CN102066641A

CN102066641A - Continuous batch tunnel washer and method

Info

Publication number: CN102066641A
Application number: CN2009801216388A
Authority: CN
Inventors: 拉塞尔·H·波伊; 卡尔·斯谷波尔特
Original assignee: Pellerin Milnor Corp
Current assignee: Pellerin Milnor Corp
Priority date: 2008-04-18
Filing date: 2009-04-16
Publication date: 2011-05-18
Anticipated expiration: 2029-04-16
Also published as: JP2011518001A; WO2009129362A2; JP5380524B2; EP2279296A4; CN103696202B; CN103696202A; CN102066641B; EP2279296A2; ES2620958T3; EP2279296B1; WO2009129362A3

Abstract

A method of washing fabric articles in a tunnel washer includes moving the fabric articles from the intake of the washer to the discharge of the washer through first and second sectors that are a pre-wash zone. In the pre-wash zone, liquid is counter flowed in the wash interior along a flow path that is generally opposite the direction of travel of the fabric articles. The fabric articles are transferred to a main wash zone, and a washing chemical is added to the main wash zone. At about the same time, counter flow is reduced or stopped. The main wash zone can be heated as an option. After a period of time (for example, between about 20 and 120 seconds) counter flow is resumed or increased. The increased counter flow after chemical treatment amounts to either an intermediate rinse or a pre-rinse depending upon which module or zone the goods occupy. In the wash zone, this is considered an intermediate rinse. After the wash zone(s), the increased counter flow after chemical treatment amounts to a pre-rinse. This pre-rinse ensures that the fabric articles are substantially free of soil or the majority of any soil and substantially free of chemicals when they are transferred to an extractor for final removal of excess water. A final rinse (second rinse) is conducted during extraction of excess water.

Description

Continuous batch continuous batch washer and method

The inventor:

RUSSELL H.POY, United States citizen, New Orleans, Louisiana, No.3B, Baronne street 601,70113;

KARL SCHUBERT, German citizen, Belgian 1981 Vossem, 43 Moorset Booslaan.

The assignee:

PELLERIN MILNOR company, the company of Louisiana, the Louisiana agree receive, and P.O.Box 400, Jackson street 700,70063.

The cross reference of related application

This paper requires the priority of the 61/046th, No. 118 U.S. Provisional Patent Application of submission on April 18th, 2008, and this provisional application is incorporated this paper by reference into.

This paper requires the priority of the 61/046th, No. 120 U.S. Provisional Patent Application of submission on April 18th, 2008, and this provisional application is incorporated this paper by reference into.

In the U.S., this is the cip application of the 12/400th, No. 479 U.S. Patent application of submission on March 9th, 2009, and this U.S. Patent application is incorporated this paper by reference into.

In the U.S., this is the cip application of the 12/400th, No. 497 U.S. Patent application of submission on March 9th, 2009, and this U.S. Patent application is incorporated this paper by reference into.

About the research of federal funding or the statement of exploitation

Do not have

To quoting of " fiche annex "

Do not have

Background technology

1. field

The present invention relates to continuous batch washing machine or continuous batch continuous batch washer.More specifically, (for example the present invention relates in the continuous batch continuous batch washer, wash textiles or fabric articles, clothes, linen etc.) improve one's methods, wherein, textiles is sequentially moved to next module or district from a module or district, be transferred to the Water Extraction Machinery that dewaters then, module or district comprise initial pre-wash district, a plurality of main scrubbing section and pre-rinsing district.An embodiment also comprises pre-rinsing district.More specifically, the present invention relates in the continuous batch continuous batch washer improving one's methods of washing textiles, wherein, stopped from a module or distinguish the adverse current of the liquid detergent in next module or district, the company's of permission cylinder.Add chemicals then, so that stain separates with cloth and stain is suspended in the cleaning solution.Over time, begin adverse current once more to remove the stain of suspension.In one embodiment, during extracting excessive water, to institute in advance the cloth of rinsing carry out spray rinsing, make stain no longer deposit, eliminated the change ash of cloth.

