CN218842601U - Dyeing machine capable of uniformly dyeing - Google Patents

Abstract

The utility model relates to a dyeing machine of even dyeing, including dyeing machine body, frame, along vertical direction install the connecting plate in the frame, install fabric guide roller, driving motor, the vibration subassembly on the connecting plate, the feed inlet has been seted up on the dyeing machine body, the vibration subassembly is including rotating the backing roll of connecting in dyeing machine body inner wall, be used for knocking the component of knocking the cloth surface. In the use, driving motor drives the fabric guide roller and rotates, fabric guide roller direction cloth gets into the dyeing machine originally internally, and the feed inlet of dyeing machine is generally less, the cloth that gets into in the dyeing machine can be folded usually, it is through strikeing the component when the cloth, receive the effect of strikeing, folding cloth is broken up, the cloth is spread out, and the backing roll supports the cloth, be more convenient for strike the component and beat the cloth, make the cloth stand out, reduce the fold of cloth, make the cloth can fully contact dyestuff, the reduction appears because of the folding partial cloth and dyestuff contact failure that leads to of cloth, the uneven condition of dyeing.

Description

Dyeing machine capable of uniformly dyeing

Technical Field

The application relates to the field of dyeing technology, in particular to a dyeing machine capable of uniformly dyeing.

Background

The polyester-cotton fabric has the advantages of stiff and smooth appearance, wear resistance, durability, stable size, easy washing, quick drying and the like, and is suitable for manufacturing various clothes. In the production process of the polyester-cotton fabric, dyeing treatment of dyeing equipment is needed, so that the ornamental value of the polyester-cotton fabric is improved. When the existing dyeing equipment is used, after the cloth is dyed, a large amount of dye liquor is taken out of the dyeing machine by the cloth when the cloth is taken out from a discharge port of the dyeing machine, so that the surrounding environment is polluted, and the dye is wasted.

In the prior art, chinese patent No. CN214831192U discloses an overflow dyeing machine, which includes a frame, a cylinder body is arranged on the frame, a cloth outlet is formed in the cylinder body, a discharging mechanism is arranged on the frame, the discharging mechanism includes a fixed pressure roller, a dynamic pressure roller, a collecting box and an adjusting assembly, the fixed pressure roller horizontally rotates on the frame, the dynamic pressure roller vertically slides and is mounted on the frame, the collecting box is mounted on the frame and is located below the fixed pressure roller, the collecting box is connected with the cloth outlet, and the adjusting assembly is mounted on the frame and is connected with the fixed pressure roller and the dynamic pressure roller.

In the use, the cloth after will dyeing is through the space between compression roller and the dynamic pressure roller surely, moves along vertical direction through the dynamic pressure roller and is close to the cloth, carries out the extrusion dehydration to the cloth, and the dye liquor that extrudes from the cloth falls into the collecting box in, gets back to the dyeing machine again through the collecting box.

In view of the above-mentioned related art, the dyeing machine usually performs stacking and transferring when the cloth enters the dyeing machine during dyeing the cloth, so that the condition of uneven dyeing effect due to uneven contact between the cloth and the dyeing solution is likely to occur.

SUMMERY OF THE UTILITY MODEL

In order to ensure that the cloth is well contacted with the dye liquor in the dyeing process of the cloth and reduce the probability of uneven dyeing,

the application provides a dyeing machine of uniform dyeing adopts following technical scheme:

the utility model provides an even dyeing's dyeing machine, includes dyeing machine body, frame, along vertical direction install the connecting plate in the frame, install on the connecting plate and be used for the direction cloth to get into this internal guide roller of dyeing machine, install and be used for driving guide roller pivoted driving motor, install the vibration subassembly in the dyeing machine body in the frame, set up the feed inlet that supplies the cloth business turn over on dyeing machine body one side, the vibration subassembly is used for reducing the fold that gets into this internal cloth surface of dyeing machine, the vibration subassembly is including rotating the backing roll of connecting in dyeing machine body inner wall, be used for knocking the component on cloth surface.

