilized device according to claim 2, it is characterized in that: this water circulation unit further comprises a second pipe, this second pipe is communicated with dewatering outlet and this recovery pond water inlet of this dyeing machine body, in order to the sewage discharge in this dyeing machine body is stored to this recovery pond.
5. dyeing machine waste water circulation utilized device according to claim 4, it is characterized in that: this water circulation unit further comprises one the 3rd pipeline, this recovery pond dewatering outlet of the 3rd pipeline communication and this feed cistern water inlet, in order to provide the waste water through recycling to this feed cistern.
6. dyeing machine waste water circulation utilized device according to claim 1, it is characterized in that: this dyeing machine body comprises the coating roll that a plurality of staining troughs and a plurality of correspondence arrange those staining troughs, this coating roll dyes to the cloth by this staining trough by rotation, and the cloth that dyeing is completed moves to next station.
7. dyeing machine waste water circulation utilized device according to claim 6, it is characterized in that: this water circulation unit further comprises the pollution detection device that those staining troughs of a plurality of correspondences arrange, this pollution detection device is in order to detect the pollution level of the waste water of discharging via staining trough, when the pollution level of the waste water of staining trough reaches predetermined standard, pollution detection device cuts out the dewatering outlet of corresponding staining trough, stops this recovery pond its waste water is reclaimed.
8. a method for dyeing machine cycling utilization of wastewater, is characterized in that, comprises the following steps:
S1, provides a feed cistern, and it has a water inlet and a dewatering outlet;
S2, provides a dyeing machine body, and it has a water inlet and a dewatering outlet;
S3, is communicated with this feed cistern dewatering outlet and this dyeing machine body water inlet, in order to supply water to this dyeing machine body;
S4, provides a water circulation unit, is communicated in this chromosome body dewatering outlet and this feed cistern water inlet;
S5, provides through the waste water after this water circulation unit processing to supply with this feed cistern.
9. according to right, want the method for the dyeing machine cycling utilization of wastewater described in 8, it is characterized in that: this water circulation unit is processed and more comprised a filtration step S6, in order to filter through the waste water after this water circulation unit processing to supply with this feed cistern.
10. the method for dyeing machine cycling utilization of wastewater according to claim 8 or claim 9, it is characterized in that: this water circulation unit is more processed and comprised a detecting step S7, whether the waste water of supplying with this feed cistern in order to detect this water circulation unit meets default pollution norms, if meet standard, control this water circulation unit and continue to supply water to this feed cistern, when this water circulation unit being detected and supply with the waste water of this feed cistern and do not meet default pollution norms, this water circulation unit stops supplying water to this feed cistern, and the waste water that does not meet default pollution norms is discharged via a blowdown step S8.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201410362928.4A CN104120577B (en) | 2014-07-28 | 2014-07-28 | A kind of overflow dyeing machine waste water circulation utilized device and method thereof |
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| CN201410362928.4A CN104120577B (en) | 2014-07-28 | 2014-07-28 | A kind of overflow dyeing machine waste water circulation utilized device and method thereof |
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| CN104120577B CN104120577B (en) | 2016-05-04 |
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| CN110606587A (en) * | 2019-08-09 | 2019-12-24 | 浙江丝科院轻纺材料有限公司 | Full-flow circulating dyeing system and process and application thereof |
| CN113818161A (en) * | 2021-09-28 | 2021-12-21 | 杭州萧越染织有限公司 | Rotary dyeing system with redundant dyeing agent recycling structure and method thereof |
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| CN113818161B (en) * | 2021-09-28 | 2024-02-09 | 杭州萧越染织有限公司 | Rotary dyeing system with redundant dyeing agent recycling structure and method thereof |
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Address after: 313000 Changxing County Economic Development Zone, Zhejiang, Huzhou Patentee after: Huzhou Nani Asia Industrial Co., Ltd. Address before: 313000 Changxing County Economic Development Zone, Zhejiang, Huzhou Patentee before: HUZHOU NARNIA INDUSTRY INC. |
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Denomination of invention: Dyeing machine waste water cyclic utilization device and method Effective date of registration: 20171107 Granted publication date: 20160504 Pledgee: Pudong Shanghai Development Bank Limited by Share Ltd Huzhou Changxin branch Pledgor: Huzhou Nani Asia Industrial Co., Ltd. Registration number: 2017980000487 |