2. general background

At present, use continuous batch continuous batch washer carries out the washing in the business environment.This continuous batch continuous batch washer be known (for example, the 5th, 454, No. 237 United States Patent (USP)s) but and the market buy (www.milnor.com).The continuous batch washing machine has a plurality of parts, district, level or module, comprises pre-wash district, scrubbing section, rinsing district and finishes the district.Commercial continuous batch rinsing maching uses continuous liquid countercurrent and centrifugal dehydrator or punching machine to remove most of liquid from cloth before making the cloth exsiccation.Some machines spread all over specific district or a plurality of specific district makes cloth carry liquid.

At present, the whole time durations that is in the main wash module district at fabric articles or textiles has used adverse current.This practice has been diluted washing chemical and has been reduced its effect.In addition, when the heating soak, this heat is partly taken away by adverse current, has therefore wasted energy when reaching the desired temperatures value.

By using centrifugal dehydrator or punching machine, carried out final rinsing by the continuous batch washing machine.In prior art systems, if use centrifugal dehydrator, so usually need be under first low speed rotary dewaterer, first low speed is designed to remove the water that is filled with stain before final dewatering.

Announced patent at batch washing machine or continuous batch washer.Following table provides example.

Table

Summary of the invention

By reducing the required number of components of water consumption, raising rinsing ability, minimizing execution laundering of textile fabrics article or functions of textile fabrics and saving floor space valuable in the laundry, the present invention has improved prior art.

The present invention reduces and/or has merged district, part and/or module, and has improved the method for handling textiles.In two districts, carry out rinsing, the first middle rinsing district after each main scrubbing section and the pre-rinsing in the area postrema in continuous batch washing machine itself.Then, in mechanical water removing machine (as centrifugal dehydrator or punching machine), carry out final rinsing.

When cloth initially is transferred to main wash module, stopped to the adverse current of the interior cleaning solution of module, with the company's of permission cylinder.Add chemicals, so that stain separates with cloth and stain is suspended in the cleaning solution.If desired, the temperature of the cleaning solution of separate modules bath is raise, so that from cloth, discharge stain and make the chemicals activation.

In case discharged stain from textiles, just work does not want chemicals to carry out.At this moment, processing can be described to " chemical balance ".At this time, by adverse current, make water begin to remove the stain of suspension.This rinsing can be called as " middle rinsing " and the scrubbing section pre-rinsing afterwards in the end in scrubbing section.In centrifugal dehydrator or punching machine, can carry out final rinsing.When cloth was dewatered, the clear water that can provide by atomizer was provided for processing of the present invention.Because in pre-rinsing district, removed free stain,, reduced or eliminated the change ash of cloth thus so spray rinsing will can not make stain redeposited on linen when dehydration.Before final dewatering, there is no need the water that centrifugation (and drain with low speed) is filled with stain.Use the present invention to shorten the processing time.Than conventional treatment, reduced the clear water amount that needs.

In one embodiment, make the water of chemical balance begin to remove the stain of suspension by adverse current.Rinsing in the middle of this can be called as is because the water that adverse current is gone in module or the district is cleaner than the water that adverse current goes out module or district.When article advance to the position that no longer needs washing chemical by passage in this way, flow to the interior water in module or district so and begin the rinsing processing.This rinsing is called as pre-rinsing.In centrifugal dehydrator or punching machine, can carry out final rinsing.

In one embodiment, when with at a high speed (for example, between about 200-1000g) when cloth is dewatered, the clear water that use can provide by atomizer in Water Extraction Machinery.Because in pre-rinsing district, removed free stain,, reduced or eliminated the change ash of cloth thus so spray rinsing will can not make stain redeposited on linen when dehydration.Before final dewatering, there is no need centrifugation (and drain with low speed) Free water.Use the present invention to shorten the processing time.Than conventional treatment, reduced the clear water amount that needs.

