CN113605022A

CN113605022A - Waterless dyeing and yarn finishing machine

Info

Publication number: CN113605022A
Application number: CN202110951520.0A
Authority: CN
Inventors: 杨蕴文
Original assignee: Hefei Jingxin Textile Technology Co ltd
Current assignee: Hefei Jingxin Textile Technology Co ltd
Priority date: 2021-08-19
Filing date: 2021-08-19
Publication date: 2021-11-05

Abstract

The invention discloses an anhydrous dyeing and yarn finishing machine, which comprises a bottom frame, wherein two groups of first L-shaped frames which are symmetrically distributed are fixedly arranged on one side of the bottom frame, two groups of second L-shaped frames which are symmetrically distributed are fixedly arranged on one side, close to the first L-shaped frames, of the top end of the bottom frame, a pretreatment thread-thinning mechanism is fixedly arranged on one side, close to the second L-shaped frames, of the top end of the bottom frame, a dyeing mechanism is fixedly arranged in the middle of the top end of the bottom frame, an air-drying mechanism is fixedly arranged on one side, close to the dyeing mechanism, of the top end of the bottom frame, and a bottom rod is fixedly arranged on one side, close to the air-drying mechanism, of the bottom frame. And the air body is conveyed into the air drying outer frame, and the stretched, dredged and dyed yarns are air-dried, so that the subsequent yarns can be conveniently wound.

Description

Waterless dyeing and yarn finishing machine

Technical Field

The invention relates to the technical field of yarn dyeing equipment, in particular to an anhydrous dyeing and yarn finishing machine.

Background

The yarn (including filament) dyeing has been in the history of nearly thousands of years, mainly including hank dyeing, cone dyeing, beam dip dyeing, beam pad dyeing and yarn bundle pad dyeing (ball warp dyeing) and other special dyeing methods, wherein most of the yarn dyeing needs water dyeing, which not only wastes water resources and fuel resources, but also causes environmental pollution due to the fuel discharge of the dyed yarn, and people find a waterless yarn dyeing method for reducing the environmental pollution, which can effectively reduce the environmental pollution and has better dyeing effect;

however, most of the existing yarn anhydrous dyeing methods are to wind a plurality of groups of yarns around the outer sides of a plurality of groups of yarn thinning rollers in sequence for thinning, the yarns are easily wound in the thinning process, and an air-drying pretreatment mechanism and a subsequent air-drying treatment mechanism for the yarns are lacked in the whole dyeing device, so that the overall anhydrous dyeing effect of the yarns is influenced, and the subsequent winding and other processing treatments of the dyed yarns are influenced.

Disclosure of Invention

The present invention is directed to an anhydrous dyeing and yarn finishing machine to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an anhydrous dyeing and yarn collator, includes the underframe frame, one side fixed mounting of underframe frame has two sets of first L type framves that are the symmetric distribution, one side fixed mounting that the top of underframe frame is close to first L type frame has two sets of second L type framves that are the symmetric distribution, one side fixed mounting that the underframe frame top is close to second L type frame has preliminary treatment to dredge the line mechanism, the top middle part fixed mounting of underframe frame has dyeing mechanism, one side fixed mounting that the underframe frame top is close to dyeing mechanism has air-dry mechanism, one side fixed mounting that the underframe frame is close to air-dry mechanism has the sill bar, the top fixed mounting of sill bar has the receipts yarn mechanism that is the symmetric distribution, the bottom fixed mounting of sill bar has the material subassembly that slows that is the symmetric distribution, it is equipped with and receives a yarn section of thick bamboo to receive movable clamp in the yarn mechanism.

Preferably, the opposite ends of the two groups of first L-shaped frames and the second L-shaped frames are rotatably provided with a plurality of groups of wire guiding rollers which are distributed equidistantly, and the corresponding wire guiding rollers on the first L-shaped frames and the second L-shaped frames are distributed in a vertically staggered manner.

Preferably, the pretreatment thread-thinning mechanism comprises a thread-thinning outer frame, two groups of rotating pipes which are symmetrically distributed are rotatably inserted into the inner lower wall of the thread-thinning outer frame, thread-thinning cylinders are fixedly sleeved on the top ends of the rotating pipes, sealing bearings are fixedly clamped at the bottoms of the rotating pipes, and connecting pipes are fixedly inserted into the middle parts of the sealing bearings;

the middle part of the wire thinning cylinder is provided with a wind thinning cavity, the outer wall of the wire thinning cylinder is provided with a plurality of groups of wire thinning thread grooves distributed equidistantly, a through groove is formed between each wire thinning thread groove and the wind thinning cavity, and the pretreatment wire thinning mechanism is fixedly installed at the bottom end of the wire thinning outer frame and the top end of the bottom frame.