Through adopting above-mentioned technical scheme, in the use, driving motor drives the fabric guide roller and rotates, fabric guide roller direction cloth gets into the dyeing machine originally internally, and the feed inlet of dyeing machine body is generally less, get into this internal cloth of dyeing machine and can be folded usually, it is through strikeing the component to work as the cloth, receive the effect of strikeing, folding cloth is broken up, the cloth is opened by the shakeout, and the backing roll supports the cloth, the component of strikeing of being more convenient for is to the beat of cloth, make the cloth stand out, reduce the fold of cloth, make the cloth can fully contact the dyestuff, the reduction appears leading to partial cloth and dyestuff contact failure because of the cloth is folding, the uneven condition of dyeing.

Optionally, the beating member includes a beating plate rotatably connected to the inner wall of the dyeing machine body, and a rotating motor mounted on the outer wall of the dyeing machine body and used for driving the beating plate to rotate eccentrically.

Through adopting above-mentioned technical scheme, it is through strikeing the component to work as the cloth, rotates the motor and drives and strike the board and rotate, strikes the cloth through the vibration subassembly top for the cloth is broken up, and cloth surface fold reduces.

Optionally, the dyeing machine further comprises a recovery assembly for recovering the dye liquor taken out of the dyeing machine body in the discharging process into the dyeing machine body, the recovery assembly comprises an extrusion roller set and a recovery groove, the extrusion roller set is installed on the connecting plate and used for extruding the cloth, the recovery groove is installed on the connecting plate and located right below the extrusion roller set, the recovery assembly is installed right above the cloth guide roller, and the dyeing machine for uniform dyeing further comprises a moving assembly used for driving the connecting plate to move in the vertical direction.

Through adopting above-mentioned technical scheme, after this internal cloth dyeing of dyeing machine was accomplished, drive the recovery subassembly through moving the subassembly and move down along vertical direction, be close to the feed inlet, take out the cloth from this internal extrusion through the extrusion roller set of dyeing machine and accomplish the dehydration, the dye liquor that extrudes from the cloth gets into the accumulator, and the dye liquor that collects in the accumulator is retrieved to this internal dyeing machine again.

Optionally, the recycling assembly further includes a first motor installed on the frame and used for driving the recycling tank to rotate, the recycling tank cloth is kept horizontally placed during discharging, when the cloth is fed, the recycling tank is driven by the first motor to rotate and pour the dye liquor into the dyeing machine body, the recycling tank includes a bottom plate and a plurality of side plates installed on the bottom plate, the side plates and the bottom plate form a cavity for storing the dye liquor, a drain tank for the dye liquor to flow out of the recycling tank is formed in a side plate close to the feed port in the side plate, the recycling tank is located outside the dyeing machine body, the recycling tank is further connected with a guide groove for guiding the dye liquor in the recycling tank into the dyeing machine body, the drain tank is communicated with the guide groove, and the guide groove extends into the feed port from the recycling tank.

Through adopting above-mentioned technical scheme, the cloth is through the extrusion dehydration of extrusion roller group, when the dye liquor that extrudes from the cloth surpassed the accumulator capacity, the partial dye liquor that surpassed the accumulator capacity passes through the guide way and leads to this internal, and the curb plate that is close to feed inlet one side is shorter to be set up, thereby the condition of polluting the surrounding environment and causing the waste is crossed in the overflow of reducible accumulator, when the cloth feeding, drive the connecting plate through the removal subassembly and upwards move along vertical direction, make recovery subassembly and fabric guide roller follow the connecting plate and upwards move along vertical direction, make fabric guide roller and accumulator be close to the feed inlet, when the cloth passes through the guide effect entering dyeing machine of fabric guide roller originally internal, drive the accumulator rotation and incline towards feed inlet one end through first motor, make the dye liquor in the accumulator empty to this internal of dyeing machine, and wash out the cloth through the vibration subassembly, wash out it in-process of cloth oscillation, the probability that the cloth exists the fold has further been reduced.

Optionally, the guide way rotates to be connected in the accumulator, still be equipped with the retaining member on the guide way, the retaining member is used for locking accumulator and guide way.

Through adopting above-mentioned technical scheme, when retrieving the subassembly and need removing and keeping away from the feed inlet along vertical direction, transfer the connection between guide way and the accumulator through the retaining member for the guide way rotates and is close to the accumulator, makes the guide way can not cause the interference to the moving direction of accumulator, and when the guide way used, rotates the guide way and keeps away from the accumulator, locks the guide way on the accumulator through the retaining member.