Method of the present invention is used than prior art water still less, because stopped adverse current for the part of circulation.Than drain the existing convention that Free water is heavily filled out then from linen, the spray rinsing in centrifugal dehydrator or punching machine is more effective.

Method of the present invention has kept the clean result of the heavy stain classification of current reverse-flow washing machine washing, even because still less district or level or module are arranged, the amount of stain dilution also is identical.Because pre-rinsing provides rinsing more efficiently so the invention provides by the spray rinsing in centrifugal dehydrator.

The summary of several viewpoints of accompanying drawing

For further understanding essence of the present invention, target and advantage, should be with reference to the following detailed description of setting forth in conjunction with the accompanying drawings, wherein similar label is represented similar parts, wherein:

Fig. 1 shows the schematic diagram of the preferred implementation of device of the present invention;

Fig. 2 shows the schematic diagram of the preferred implementation of device of the present invention;

Fig. 3 shows the schematic diagram of the preferred implementation of device of the present invention;

Fig. 4 is the schematic diagram of the replaceable embodiment of device of the present invention;

Fig. 5 is the schematic diagram of the replaceable embodiment of device of the present invention;

Fig. 6 is the part stereogram of the replaceable embodiment of device of the present invention;

Fig. 7 is the part stereogram of the preferred implementation of device of the present invention;

Fig. 8 is the fragment stereogram of the replaceable embodiment of device of the present invention, and it shows slurry and allots blast tube;

Fig. 9 is the fragment stereogram of the replaceable embodiment of device of the present invention, and it shows slurry and allots blast tube; And

Figure 10 is the fragment stereogram of the replaceable embodiment of device of the present invention, and it shows slurry and allots blast tube.

Specifically describe

Fig. 1 to Fig. 3 shows textile washing schematic representation of apparatus of the present invention, and it is briefly specified by label 10.Textile washing device 10 provides continuous batch washer 11, and continuous batch washer 11 has inlet end 12 and outlet end 13.In Fig. 1, continuous batch washer 11 provides a plurality of module 14-18.These modules 14-18 can comprise that first module 14 and second module, 15, the first modules 14 and second module 15 can be the pre-wash modules.A plurality of module 14-18 can also comprise

module

16,17 and 18, and

module

16,17 and 18 is main wash module and prebleaching mold cleaning piece.

It is individual that the sum of module 14-18 can be greater than or less than five shown in Fig. 1 (5).Fig. 2 shows interchangeable configuration, and the continuous batch washer 11 with eight (8) individual module 14-18 and 35-37 has been adopted in this configuration.Fig. 3 shows interchangeable configuration, and the continuous batch washer 11 with ten (10) individual module 14-18 and 35-39 has been adopted in this configuration.In Fig. 2,

module

14,15 can be the pre-wash module.In Fig. 3,

module

14,15,16 can be the pre-wash module.In Fig. 2,

module

16,17,18 and

module

35,36,37 can be main wash module and prebleaching mold cleaning piece.In Fig. 3,

module

17,18 and

module

35,36,37,38,39 can be main wash module and prebleaching mold cleaning piece.Replace two (2) or three (3) module pre-wash (seeing Fig. 1,2,3), the alternative selection of individual module 14 as the pre-wash part can be provided.

Inlet end 12 can provide hopper 19, and hopper 19 allows to put into textiles to be washed or fabric articles.This textiles to be washed, fabric articles, cloth can comprise clothes, linen, towel etc.Water Extraction Machinery 20 is placed on next door at the outlet end 13 of continuous batch washer 11.As hereinafter will more fully describing,

streamline

21,25,26,27,27A are provided, to add water and/or chemicals to continuous batch washer 11.

