CN116926830A - High-color-fastness warp knitting fabric dyeing and discharging integrated machine - Google Patents

Abstract

The invention relates to the field of textile printing and dyeing, in particular to a high-color-fastness warp knitting fabric dyeing and discharging integrated machine, which comprises: the device comprises a frame, a untwisting device, a scutching roller, a dividing roller, an ironing mechanism and a self-adaptive transmission assembly, wherein the ironing mechanism comprises a steam pipe, a sliding pipe and a steam input pipe, the steam pipe is provided with a plurality of steam holes, the sliding pipe is provided with a plurality of exhaust holes with the same number as the steam holes, and the sliding pipe and the frame return spring; the guide rollers are arranged between the scutching roller and the dividing roller in a crossing way, and each guide roller is rotationally connected with the frame; the self-adaptive transmission assembly comprises a transmission mechanism and an ejection mechanism, wherein the transmission mechanism is in transmission connection with a guide roller which is close to one side of the steam pipe and far away from the filament dividing roller, the ejection mechanism comprises an ejection pipe, the ejection pipe is in transmission connection with the transmission mechanism, one end of the sliding pipe is connected with the ejection pipe through a plane bearing, and the sliding pipe is translated along the axis of the steam pipe to enable the steam hole to be opened or closed.

Description

High-color-fastness warp knitting fabric dyeing and discharging integrated machine

Technical Field

The invention relates to the field of textile printing and dyeing, in particular to a high-color-fastness warp knitting fabric dyeing and discharging integrated machine.

Background

In the printing and dyeing process, the fabric is often subjected to wet processing and dewatering. Most of the dewatering treatment adopts a centrifugal machine, and the fabric in a natural state is easy to become a rope-shaped structure with twist degree when the centrifugal machine rotates at a high speed, so that the fabric is required to be untwisted and opened before subsequent processing, and ironing treatment is required after the opening, so that the purposes of smoothing the surface of the fabric, fixing colors and the like are achieved.

The Chinese patent with the publication number of CN115012149B discloses a untwisting scutcher with an intelligent monitoring structure, wherein a steam roller and a sliding pipe of an ironing mechanism are staggered to spray steam from a steam hole or block the steam from spraying, the power for moving the sliding pipe is realized by rotating a guide roller and driving a rotating conductor to cut a magnetic induction line to generate current, and an electromagnet is powered, the electromagnet drives a magnetic block to approach the electromagnet, the magnetic block drives a sliding rod and the sliding pipe to slide, the positions of a through hole and the steam hole are corresponding, so that the steam is sprayed out from the steam hole smoothly, when the scutcher stops due to failure, the guide roller stops rotating, the cutting magnetic induction line stops, the generation of the current is further stopped, the electromagnet is powered off, a tension spring releases elastic force and drives the sliding pipe to slide, the through hole and the steam hole are staggered, and the steam retained in the steam roller is sealed in the steam roller.

However, when the current generated by cutting the magnetic induction line by using the conductor rotation has hysteresis, or when the device is started, steam comes out from the steam hole after the cloth is conveyed for a certain distance, after the device is stopped by failure, the steam hole is not directly closed, or the cloth staying on the steam roller is ironed for a certain period of time, and the produced cloth is ironed unevenly, so that quality problems such as chromatic aberration or deformation can occur, and therefore, a novel device is needed to solve the problem.

Disclosure of Invention

Based on the above, it is necessary to provide a high-color-fastness warp knitting fabric dyeing and discharging integrated machine aiming at the problems in the prior art.

In order to solve the problems in the prior art, the invention adopts the following technical scheme: a high-color-fastness warp knitting fabric dyeing and de-ranking all-in-one machine comprises:

the rack is arranged in a vertical state;

the untwisting device is arranged at the upper end of the frame;

the scutching roller is rotatably arranged on the frame and positioned below the untwisting device;

the dividing roller is rotatably arranged on the frame and positioned below the scutching roller;

the ironing mechanism comprises a steam pipe fixedly arranged on the frame and positioned below the filament dividing roller, a sliding pipe arranged in the steam pipe in a sliding way, and a steam input pipe arranged at one end of the sliding pipe and communicated with the interior of the sliding pipe, wherein a plurality of steam holes are uniformly formed in the steam pipe wall at intervals along the axis of the steam pipe wall, a plurality of exhaust holes with the same number as the steam holes are uniformly formed in the sliding pipe wall along the axis of the steam pipe wall, and a reset spring is arranged in a gap between one end of the sliding pipe and the frame;

the guide rollers are arranged between the scutching roller and the dividing roller in a crossing way, and each guide roller is rotationally connected with the frame;

the self-adaptive transmission assembly is arranged on one side of the frame and comprises a transmission mechanism and an ejection mechanism, wherein the transmission mechanism is in transmission connection with a guide roller which is close to one side of the steam pipe and far away from the filament dividing roller, the ejection mechanism comprises an ejection pipe, the ejection pipe is in transmission connection with the transmission mechanism, one end of the sliding pipe is connected with the ejection pipe through a plane bearing, and the sliding pipe is translated along the axis of the steam pipe to enable the steam hole to be opened or closed.