Preferably, air-dry mechanism is including air-drying the frame, air-dry inner wall one side of frame and rotate and install two sets of first sparse line rollers that are the symmetric distribution, air-dry frame inner wall and keep away from one side rotation of first sparse line roller and install two sets of second sparse line rollers that are the symmetric distribution, and the first sparse line roller that corresponds and the crisscross distribution of second sparse line roller, the bottom mounting of air-drying frame is inserted and is equipped with two sets of intubate that are the symmetric distribution, the top of air-drying frame is fixed to be inserted and is equipped with defeated wind mechanism, the top fixed mounting of bottom and the underframe frame of air-drying the mechanism through air-drying the frame.

Preferably, a wind-dispelling hose is fixedly sleeved between the insertion pipe and the corresponding connecting pipe.

Preferably, the yarn collecting mechanism comprises a supporting rod, the bottom end of the supporting rod and the top end of the bottom rod are fixedly installed, a top ring is fixedly installed at the top end of the supporting rod, two sets of semicircular cutting frames which are symmetrically distributed are rotatably installed on one side of the bottom end of the top ring, driving shafts are fixedly installed on one sides of the top ends of the semicircular cutting frames, the two sets of driving shafts are slidably clamped on the top ring, a first electric telescopic rod is rotatably installed between the tops of the two sets of driving shafts, a top frame is fixedly installed on one side of the inner wall of the top ring, one side of the top frame is of an up-and-down penetrating structure, a driven gear ring is rotatably clamped on the inner wall of the top frame, a driving motor is fixedly installed on one side of the top end of the top frame, the output end of the driving motor extends into the top frame and is fixedly provided with a driving gear which is meshed with the driven gear ring, and a special-shaped frame is rotatably installed on one side of the bottom end of the top ring, the special-shaped frame is close to one side rotation that semicircle formula was cut the frame and is installed the compression roller, top ring top one side is rotated and is installed and put up the second electric telescopic handle that the cooperation was used with the special-shaped, second electric telescopic handle's output and special-shaped frame top one side are rotated and are connected.

Preferably, the inner wall of the driven gear ring is fixedly clamped with a driving ring matched with the yarn collecting barrel for use, and the inner wall of the driving ring is provided with limiting grooves distributed in an annular array.

Preferably, the lower ends of the opposite sides of the two groups of semicircular cutting frames are fixedly provided with stabilizing frames matched with the yarn collecting barrel for use.

Preferably, the material buffering assembly comprises a material buffering outer frame, the top end of the material buffering outer frame and the bottom fixed mounting of the bottom rod are buffered, the material buffering outer frame is of an upper penetrating structure and a lower penetrating structure, a plurality of groups of U-shaped frames which are symmetrically distributed are arranged on the inner wall sliding clamp of the material buffering outer frame, the material dredging wheel is installed on one side of each U-shaped frame in a rotating mode, a guiding telescopic rod is fixedly installed on one side, away from the material dredging wheel, of each U-shaped frame, and a spring is sleeved on the outer side of the guiding telescopic rod in an all-moving mode.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the yarn drying device, the air drying mechanism is arranged, yarns sequentially bypass the first thread-drawing roller and the second thread-drawing roller which are distributed in a staggered mode, the yarns are tightened and drawn, the yarn conveying stability is improved, the air conveying mechanism is started to convey air bodies into the air drying outer frame, the yarns which are tightened, drawn and dyed are dried in the air, and the subsequent winding of the yarns is facilitated.

2. Through setting up preliminary treatment sparse line mechanism, twine the yarn respectively in the sparse line thread groove that corresponds, not only can stabilize to dredge to the yarn, and increased the area of contact of yarn and a sparse line section of thick bamboo, be convenient for treat the yarn of dyeing and carry out wind intervention processing, and then be convenient for the dyeing of follow-up yarn.