Optionally, the moving assembly includes a rack arranged on the connecting plate along the length direction of the connecting plate, a gear rotatably connected to the rack, and a second motor mounted on the rack and used for driving the gear to rotate, and the gear is meshed with the rack.

Through adopting above-mentioned technical scheme, when retrieving subassembly and fabric guide roller and need remove according to the business turn over material demand, drive gear through the second motor and rotate, gear rotation drives the rack and rotates and move in the vertical direction, and the connecting plate follows the rack and moves along vertical direction to drive and retrieve subassembly and fabric guide roller and move along vertical direction.

Optionally, a scouring assembly for scouring the cloth during oscillation so that wrinkles of the cloth are reduced is further included.

By adopting the technical scheme, when the cloth passes through the oscillating assembly, the scouring assembly can reduce wrinkles on the surface of the cloth under the action of scouring of the scouring assembly when the cloth is knocked by the oscillating assembly and the scouring action of the dye liquor in the recovery tank is exerted.

Optionally, the scouring assembly comprises a flow guide pipe for guiding the dye liquor in the dyeing machine body to the upper part of the oscillating assembly and a spray nozzle group arranged at one end of the flow guide pipe close to the oscillating assembly, the spray nozzle group is arranged in parallel with the knocking plate, and a water suction pump is arranged on the flow guide pipe.

Through adopting above-mentioned technical scheme, this internal dye liquor of dyeing machine gets into the honeycomb duct after, upwards flows the dye liquor in the honeycomb duct to the oscillation subassembly top through the suction pump, and dye liquor rethread shower nozzle group spouts to the cloth through the oscillation subassembly, erodees the cloth for the fold on cloth surface further reduces.

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

1. the cloth enters the dyeing machine body, before dyeing, the cloth is vibrated and knocked by the vibrating component, so that the folded cloth is scattered, wrinkles are reduced, the cloth can fully contact with dye liquor, and uniform dyeing is facilitated;

2. the cloth is washed away through the dye liquor in the recovery tank and the washing component in the oscillation process, and the wrinkles on the surface of the cloth are further reduced.

Drawings

Fig. 1 is a perspective view of the present embodiment.

Fig. 2 is a side view of the present embodiment.

Fig. 3 isbase:Sub>A sectional view taken along the linebase:Sub>A-base:Sub>A in fig. 2 according to the present embodiment.

Fig. 4 is a sectional view taken along line B-B of fig. 2 according to the present embodiment.

FIG. 5 is a perspective view of the recovery tank of the present embodiment.

Fig. 6 is a schematic diagram of the connection of the moving member in the present embodiment.

Description of reference numerals: 1. a support; 101. a connecting plate; 1011. mounting grooves; 1012. a limiting groove; 102. a limiting block; 2. mounting a plate; 3. a dyeing machine body; 4. a drive motor; 5. a cloth guide roller; 6. a support roll; 7. knocking the plate; 8. rotating the rod; 9. rotating the motor; 10. a flow guide pipe; 1001. a water pump; 11. a nozzle group; 1101. a spray head; 1201. a first squeeze roll; 1202. a second squeeze roll; 1203. an active motor; 13. a recovery tank; 1301. a base plate; 1302. a side plate; 1303. a guide groove; 13031. a locking member; 130311, bolts; 130312, a nut; 1304. mounting a rod; 14. a first motor; 15. a gear; 16. a rack; 17. a second motor.

Detailed description of the preferred embodiments

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses dyeing machine of even dyeing. Referring to fig. 1 and 2, the dyeing machine for uniform dyeing includes a frame, a dyeing machine body 3, a cloth guide roller 5, an oscillation assembly, and a recovery assembly. The frame is including installing in the support 1 of dyeing machine body 3 both sides, is connected with connecting plate 101 along vertical direction on the support 1. A feed inlet for feeding cloth into the dyeing machine body 3 is formed in one side of the dyeing machine body 3. The cloth guide roller 5 is rotatably connected to the connecting plate 101, a driving motor 4 for driving the cloth guide roller 5 to rotate is further mounted on the connecting plate 101, and the cloth guide roller 5 is used for guiding cloth to enter the dyeing machine body 3.