Further, a plurality of limiting sliding strips are annularly arranged on the outer wall of the sliding tube along the axis of the sliding tube, a plurality of limiting sliding grooves are annularly arranged on the inner wall of the steam tube along the axis of the sliding tube, each limiting sliding groove corresponds to one limiting sliding strip, a transfer tube is fixedly arranged at one end of the sliding tube, a fixed tube is coaxially sleeved on the transfer tube, the fixed tube is fixedly connected with the frame, a reset spring is coaxially sleeved on the transfer tube, and a steam input tube is coaxially and fixedly arranged on the fixed tube.

Further, the transmission mechanism comprises a transmission rod coaxially and fixedly arranged at one end of the guide roller, a driving wheel coaxially and fixedly arranged on the transmission rod, a support frame fixedly arranged at one side of the frame, a transmission wheel rotatably arranged on the support frame, a transmission belt arranged on the driving wheel and the transmission wheel, a rotating outer tube in transmission connection with the transmission wheel and an adapter in transmission connection with the transmission wheel, wherein the adapter is in transmission connection with the rotating outer tube, one end of the transmission belt is connected with the driving wheel, the other end of the transmission belt is connected with the transmission wheel, the rotating outer tube is coaxially sleeved on the top extension tube and is in transmission connection with the top extension tube, and the rotating outer tube is in rotation connection with the frame through a ball bearing.

Further, the ejection mechanism further comprises a limit sliding rod fixedly arranged on the outer wall of the ejection pipe, a limit sliding block fixedly arranged at the end part of the limit sliding rod, a movable block horizontally arranged below the limit sliding block and a locker connected with the movable block in a transmission manner, wherein the movable block is provided with a rectangular sliding groove along the length direction of the movable block, the limit sliding block slides along the rectangular sliding groove, a spiral through groove is formed in the outer pipe wall of the rotation outer pipe, the limit sliding rod slides along the spiral through groove, and the locker is used for enabling the movable block to keep motionless when the limit sliding block slides along the rectangular sliding groove.

Further, ejection mechanism is still including fixed the setting in the second spacing ring of frame one side, the movable block activity sets up on the second spacing ring, the locker is including coaxial setting up in the outer first spacing ring of rotation outer tube and along a plurality of first support piece that first spacing ring axis set up, every first support piece all links firmly with the frame, movable through-hole has been seted up to the tip of rectangle spout, the slip is provided with spacing fixture block in the movable through-hole, the both sides of spacing fixture block are the symmetry state and are provided with two support short plates, every be provided with first spring on the support short plate, every the one end of first spring offsets the other end with the movable block bottom and offsets, be provided with a plurality of draw-in groove on the first spacing ring is inside, spacing fixture block and every the draw-in groove is corresponding, the fixed conflict short rod that is provided with in one side of spacing fixture block, conflict chute corresponding with the short rod, first spring is used for making spacing fixture block income draw-in groove.

Further, the bottom of movable block is fixed and is provided with the sliding block, set up along its circumference's sliding tray on the second spacing ring lateral wall, every the sliding block corresponds with the sliding tray.

Further, the self-adaptive transmission assembly further comprises a third limiting ring fixedly arranged on one side of the frame and coaxial with the rotating outer tube and a fixed short plate fixedly connected with one side of the limiting clamping block, movable clamping teeth are hinged to the fixed short plate, ratchets are arranged on the outer wall of the third limiting ring, the movable clamping teeth correspond to the ratchets, and a second spring is arranged between the movable clamping teeth and the fixed short plate.

Further, the adapter comprises a switching circular plate coaxially and fixedly arranged at the end part of the rotary outer tube and a rotating shaft coaxially arranged at one side of the switching circular plate, the rotating shaft is rotatably arranged on the support frame and is coaxially and fixedly connected with the driving wheel, a third spring is sleeved on the rotating shaft, one end of the third spring is propped against the driving wheel at the other end of the support frame, a first latch is arranged at one side of the rotary wheel, a second latch is arranged at one side of the switching circular plate, and the first latch and the second latch are meshed unidirectionally.

