CN217757955U - Boiling-off mechanism of desizing, boiling and bleaching combination machine - Google Patents

Abstract

The utility model relates to a boil off mechanism that boils and floats combine, including the boiling-off case, boiling-off incasement rotation is provided with a plurality of fabric guide rollers, boiling-off roof portion both ends are provided with into cloth mouth and go out the cloth mouth, boiling-off roof portion rotates and is provided with cloth feed roller and play cloth roller, the boiling-off case is connected with the frame, the frame is located one side that the boiling-off case is close to into the cloth mouth, two inside walls of frame all rotate and are provided with two rolling discs, the rolling disc opposition on two inside walls sets up, be provided with the brush roller between the rolling disc of per two opposition settings, the brush roller both ends can be dismantled with the rolling disc that two opposition settings respectively and be connected, the brush roller is fixed with rolling disc circumference, two brush rollers are parallel to each other and arrange along vertical direction, two brush rollers are used for clearing up upside and the downside of cloth respectively, two brush rollers are connected with the driving piece. This application clears away the flock on cloth surface before the cloth gets into the scouring mechanism to accelerate the speed that mixed solution got into the cloth.

Description

Boiling-off mechanism of desizing, boiling and bleaching combination machine

Technical Field

The application relates to the technical field of desizing, scouring and bleaching, in particular to a scouring mechanism of a desizing, scouring and bleaching combination machine.

Background

A combination machine is a combination device in which two or more machines are operated at the same time, and can perform a plurality of processes at the same time to complete various operations. The desizing and boiling combination machine is suitable for open-width continuous desizing and boiling-off of cotton, polyester, linen and blended fabrics, and the whole machine consists of three units of combination machines, namely a desizing mechanism, a boiling-off mechanism and a bleaching mechanism, and can be operated independently or in linkage; the scouring refers to that the cloth is scoured for a long time in a mixed solution formed by high-temperature alkaline liquid and other scouring aids to remove flock on the cloth, so that the cloth is subjected to subsequent dyeing or printing treatment.

Chinese utility model patent with grant bulletin number CN208857517U, it discloses a boiling-off mechanism of boiling-off combine, include destarch mechanism in proper order, boiling-off mechanism and bleaching mechanism, boiling-off mechanism is including the boiling-off frame, be provided with in the boiling-off frame and advance cloth mouth and go out the cloth mouth, one side of advancing the cloth mouth is provided with the guide-in roller, one side of going out the cloth mouth is provided with the delivery roll, be provided with in the boiling-off frame and be used for driving guide-in roller and delivery roll pivoted first driving piece, it is provided with the extrusion subassembly to go out the cloth mouth, the extrusion subassembly includes first compress roller and second compress roller, one side that the cloth mouth was kept away from to the extrusion subassembly is provided with draws in the subassembly in, draw in the subassembly in including two parallel arrangement draw in the board in, two draw in and form the passageway that supplies the cloth to pass in the width direction between the board. After the cloth passes through the channel between the furling plates, the cloth pressed by the two cloth pressing rollers is changed from a flat state to a furled state in the width direction, thereby enhancing the squeezing effect of the two cloth pressing rollers on the water in the cloth

In view of the above-mentioned related art, the inventor believes that a lot of lint exists on the cloth before the cloth enters the scouring mechanism, and the lint may have a blocking effect on the mixed solution in the scouring machine, thereby causing a slow speed of the mixed solution entering the cloth.

SUMMERY OF THE UTILITY MODEL

In order to clear away the flock on cloth surface before the cloth gets into the scouring mechanism to accelerate the speed that mixed solution got into the cloth, and then improve the scouring effect, this application provides a scouring mechanism of machine is floated in moving back to boiling off.

The application provides a boiling-off mechanism of combine is floated in moving back to boil adopts following technical scheme:

the utility model provides a boiling-off mechanism of boiling off and bleaching combination machine, is including the boiling-off case that is used for holding mixed solution, the boiling-off incasement rotation is provided with a plurality of fabric guide rollers, boiling-off roof portion both ends are provided with into cloth mouth and go out the cloth mouth, the boiling-off roof portion is close to cloth mouth department and is provided with the cloth feed roller, the boiling-off roof portion is close to cloth mouth department and is provided with the cloth roller, the boiling-off case is connected with the frame, the frame is located one side that the boiling-off case is close to into cloth mouth, two inside walls of frame rotate and are provided with four rolling discs, four the rolling discs averagely divide into two sets ofly, and every group rolling disc rotates with a frame inside wall and is connected and two sets of rolling discs opposition setting, is provided with the brush roller between every two opposition settings the rolling discs, the brush roller both ends can be dismantled with the rolling discs that two opposition set up respectively, the brush roller is fixed with rolling disc circumference, two the brush roller is parallel to each other and arranges along vertical direction, two the upside and the brush roller is used for clearing up respectively the downside of clearing up the brush roller, two the brush roller is connected with and is used for driving piece that is used for driving the rotation of drive brush roller.