When fabric articles, cloth, linen initially are transferred to

main wash module

16,17,18, reduced the adverse current that arrives the cleaning solution in these

modules

16,17,18, preferably stopped to the adverse current of these

module

16,17,18 interior cleaning solutions this company's of permission cylinder.Then, indicated as

arrow

26,27, add chemicals to

module

16,17 and/or 18.In Fig. 2, indicated as

arrow

26,27,27A, add chemicals to

module

16,17,18,35,36 and/or 37.In Fig. 3, indicated as

arrow

26,27,27A, add chemicals to module 16-18 and 35-39.In Fig. 1 to Fig. 3, these chemicals make stain separate with cloth, linen, textiles and stain are suspended in the cleaning solution.During this step of method of the present invention, if desired, the temperature of the cleaning solution that can raise is so that discharge stain and make the chemicals activation from cloth, fabric articles and linen.

In case discharged maximum stains from textiles or fabric articles, chemicals just no longer includes work and will carry out.At this moment, process can be described to chemical balance.Making current stop to reach is enough to discharge the time period of stain from cloth, for example between about 20 seconds to 120 (120) seconds.Yet this time period can be between about ten (10) seconds to 300 (300) seconds.

After not having this time period of adverse current, by adverse current, water begins to remove the stain of suspension.This rinsing can be called as pre-rinsing.In centrifugal dehydrator or punching machine 20, carry out final rinsing then.When using 20 pairs of clothes of Water Extraction Machinery to dewater, the clear water that can provide by for example atomizer is provided in processing of the present invention.When using Water Extraction Machinery 20 with (for example, at about 200g between 1000g) at a high speed when cloth is dewatered, the clear water that can provide by atomizer is provided in Water Extraction Machinery in processing of the present invention.

Streamline 21 sends water to hopper 19, and is indicated as arrow 22.Streamline 21 is also given pre-wash module 15 with water transport, and is indicated as arrow 23.Arrow 24 indication from module 14 to module 15 current as the part of pre-wash.

In Fig. 1, streamline 25 adds the water that is used for the pre-rinsing of adverse current to module 18.This water that adds module 18 via streamline 25 to flows to module 17 in the mode of adverse current from module 18 and flows to module 16 (seeing arrow 25a).

Arrow

26 and 27 has indicated the chemistry of

module

16 and 17 to add respectively.Chemicals to be added to

module

16 and 17 for example can comprise, washing agent, alkali (alkalaii) and/or oxidant.

In Fig. 2, streamline 25 adds the water that is used for the pre-rinsing of adverse current to module 37.This water that adds module 37 via streamline 25 to flows to module 37 in the mode of adverse current from module 38, flows to module 36 then, flows to module 35 then, flows to module 18 then, flows to module 17 (seeing arrow 25b) then.

In Fig. 3, streamline 25 adds the water that is used for the pre-rinsing of adverse current to module 38.This water that adds module 38 via streamline 25 to flows to module 37 in the mode of adverse current from module 38, flows to module 36, flows to module 35, flows to module 18, and flows to module 17 (seeing arrow 25c).

In Fig. 1, in continuous batch washer 11, transferred to Water Extraction Machinery 20 from module 18 by the textiles or the fabric articles of pre-wash, washing, pre-rinsing then, be schematically shown as arrow 28.In Fig. 2, in continuous batch washer 11, transferred to Water Extraction Machinery 20 from module 37 by the textiles or the fabric articles of pre-wash, washing, pre-rinsing then, be schematically shown as arrow 28.In Fig. 3, by pre-wash, washing, middle rinsing, the textiles or the fabric articles of pre-rinsing are transferred to Water Extraction Machinery 20 from module 39 then, are schematically shown as arrow 28 in continuous batch washer 11.