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

the method comprises the following steps: the device can adaptively pause or start ironing the cloth in the production process of the cloth, so that the cloth is prevented from being ironed by steam for a long time when the device is stopped;

and two,: the device can push the sliding tube through the self-adaptive transmission component to quickly react, so that the steam holes are communicated with the exhaust holes, uniform ironing of the cloth is ensured, and the cloth keeps high firm color;

thirdly, the third step is to provide a third step of adjusting the temperature of the liquid; the self-adaptive transmission assembly of the device does not need an external power source, and power generated during cloth transmission is utilized, so that the production cost is saved.

Drawings

FIG. 1 is a side view of the overall structure of an embodiment;

FIG. 2 is a top view of the structure at the steam pipe of the embodiment;

FIG. 3 is a cross-sectional view taken along the direction D-D in FIG. 2;

FIG. 4 is an exploded perspective view of the steam tube and the sliding tube of the embodiment;

FIG. 5 is a schematic perspective view of an adaptive transmission assembly of an embodiment;

FIG. 6 is an exploded perspective view of the rotating outer tube and the top extension tube of the embodiment;

FIG. 7 is a schematic view showing a perspective structure of a rotary pipe of the embodiment;

FIG. 8 is an enlarged schematic view of the structure shown at A in FIG. 7;

FIG. 9 is a top view of the structure at the movable block and the first stop collar of the embodiment;

FIG. 10 is a cross-sectional view taken along the direction F-F of FIG. 9;

FIG. 11 is a perspective cross-sectional view of FIG. 9 taken along the direction F-F

FIG. 12 is a schematic perspective view of a third stop collar and stop block according to an embodiment;

FIG. 13 is a schematic perspective view of a movable block of an embodiment;

FIG. 14 is a schematic perspective view of an adapter and rotating outer tube of an embodiment;

the reference numerals in the figures are: 1. a frame; 2. a untwisting device; 3. a scutching roller; 4. a wire dividing roller; 5. ironing mechanism; 6. a steam pipe; 7. a sliding tube; 8. a transfer tube; 9. a return spring; 10. a fixed tube; 11. a steam input pipe; 12. an exhaust hole; 13. a limit slide bar; 14. a steam hole; 15. limiting sliding grooves; 16. a guide roller; 17. an adaptive transmission assembly; 18. a transmission mechanism; 19. a transmission rod; 20. a driving wheel; 21. a drive belt; 22. a driving wheel; 23. a first latch; 24. a rotating shaft; 25. a third spring; 26. an adapter; 27. a transfer circular plate; 28. a second latch; 29. a support frame; 30. rotating the outer tube; 31. spiral through grooves; 32. an ejection mechanism; 33. a top extension pipe; 34. a limit slide bar; 35. a limit sliding block; 36. the short rod is abutted; 37. a lock; 38. a collision chute; 39. a first stop collar; 40. a clamping groove; 41. a first support; 42. a limit clamping block; 43. supporting the short plate; 44. a first spring; 45. a movable block; 46. rectangular sliding grooves; 47. a movable through hole; 48. a second limiting ring; 49. a sliding block; 50. a sliding groove; 51. a third limiting ring; 52. a ratchet; 53. fixing the short plate; 54. a movable latch; 55. and a second spring.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 to 14, a high color fastness warp knitting fabric dyeing and de-ranking all-in-one machine includes:

the frame 1 is arranged in a vertical state;

the untwisting device 2 is arranged at the upper end of the frame 1;

the scutching roller 3 is rotatably arranged on the frame 1 and positioned below the untwisting device 2;

the splitting roller 4 is rotatably arranged on the frame 1 and positioned below the scutching roller 3;

ironing mechanism 5, including fixed setting up in frame 1 and being located the steam pipe 6 below the wire dividing roller 4, slide the sliding tube 7 that sets up in steam pipe 6 and set up in sliding tube 7 one end and with the inside steam input tube 11 that is linked together of sliding tube 7, evenly spaced along its axis on the steam pipe 6 wall and be equipped with a plurality of steam holes 14, evenly offer a plurality of exhaust holes 12 unanimous with steam hole 14 quantity along its axis on the sliding tube 7 wall, be provided with reset spring 9 in the clearance between one end of sliding tube 7 and frame 1;

the guide rollers 16 are arranged between the scutching roller 3 and the dividing roller 4 in a crossing way, and each guide roller 16 is rotationally connected with the frame 1;

the self-adaptive transmission assembly 17 is arranged on one side of the frame 1 and comprises a transmission mechanism 18 and an ejection mechanism 32, wherein the transmission mechanism 18 is in transmission connection with one guide roller 16 which is close to one side of the steam pipe 6 and far away from the filament dividing roller 4, the ejection mechanism 32 comprises an ejection pipe 33, the ejection pipe 33 is in transmission connection with the transmission mechanism 18, one end of the sliding pipe 7 is connected with the ejection pipe 33 through a plane bearing, and the sliding pipe 7 translates along the axis of the steam pipe 6 to enable the steam hole 14 to be opened or closed.

