CN210684193U - Open width continuous combined washing machine - Google Patents

Abstract

The utility model relates to a continuous combined washing machine of open width, including the washing host computer, separate into upper strata, middle level and lower floor by the layering baffle in the washing host computer, wherein control in the lower floor and be provided with soaping unit and washing unit once side by side, be equipped with the fixation unit in the middle level, control and be provided with second padder, secondary washing unit, third padder and first padder side by side about the upper strata. The utility model can greatly shorten the length of the washing production line, save the occupied area, and each unit is positioned in the washing host, thereby reducing the heat energy consumption of each unit, saving the production cost and avoiding the influence of the overlarge temperature change of the fabric on the dyeing effect; spray towards the fabric surface through spraying the mechanism and wash to surface place side sets up the dirt device of straining about the fabric, and reducible foreign matter gets into in the wash bowl of fixation unit and influences the turbidity of treatment fluid, guarantees to strain the clarity of dirty inside groove liquid, can prolong the life cycle of fixation unit treatment fluid, reduces and trades the liquid frequency, handles more fabrics.

Description

Open width continuous combined washing machine

Technical Field

The utility model relates to a weaving dyeing after treatment facility technical field especially relates to a continuous combined rinsing machine of open width.

Background

The traditional post-dyeing treatment is carried out on a dyeing machine. After the cloth dyeing is finished, the dyeing machine needs to discharge sewage, then adds water again to carry out the post-treatment processes of soaping, washing, color fixing, cleaning and the like, and each process needs to discharge sewage and add clean water again. This method has the following disadvantages: 1. because the water is drained and added for many times, the water needs to be supplied in multiple cylinders for treating one cylinder cloth, and the water consumption and the pollution discharge are high. 2. The cloth is in a rope shape in the dyeing machine, so that the cloth is difficult to clean completely and has poor cleaning effect. 3. The special water washing machine is not used, the dyeing machine is occupied, and the utilization efficiency of the dyeing machine is low.

Chinese published patent document (CN 202247328U) discloses a continuous open width water washer, which comprises: the washing machine comprises a frame, a cloth discharging device and more than two washing units; the cloth discharging device and the washing unit are arranged on the frame, and the washing units are connected in series in sequence and then connected with the cloth discharging device; the washing unit includes: the cloth lifting device, the water washing tank, the guide shaft and the spraying device with a spraying port are arranged on the cloth lifting device; the cloth lifting device is positioned above the washing water tank, the guide shaft is positioned in the washing water tank, and the spraying opening faces to the cloth. After the structure is adopted, the cloth sequentially enters more than two serially connected washing units in an open width state, and is discharged from the cloth discharging device after more than two times of washing by the spraying devices in the washing units, so that the washing process is completed. The structure is very simple, the number of the washing units connected in series can be determined according to the attachment degree of dirt on the cloth, and the combination is flexible; the cloth is washed in an open width state, so that the cloth is easy to clean; the cloth enters the next washing unit after being washed by the previous washing unit, so that the next washing unit is cleaner than the previous washing unit, and the cloth is prevented from being polluted again by sewage; greatly improving the cleaning efficiency and saving water.

However, the continuous open width water washing machine is connected in series from front to back, the length of the whole washing line is large, the requirement on the installation space of a workshop is high, and the operation of the fabric between adjacent units needs to be exposed outside the washing units, so that firstly, the steam in the washing units is diffused, the heat loss is large, and secondly, the temperature change of the fabric is large, and the quality of the fabric is influenced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical defects existing in the prior art, the utility model provides an open-width continuous combined washing machine.

The utility model discloses a technical solution be:

continuous combined washing machine of open width, including washing host computer and setting up the cloth feeding frame and the play cloth frame of setting in washing host computer output side at washing host computer input side, upper strata, middle level and the lower floor of arranging about separating the formation by two layering baffles that upper and lower interval set up in the washing host computer, wherein be provided with the soaping unit that is close to the cloth feeding frame side by side about in the lower floor and be close to the washing unit of a time of play cloth frame, be equipped with the fixation unit in the middle level, be provided with second padder, secondary washing unit, the third padder that is close to the cloth feeding frame side by side about in the upper strata and be close to the first padder of play cloth frame.