Through adopting above-mentioned technical scheme, the cloth is earlier through between two brush rollers, and the cloth of rethreading enters into cloth inlet, and the cloth gets into to boil off the case after and detours a plurality of fabric guide rolls and derives from the cloth outlet, and the cloth detours out the roller, and the cloth is before getting into the boiling off case, and two brush rollers clear up the flock of both sides about the cloth respectively to accelerate the speed that mixed solution got into the cloth, and then improve the boiling off effect.

Preferably, the rotating disc is connected with a mounting seat, a sliding groove is formed in the side wall, close to the brush roller, of the mounting seat, a sliding block and a spring are arranged in the sliding groove, the sliding block is connected with the sliding groove in a sliding mode, the sliding direction of the sliding block is consistent with the axial direction of the brush roller, a slot is formed in one end of the sliding block, the two ends of the brush roller are connected with inserting blocks matched with the slot in an inserting mode, one end of the spring is connected with the bottom wall of the sliding groove, the other end of the spring is connected with one end, far away from the slot, of the sliding block, and a locking piece used for locking the sliding block is connected to the mounting seat.

Through adopting above-mentioned technical scheme, when the brush roller needs to be changed, the staff opens the locking piece, separates slider and brush roller both ends again to realize the change of brush roller, avoid the long-time use of brush roller.

Preferably, the locking piece comprises a bolt, a groove is formed in the side face of the sliding block, and one end of the bolt penetrates through the side face of the mounting seat to be in inserted fit with the groove.

Through adopting above-mentioned technical scheme, with the position of bolt fastening slider in the spout to brush roller is controlled and is moved when avoiding the brush roller to rotate, thereby improves the stability of brush roller.

Preferably, still be provided with the hair removal subassembly that is used for clearing up the flock on the brush roller in the frame, the hair removal subassembly includes two and inhales the hair cover, inhales hair box and negative pressure source, two inhale the hair cover and be located the upper end of eminence brush roller and the lower extreme of low department brush roller respectively, every inhale the hair cover through hose and inhale the hair box intercommunication, the air inlet of negative pressure source passes through the breathing pipe and inhales the hair box intercommunication, inhale hair cover both ends opening, every inhale the hair cover and be connected with and be used for making the moving mechanism that inhales the hair cover and reciprocate.

Through adopting above-mentioned technical scheme, during the brush hair of brush roller, the staff starts the negative pressure source, and the hair bits on the brush roller passes through the suction hood and gets into in the dust absorption case to both avoid the hair bits to waft to the air in, cleared up the brush roller again.

Preferably, the moving mechanism comprises a first air cylinder and a second air cylinder, a piston rod of the first air cylinder is connected with the top of the hair absorption cover located above the brush roller, and a piston rod of the second air cylinder is connected with the bottom of the hair absorption cover located below the brush roller.

Through adopting above-mentioned technical scheme, when needing the clearance to inhale the hair cover, the staff can start first cylinder and second cylinder and rise and descend with the hair cover that inhales of bottom in order to drive the hair cover that inhales at top to be convenient for the staff and change the brush roller and clear up and inhale the hair cover, labour saving and time saving.

Preferably, a filter screen is arranged in the wool sucking box, the periphery of the filter screen is connected with the inner wall of the wool sucking box, and the filter screen is positioned between an opening of the hose in the wool sucking box and an opening of the air suction pipe in the wool sucking box.

Through adopting above-mentioned technical scheme, the negative pressure source absorbs the filter box with the hair bits on the brush roller, and the filter screen filters the hair bits, makes the hair bits pile up on the filter screen, the clearance of being convenient for afterwards.

Preferably, a box opening is formed in the side wall of the wool suction box, a box cover is arranged at the position of the box opening in a covering mode, and the box cover is hinged to the edge of the box opening of the wool suction box.

Through adopting above-mentioned technical scheme, the case lid can be opened to the staff to be convenient for clear up the flock on the filter screen, avoid the flock to pile up on the filter screen and influence the work of follow-up negative pressure source.