3. Through setting up preliminary treatment sparse line mechanism and cooperation use air-dry mechanism, the surplus wind body that gets into in air-drying the frame gets into the connecting pipe through the wind dispelling hose, and the wind body blows to the yarn of treating the dyeing outside sparse thread groove through the wind dispelling chamber with leading to the groove, air-dries the processing to the yarn, and the dyeing of the follow-up yarn of being convenient for is handled, and has effectively promoted energy utilization.

4. Receive yarn mechanism through setting up, realize that the yarn of a multiunit receipts yarn section of thick bamboo is rolling in succession, promoted the machining efficiency of yarn, and the cooperation uses and delays the material subassembly, dredges the roll centre gripping of material wheel at the multiunit under, cushions the unloading to the yarn section of thick bamboo after the rolling, damages when preventing that a yarn section of thick bamboo from dropping to the whole effect of yarn processing has been promoted.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structural connection between the pretreatment line-dredging mechanism and the air-drying mechanism according to the present invention;

FIG. 3 is a schematic view showing another structural connection between the pretreatment thinning mechanism and the air drying mechanism according to the present invention;

FIG. 4 is a schematic structural connection diagram of a yarn take-up mechanism according to the present invention;

FIG. 5 is an enlarged view taken at A of FIG. 4 in accordance with the present invention;

FIG. 6 is an enlarged view taken at B of FIG. 4 in accordance with the present invention;

FIG. 7 is a schematic view of the structural connection of the buffer assembly of the present invention;

FIG. 8 is an enlarged view taken at C of FIG. 7 in accordance with the present invention;

FIG. 9 is an enlarged view taken at D of FIG. 5 in accordance with the present invention;

fig. 10 is an enlarged view of the invention at E in fig. 1.

In the figure: 1. a bottom frame; 2. a first L-shaped frame; 21. a wire guide roller; 3. a second L-shaped frame; 4. a pretreatment thread thinning mechanism; 5. a dyeing mechanism; 6. an air drying mechanism; 7. a bottom bar; 8. a yarn collecting mechanism; 9. a material buffering component; 10. a yarn collecting drum; 41. a thinning outer frame; 42. pipe rotation; 43. a thread thinning cylinder; 431. a ventilation cavity; 432. a sparse thread groove; 433. a through groove; 44. sealing the bearing; 45. a connecting pipe; 451. a wind-dispelling hose; 61. air-drying the outer frame; 62. a first thread-laying roller; 63. a second thread-laying roller; 64. inserting a tube; 65. a wind delivery mechanism; 81. a support bar; 82. a top ring; 83. a semicircular cutting frame; 831. a drive shaft; 832. a first electric telescopic rod; 833. a stabilizing frame; 84. a top frame; 841. a drive motor; 842. a drive gear; 843. a driven gear ring; 844. a drive ring; 845. a limiting groove; 85. a special-shaped frame; 851. a compression roller; 852. a second electric telescopic rod; 91. a material buffering outer frame; 92. a U-shaped frame; 93. a material dredging wheel; 94. guiding the telescopic rod; 95. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: an anhydrous dyeing and yarn finishing machine comprises a bottom frame 1, wherein two groups of first L-shaped frames 2 which are symmetrically distributed are fixedly arranged on one side of the bottom frame 1, two groups of second L-shaped frames 3 which are symmetrically distributed are fixedly arranged on one side, close to the first L-shaped frames 2, of the top end of the bottom frame 1, a pretreatment thread-thinning mechanism 4 is fixedly arranged on one side, close to the second L-shaped frames 3, of the top end of the bottom frame 1, a dyeing mechanism 5 is fixedly arranged in the middle of the top end of the bottom frame 1, an air-drying mechanism 6 is fixedly arranged on one side, close to the dyeing mechanism 5, of the top end of the bottom frame 1, a bottom rod 7 is fixedly arranged on one side, close to the air-drying mechanism 6, of the bottom frame 1, yarn collecting mechanisms 8 which are symmetrically distributed are fixedly arranged on the top ends of the bottom rod 7, material buffering assemblies 9 which are symmetrically distributed are fixedly arranged on the bottom ends of the bottom rod 7, the buffering assemblies 9 are vertically corresponding to the yarn collecting mechanisms 8 respectively, yarn collecting barrels 10 are movably clamped in the yarn collecting mechanisms 8, the yarn collecting drum 10 can be used for collecting and delivering dyed yarns by a drum separating mechanism from top to bottom.