With reference to figure 3, the frame also comprises a mounting plate 2 mounted on the outer wall of the dying machine body 3. The oscillating assembly comprises supporting rollers 6 rotatably connected to the inner wall of the dyeing machine body 3 and a knocking component for knocking cloth, and the knocking component is located on one side, close to the feed inlet, of the supporting rollers 6. The knocking component comprises a rotating rod 8, a knocking plate 7 and a rotating motor 9, wherein the rotating rod 8 and the knocking plate 7 are rotatably connected to two sides of the inner wall of the dyeing machine body 3, the rotating motor 9 is installed on the installation plate 2 and is used for driving the rotating rod 8 to rotate eccentrically, and two ends of the knocking plate 7 are respectively and fixedly connected to the two rotating rods 8.

Drive fabric guide roller 5 through driving motor 4 in the use and rotate, in fabric guide roller 5 rotated direction cloth and got into dyeing machine body 3, when the cloth passed through the oscillation subassembly, rotation motor 9 drove dwang 8 and rotates, knocked board 7 and followed dwang 8 and rotate and knock the cloth, and backing roll 6 played the supporting role to the cloth, was favorable to knocking board 7 and was knocked the beating of cloth. The cloth is broken up through the effect of beating the subassembly, by the folding cloth, and the fold on cloth surface reduces for in follow-up dyeing process, the regional equal accessible dye liquor on the cloth.

Referring to fig. 4, the dyeing machine for uniform dyeing further includes a scouring assembly, the scouring assembly includes a guide pipe 10 for guiding the dye liquor in the dyeing machine body 3 to above the oscillating member, a water pump 1001 mounted on the guide pipe 10, and a nozzle group 11 mounted at one end of the guide pipe 10 close to the oscillating member, the nozzle group 11 includes a plurality of nozzles 1101, and the nozzles 1101 are arranged along the cloth width direction.

Referring to fig. 1, the recovery assembly is used for recovering the dye liquor taken out of the dyeing machine body 3 in the discharging process into the dyeing machine body 3, the recovery assembly comprises an extrusion roller set rotatably connected to a connecting plate 101, a recovery tank 13 rotatably connected to the connecting plate 101, and a first motor 14 for driving the recovery tank 13 to rotate, the recovery tank 13 is arranged right below the extrusion roller set, and the recovery assembly is arranged right above the cloth guide roller 5. The squeezing roller group comprises a first squeezing roller 1201 rotationally connected to the connecting plate 101, a second squeezing roller 1202 rotationally connected to the connecting plate 101, and a driving motor 1203 which is installed on the connecting plate 101 and used for driving the first squeezing roller 1201 to rotate, wherein the first squeezing roller 1201 is located right below the second squeezing roller 1202, and a gap for cloth to pass through is formed between the first squeezing roller 1201 and the second squeezing roller 1202.

Referring to fig. 5, the recycling tank 13 includes a bottom plate 1301, and four side plates 1302 vertically and fixedly connected to the bottom plate 1301, wherein the four side plates 1302 and the bottom plate 1301 form a space for storing the dye solution. The recycling bin 13 is close to both sides of the connecting plate 101 and is fixedly connected with a mounting rod 1304, and an output shaft of the driving motor 1203 is connected with the mounting rod 1304. Among the four side plates 1302, a gutter channel is formed at the upper end of the side plate 1302 on the side close to the feed inlet. And the side plate 1302 close to one side of the feed inlet is also rotatably connected with a guide groove 1303, the guide groove 1303 is communicated with the running water groove, and the guide groove 1303 is used for guiding the dye liquor in the recovery tank 13 into the dyeing machine body 3. And a locking member 13031 is further arranged on the guide groove 1303, the locking member 13031 is used for locking the guide groove 1303 on the recovery groove 13, the locking member 13031 is a bolt 130311 and a nut 130312, the bolt 130311 is connected with the nut 130312 by penetrating through the guide groove 1303 and the recovery groove 13, and the guide groove 1303 is stably connected with the recovery groove 13.

Referring to fig. 6, the connection plate 101 is further provided with a mounting groove 1011. The dyeing machine for uniform dyeing further comprises a moving component, wherein the moving component comprises a rack 16 arranged on the inner wall of the installation groove 1011, a second motor 17 arranged on the support 1, and a gear 15 fixedly sleeved on an output shaft of the second motor 17, and the gear 15 is meshed with the rack 16. The number of the moving assemblies is two, and one connecting plate 101 corresponds to one moving assembly. The support 1 is close to one side of the connecting plate 101 and is fixedly connected with a limiting block 102, a limiting groove 1012 is formed in the connecting plate 101 in the vertical direction, and the limiting block 102 is connected in the limiting groove 1012 in a sliding mode in the vertical direction.