Preferably, two first positioning rollers and two second positioning rollers are rotatably arranged on two side walls of the rack, a first passage through which the cloth passes is formed between the two first positioning rollers, a second passage through which the cloth passes is formed between the two second positioning rollers, and the cloth sequentially passes through the first passage, between the two brush rollers and the second passage and bypasses the cloth inlet roller to enter the cloth inlet.

Through adopting above-mentioned technical scheme to make cloth both sides can be cleared up by the brush roller of upper and lower both sides, avoid appearing the cloth and can only clear up with the brush roller of one side.

Preferably, the driving part comprises a driving motor, a first gear and a second gear, the first gear and the second gear are rotatably connected with the side wall of the rack, the first gear is circumferentially fixed with one brush roller, the second gear is circumferentially fixed with the other brush roller, the first gear is meshed with the second gear, and the driving motor is in transmission connection with the first gear.

Through adopting above-mentioned technical scheme, driving motor drives first gear and rotates, and first gear drives second gear and rotates to make two brush roller antiport, thereby avoid influencing the transmission of cloth.

Preferably, the cloth feeding roller is connected with a cloth feeding motor, and the cloth discharging roller is connected with a cloth discharging motor.

By adopting the technical scheme, the cloth feeding motor and the cloth discharging motor provide power for cloth transportation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cloth firstly passes between the two brush rollers and then bypasses the cloth inlet roller to enter the cloth inlet, the cloth is guided out from the cloth outlet by bypassing a plurality of cloth guide rollers after entering the boiling-off box and bypasses the cloth outlet roller, and before the cloth enters the boiling-off box, the two brush rollers respectively clean the hair scraps on the upper side and the lower side of the cloth, so that the speed of the mixed solution entering the cloth is increased, and the boiling-off effect is improved;

2. when the brush roller needs to be replaced, a worker opens the locking piece and separates the sliding block from the two ends of the brush roller, so that the brush roller is replaced, and the long-time use of the brush roller is avoided;

3. when the hair suction cover needs to be cleaned, the worker can start the first air cylinder and the second air cylinder, so that the worker can replace the brush roller and clean the hair suction cover conveniently, and time and labor are saved.

Drawings

FIG. 1 is a schematic view of the overall structure of the scouring mechanism of the embodiment of the present application.

Fig. 2 is a top view of the scouring mechanism of the embodiment of the present application.

Fig. 3 isbase:Sub>A schematic sectional view taken along linebase:Sub>A-base:Sub>A in fig. 2.

FIG. 4 is a partial schematic view of the scouring mechanism of the embodiment of the application, primarily showing the rotating disk, the mounting cup and the brush roller.

Fig. 5 is a schematic sectional view taken along line B-B in fig. 2.

Description of reference numerals: 100. boiling-off box; 110. a cloth guide roller; 120. a cloth feeding roller; 130. a cloth outlet roller; 140. a cloth inlet; 150. a cloth outlet; 160. a cloth feeding motor; 170. a cloth discharging motor; 200. a frame; 300. rotating the disc; 310. a mounting seat; 311. a chute; 312. a slider; 3121. inserting slots; 3122. a groove; 313. a spring; 314. a bolt; 400. a brush roller; 410. inserting a block; 500. a drive member; 510. a first gear; 520. a second gear; 530. a drive motor; 600. a hair removal assembly; 610. a hair-sucking cover; 620. a hair sucking box; 621. a filter screen; 622. a box cover; 630. a source of negative pressure; 710. a first cylinder; 720. a second cylinder; 810. a first positioning roller; 820. a second registration roller.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses boiling-off mechanism of a desizing, boiling and bleaching combination machine. Referring to fig. 1 and 2, a scouring mechanism of a desizing, scouring and bleaching combination machine comprises a scouring box 100, a plurality of cloth guide rollers 110 are arranged in the scouring box 100 in a rotating mode, the scouring box 100 is provided with the plurality of cloth guide rollers 110 in a rotating mode, a cloth inlet 140 and a cloth outlet 150 are formed in the two ends of the top of the scouring box 100 in the length direction, a cloth inlet 120 is formed in the position, close to the cloth inlet 140, of the top of the scouring box 100, a cloth outlet 130 is formed in the position, close to the cloth outlet 150, of the top of the scouring box 100, and the scouring box 100 is connected with a brushing structure used for cleaning up the flocks on the upper side and the lower side of cloth.