The back ends of the two groups of first L-shaped frames 2 and the second L-shaped frames 3 are rotatably provided with a plurality of groups of wire guide rollers 21 which are distributed equidistantly, and the corresponding wire guide rollers 21 on the first L-shaped frames 2 and the second L-shaped frames 3 are distributed in a vertically staggered manner and are used for tightening, loosening and arranging a plurality of groups of yarns to be dyed, so that the dyeing processing of the subsequent yarns is facilitated.

The pretreatment thread thinning mechanism 4 comprises a thread thinning outer frame 41, two groups of rotating pipes 42 which are symmetrically distributed are rotatably inserted into the inner lower wall of the thread thinning outer frame 41, thread thinning cylinders 43 are fixedly sleeved at the top ends of the rotating pipes 42, the rotating pipes 42 can rotate in the thread thinning outer frame 41 and drive the thread thinning cylinders 43 to rotate, sealing bearings 44 are fixedly clamped at the bottoms of the rotating pipes 42, connecting pipes 45 are fixedly inserted into the middle parts of the sealing bearings 44, and the connecting pipes 45 can still keep a certain degree of non-rotation in the thread thinning cylinders 43 when the rotating pipes 42 rotate; the middle part of a sparse line section of thick bamboo 43 has been seted up and has been dredged wind chamber 431, the outer wall of a sparse line section of thick bamboo 43 is seted up and is the multiunit sparse line thread groove 432 that the equidistance distributes, during the use, twine the yarn respectively at the corresponding sparse line thread groove 432, not only can stabilize the dredging to the yarn, and increased the area of contact of yarn and a sparse line section of thick bamboo 43, logical groove 433 has been seted up between sparse line thread groove 432 and the sparse wind chamber 431, realize dredging of line thread groove 432 and sparse wind chamber 431, preliminary treatment sparse line mechanism 4 is through the bottom of sparse line frame 41 and the top fixed mounting of underframe frame 1.

The air drying mechanism 6 comprises an air drying outer frame 61, two groups of first thread-thinning rollers 62 which are symmetrically distributed are rotatably arranged on one side of the inner wall of the air drying outer frame 61, two groups of second thread-thinning rollers 63 which are symmetrically distributed are rotatably arranged on one side of the inner wall of the air drying outer frame 61 far away from the first thread-thinning rollers 62, and the corresponding first and second thread-drawing rollers 62 and 63 are distributed in a staggered way, when in use, the yarns are sequentially wound around the corresponding first and second thread-drawing rollers 62 and 63 distributed in a staggered way, the yarn is tightened and dredged, so that the yarn conveying stability is improved, two groups of inserting pipes 64 which are symmetrically distributed are fixedly inserted at the bottom end of the air drying outer frame 61, an air conveying mechanism 65 is fixedly inserted at the top end of the air drying outer frame 61, an air body is conveyed into the air drying outer frame 61 by starting the air conveying mechanism 65, the yarn after tight and loose dyeing is dried in the air, so that the subsequent yarn can be conveniently wound, and the air drying mechanism 6 is fixedly installed through the bottom end of the air drying outer frame 61 and the top end of the bottom frame 1; the fixed cover of being equipped with between intubate 64 and the connecting pipe 45 that corresponds has been equipped with the wind dispelling hose 451, and the surplus wind body that gets into in air-drying frame 61 gets into the connecting pipe 45 through the wind dispelling hose 451, and the wind body blows the yarn of treating the dyeing outside to sparse thread groove 432 through wind dispelling chamber 431 and logical groove 433, air-dries the processing to the yarn, and the dyeing of the follow-up yarn of being convenient for is handled, and has effectively promoted energy utilization.