In the use, through the cloth of oscillating subassembly, not only receive the oscillation action of oscillating subassembly, still can receive the scouring action that erodees the subassembly, the dye liquor in the dyeing machine body 3 gets into honeycomb duct 10, and the dye liquor in the honeycomb duct 10 of rethread suction pump 1001 drive upwards flows to shower nozzle group 11, and rethread shower nozzle group 11 is sprayed the dye liquor in honeycomb duct 10 and is erodeed the cloth on the cloth. When the cloth dyeing is completed and the discharging is needed, the gear 15 is driven to rotate through the second motor 17, the rack 16 is driven to rotate and move downwards along the vertical direction, the connecting plate 101 follows the rack 16 and moves downwards along the vertical direction, the recovery assembly is driven to be close to the feeding hole, the cloth passes through the gap between the first squeezing roller 1201 and the second squeezing roller 1202, the first squeezing roller 1201 is driven to rotate through the driving motor 1203, the cloth is guided to be discharged, and the cloth is dehydrated through the squeezing action of the squeezing roller group. The dye liquor squeezed out of the cloth falls into the recovery tank 13 for storage, when the dye liquor squeezed out of the cloth exceeds the capacity of the recovery tank 13, part of the dye liquor exceeding the capacity of the recovery tank 13 flows into the dyeing machine body 3 through the guide groove 1303, and the probability of pollution to the surrounding environment caused by overflow of the dye liquor in the recovery tank 13 can be reduced by additionally arranging the water flowing groove.

When feeding is needed, the moving assembly drives the recovery assembly and the cloth guide roller 5 to move upwards along the vertical direction, so that the recovery tank 13 and the cloth guide roller 5 are close to the feeding end, and cloth enters the dyeing machine body 3 under the guiding action of the cloth guide roller 5. Drive accumulator 13 through first motor 14 and rotate for accumulator 13 is close to feed inlet one side orientation and washs, and makes the dye liquor in accumulator 13 empty to dyeing machine body 3 in, and erode the cloth on the vibration subassembly, has further reduced the folding probability of cloth and the fold on cloth surface, makes the dye liquor in accumulator 13 obtain abundant utilization. When needing to observe in the dyeing machine body 3, need to retrieve subassembly and fabric guide roller 5 along vertical direction upward movement for retrieve the subassembly and keep away from the feed inlet with fabric guide roller 5, through adjusting loose bolt 130311 nut 130312, make guide way 1303 rotate and be close to accumulator 13, guide way 1303 folds in accumulator 13 one side, makes guide way 1303 can not influence the removal of retrieving the subassembly. When the dyeing machine is used, the guide groove 1303 is rotated and is far away from the recovery groove 13, so that the guide groove 1303 is horizontally placed and extends from the recovery groove 13 to the interior of the dyeing machine body 3, and then the bolt 130311 and the nut 130312 are screwed, so that the recovery groove 13 is stably connected with the guide groove 1303.

The implementation principle of the dyeing machine for uniformly dyeing is as follows: in the use, the cloth leads to this internal through fabric guide roller 5, when through the vibration subassembly, receives the supporting role of backing roll 6 and the effect of strikeing the subassembly, rotates motor 9 and drives dwang 8 and strikes 7 rotations of board, strikes through the cloth of vibration subassembly for by the folding cloth broken up, the reduction of cloth surface fold. In the knocking process, the cloth can also be subjected to the scouring action of the scouring assembly, the water suction pump 1001 drives the dye liquor in the dyeing machine body 3 into the flow guide pipe 10 and drives the dye liquor to move upwards, and the dye liquor is sprayed onto the cloth through the spray head group 11 to scour the cloth. After the dyeing is accomplished to the cloth, carry out the ejection of compact through the recovery subassembly, the dye liquor that the cloth extruded through the extrusion roller set gets into collection in the accumulator 13, and the dye liquor in the accumulator 13 can be when the feeding next time, emptys the cloth on the vibration subassembly, erodees the cloth. The probability of folding the cloth is further reduced by scouring the dye liquor in the scouring component and the recovery tank 13, so that the cloth is fully contacted with the dye liquor in the dyeing process, and the probability of uneven dyeing of the cloth is reduced.