Referring to fig. 2 and 3, the scouring box 100 is rectangular, five cloth guide rollers 110 are provided, each cloth guide roller 110 is arranged along the width direction of the scouring box 100, the cloth guide rollers 110 are divided into two groups, the two groups of cloth guide rollers 110 are parallel and staggered, four vertical plates are arranged at the top of the scouring box 100, the four vertical plates are evenly divided into two groups, the two groups of vertical plates are respectively connected with two ends of the top of the scouring box 100 through bolts, two ends of the cloth inlet roller 120 are respectively connected with the two vertical plates in a rotating manner, two ends of the cloth outlet roller 130 are respectively connected with the two vertical plates in a rotating manner, the cloth inlet motor 160 is installed at one end of the cloth inlet roller 120, the cloth inlet motor 160 is connected with one vertical plate through bolts, an output shaft of the cloth inlet motor 160 penetrates through the vertical plate to be circumferentially fixed with the cloth inlet roller 120, the cloth outlet motor 170 is installed at one end of the cloth outlet roller 130, the cloth inlet motor 160 is connected with one vertical plate through bolts, and an output shaft of the cloth outlet motor 170 penetrates through the vertical plate to be circumferentially fixed with the cloth outlet roller 130.

Referring to fig. 1 and 4, the brushing mechanism is connected with the side wall of the scouring box 100, the brushing structure comprises a frame 200, the frame 200 is connected with one side of the scouring box 100 close to the cloth inlet 140 through a bolt, the frame 200 comprises two side walls, two rotating discs 300 are rotatably arranged on each side wall, the rotating discs 300 on the two side walls are oppositely arranged, a brushing roller 400 is arranged between every two oppositely arranged rotating discs 300, and two ends of the brushing roller 400 are detachably connected with the two oppositely arranged rotating discs 300 respectively.

Each rotating disc 300 is integrally formed with an installation seat 310, the installation seat 310 is rectangular, sliding grooves 311 with square vertical sections are formed in the side walls of the installation seat 310 close to the two ends of the brush roller 400, one ends of the sliding grooves 311 extend into the rotating disc 300, sliding blocks 312 and springs 313 are arranged in the sliding grooves 311, the sliding blocks 312 are in sliding connection with the sliding grooves 311, the sliding directions of the sliding blocks 312 are consistent with the axial direction of the brush roller 400, cross-shaped slots 3121 are formed in the ends, far away from the bottom wall of the sliding grooves 311, of the sliding blocks 312, one ends of the springs 313 are bonded with the bottom wall of the sliding grooves 311, the other ends of the springs 313 are bonded with the ends, far away from the slots 3121, of the brush roller 400 are connected with insertion blocks 410 through bolts, the vertical sections of the insertion blocks 410 are cross-shaped, the insertion blocks 410 are in insertion fit with the slots 3121, locking pieces for locking the sliding blocks 312 are connected to the installation seat 310, each locking piece comprises a bolt 314, threaded holes are formed in the side walls of the installation seat 310, the bolts 314 are in threaded connection with the threaded holes, grooves 3122 are formed in the side walls of the sliding blocks 312, one ends of the bolts 312, and one ends of the bolts 314 are formed in the installation seat 310, and lock the sliding blocks 312.

Referring to fig. 1 and 2, the brush roller 400 is connected with a driving member 500 for driving the brush roller 400 to rotate, the driving member 500 includes a driving motor 530, a first gear 510 and a second gear 520 are both rotatably connected with an outer side wall of the frame 200, the driving motor 530 is connected with another outer side wall of the frame 200 through a bolt, the first gear 510 is circumferentially fixed with one rotating disc 300 of the side wall to circumferentially fix the brush roller 400, the second gear 520 is circumferentially fixed with another rotating disc 300 of the side wall to circumferentially fix the brush roller 400, the first gear 510 is meshed with the second gear 520, an output shaft of the driving motor 530 penetrates through the side wall to circumferentially fix the rotating disc 300, when the driving motor 530 rotates, the rotating disc 300 rotates to drive the brush roller 400 to rotate, thereby driving the oppositely arranged rotating discs 300 to rotate, the first gear 510 rotates to drive the second gear 520 to rotate, and further realizing reverse rotation of the two brush rollers 400 to prevent the rotation of the brush rollers 400 from affecting the transmission of cloth.