The yarn collecting mechanism 8 comprises a supporting rod 81, the bottom end of the supporting rod 81 and the top end of a bottom rod 7 are fixedly installed, a top ring 82 is fixedly installed at the top end of the supporting rod 81, two groups of semicircular cutting frames 83 which are symmetrically distributed are rotatably installed at one side of the bottom end of the top ring 82, a driving shaft 831 is fixedly installed at one side of the top end of each semicircular cutting frame 83, the driving shaft 831 is far away from the rotating point position of each semicircular cutting frame 83, the two groups of driving shafts 831 are slidably clamped on the top ring 82, a first electric telescopic rod 832 is rotatably installed between the tops of the two groups of driving shafts 831, the two groups of semicircular cutting frames 83 are synchronously driven to rotate oppositely or oppositely by starting the first electric telescopic rod 832, a top frame 84 is fixedly installed at one side of the inner wall of the top ring 82, one side of the top frame 84 is of a vertically penetrating structure, a driven toothed ring 843 is rotatably clamped at the inner wall of the top frame 84, a driving motor 841 is fixedly installed at one side of the top end of the top frame 84, the output end of the driving motor 841 extends into the top frame 84 and is fixedly provided with a driving gear 842 engaged with the driven toothed ring 843, the driven toothed ring 843 is driven to rotate by starting the driving motor 841, one side of the bottom end of the top ring 82 is rotatably provided with a special-shaped frame 85, one side of the special-shaped frame 85 close to the semicircular cutting frame 83 is rotatably provided with a pressure roller 851 for adhering and assisting the cut yarn end part to a certain degree so that the yarn end part is buffered and stopped on the outer wall of the pressure roller 851, the cut yarn end part can be moved into two groups of semicircular cutting frames 83 by the rotation of the pressure roller 851 until the cut yarn end part is closely adhered and assisted on the outer wall of the next group of yarn collecting cylinders 10, the yarn collecting cylinders 10 are driven to continue to be wound by the rotation of the pressure roller 851 rotated by the yarn collecting cylinders 10, one side of the top end of the top ring 82 is rotatably provided with a second electric telescopic rod 852 matched with the special-shaped frame 85, the output end of the second electric telescopic rod 852 is rotatably connected with one side of the top end of the special-shaped frame 85, and the second electric telescopic rod 852 is started to drive the special-shaped frame 85 to rotate; driven ring gear 843's inner wall fixing clip is equipped with and receives a yarn section of thick bamboo 10 cooperation drive ring 844 that uses, the spacing recess 845 that is the annular array and distributes is seted up to the inner wall of drive ring 844, wherein, the outer wall of receiving a yarn section of thick bamboo 10 is equipped with the spacing arch that corresponds with spacing recess 845, wherein, spacing bellied middle part has certain viscidity, the tip of yarn after the cutting is assisted to convenient closely gluing, and can drive ring 844 through driven ring gear 843's rotation and rotate, thereby a yarn section of thick bamboo 10 carries out spacing rotation is received in the drive, and then effectively glue the assistance rolling to the yarn after the dyeing, make things convenient for the subsequent processing of yarn.

The lower ends of the two groups of semi-circular cutting frames 83 on the opposite sides are fixedly provided with stabilizing frames 833 matched with the yarn collecting drums 10 for use, the yarn collecting drums 10 are limited, the yarn collecting drums 10 are prevented from being separated from the semi-circular cutting frames 83, when the limitation is carried out, the yarn collecting drums 10 can rotate in a contact mode at the top ends of the two groups of stabilizing frames 833, the two groups of stabilizing frames 833 are driven to move in the back direction through the movement of the two groups of semi-circular cutting frames 83, and the yarn collecting drums 10 can be separated from the semi-circular cutting frames 83.

Slow material subassembly 9 is including slow material frame 91, the top of slow material frame 91 and the bottom fixed mounting of sill bar 7, slow material frame 91 is upper and lower punch-through structure, the inner wall slip card of slow material frame 91 is equipped with multiunit U type frame 92 that is symmetric distribution, one side of U type frame 92 is all rotated and is installed and is dredged material wheel 93, one side fixed mounting that U type frame 92 kept away from and is dredged material wheel 93 has direction telescopic link 94, the equal movable sleeve in outside of direction telescopic link 94 is equipped with spring 95, break away from the yarn section of thick bamboo after semicircle formula cutting frame 83 dyeing, get into and delay in the material frame 91, and under the roll centre gripping of multiunit sparse material wheel 93, cushion the unloading, damage when preventing the yarn section of thick bamboo whereabouts, thereby the whole effect of yarn processing has been promoted.