Therefore, method of the present invention is carried out rinsing in two districts.At first carry out rinsing in pre-rinsing district in continuous batch washer 11, this rinsing occurs in after the main washing.In Fig. 1, the pre-wash district can be 14,15.Pre-rinsing district and main scrubbing section can be

modules

16,17,18.In Fig. 2, the pre-wash district can be

module

14 and 15, and main scrubbing section and pre-rinsing district can be

modules

16,17,18,35,36 and 37.In Fig. 3, the pre-wash district can be

module

14 and 15, and main scrubbing section and pre-rinsing district can be

modules

16,17,18,35,36,37,38 and 39.The second rinsing district is final rinsing, and final rinsing is carried out in Water Extraction Machinery 20 or other mechanical water removing machines (as punching machine).

Because a part as method of the present invention, in the pre-rinsing district at

module

16,17,18 places (or the 16-18 of the 16-18 of Fig. 2,35-37 or Fig. 3,35-39) of Fig. 1, removed stain freely, so spray rinsing will can not make stain redeposited on linen when with high speed (between about 200-1000g) dehydration, reduce or eliminate the change ash of cloth thus.Use the present invention, before the final dewatering at 20 places, there is no need centrifugation (and drain with low speed) Free water.Therefore use the present invention, shortened the processing time.Than conventional treatment, reduced the clear water amount that needs.Than discharge the present practice that Free water is heavily filled out Water Extraction Machinery 20 then from linen, spray rinsing and centrifugal dehydrator 20 or punching machine are more effective.

The additional benefit of pre-rinsing notion of the present invention is the time that allows punching machine or Water Extraction Machinery to have more extraction Free water.This result occurs, because pre-rinsing effect is the major part of removing in the stain that is suspended.Therefore significantly reduced the clear water amount that final rinsing needs.Shortened the time that is used for rinsing, allowed cycle time of this saving to be used for water and remove.

Method of the present invention has kept the clean result of the heavy stain classification of current reverse-flow washing machine 11 washing, even because still less district or level or module are arranged, the amount of stain dilution also is identical.

Because the pre-rinsing of carrying out in

module

16,17,18 as mentioned above is so the rinsing more efficiently that is provided by spray rinsing (arrow 30) and centrifugal dehydrator 20 is provided.Water is provided by jar 43.Spray water flow is through streamline 29, and sprayed in the centrifugal dehydrator 20 via nozzle at 30 places.Because as above described in Fig. 1 in

module

16,17,18 and as above for Fig. 2 and 3 described middle rinsings of in add-on module, carrying out and pre-rinsing, so rinsing more efficiently is provided.Can on each module 14-18,35-39, provide outlet valve 33 for each Fig. 1,2,3, make it possible to any that drains among module 14-18 or the 35-39 as shown in arrow 34.The water 31 that is extracted can be added to streamline 21.Can replenish the water 31 that is extracted via streamline 32 usefulness clear water.

Fig. 4 to Figure 10 shows the replaceable embodiment of device of the present invention, and it is briefly specified by label 40.The textile washing device 40 of replaceable embodiment can provide the identical continuous batch washer 11 of preferred implementation, and module 14-18, the 35-39 that provides in Fig. 1,2 and/or 3 embodiment any is provided the continuous batch washer 11 of preferred implementation.Fig. 4 shows the embodiment of Fig. 1 of the slurry sparger arrangement with particular arrangement.

In Fig. 4, slurry jar 41 comprises slurry, and slurry will be implanted in linen, fabric articles or the clothes that comprises in the Water Extraction Machinery 20.The slurry that is used for etaise, clothes, fabric articles is pumped into the phase I of circulation by nozzle 60 (seeing Fig. 8 to Figure 10).For example use inverter controlled flow measuring equipment can realize controlled flow measurement.Thereby when linen, fabric articles, clothes etc. are in Water Extraction Machinery 20, the slurry of accurately measuring is injected in linen, fabric articles, the clothes etc.Excessive slurry can be removed in independent jar, and independent jar is represented as slurry recycling can 52 in Fig. 4.The slurry that is reclaimed in the streamline 53 feasible jars 52 can be transferred to slurry jar 41.