Preferably, the mangle grooves of the first padder, the second padder and the third padder are respectively returned to the last unit in the running direction of the fabric through the liquid return pipes.

Preferably, the output side of the primary water washing unit, the input side and the output side of the fixation unit, and the input side and the output side of the secondary water washing unit are respectively provided with a through-shaft type tension sensor.

Preferably, the soaping unit, the primary washing unit, the color fixing unit and the secondary washing unit are respectively and correspondingly provided with a spraying mechanism for spraying fluid towards the surface of the fabric, and a spraying pipe of each spraying mechanism is positioned above the liquid level and a nozzle on the spraying pipe faces the fabric.

Preferably, each in the fixation unit sprays the mechanism below and installs respectively and strain dirty device, each sprays the feed liquor pipe of the circulating pump of mechanism and immerses in the dirt device that strains of the unit that the effect object corresponds that sprays, strain dirty device bottom and immerse below the liquid level of corresponding unit.

Preferably, the dirt filtering device comprises a dirt filtering inner groove, a liquid collecting outer groove and a roller horizontally and rotatably arranged on a guide plate at the top of the liquid collecting outer groove and at the position matched with the fabric, the dirt filtering inner groove is positioned inside the liquid collecting outer groove, a dirt filtering assembly is combined on the side wall of the dirt filtering inner groove, liquid inlet pipes of the circulating pump are respectively communicated into the dirt filtering inner groove, the outlet of the circulating pump is communicated with the corresponding spraying pipe, and a filtering assembly is arranged at the part of the liquid collecting outer groove, which is immersed below the liquid level of the corresponding unit.

Preferably, the washing main machine is provided with a mounting hole matched with the dirt filtering inner groove at a position corresponding to each dirt filtering inner groove, the dirt filtering inner groove can pass in and out from the mounting hole, and the corresponding end of the dirt filtering inner groove is matched with the mounting hole in a sealing manner.

Further, the secondary washing unit is provided with the automatic water installations who is used for replenishing the clear water to the secondary washing unit, the soaping unit is provided with the drain that is used for the outside overflow of the processing liquid in the soaping unit, be provided with respectively between secondary washing unit and the primary washing unit and between primary washing unit and the soaping unit and be used for making liquid from secondary washing unit overflow to primary washing unit and from the water level baffle device in primary washing unit overflow to soaping unit, soaping unit and fixation unit still connect external automatic material conveying system respectively.

The utility model has the advantages that:

1. the utility model discloses with the soaping unit, washing unit once, fixation unit and secondary washing unit set up in a washing host computer, and soaping unit concatenates the lower floor at the washing host computer side by side with washing unit once, the fixation unit is at the middle level of washing host computer, the secondary washing unit is on the upper strata of washing host computer, the traditional mode of concatenating that is tiled in proper order by a plurality of washing equipment has been changed like this, the length of washing production line has been shortened, practice thrift the occupation of land space, be particularly useful for the workshop that the place space is not enough, and each unit all is located the washing host computer, wholly present closed structure, can reduce each unit heat energy consumption, the cost is saved, also can avoid the too big effect of dyeing of fabric temperature variation, improve the dyeing machine utilization ratio.

2. The utility model discloses still set up and spray the mechanism, spray towards the fabric surface through spraying the mechanism and wash, spray treatment fluid to the fabric when can washing the foreign matter on fabric surface and continue to handle, can strengthen the treatment effect of fabric greatly, improve aftertreatment efficiency, then can suitably increase the running speed of fabric, can handle more fabrics in the unit interval, production efficiency improves by a wide margin.

3. The utility model discloses utilize the padder to carry out the mangle respectively after once washing, fixation and after the secondary washing to handle, the mangle after once washing flows back to once washing unit, and the mangle after the fixation flows back to the fixation unit, and the mangle after the secondary washing flows back to the secondary washing unit, can reduce the replenishment of water yield and fixation liquid, further practices thrift the water; and because the utility model discloses an each process unit presents three-layer setting from top to bottom, and traditional level tiling is arranged relatively, and the treatment fluid between the unit loopbacks and utilizes (for example the treatment fluid of secondary washing unit is carried to the mangle of washing unit, second padder downwards and is loopbacked to fixation unit etc.) can directly accomplish the transport with the help of liquid gravity overflow, and the cost is lower.