When the device operates, a worker winds cloth subjected to the opening treatment by the untwisting device 2, the opening roller 3 and the dividing roller 4 on the guide roller 16 and the steam pipe 6, and finally leads out and collects the cloth by a subsequent device. When cloth passes through the steam pipe 6, the guide roller 16 drives the transmission mechanism 18 to operate, the guide roller 16 drives the ejection pipe 33 of the ejection mechanism 32 to move, the ejection pipe 33 moves to drive the sliding pipe 7, the sliding pipe 7 moves along the axis of the steam pipe 6, the steam hole 14 corresponds to the exhaust hole 12, steam reaches the cloth, ironing of the cloth is completed, and when the steam hole 14 corresponds to the exhaust hole 12, the reset spring 9 is compressed under stress. With the device continuing to operate, when the device fails or other conditions can not continue to operate, at this time, the guide roller 16, the scutching roller 3 and the scutching roller 4 stop rotating (it is to be noted that the scutching roller 4 and the scutching roller 3 are driven by an external rotation driving mechanism to rotate, which is the mature prior art, and therefore not shown in the figure), at this time, the return spring 9 directly releases pressure to drive the sliding tube 7 to reset, so that the steam hole 14 is closed, steam is blocked, the cloth staying in the steam hole 14 is not continuously ironed, after the device fails, the device is restarted, the top extension tube 33 in the self-adaptive transmission assembly 17 stretches out again, so that the sliding tube 7 moves in the steam tube 6 again, so that the steam hole 14 and the exhaust hole 12 correspondingly release steam for normal ironing of the cloth.

In order to ensure that the sliding tube 7 does not slide left and right when the steam tube 6 translates when the device is in operation, the following features are specifically provided:

the steam pipe is characterized in that a plurality of limiting sliding strips 13 are annularly arranged on the outer wall of the sliding pipe 7 along the axis of the sliding pipe, a plurality of limiting sliding grooves 15 are annularly arranged on the inner wall of the steam pipe 6 along the axis of the sliding pipe, each limiting sliding groove 15 corresponds to one limiting sliding strip 13, a transfer pipe 8 is fixedly arranged at one end of the sliding pipe 7, a fixed pipe 10 is coaxially sleeved on the transfer pipe 8, the fixed pipe 10 is fixedly connected with the frame 1, a reset spring 9 is coaxially sleeved on the transfer pipe 8, and a steam input pipe 11 is coaxially and fixedly arranged on the fixed pipe 10.

When the device is operated, when the sliding tube 7 moves along the axis of the steam tube 6 to enable the steam hole 14 to correspond to the exhaust hole 12, the switching tube 8 moves towards the inside of the fixed tube 10 at the moment, so that the reset spring 9 is compressed under the stress, and the sliding tube 7 does not rotate left and right when moving under the cooperation of the limiting sliding groove 15 and the limiting sliding bar 13, so that the steam hole 14 can accurately correspond to the exhaust hole 12.

In order to reveal the detailed connection structure of the guide roller 16 and the transmission mechanism 18, the following features are specifically provided:

the transmission mechanism 18 comprises a transmission rod 19 coaxially and fixedly arranged at one end of the guide roller 16, a driving wheel 20 coaxially and fixedly arranged on the transmission rod 19, a supporting frame 29 fixedly arranged at one side of the stand 1, a transmission wheel 22 rotatably arranged on the supporting frame 29, a transmission belt 21 arranged on the driving wheel 20 and the transmission wheel 22, a rotation outer tube 30 in transmission connection with the transmission wheel 22 and an adapter 26 in transmission connection with the transmission wheel 22, wherein the adapter 26 is in transmission connection with the rotation outer tube 30, one end of the transmission belt 21 is connected with the driving wheel 20, the other end of the transmission belt 21 is connected with the transmission wheel 22, the rotation outer tube 30 is coaxially sleeved on a jacking tube 33 and is in transmission connection with the jacking tube 33, and the rotation outer tube 30 is in rotation connection with the stand 1 through a ball bearing.

When the device is operated, the guide roller 16 drives the transmission rod 19 to rotate, the transmission rod 19 drives the driving wheel 20 to rotate, the driving wheel 20 drives the driving wheel 22 to rotate through the transmission belt 21, and the driving wheel 22 drives the rotating outer tube 30 to rotate through the adapter 26.