Slurry jar 41 comprises slurry, and slurry will be pumped into nozzle 60 via streamline 42 and arrive Water Extraction Machinery 20 then.Can also use clear water jar 43 to make the clear water valve 45 of flowing through be transported to Water Extraction Machinery 20 to nozzle 60.Provide valve 44,45 and 46, to control to mix flow nozzle 60 or slurry stream or clear water stream or slurry and clear water, as shown in Figure 4.

Streamline 49 is streamlines of the water transport of being extracted being delivered to jar 51 when removing water in the fabric articles that comprises, clothes or the linen from Water Extraction Machinery 20.Can slurry be recovered to slurry recycling can 52 via streamline 49,50.Valve 44,47 is provided, flows via the slurry of streamline 42 from jar 41 to Water Extraction Machinery 20 with valve regulated.Valve 48 allows to emptying jars 41, with cleaning or add new slurry.

In Fig. 8 to Figure 10, illustrate in greater detail slurry nozzle 60.Nozzle 60 can provide elongated a pipe joint road or pipe 61.Nozzle 60 has the end of inflow 62 and flows out end 63.Pipeline 61 is provided for slurry is delivered to from streamline 42 hole 64 of the open-ended of nozzle 60.Flow into end 62 connecting portion 80 that is used for pipeline 61 is attached to streamline 42 is provided.

Fig. 6 and Fig. 7 show spray pattern 76, when nozzle 60 spray spray patterns 76, and the wall of the cylinder 57 of spray pattern 76 bump Water Extraction Machinerys 20.In Fig. 6 and Fig. 7, Water Extraction Machinery 20 provides cylinder 57, and cylinder 57 provides the chamber 55 with inlet 56.Clothes to be sprayed, textiles, linen are discharged in the chamber 55 of Water Extraction Machinery 20 via chute 79 from continuous batch washer 11.Water Extraction Machinery 20 preferably can move between loading and unloading position.In Fig. 5 and Fig. 6, loading position has been shown.In loading position, clothes is transferred to chamber 55 from continuous batch washer 11 via chute 79.Can use pump 54 to help water maybe will be starched from jar 41 from jar 43 transfers to the chamber 55 via nozzle 60.Nozzle 60 produces spray pattern 76, and the cylindrical wall 58 that spray pattern 76 crosses cylinder 57 basically extends, as shown in Fig. 6 and Fig. 7.Therefore cylinder 57 provides inlet 56, and inlet 56 is used to make clothes, textiles or other fabric articles can be added to cylinder 57 inner 55 and rear portion circular wall 59.Notice that in Fig. 6 and Fig. 7 spray pattern 76 56 extends to circular wall 59 from entering the mouth substantially, therefore cross circular wall 58 basically and extend, as shown in Fig. 6 and Fig. 7.Arrow 77 among Fig. 7 shows the width of spray pattern 76, and as example, this width can be 16 degree along rotatingcylindrical drum wall 58.

Installing plate 65 with one or more openings 66 can be provided, and one or more openings 66 are used for nozzle 60 attached (for example, using bolting) to Water Extraction Machinery 20 or to the framework that supports Water Extraction Machinery 20.

The outflow end 63 of nozzle 60 provides nozzle tip 67.Nozzle tip 67 provides the jet expansion 70 that is formed by

side plate

71,72, upper plate 73 and lower plate 74.Provide atomized

water nozzle

68,69 on jet expansion 70 next doors.Atomized water nozzle 68 is installed to upper plate 73.Atomized water nozzle 69 is installed to lower plate 74, as shown in Fig. 8 to Figure 10.Nozzle 60 can be equipped with ventilation or

atomizer

68,69, with the stickiness of slurry in the control nozzle 60, thereby prevents that finally the slurry of stopped nozzles 60 gathers.

As the part of method of the present invention, can clean all slurry streamlines 42,60 via the hot water of streamline 75 usefulness from the clear water jar.

Be the parts that are suitable for using in the present invention and the tabulation of material below.