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: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A dyeing machine for uniform dyeing, characterized in that: the cloth guide mechanism comprises a dyeing machine body (3), a frame, a connecting plate (101) arranged on the frame along the vertical direction, a cloth guide roller (5) arranged on the connecting plate (101) and used for guiding cloth to enter the dyeing machine body (3), a driving motor (4) arranged on the frame and used for driving the cloth guide roller (5) to rotate, and an oscillating assembly arranged in the dyeing machine body (3), wherein a feed inlet for feeding and discharging the cloth is formed in one side of the dyeing machine body (3), the oscillating assembly is used for reducing wrinkles on the surface of the cloth entering the dyeing machine body (3), and the oscillating assembly comprises a supporting roller (6) rotatably connected to the inner wall of the dyeing machine body (3) and a knocking component used for knocking the surface of the cloth.

2. Dyeing machine for the uniform dyeing according to claim 1, characterized in that: the knocking component comprises a knocking plate (7) rotatably connected to the inner wall of the dyeing machine body (3) and a rotating motor (9) arranged on the outer wall of the dyeing machine body (3) and used for driving the knocking plate (7) to rotate eccentrically.

3. Dyeing machine for the uniform dyeing according to claim 1, characterized in that: the dyeing machine is characterized by further comprising a recycling assembly for recycling dye liquor taken out of the dyeing machine body (3) in the discharging process into the dyeing machine body (3), wherein the recycling assembly comprises an extrusion roller set arranged on the connecting plate (101) and used for extruding cloth, and a recycling groove (13) arranged on the connecting plate (101) and located right below the extrusion roller set, the recycling assembly is arranged right above the cloth guide roller (5), and the dyeing machine for uniform dyeing further comprises a moving assembly used for driving the connecting plate (101) to move along the vertical direction.

4. Dyeing machine for uniform dyeing according to claim 3, characterized in that: the recovery assembly further comprises a first motor (14) which is mounted on the rack and used for driving the recovery groove (13) to rotate, cloth of the recovery groove (13) is kept horizontally placed during discharging, when the cloth is fed, the recovery groove (13) is driven by the first motor (14) to rotate and pour dye liquor into the dyeing machine body (3), the recovery groove (13) comprises a bottom plate (1301) and a plurality of side plates (1302) mounted on the bottom plate (1301), the side plates (1302) and the bottom plate (1301) form a cavity for storing the dye liquor, a water flowing groove for enabling the dye liquor to flow out of the recovery groove (13) is formed in one side plate (1302) close to a feed inlet, the recovery groove (13) is located outside the dyeing machine body (3), a guide groove (1303) for guiding the dye liquor in the recovery groove (13) into the dyeing machine body (3) is further connected to the recovery groove (13), the water flowing groove is communicated with the guide groove (1303), and the guide groove (1303) extends from the recovery groove (13) to the feed inlet.

5. Dyeing machine for uniform dyeing according to claim 4, characterized in that: the guide groove (1303) is rotatably connected to the recovery groove (13), a locking member (13031) is further arranged on the guide groove (1303), and the locking member (13031) is used for locking the recovery groove (13) and the guide groove (1303).

6. Dyeing machine for uniform dyeing according to claim 3, characterized in that: the moving assembly comprises a rack (16) arranged on the connecting plate (101) along the length direction of the connecting plate (101), a gear (15) rotatably connected to the rack, and a second motor (17) arranged on the rack and used for driving the gear (15) to rotate, wherein the gear (15) is meshed with the rack (16).

7. Dyeing machine for the uniform dyeing according to claim 1, characterized in that: and the washing component is used for washing the cloth in the oscillation process so that the wrinkles of the cloth are reduced.

8. Dyeing machine for uniform dyeing according to claim 7, characterized in that: the scouring assembly comprises a guide pipe (10) for guiding dye liquor in the dyeing machine body (3) to the upper part of the oscillating assembly and a nozzle group (11) arranged at one end of the guide pipe (10) close to the oscillating assembly, wherein the nozzle group (11) is arranged in parallel with the knocking plate (7), and a water suction pump (1001) is arranged on the guide pipe (10).

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