In order to reveal a detailed connection of the rotating outer tube 30 with the top extension tube 33, the following features are provided in particular:

the ejection mechanism 32 further comprises a limit slide bar 34 fixedly arranged on the outer wall of the ejection tube 33, a limit slide bar 35 fixedly arranged at the end part of the limit slide bar 34, a movable block 45 horizontally arranged below the limit slide bar 35 and a locker 37 in transmission connection with the movable block 45, wherein the movable block 45 is provided with a rectangular slide groove 46 along the length direction thereof, the limit slide bar 35 slides along the rectangular slide groove 46, the wall of the rotating outer tube 30 is provided with a spiral through groove 31, the limit slide bar 34 slides along the spiral through groove 31, and the locker 37 is used for keeping the movable block 45 motionless when the limit slide bar 35 slides along the rectangular slide groove 46.

When the rotating outer tube 30 rotates, the wall of the spiral through groove 31 abuts against the limit slide bar 34 to move, and the lower movable block 45 is locked by the locking device 37, so that the limit slide bar 34 drives the limit slide bar 35 to move along the rectangular slide groove 46, and at this time, the top extension tube 33 extends out of the rotating outer tube 30 along the axis of the rotating outer tube 30 under the rotation of the rotating outer tube 30, so as to translate in the steam tube 6 against the sliding tube 7.

In order to reveal the detailed structure of the lock 37, the following features are provided in particular:

the ejector mechanism 32 further comprises a second limiting ring 48 fixedly arranged on one side of the frame 1, the movable block 45 is movably arranged on the second limiting ring 48, the locker 37 comprises a first limiting ring 39 coaxially arranged outside the rotary outer tube 30 and a plurality of first supporting pieces 41 annularly arranged along the axis of the first limiting ring 39, each first supporting piece 41 is fixedly connected with the frame 1, a movable through hole 47 is formed in the end of the rectangular chute 46, a limiting clamping block 42 is slidably arranged in the movable through hole 47, two supporting short plates 43 are symmetrically arranged on two sides of the limiting clamping block 42, a first spring 44 is arranged on each supporting short plate 43, one end of each first spring 44 abuts against the other end of the supporting short plate 43 and against the bottom of the movable block 45, a plurality of clamping grooves 40 are formed in the inner portion of the first limiting ring 39, each limiting clamping block 42 corresponds to each clamping groove 40, a short rod 36 is fixedly arranged on one side of the limiting sliding block 35, one side of the limiting clamping block 42 abuts against the corresponding clamping groove 38, and the corresponding short rod 38 is arranged on one side of the limiting clamping block 42, and the short rod 38 abuts against the corresponding clamping groove 44.

When the device operates, the first spring 44 clamps the limit clamping block 42 into the clamping groove 40, at the moment, the movable block 45 is fixed and cannot move on the second limit ring 48, then the outer tube 30 is rotated to enable the spiral through groove 31 to abut against the limit sliding rod 34 to move, the limit sliding rod 34 abuts against the limit sliding rod 35 to move along the rectangular sliding groove 46, after the limit sliding rod 35 contacts the limit clamping block 42, the limit clamping block 42 abuts against the abutting chute 38, so that the limit clamping block 42 moves along the movable through hole 47, the limit clamping block 42 is separated from the clamping groove 40, and the movable block 45 is prevented from being limited. Since the ejector tube 33 has ejected the sliding tube 7 at this time, the steam hole 14 and the steam vent hole 12 are also already in communication, and a plane bearing is provided between the ejector tube 33 and the sliding tube 7, and at this time, rotating the outer tube 30 drives the ejector tube 33 to slide together around the circumference of the second stop collar 48.

In order to show the detailed connection structure of the second stop collar 48 and the movable block 45, the following features are specifically provided:

the bottom of the movable block 45 is fixedly provided with a sliding block 49, the side wall of the second limiting ring 48 is provided with a sliding groove 50 along the circumferential direction thereof, and each sliding block 49 corresponds to the sliding groove 50.

After the movable block 45 is locked by the limit block 42, the movable block 45 moves along the sliding groove 50 through the sliding block 49, and the sliding groove 50 prevents the movable block 45 from being separated from the upper part thereof, so that the movable block 45 can slide along the sliding groove 50 but does not fall from the second limit ring 48.