4. The utility model respectively and continuously supplements the soap washing liquid configured to the soaping unit and the color fixing liquid configured to the color fixing unit in the treatment process, and discharges the treatment liquid in the soaping unit when feeding new water to the secondary washing unit, respectively keeps the liquid in the secondary washing unit, the primary washing unit and the soaping unit to flow and be in a dynamic balance state, and the treatment liquid in the color fixing unit determines a repeated use period according to the actual situation, thereby saving mass production water and reducing sewage discharge, and simultaneously sends foreign matters such as floating color of the primary washing unit and the secondary washing unit into the soaping unit and discharges the foreign matters such as floating color of the primary washing unit and the secondary washing unit outwards in the process that the secondary washing unit flows into the primary washing unit and the primary washing unit flows into the soaping unit, thereby avoiding the accumulation of the foreign matters such as the floating color in each unit, realizing continuous treatment and enhancing the treatment effect of fabrics, and the post-treatment efficiency is improved.

5. The utility model arranges the dirt filtering device at the side of the upper and lower surfaces of the fabric, the fabric is wound through the rolling shaft from one side of the rolling shaft facing the dirt filtering inner groove, thus the foreign matters and liquid which flow downwards after being sprayed and washed by the spraying mechanism can preferentially fall into the liquid collecting outer groove; the liquid is communicated with the rinsing bath at the corresponding position in the liquid collection outer tank through the filtering component on the liquid collection outer tank, and foreign matters are reduced from entering the rinsing bath of the color fixing unit to avoid influencing the turbidity of the treatment liquid, so that the service cycle of the treatment liquid of the color fixing unit can be prolonged, the liquid changing frequency is reduced, more fabrics can be treated, the working efficiency is improved, the sewage discharge is reduced, and the sewage treatment cost is saved; through strain dirty subassembly of straining on the dirty inside groove firstly make the liquid of collection liquid water inner tank can flow in strain dirty inside groove, secondly guarantee to strain the clarity of dirty inside groove liquid, reduce because the foreign matter gets into to strain dirty inside groove and avoid influencing the working property and the washing effect that sprays of circulating pump.

5. The utility model discloses still through returning the interior liquid of mangle groove of liquid pipe with first padder, second padder and third padder and loopback to the ascending last unit of fabric traffic direction, the volume of taking out of the processing liquid in the reducible corresponding unit to can handle more fabrics.

Drawings

Fig. 1 is a schematic view of an example structure of the operation of the fabric of the present invention in a water washing main machine.

Fig. 2 is a schematic diagram of the second padder on the upper layer of the washing main machine of the utility model.

Fig. 3 is a schematic structural diagram of the first padder and the third padder on the upper layer of the washing main machine of the present invention.

Fig. 4 is a schematic structural diagram of an example two of the operation of the fabric of the present invention in the water washing main machine.

Fig. 5 is the layout schematic diagram of the spraying mechanism and the dirt filtering device of the utility model.

Fig. 6 is a partially enlarged view of a shown in fig. 5.

Fig. 7 is a schematic structural view of the sewage filtering device of the present invention.

Fig. 8 is a sectional view of the sewage filtering device of the utility model assembled on the washing host.

Description of reference numerals:

100. washing the main machine with water; 101. an upper layer; 102. a middle layer; 103. a lower layer; 104. an installation port; 10. a soaping unit; 20. a primary water washing unit; 30. a fixation unit; 40. a secondary water washing unit; 51. a first padder; 52. a second padder; 53. a third padder; 54. a drive roll; 60. a through-axis tension sensor; 70. a spraying mechanism; 80. a dirt filtering device; 81. a liquid collecting outer tank; 82. an inner sewage filtering tank; 83. a roller; 84. a filter assembly; 85. a dirt filtering component; 86. a roller; 87. a baffle.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1 to 8, the present embodiment provides an open width continuous combined washing machine as a fabric dyeing post-treatment process device, which includes a washing main machine 100, a cloth feeding rack disposed at an input side of the washing main machine 100, and a cloth discharging rack disposed at an output side of the washing main machine 100, wherein the fabric is fed into the washing main machine 100 in an open width manner through the cloth feeding rack, and the fabric after washing is fed out of the washing main machine 100 in an open width manner through the cloth discharging rack.