Referring to fig. 1 and 5, two first positioning rollers 810 and two second positioning rollers 820 are further rotatably disposed on two side walls of the frame 200, the two first positioning rollers 810 are located on one side of the brush roller 400 away from the scouring box 100, the two second positioning rollers 820 are located between the brush roller 400 and the side walls of the scouring box 100, a first passage through which the cloth passes is formed between the two first positioning rollers 810, a second passage through which the cloth passes is formed between the two second positioning rollers 820, and the cloth passes through the first passage, between the two brush rollers 400, and the second passage in sequence and bypasses the cloth inlet roller 120 to enter the cloth inlet 140.

Referring to fig. 1, 3 and 5, a frame 200 is further provided with a hair removing assembly 600 for cleaning the hair scraps on the brush roller 400, the hair removing assembly 600 comprises two hair suction covers 610, a hair suction box 620 and a negative pressure source 630, the hair suction box 620 is positioned outside the outer side wall of the frame 200, the negative pressure source 630 adopts an air pump, an air inlet of the negative pressure source 630 is communicated with the bottom of the side wall of the hair suction box 620 through an air suction pipe, the inner side wall of the hair suction box 620 is connected with a filter screen 621 through a bolt, the filter screen 621 is horizontally arranged, the side wall of the hair suction box 620 is provided with a box opening, a box cover 622 is covered at the box opening, and the box cover 622 is hinged with the edge of the box opening of the hair suction box 620; the two hair suction covers 610 are respectively positioned at the upper end of the high-position brush roller 400 and the lower end of the low-position brush roller 400, the two ends of each hair suction cover 610 are connected with the two inner side walls of the rack 200 in a sliding mode, the two ends of each hair suction cover 610 are opened, so that the brush roller 400 is positioned in the hair suction covers 610, each hair suction cover 610 is communicated with the top of the hair suction box 620 through a hose, and each hair suction cover 610 is connected with a moving mechanism used for enabling the hair suction cover 610 to move up and down.

The moving mechanism comprises a first air cylinder 710 and a second air cylinder 720, two support plates are connected between two side walls of the rack 200, the two support plates are respectively located above the top brush roller 400 and below the bottom brush roller 400, a cylinder body of the first air cylinder 710 penetrates through the support plates above and is connected with the support plates through bolts, a cylinder body of the second air cylinder 720 penetrates through the support plates below and is connected with the support plates through bolts, a piston rod of the first air cylinder 710 is connected with the top of a brush suction cover 610 located above the brush roller 400 through bolts, and a piston rod of the second air cylinder 720 is connected with the bottom of the brush suction cover 610 located below the brush roller 400 through bolts.

The embodiment of the application provides a boiling-off principle of boiling-off mechanism of combine is bleached to move back: the cloth firstly passes between the two brush rollers 400 and then bypasses the cloth inlet roller 120 to enter the cloth inlet 140, the cloth bypasses a plurality of cloth guide rollers 110 after entering the boiling-off box 100 to be led out from the cloth outlet 150 and bypasses the cloth outlet roller 130, the two brush rollers 400 respectively clean the hair scraps on the upper side and the lower side of the cloth before the cloth enters the boiling-off box 100, and meanwhile, the negative pressure source 630 removes the brush rollers 400 and the fine hair scraps on the cloth through the hair suction cover 610, so that the speed of the mixed solution entering the cloth is increased, and the boiling-off effect is improved;

when the brush roller 400 needs to be replaced, a worker can start the first air cylinder 710 and the second air cylinder 720 to drive the top hair absorption cover 610 to ascend and the bottom hair absorption cover 610 to descend, then twist the bolt 314 to be separated from the groove 3122, and then separate the sliding block 312 from the two ends of the brush roller 400, so that the replacement of the brush roller 400 is realized, and the long-time use of the brush roller 400 is avoided.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a boiling-off mechanism of combine is floated in moving back boiling off, is including boiling off case (100) that is used for holding mixed solution, boiling off case (100) internal rotation is provided with a plurality of fabric guide rolls (110), boiling off case (100) top both ends are provided with into cloth mouth (140) and go out cloth mouth (150), boiling off case (100) top is close to into cloth mouth (140) and locates to be provided with into cloth roll (120), boiling off case (100) top is close to out cloth mouth (150) and locates to be provided with out cloth roll (130), its characterized in that: the scouring box (100) is connected with a rack (200), the rack (200) is located on one side, close to a cloth inlet (140), of the scouring box (100), two inner side walls of the rack (200) are rotatably provided with four rotating discs (300), the four rotating discs (300) are averagely divided into two groups, each group of rotating discs (300) is rotatably connected with one inner side wall of the rack (200) and two groups of rotating discs (300) are oppositely arranged, each two groups of rotating discs are oppositely arranged, a brush roller (400) is arranged between every two opposite rotating discs (300), two ends of the brush roller (400) are detachably connected with the two oppositely arranged rotating discs (300) respectively, the brush roller (400) is circumferentially fixed with the rotating discs (300) and is parallel to each other and is arranged in the vertical direction, the two brush rollers (400) are respectively used for cleaning the upper side and the lower side of cloth, and the two brush rollers (400) are connected with a driving piece (500) for driving the brush roller (400) to rotate.

2. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 1, wherein: the brush roller locking device is characterized in that an installation seat (310) is connected to the rotating disc (300), a sliding groove (311) is formed in the side wall, close to the brush roller, of the installation seat (310), a sliding block (312) and a spring (313) are arranged in the sliding groove (311), the sliding block (312) is in sliding connection with the sliding groove (311), the sliding direction of the sliding block (312) is consistent with the axial direction of the brush roller (400), a slot (3121) is formed in one end of the sliding block (312), insertion blocks (410) in inserting connection with the slot (3121) are connected to the two ends of the brush roller (400), one end of the spring (313) is connected with the bottom wall of the sliding groove (311), the other end of the spring (313) is connected with one end, far away from the slot (3121), of the sliding block (312), and a locking piece used for locking the sliding block (312) is connected to the installation seat (310).

3. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 2, wherein: the locking piece comprises a bolt (314), a groove (3122) is formed in the side face of the sliding block (312), and one end of the bolt (314) penetrates through the side face of the mounting seat (310) to be in inserted connection with the groove (3122).

4. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 1, wherein: still be provided with on frame (200) and be used for clearing up hair removal subassembly (600) of the upper hair bits of brush roller (400), hair removal subassembly (600) include two and inhale hair cover (610), inhale hair case (620) and negative pressure source (630), two inhale the upper end that hair cover (610) are located eminence brush roller (400) respectively and the lower extreme of low department brush roller (400), every inhale hair cover (610) and inhale hair case (620) intercommunication through the hose, the air inlet of negative pressure source (630) is through breathing pipe and inhale hair case (620) intercommunication, inhale hair cover (610) both ends opening, every inhale hair cover (610) and be connected with the moving mechanism who is used for making and inhales hair cover (610) and reciprocate.

5. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 4, wherein: the moving mechanism comprises a first air cylinder (710) and a second air cylinder (720), a piston rod of the first air cylinder (710) is connected with the top of the hair absorption cover (610) located above the brush roller (400), and a piston rod of the second air cylinder (720) is connected with the bottom of the hair absorption cover (610) located below the brush roller (400).

6. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 4, wherein: be provided with filter screen (621) in wool-absorbing case (620), filter screen (621) week side and wool-absorbing case (620) inner wall connection, filter screen (621) are located the opening that the hose is located wool-absorbing case (620) and the breathing pipe is located between the opening in wool-absorbing case (620).

7. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 4, wherein: the case mouth has been seted up to inhale hair case (620) lateral wall, case mouth department lid is equipped with case lid (622), case lid (622) are articulated with inhale hair case (620) case mouth border.

8. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 1, wherein: two first positioning rollers (810) and two second positioning rollers (820) are rotatably arranged on two side walls of the rack (200), a first passage through which cloth passes is formed between the two first positioning rollers (810), a second passage through which the cloth passes is formed between the two second positioning rollers (820), and the cloth sequentially passes through the first passage, between the two brush rollers (400), and the second passage and bypasses the cloth inlet roller (120) to enter the cloth inlet (140).

9. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 1, wherein: the driving piece (500) comprises a driving motor (530), a first gear (510) and a second gear (520), the first gear (510) and the second gear (520) are both rotationally connected with the side wall of the rack (200), the first gear (510) is circumferentially fixed with one brush roller (400), the second gear (520) is circumferentially fixed with the other brush roller (400), the first gear (510) is meshed with the second gear (520) and connected, and the driving motor (530) is in transmission connection with the first gear (510).

10. The scouring mechanism of the desizing, scouring and bleaching combination machine as claimed in claim 1, wherein: the cloth feeding roller (120) is connected with a cloth feeding motor (160), and the cloth discharging roller (130) is connected with a cloth discharging motor (170).

Images