List of parts

Unless otherwise noted, otherwise all measurements disclosed herein are under standard temperature and pressure (STP), at the place, sea level of the earth.Unless otherwise noted, otherwise all materials that use in the mankind or that plan to use are biocompatible.

Only provide aforesaid embodiment by embodiment; Scope of the present invention is only limited by claim.

Claims

1. the method for laundering of textile fabrics article in the continuous batch continuous batch washer may further comprise the steps:

A) provide have inside, the continuous batch continuous batch washer of import, outlet and a plurality of modules, described a plurality of modules become a plurality of districts with described internal separation, described a plurality of districts comprise pre-wash district, main scrubbing section and rinsing district;

B) fabric articles is moved to one or more modules from described import, described one or more modules are pre-wash districts;

C) make liquid in washing machine inside along the flow path reverse flow, the described flow path moving direction with fabric articles described in the step " b " substantially is opposite;

D) described fabric articles is delivered to main scrubbing section;

E) washing chemical is added to described main scrubbing section;

F) during step " e ", reduce adverse current;

G) increase adverse current in step " f " back, in the rinsing district, to limit first rinsing;

H) after step " g ", use Water Extraction Machinery to remove excessive water; And

I) during step " h ", the described fabric articles of rinsing is to limit second rinsing.

2. the method for claim 1 further comprises

In step " i ", washings are sprayed in the described Water Extraction Machinery.

3. the method for claim 1, wherein

In step " f ", stop adverse current basically.

4. method as claimed in claim 3, wherein,

Described Water Extraction Machinery has the swing roller that has sidewall and end wall, and spray has the spray pattern that crosses described cylinder wall extension.

5. method as claimed in claim 3, wherein,

Spray the rinsing liquid of step " i " from the position of described cylinder outside.

6. the method for claim 1 further comprises

The step that before described main scrubbing section is heated in step " g ".

7. the method for claim 1 further comprises

In step " f ", heat is delivered to described main scrubbing section.

8. the method for claim 1, wherein

Reducing adverse current in step " f " reached less than about five minutes time period.

9. the method for claim 1, wherein

Reducing adverse current in step " f " reached less than about three minutes time period.

10. the method for claim 1, wherein

Reducing adverse current in step " f " reached less than about two minutes time period.

11. the method for claim 1, wherein

In step " f ", reduce adverse current and reach about 20 seconds to the time period of 120 (20-120) between second.

12. the method for claim 1, wherein

In step " f " washing chemical that is added being heated to about Fahrenheit 140 spends to the temperature between 190 degree.

13. the method for claim 1, wherein

In adverse current described in the step " g ", described adverse current extends through a plurality of in the described module.

14. the method for claim 1, wherein

Described main scrubbing section comprises a plurality of modules.

15. the method for claim 1, wherein

Described rinsing district comprises a plurality of modules.

16. the method for claim 1, wherein

Described main scrubbing section and rinsing district include a plurality of modules.

17. the method for claim 1, wherein

Described main scrubbing section comprises identical module with the rinsing district.

18. the method for laundering of textile fabrics article in the continuous batch continuous batch washer may further comprise the steps:

A) provide the continuous batch continuous batch washer with inside, import, outlet and a plurality of modules, described a plurality of modules become a plurality of districts with described internal separation, and described a plurality of districts comprise pre-wash district, main scrubbing section and rinsing district;

B) fabric articles is moved to one or more modules from described import, one or more modules are pre-wash districts;

D) described fabric articles is delivered to main scrubbing section;

E) washing chemical is added to described main scrubbing section;

F) after described washing chemical reaches chemical balance, restart adverse current, and adverse current is just diluted described washing chemical basically in step " e " after the time interval of selecting;

19. method as claimed in claim 18 further comprises

20. method as claimed in claim 18, wherein,

In step " f ", stop adverse current basically.