The working principle is as follows: the invention relates to an anhydrous dyeing and yarn finishing machine, which sequentially bypasses a plurality of groups of yarns to be dyed on corresponding guide rollers 21 to carry out tight dredging finishing, prevents the plurality of groups of guide rollers 21 from winding during dredging, passes through a dredging outer frame 41 to enable the plurality of groups of yarns to be respectively wound on corresponding dredging thread grooves 432 to stably dredge the yarns, passes through a dyeing mechanism 5, passes through an air drying outer frame 61 and sequentially bypasses the plurality of groups of yarns through corresponding first dredging rollers 62 and second dredging rollers 63 which are distributed in a staggered way to tightly dredge the yarns, finally winds the end parts of the yarns on the outer wall of a corresponding yarn collecting barrel 10, then carries out anhydrous dyeing on the yarns, needs to start an air conveying mechanism 65 to convey an air dredging body into the air drying outer frame 61, carries out air drying treatment on the tightly stretched dyed yarns, and is convenient for winding the subsequent yarns, and the residual wind body entering the air-drying outer frame 61 enters the connecting pipe 45 through the wind-dispersing hose 451, the wind body blows to the yarn to be dyed outside the sparse thread groove 432 through the wind-dispersing cavity 431 and the through groove 433, the yarn is air-dried, the dyeing treatment of the subsequent yarn is facilitated, the energy utilization rate is effectively improved, the dyed yarn needs to be wound by using the yarn-collecting mechanism 8, the driving motor 841 is started to drive the driven toothed ring 843 to rotate, the driving ring 844 is driven to rotate, the yarn-collecting cylinder 10 is further driven to rotate, the dyed yarn is further effectively wound, the subsequent treatment of the yarn is facilitated, after the winding is completed, the first electric telescopic rod 832 is started, the two groups of semi-circular cutting frames 83 are synchronously driven to rotate oppositely, the yarn is cut, wherein the end part of the cut yarn is adhered and stopped on the outer wall of the press roller 851 to a certain degree, and at the moment, the pressing roller 851 is positioned at the outer side of the two groups of semi-circular cutting frames 83, then drives the two groups of semi-circular cutting frames 83 to rotate in the opposite direction, drives the two groups of stabilizing frames 833 to move in the opposite direction, the yarn collecting drum 10 is separated from the semi-circular cutting frames 83, then drives the two groups of semi-circular cutting frames 83 to rotate in a certain angle in the opposite direction, drives the two groups of stabilizing frames 833 to move in the opposite direction, and the thinning mechanism is started to input the next group of yarn collecting barrels 10 into the yarn collecting mechanism 8, the press rollers 851 are driven to rotate into the two groups of semi-circular cutting frames 83 until the end parts of the cut yarns are closely adhered to the outer walls of the next group of yarn collecting barrels 10 to be continuously wound, the yarns of the multiple groups of yarn collecting barrels 10 are continuously wound, the yarn barrels are separated from the dyed yarn barrels of the semi-circular cutting frames 83 and enter the buffer outer frame 91, and buffering blanking is carried out under the rolling clamping of the multiple groups of material scattering wheels 93, so that damage to the yarn barrel during falling is prevented, and the overall effect of yarn processing is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an anhydrous dyeing and yarn collator, includes bottom frame (1), its characterized in that: one side fixed mounting of underframe (1) has two sets of first L type frame (2) that are the symmetric distribution, one side fixed mounting that the top of underframe (1) is close to first L type frame (2) has two sets of second L type frame (3) that are the symmetric distribution, one side fixed mounting that the top of underframe (1) is close to second L type frame (3) has preliminary treatment to dredge line mechanism (4), the top middle part fixed mounting of underframe (1) has dyeing mechanism (5), one side fixed mounting that the top of underframe (1) is close to dyeing mechanism (5) has air drying mechanism (6), one side fixed mounting that underframe (1) is close to air drying mechanism (6) has sill bar (7), the top fixed mounting of sill bar (7) has receipts yarn mechanism (8) that are the symmetric distribution, the bottom fixed mounting of sill bar (7) has the material subassembly (9) that slows that are the symmetric distribution, a yarn collecting drum (10) is movably clamped in the yarn collecting mechanism (8).

2. The waterless dyeing and yarn finishing machine of claim 1, wherein: the back ends of the first L-shaped frame (2) and the second L-shaped frame (3) are rotatably provided with a plurality of groups of wire guiding rollers (21) which are distributed equidistantly, and the corresponding wire guiding rollers (21) on the first L-shaped frame (2) and the second L-shaped frame (3) are distributed in a vertically staggered manner.