In this embodiment, the washing main machine 100 is divided by two layered partition boards disposed at an interval from top to bottom to form an upper layer 101, a middle layer 102 and a lower layer 103, wherein the soaping unit 10 near the cloth feeding rack and the primary washing unit 20 near the cloth discharging rack are disposed side by side at the left and right in the lower layer 103, the color fixing unit 30 is disposed in the middle layer 102, the second padder 52, the secondary washing unit 40, the third padder 53 near the cloth feeding rack and the first padder 51 near the cloth discharging rack are disposed side by side at the left and right in the upper layer 101, and the respective mangle tanks of the first padder 51, the second padder 52 and the third padder 53 are respectively returned to the previous unit in the running direction of the fabric through the return pipes, so that the carry-over amount of the treatment liquid in the corresponding units can be reduced, and more fabrics can be treated.

As a preferable mode of the fabric running, the fabric of the present embodiment sequentially runs on the cloth feeding stand, the soaping unit 10, the primary washing unit 20, the first padder 51, the color fixing unit 30, the second padder 52, the secondary washing unit 40, the third padder 53, and the cloth discharging stand, so that the liquid in the padding liquid tank of the first padder 51 is returned to the primary washing unit 20 through the corresponding liquid return pipe, the liquid in the padding liquid tank of the second padder 52 is returned to the color fixing unit 30 through the corresponding liquid return pipe, and the liquid in the padding liquid tank of the third padder 53 is returned to the secondary washing unit 40 through the corresponding liquid return pipe. As another preferable mode of the fabric running, the fabric of the embodiment sequentially runs on the cloth feeding frame, the soaping unit 10, the primary washing unit 20, the third padder 53, the color fixing unit 30, the second padder 52, the secondary washing unit 40, the first padder 51 and the cloth discharging frame, so that the liquid in the padding liquid tank of the first padder 51 is returned to the secondary washing unit 40 through the corresponding liquid return pipe, the liquid in the padding liquid tank of the second padder 52 is returned to the color fixing unit 30 through the corresponding liquid return pipe, and the liquid in the padding liquid tank of the third padder 53 is returned to the primary washing unit 20 through the corresponding liquid return pipe.

In this embodiment, the input sides of the first padder 51, the second padder 52 and the third padder 53 are further respectively provided with a driving roller 54 and a variable frequency motor for driving the driving roller 54 to rotate around a shaft, the driving roller 54 is lower than the pressure roller of each padder, the output side of the primary washing unit 20, the input side and the output side of the fixation unit 30, and the input side and the output side of the secondary washing unit 40 are respectively provided with a shaft penetrating type tension sensor 60, the shaft penetrating type tension sensor 60 is mounted on the cloth guide roller at the position, the tension at the corresponding position of the fabric is sensed in real time through the shaft penetrating type tension sensor 60 and sent to the electronic control system, and then the electronic control system sends a corresponding driving signal to a variable frequency driver of the variable frequency motor, so as to change the rotation speed of the variable frequency motor and keep the fabric to operate under a relatively constant tension. Preferably, the through-axis tension sensor 60 is a model LK-zlkzq through-axis tension sensor from industrial automation of langerd, the electronic control system comprises a PLC module with a model FX2N, and the variable frequency drive is a model MD 330.