In order to ensure that the return spring 9 is reset when the device is stopped, the top extension pipe 33 can be smoothly reset and retracted into the rotating outer pipe 30, and the following characteristics are specifically provided:

the self-adaptive transmission assembly 17 further comprises a third limiting ring 51 fixedly arranged on one side of the frame 1 and coaxial with the rotary outer tube 30, and a fixed short plate 53 fixedly connected with one side of the limiting clamping block 42, wherein the fixed short plate 53 is hinged with a movable latch 54, the outer wall of the third limiting ring 51 is provided with a ratchet 52, the movable latch 54 corresponds to the ratchet 52, and a second spring 55 is arranged between the movable latch 54 and the fixed short plate 53.

After the limit clamping block 42 is abutted against the short rod 36 to move against the abutting chute 38 and separated from the clamping groove 40, the movable clamping teeth 54 correspond to the ratchet teeth 52 at the moment, and then the rotary outer tube 30, the jacking tube 33 and the movable block 45 rotate together, and in the process, the movable clamping teeth 54 swing all the time under the action of the second spring 55, so that the normal operation of the device is not affected; after the device is stopped, the reset spring 9 releases the pressure reset at this moment, so that the sliding tube 7 is reset against the jacking tube 33, at this moment, the rotating outer tube 30 has a reverse trend, due to the ratchet 52, the movable latch 54 is blocked, so that the movable block 45 is stopped rotating again through the limiting clamping block 42, at this moment, the rotating outer tube 30 rotates normally, the spiral through groove 31 is reset along the rectangular sliding groove 46 reversely against the limiting sliding rod 34, when the limiting sliding rod 34 drives the limiting sliding rod 35 to reset, the abutting short rod 36 is separated from the abutting chute 38, at this moment, the first spring 44 resets to enable the limiting clamping block 42 to be blocked into the clamping groove 40 again, so that the locker 37 resets, the jacking tube 33 is reset, the steam hole 14 and the steam exhaust hole 12 are dislocated again, and steam exhaust is closed.

In order to ensure that when the rotating outer tube 30 is reversed, the driving wheel 22 is not driven any more to reversely rotate the guide roller 16, the following characteristics are provided in particular;

the adapter 26 comprises a switching circular plate 27 coaxially and fixedly arranged at the end part of the rotary outer tube 30 and a rotating shaft 24 coaxially arranged at one side of the switching circular plate 27, the rotating shaft 24 is rotatably arranged on a supporting frame 29, the rotating shaft 24 is coaxially and fixedly connected with the driving wheel 22, a third spring 25 is sleeved on the rotating shaft 24, one end of the third spring 25 abuts against the driving wheel 22 at the other end of the supporting frame 29, a first latch 23 is arranged at one side of the rotating wheel, a second latch 28 is arranged at one side of the switching circular plate 27, and the first latch 23 and the second latch 28 are in unidirectional engagement.

When the driving wheel 20 drives the driving wheel 22 to rotate, the first latch 23 and the second latch 28 are engaged at this time, so that the driving wheel 22 drives the rotating outer tube 30 to rotate, when the rotating outer tube 30 rotates reversely, the first latch 23 and the second latch 28 are not engaged, and due to the third spring 25, after the reverse rotation of the rotating outer tube 30 stops, the first latch 23 and the second latch 28 are also engaged unidirectionally again.

Working principle: when the device operates, a worker winds cloth subjected to the opening treatment by the untwisting device 2, the opening roller 3 and the dividing roller 4 on the guide roller 16 and the steam pipe 6, and finally leads out and collects the cloth by a subsequent device. When cloth passes through the steam pipe 6, the guide roller 16 drives the transmission rod 19 to rotate, the transmission rod 19 drives the driving wheel 20 to rotate, the driving wheel 20 drives the driving wheel 22 to rotate through the transmission belt 21, the first clamping teeth 23 and the second clamping teeth 28 are in a meshed state at the moment, the driving wheel 22 drives the rotating outer pipe 30 to move, the first spring 44 clamps the limiting clamping block 42 into the clamping groove 40, the movable block 45 is fixed and cannot move on the second limiting ring 48, then the rotating outer pipe 30 rotates, the spiral through groove 31 is enabled to abut against the limiting slide rod 34 to move, the limiting slide rod 34 abuts against the limiting slide rod 35 to move along the rectangular slide groove 46, the pushing and extending pipe 33 moves to drive the sliding pipe 7 to move along the axis of the steam pipe 6, the steam hole 14 corresponds to the steam exhaust hole 12, ironing of the cloth is completed, and when the steam hole 14 and the steam exhaust hole 12 are communicated and correspond, the reset spring 9 is compressed under stress.