3. The waterless dyeing and yarn finishing machine of claim 1, wherein: the pretreatment thread thinning mechanism (4) comprises a thread thinning outer frame (41), two groups of rotating pipes (42) which are symmetrically distributed are rotatably inserted into the inner lower wall of the thread thinning outer frame (41), thread thinning cylinders (43) are fixedly sleeved at the top ends of the rotating pipes (42), sealing bearings (44) are fixedly clamped at the bottoms of the rotating pipes (42), and connecting pipes (45) are fixedly inserted into the middle parts of the sealing bearings (44);

the middle part of the wire arrangement barrel (43) is provided with a wire arrangement cavity (431), the outer wall of the wire arrangement barrel (43) is provided with a plurality of sets of wire arrangement thread grooves (432) which are distributed equidistantly, a through groove (433) is formed between the wire arrangement thread grooves (432) and the wire arrangement cavity (431), and the pretreatment wire arrangement mechanism (4) is fixedly installed at the bottom end of the wire arrangement outer frame (41) and the top end of the bottom frame (1).

4. The waterless dyeing and yarn finishing machine of claim 3, wherein: air-dry mechanism (6) including air-drying frame (61), air-dry inner wall one side rotation of frame (61) and install two sets of first line roller (62) of dredging that are the symmetric distribution, air-dry frame (61) inner wall and keep away from one side rotation of first line roller (62) and install two sets of second line roller (63) that are the symmetric distribution, and the first line roller (62) of dredging that just correspond and second line roller (63) crisscross distribution, the bottom mounting of air-drying frame (61) is inserted and is equipped with two sets of intubate (64) that are the symmetric distribution, the fixed top of air-drying frame (61) is inserted and is equipped with defeated wind mechanism (65), air-dry mechanism (6) through the bottom of air-drying frame (61) and the top fixed mounting of underframe frame (1).

5. The waterless dyeing and yarn finishing machine of claim 4, wherein: a wind-dispelling hose (451) is fixedly sleeved between the insertion pipe (64) and the corresponding connecting pipe (45).

6. The waterless dyeing and yarn finishing machine of claim 1, wherein: receive yarn mechanism (8) and include bracing piece (81), the bottom of bracing piece (81) and the top fixed mounting of sill bar (7), the top fixed mounting of bracing piece (81) has apical ring (82), the bottom one side of apical ring (82) is rotated and is installed two sets of semicircle formula cutting frame (83) that are the symmetric distribution, equal fixed mounting in top one side of semicircle formula cutting frame (83) has drive shaft (831), two sets of drive shaft (831) slip joint is on apical ring (82), and rotates between the top of two sets of drive shaft (831) and install first electric telescopic handle (832), inner wall one side fixed mounting of apical ring (82) has apical frame (84), one side of apical frame (84) is upper and lower break-through structure, the inner wall of apical frame (84) rotates the card and is equipped with driven ring gear (843), apical frame (84) top one side fixed mounting has driving motor (841), the output of driving motor (841) extends into roof-rack (84) and fixed mounting has drive gear (842) of being connected with driven ring gear (843) meshing, top ring (82) bottom one side is rotated and is installed dysmorphism frame (85), one side that dysmorphism frame (85) is close to semicircle formula cutting frame (83) is rotated and is installed compression roller (851), second electric telescopic handle (852) of installing and the cooperation of dysmorphism frame (85) are used in top ring (82) top one side rotation, the output of second electric telescopic handle (852) and the top one side rotation of dysmorphism frame (85) are connected.

7. The waterless dyeing and yarn finishing machine of claim 6, wherein: the inner wall of the driven toothed ring (843) is fixedly clamped with a driving ring (844) matched with the yarn collecting barrel (10) for use, and the inner wall of the driving ring (844) is provided with limiting grooves (845) distributed in an annular array.

8. The waterless dyeing and yarn finishing machine of claim 6, wherein: the lower ends of the opposite sides of the two groups of semi-circular cutting frames (83) are fixedly provided with stabilizing frames (833) which are matched with the yarn collecting barrel (10) for use.

9. The waterless dyeing and yarn finishing machine of claim 1, wherein: slow material subassembly (9) are including slowing material frame (91), slow the top of expecting frame (91) and the bottom fixed mounting of sill bar (7), it is upper and lower penetrating structure to slow material frame (91), the inner wall slip card of slowing material frame (91) is equipped with multiunit U type frame (92) that is symmetric distribution, one side of U type frame (92) is all rotated and is installed and is dredged material wheel (93), one side fixed mounting that U type frame (92) kept away from and dredged material wheel (93) has direction telescopic link (94), the equal movable sleeve in outside of direction telescopic link (94) is equipped with spring (95).