In this embodiment, soaping unit 10, primary washing unit 20, fixation unit 30 and secondary washing unit 40 are separated by a plurality of intercommunication baffles that left and right sides interval set up respectively and are formed a plurality of wash bowls that communicate with each other, and position department sets up the fabric guide roller respectively so that the fabric moves in the wash bowl in proper order about each wash bowl. In order to make the fabric continuously run in each unit and avoid the treatment liquids of two adjacent units from mixing with each other, transition grooves are respectively arranged at the position of the lower layer 103 at the output side of the primary washing unit 20 and the positions of the middle layer 102 at the input side and the output side of the fixation unit 30 in the embodiment. In this embodiment, steam heating pipes are respectively arranged in the soaping unit 10 and the color fixing unit 30, and the liquid temperature of each unit is heated to a predetermined process temperature through the steam heating pipes, so as to ensure the washing effect.

In this embodiment, soaping unit 10, primary water washing unit 20, fixation unit 30 and secondary water washing unit 40 correspond respectively and are provided with the mechanism 70 that sprays towards fabric surface injection fluid, and the shower that each sprays mechanism 70 is located the liquid level top and the nozzle on the shower is towards fabric upper surface and/or lower surface, directly sprays the fluid through spraying mechanism 70 to fabric surface, can wash the foreign matter on fabric surface, can strengthen the treatment effect of fabric greatly, improve the water washing efficiency.

As a preferred embodiment of the spraying mechanism 70, a dirt filtering device 80 is respectively installed below each spraying mechanism 70 in the color fixing unit 30, a liquid inlet pipe of a circulating pump of each spraying mechanism 70 is immersed in the dirt filtering device 80 of the unit corresponding to the spraying action object, the bottom of the dirt filtering device 80 is immersed below the liquid level of the corresponding unit, so that the fluid sprayed to the fabric is the treatment liquid in the corresponding unit, and the treatment liquid is sprayed to the fabric to continue the treatment while the fabric is washed.

Each dirt filtering device 80 comprises a dirt filtering inner groove 82, a liquid collecting outer groove 81 and a rolling shaft 83 which is horizontally and rotatably arranged on a guide plate 87 at the top of the liquid collecting outer groove 81 and is matched with the fabric, and each dirt filtering device 80 is correspondingly arranged between the upper cloth guide roller and the lower cloth guide roller which are adjacent and is lower than the spray pipe. If only the upper surface of the fabric is to be washed, a dirt-filtering device 80 is provided on each side of the upper surface of the fabric, and the fabric is passed around each side of the roller 83 facing the dirt-filtering inner tank 82. If only the lower surface of the fabric is washed, a dirt-filtering device 80 is provided on the side of the lower surface of the fabric, and the fabric is passed around the roller 83 on the side facing the dirt-filtering inner tank 82. If the upper surface and the lower surface of the fabric are washed simultaneously, a dirt filtering device 80 is respectively arranged on the side where the upper surface of the fabric is located and the side where the lower surface of the fabric is located, the rollers 83 on the two dirt filtering devices 80 of the same fabric guide section are arranged at intervals up and down, and the fabric respectively passes through one side of the roller 83 facing the corresponding dirt filtering inner groove 82 in a winding manner.

The dirt filtering inner groove 82 is positioned in the dirt collecting outer groove 81, dirt filtering components 85 are combined on the side wall of the dirt filtering inner groove 82, liquid inlet pipes of the circulating pump are respectively arranged in the dirt filtering inner groove 82, the outlet of the circulating pump is communicated with the corresponding spraying pipe, a filtering component 84 is arranged on the part, immersed below the liquid level of the corresponding unit, of the dirt collecting outer groove 81, and two ends of the dirt collecting outer groove 81 are respectively and fixedly arranged on the side wall of the washing main machine 100. Therefore, through the dirt filtering component 85, firstly, the liquid in the liquid collecting outer tank 81 can flow into the dirt filtering inner tank 82, and secondly, the clarity of the liquid in the dirt filtering inner tank 82 is ensured, and the influence on the working performance and the spraying and washing effect of the circulating pump caused by the foreign matters entering the dirt filtering inner tank 82 is reduced; and through filter assembly 84 firstly make the treatment fluid between outer groove 81 of collection liquid and the corresponding wash bowl can communicate, secondly the foreign matter that significantly reduces to flow into outer groove 81 of collection liquid through the washing that sprays gets into in the corresponding wash bowl and influence the turbidity of treatment fluid, can prolong the life cycle of corresponding unit treatment fluid, reduce and trade the liquid frequency, can handle more fabrics, and then improve washing work efficiency.