When the limit slider 35 contacts the limit block 42, the abutting short rod 36 abuts against the abutting chute 38, so that the limit block 42 moves along the movable through hole 47, and the limit block 42 is separated from the clamping groove 40, so that the movable block 45 loses limit. Since the ejector tube 33 has already ejected the sliding tube 7 at this time, the steam hole 14 and the exhaust hole 12 are also already communicated, and a plane bearing is provided between the ejector tube 33 and the sliding tube 7, at this time, the ejector tube 33 and the movable block 45 are driven to slide around the circumference of the second limiting ring 48 together by rotating the outer tube 30 under the action of the sliding block 49, and in this process, the movable latch 54 swings repeatedly under the action of the second spring 55.

After the device is stopped, the reset spring 9 releases the pressure reset at this moment, so that the sliding tube 7 is reset against the top extension tube 33, at this moment, the rotating outer tube 30 has a reverse trend, the movable latch 54 is blocked due to the ratchet 52, thereby the movable block 45 is stopped rotating again through the limit latch 42, at this moment, the rotating outer tube 30 rotates normally, the spiral through groove 31 is reset along the rectangular slide groove 46 in the opposite direction against the limit slide bar 34, when the limit slide bar 34 drives the limit slide bar 35 to reset, the abutting short bar 36 is separated from the abutting chute 38, at this moment, the first spring 44 resets so that the limit latch 42 is blocked into the latch groove 40 again, so that the locker 37 resets, the top extension tube 33 also completes reset, the steam hole 14 and the steam vent hole 12 are dislocated again, and the steam vent is closed, and in this process, the first latch 23 and the second latch 28 are not meshed, and the first latch 23 and the second latch 28 are also meshed again unidirectionally due to the existence of the third spring 25 after the reverse rotation of the rotating outer tube 30 is stopped.

After the fault treatment of the device is carried out, the device is restarted, the top extension pipe 33 in the self-adaptive transmission assembly 17 stretches out again, the sliding pipe 7 moves in the steam pipe 6, the steam holes 14 and the exhaust holes 12 release steam correspondingly again, and the cloth is ironed normally.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (8)

1. The utility model provides a high colour fastness warp knitting cloth dyeing takes off row all-in-one which characterized in that includes:

the frame (1) is arranged in a vertical state;

the untwisting device (2) is arranged at the upper end of the frame (1);

the scutching roller (3) is rotatably arranged on the frame (1) and is positioned below the untwisting device (2);

the wire dividing roller (4) is rotatably arranged on the frame (1) and positioned below the scutching roller (3);

ironing mechanism (5), including fixed setting up on frame (1) and be located branch silk roller (4) below steam pipe (6), slip setting in steam pipe (6) slip pipe (7) and set up in slip pipe (7) one end and with slip pipe (7) inside steam input pipe (11) that are linked together, evenly spaced apart along its axis on steam pipe (6) wall is equipped with a plurality of steam hole (14), evenly set up a plurality of exhaust hole (12) unanimous with steam hole (14) quantity along its axis on slip pipe (7) wall, be provided with reset spring (9) in the clearance between one end of slip pipe (7) and frame (1);

the guide rollers (16) are arranged between the scutching roller (3) and the dividing roller (4) in a crossing way, and each guide roller (16) is rotationally connected with the frame (1);

the self-adaptive transmission assembly (17) is arranged on one side of the frame (1), and comprises a transmission mechanism (18) and an ejection mechanism (32), wherein the transmission mechanism (18) is connected with a guide roller (16) which is close to one side of the steam pipe (6) and far away from the filament dividing roller (4), the ejection mechanism (32) comprises an ejection pipe (33), the ejection pipe (33) is connected with the transmission mechanism (18) in a transmission manner, one end of the sliding pipe (7) is connected with the ejection pipe (33) through a plane bearing, and the sliding pipe (7) is translated along the axis of the steam pipe (6) to enable the steam hole (14) to be opened or closed.

2. The high-color-fastness warp knitting fabric dyeing and de-arrangement all-in-one machine according to claim 1, wherein a plurality of limiting sliding bars (13) are annularly arranged on the outer wall of the sliding tube (7) along the axis of the sliding tube, a plurality of limiting sliding grooves (15) are annularly arranged on the inner wall of the steam tube (6) along the axis of the sliding tube, each limiting sliding groove (15) corresponds to one limiting sliding bar (13), a transfer tube (8) is fixedly arranged at one end of the sliding tube (7), a fixed tube (10) is coaxially sleeved on the transfer tube (8), the fixed tube (10) is fixedly connected with the frame (1), a reset spring (9) is coaxially sleeved on the transfer tube (8), and the steam input tube (11) is coaxially and fixedly arranged on the fixed tube (10).