21. method as claimed in claim 20, wherein,

22. method as claimed in claim 20, wherein,

23. method as claimed in claim 18, wherein,

24. method as claimed in claim 18 further comprises

During step " h ", add slurry to described fabric articles.

25. method as claimed in claim 18 further comprises

Afterwards slurry is added to described fabric articles in step " h ".

26. method as claimed in claim 24, wherein,

Described slurry is sprayed.

27. method as claimed in claim 25, wherein,

Described slurry is sprayed.

28. the method for laundering of textile fabrics article in continuous continuous batch washer may further comprise the steps:

A) provide the continuous continuous batch washer with inside, import, outlet and a plurality of parts, described a plurality of parts become a plurality of districts with described internal separation;

B) fabric articles is moved to first and second portion from described import, first and second portion are the pre-wash districts;

C) make liquid in washing machine inside along the flow path reverse flow, the described flow path moving direction with described fabric articles substantially is opposite;

D) described fabric articles is delivered to main scrubbing section;

E) washing chemical is added to described main scrubbing section;

F) during step " e ", reduce adverse current;

G) increase adverse current in step " f " back; And

H) after step " g ", use Water Extraction Machinery to remove excessive water.

29. method as claimed in claim 28 further comprises

In step " h ", add washings to described Water Extraction Machinery.

30. method as claimed in claim 28, wherein,

In step " f ", stop adverse current basically.

31. method as claimed in claim 28 further comprises

The step that before described main scrubbing section is heated in step " g ".

32. method as claimed in claim 28 further comprises

In step " f ", heat is delivered to described main scrubbing section.

33. method as claimed in claim 28, wherein,

34. method as claimed in claim 28, wherein,

35. method as claimed in claim 28, wherein,

36. method as claimed in claim 28, wherein,

37. the method for laundering of textile fabrics article in the continuous batch washing machine may further comprise the steps:

A) provide the washing machine with inside, import, outlet and a plurality of parts, described a plurality of parts become a plurality of districts with described internal separation;

D) described fabric articles is delivered to main scrubbing section, described main scrubbing section is positioned at the downstream in described pre-wash district;

E) washing chemical is added to described main scrubbing section;

F) during step " e ", reduce adverse current;

G) increase adverse current in step " f " back; And

H) extract excessive water in step " g " back.

38. method as claimed in claim 37 further comprises

In step " h ", add washings.

39. method as claimed in claim 37, wherein,

In step " f ", stop adverse current basically.

40. method as claimed in claim 37 further comprises

The step that before described main scrubbing section is heated in step " g ".

41. method as claimed in claim 37 further comprises

In step " f ", heat is delivered to described main scrubbing section.

42. method as claimed in claim 37, wherein,

43. method as claimed in claim 37, wherein,

44. method as claimed in claim 37, wherein,

45. method as claimed in claim 37, wherein,

46. method as claimed in claim 37, wherein,

47. the method for laundering of textile fabrics article in continuous continuous batch washer may further comprise the steps:

D) described fabric articles is delivered to main scrubbing section;

E) washing chemical is added to described main scrubbing section;

F) use Water Extraction Machinery to remove excessive water in step " g " back; And

G) will comprise the solution spraying of slurry in described Water Extraction Machinery.

48. method as claimed in claim 47, wherein,

Spray described slurry solution from the nozzle of described Water Extraction Machinery outside.

49. method as claimed in claim 48, wherein,

Described nozzle spray band pattern.

50. method as claimed in claim 48, wherein,

Described nozzle spray has the pattern of width and height, and described height is greater than described width.

51. method as claimed in claim 48, wherein,

Described nozzle has rectangle outlet opening substantially.

52. method as claimed in claim 47, wherein,

Described nozzle has nozzle wall, and on described nozzle wall one or more pipelines has been installed.

53. method as claimed in claim 52, wherein,

Described nozzle wall is around nozzle interior, and each pipeline runs through wall to described inside.

54. method as claimed in claim 47, wherein,

Described pipeline allows to inject clean liquid.