In order to facilitate the operator to grasp the dirt filtering condition of the dirt filtering device 80, transparent observation windows are respectively disposed at the positions corresponding to the outer liquid collecting grooves 81 on one side of the main washing machine 100. In order to facilitate cleaning of each dirt filtering inner groove 82 and ensure the filtering effect and the lasting effect thereof, in this embodiment, the installation ports 104 adapted to the dirt filtering inner grooves 82 are respectively disposed at positions corresponding to the dirt filtering inner grooves 82 on one side of the main water washing machine 100, the dirt filtering inner grooves 82 can enter and exit from the installation ports 104, and the corresponding ends of the dirt filtering inner grooves 82 are in sealing fit with the installation ports 104, so that the treatment liquid in the corresponding units does not leak through the installation ports 104 in the operation process, and the sealing structure between the corresponding ends of the dirt filtering inner grooves 82 and the installation ports 104 can adopt a conventional sealing structure, such as a sealing rubber ring, and the like, which is not described herein again. In order to facilitate the assembly and disassembly of the inner sewage filtering tank 82, a roller 86 is disposed at the bottom of the inner sewage filtering tank 82, the inner sewage filtering tank 82 is further raised upwards relative to the bottom wall of the outer liquid collecting tank 81 by the roller 86, and then a sewage filtering assembly 85 is additionally disposed on the bottom wall of the inner sewage filtering tank 82 to enhance the communication performance between the inner sewage filtering tank 82 and the outer liquid collecting tank 81. The cleaning of the outer sump 81 may be performed by a tool after the inner dirt-filtering sump 82 is taken out.

Further, secondary washing unit 40 is provided with the automatic water installations who is used for replenishing the clear water to secondary washing unit 40, soaping unit 10 is provided with the drain that is used for the outside overflow of the processing liquid in soaping unit 10, be provided with respectively between secondary washing unit 40 and the primary washing unit 20 and between primary washing unit 20 and soaping unit 10 and be used for making liquid from secondary washing unit 40 overflow to primary washing unit 20 and from the water level baffle device in primary washing unit 20 overflow to soaping unit 10, so make liquid show dynamic balance at secondary washing unit 40, primary washing unit 20 and soaping unit 10. Soaping unit 10 and fixation unit 30 are still external automatic material conveying system respectively, and accessible automatic material conveying system lasts to soaping unit 10 replenishment soaping liquid and to fixation unit 30 replenishment fixation liquid respectively like this to the volume of bringing out after the compensation fabric is handled. In addition, electrode type liquid level meters can be respectively arranged in the secondary washing unit 40, the primary washing unit 20 and the soaping unit 10, and when the liquid level of any one of the three units is lower than the set value of the electrode type liquid level meter, the automatic water inlet device starts water inlet work. The drainage device may be set to a drainage rate by a flow meter and the automated feed system may be of conventional construction known in the art.

Preferably, the water level baffle device between the primary water washing unit 20 and the soaping unit 10 may be a simple partition, and a communication hole is formed at the top of the partition corresponding to the preset liquid level of the primary water washing unit 20, the preset liquid level of the primary water washing unit 20 is higher than the preset liquid level of the soaping unit 10, and when the liquid level in the primary water washing unit 20 exceeds the communication hole, the liquid is supplied to the soaping unit 10. Preferably, the water level baffle device between the secondary water washing unit 40 and the primary water washing unit 20 may be a simple baffle and inclined flow guide pipe combination, and the top of the baffle is provided with a liquid drainage hole corresponding to the preset liquid level height of the secondary water washing unit 40, and when the liquid level of the secondary water washing unit 40 exceeds the liquid drainage hole, the liquid flows out and is conveyed to the primary water washing unit 20 through the inclined flow guide pipe.