3. The high-color-fastness warp knitting fabric dyeing and de-arrangement all-in-one machine according to claim 2, wherein the transmission mechanism (18) comprises a transmission rod (19) coaxially and fixedly arranged at one end of the guide roller (16), a driving wheel (20) coaxially and fixedly arranged on the transmission rod (19), a supporting frame (29) fixedly arranged at one side of the stand (1), a transmission wheel (22) rotatably arranged on the supporting frame (29), a transmission belt (21) arranged on the driving wheel (20) and the transmission wheel (22), a rotary outer tube (30) in transmission connection with the transmission wheel (22) and an adapter (26) in transmission connection with the transmission wheel (22), the adapter (26) is in transmission connection with the rotary outer tube (30), one end of the transmission belt (21) is connected with the driving wheel (20), the other end of the rotary outer tube (30) is coaxially sleeved on the top extension tube (33) and is in transmission connection with the top extension tube (33), and the rotary outer tube (30) is in transmission connection with the stand (1) through a ball bearing.

4. The high-color-fastness warp knitting fabric dyeing and discharging all-in-one machine according to claim 3, wherein the ejection mechanism (32) further comprises a limit slide bar (34) fixedly arranged on the outer wall of the ejection tube (33), a limit slide block (35) fixedly arranged at the end part of the limit slide bar (34), a movable block (45) horizontally arranged below the limit slide block (35) and a locker (37) in transmission connection with the movable block (45), the movable block (45) is provided with a rectangular slide groove (46) along the length direction of the movable block, the limit slide block (35) slides along the rectangular slide groove (46), the wall of the rotary outer tube (30) is provided with a spiral through groove (31), the limit slide bar (34) slides along the spiral through groove (31), and the locker (37) is used for keeping the movable block (45) motionless when the limit slide block (35) slides along the rectangular slide groove (46).

5. The dyeing and de-queuing integrated machine for high-color-fastness warp knitted fabrics according to claim 4, wherein the ejection mechanism (32) further comprises a second limiting ring (48) fixedly arranged on one side of the frame (1), the movable blocks (45) are movably arranged on the second limiting ring (48), the locking device (37) comprises a first limiting ring (39) coaxially arranged outside the rotating outer tube (30) and a plurality of first supporting pieces (41) annularly arranged along the axis of the first limiting ring (39), each first supporting piece (41) is fixedly connected with the frame (1), movable through holes (47) are formed in the end parts of the rectangular sliding grooves (46), limiting clamping blocks (42) are arranged in the movable through holes (47) in a sliding mode, two supporting short plates (43) are symmetrically arranged on two sides of each limiting clamping block (42), one end of each first spring (44) abuts against one end of the supporting short plate (43) and the corresponding to the corresponding limiting block (40) on one side of the movable short block (40), an abutting chute (38) is formed in one side of the limiting clamping block (42), the abutting chute (38) corresponds to the abutting short rod (36), and the first spring (44) is used for enabling the limiting clamping block (42) to be clamped into the clamping groove (40).

6. The high-color-fastness warp knitting fabric dyeing and de-ranking all-in-one machine according to claim 5, wherein sliding blocks (49) are fixedly arranged at the bottoms of the movable blocks (45), sliding grooves (50) along the circumferential direction of the second limiting rings (48) are formed in the side walls of the second limiting rings, and each sliding block (49) corresponds to each sliding groove (50).

7. The high-color-fastness warp knitting fabric dyeing and de-arrangement all-in-one machine according to claim 6, wherein the self-adaptive transmission assembly (17) further comprises a third limiting ring (51) fixedly arranged on one side of the frame (1) and coaxial with the rotating outer tube (30) and a fixed short plate (53) fixedly connected with one side of the limiting clamping block (42), movable clamping teeth (54) are hinged on the fixed short plate (53), ratchets (52) are arranged on the outer wall of the third limiting ring (51), the movable clamping teeth (54) correspond to the ratchets (52), and a second spring (55) is arranged between the movable clamping teeth (54) and the fixed short plate (53).

8. The high-color-fastness warp knitting fabric dyeing and de-arrangement all-in-one machine according to claim 7, wherein the adapter (26) comprises an adapter circular plate (27) coaxially and fixedly arranged at the end part of the rotating outer tube (30) and a rotating shaft (24) coaxially arranged at one side of the adapter circular plate (27), the rotating shaft (24) is rotatably arranged on the supporting frame (29), the rotating shaft (24) is coaxially and fixedly connected with the driving wheel (22), a third spring (25) is sleeved on the rotating shaft (24), one end of the third spring (25) is propped against the driving wheel (22) at the other end of the supporting frame (29), a first clamping tooth (23) is arranged at one side of the rotating wheel, a second clamping tooth (28) is arranged at one side of the adapter circular plate (27), and the first clamping tooth (23) and the second clamping tooth (28) are in unidirectional engagement.