Having shown and described the basic principles and essential features of the invention and its advantages, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (10)

1. Continuous combined washing machine of open width, its characterized in that, this continuous combined washing machine of open width includes the washing host computer and sets up the cloth feeding frame and the play cloth frame of setting at washing host computer output side at washing host computer input side, upper strata, middle level and the lower floor of arranging about separating the formation by two layering baffles that set up from top to bottom in the washing host computer, wherein be provided with the soaping unit that is close to the cloth feeding frame side by side about in the lower floor and be close to the washing unit of a time of play cloth frame, be equipped with the fixation unit in the middle level, be provided with second padder, secondary washing unit, third padder that are close to the cloth feeding frame side by side about in the upper strata and be close to the first padder of play cloth frame.

2. The open-width continuous combined washing machine as claimed in claim 1, wherein the soaping unit, the primary washing unit, the color fixing unit and the secondary washing unit are separated by a plurality of communicated partition plates arranged at left and right intervals to form a plurality of mutually communicated washing tanks, and steam heating pipes are respectively arranged in the soaping unit and the color fixing unit.

3. The open-width continuous combined washing machine as claimed in claim 1, wherein the input sides of the first padder, the second padder and the third padder are respectively provided with a driving roller and a variable frequency motor for driving the driving roller to rotate around a shaft, and the driving roller is lower than the compression roller of each padder.

4. The open width continuous combined washer according to claim 1, wherein the respective mangle tanks of the first padder, the second padder and the third padder are respectively returned to the previous unit in the running direction of the fabric through the liquid return pipes.

5. The open-width continuous combined washing machine according to claim 1, wherein the output side of the primary washing unit, the input side and the output side of the fixation unit, and the input side and the output side of the secondary washing unit are respectively provided with a through-shaft type tension sensor.

6. The open-width continuous combined washing machine as claimed in claim 1, wherein the soaping unit, the primary washing unit, the color fixing unit and the secondary washing unit are respectively and correspondingly provided with a spraying mechanism for spraying fluid towards the surface of the fabric, a spraying pipe of each spraying mechanism is positioned above the liquid level, and a nozzle on the spraying pipe faces the upper surface and/or the lower surface of the fabric.

7. The open-width continuous combined washing machine as claimed in claim 6, wherein a dirt filtering device is installed below each spraying mechanism in the color fixing unit, a liquid inlet pipe of a circulating pump of each spraying mechanism is immersed in the dirt filtering device of the unit corresponding to the spraying action object, and the bottom of the dirt filtering device is immersed below the liquid level of the corresponding unit.

8. The open-width continuous combined washing machine as claimed in claim 7, wherein the dirt filtering device comprises an inner dirt filtering tank, an outer liquid collecting tank and a roller horizontally and rotatably arranged on a guide plate at the top of the outer liquid collecting tank at a position matched with the fabric, the inner dirt filtering tank is positioned inside the outer liquid collecting tank, dirt filtering assemblies are combined on the side walls of the inner dirt filtering tank, liquid inlet pipes of the circulating pump respectively enter the inner dirt filtering tank, the outlet of the circulating pump is communicated with corresponding spraying pipes, and a filtering assembly is arranged at the part of the outer liquid collecting tank, which is immersed below the liquid level of the corresponding unit.

9. The open-width continuous combined washing machine as claimed in claim 8, wherein the washing main body is provided with mounting openings corresponding to the dirt-filtering inner grooves at positions corresponding to the dirt-filtering inner grooves, the dirt-filtering inner grooves can enter and exit from the mounting openings, and the corresponding ends of the dirt-filtering inner grooves are in sealing fit with the mounting openings.

10. The open-width continuous combined washing machine as claimed in any one of claims 1 to 9, wherein the secondary washing unit is provided with an automatic water inlet device for supplementing clear water to the secondary washing unit, the soaping unit is provided with a liquid discharging device for overflowing the treatment liquid in the soaping unit, a water level baffle device for overflowing the liquid from the secondary washing unit to the primary washing unit and from the primary washing unit to the soaping unit is respectively arranged between the secondary washing unit and the primary washing unit and between the primary washing unit and the soaping unit, and the soaping unit and the color fixing unit are respectively externally connected with an automatic feeding system.

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