CN218561791U - Textile machine for producing moisture-absorbing breathable anti-wrinkle fabric - Google Patents

Abstract

The application relates to a textile machine for producing moisture-absorbing and breathable type anti-wrinkle fabric, which belongs to the field of textile and comprises a textile machine body and a cotton cleaning component, wherein the textile machine body and the cotton cleaning component are arranged on a rack; the extraction piece is including extraction cover, air pump, first extraction pipe and second extraction pipe, and the extraction cover sets up directly over the weaving machine body, and the air pump setting is in the frame, and the one end of first extraction pipe is linked together with the extraction cover, and the other end is linked together with the air pump, and the one end and the air pump of second extraction pipe are linked together, the other end and subside the piece and be linked together. At the in-process of weaving quick-witted work, operating personnel starts the air pump, and the air pump will fly the wadding and extract to subsiding in the piece from extraction cover, first extraction pipe and second extraction pipe in proper order, subsides the piece and subsides flying the wadding to operating personnel is follow-up to flying the wadding and collect, thereby has improved the efficiency of production surface fabric.

Description

Textile machine for producing moisture-absorbing breathable anti-wrinkle fabric

Technical Field

The application relates to the field of spinning, in particular to a textile machine for producing moisture-absorbing and breathable type anti-wrinkle fabric.

Background

Textile machines, also known as textile machines, weaving machines, cotton spinning machines, etc., are tools for processing raw materials such as threads, filaments, hemp, etc. into threads and then weaving them into cloth.

In the related technology, an operator blends terylene and cotton to form the moisture absorption and ventilation type anti-wrinkle fabric, when blending the terylene and the cotton, the operator mixes 65% of terylene and 35% of cotton, and then places the yarns made of the terylene and the cotton on a textile machine to weave the moisture absorption and ventilation type anti-wrinkle fabric. In order to reduce the cotton wool contamination of the fabric caused by the yarns made of cotton in the spinning process, an operator connects an induced draft fan on a frame of a textile machine to extract flying cotton wool, and then extracts the flying cotton wool into a storage box.

To the correlation technique among the above-mentioned, the inventor finds that the flying cotton fibre of extraction to depositing the case to the inside is comparatively dry, when operating personnel cleared up the flying cotton fibre of collection, the flying cotton fibre easily drifts out the case of depositing in the twinkling of an eye when operating personnel opened the door plant, needs operating personnel to be distracted and collects the flying cotton fibre that drifts, has reduced operating personnel's special attention on the weaving machine, easily leads to the production efficiency of surface fabric to descend, so await improving.

SUMMERY OF THE UTILITY MODEL

In order to improve the problems, the application provides a textile machine for producing moisture-absorbing and breathable type anti-wrinkle fabric.

The application provides a weaving machine for producing crease-resistant surface fabric of moisture absorption ventilation type adopts following technical scheme:

a textile machine for producing moisture-absorbing and breathable anti-wrinkle fabric comprises a machine frame, a textile machine body and a lint removing assembly, wherein the textile machine body is arranged on the machine frame, the lint removing assembly comprises a drawing part and a settling part, the drawing part is communicated with the settling part, the drawing part is arranged right above the textile machine body, and the settling part is arranged on one side, far away from the textile machine body, of the drawing part;

the sedimentation piece comprises a water tank, a sedimentation box and a spray pipe, the water tank is arranged on the rack, the sedimentation box is arranged on the water tank and is communicated with the water tank, one end, far away from the textile machine body, of the extraction piece is communicated with the sedimentation box, one end of the spray pipe is communicated with the sedimentation box, the other end of the spray pipe is communicated with the water tank, a water pump is arranged on the spray pipe, and the spray pipe extends into the sedimentation box and is communicated with a sedimentation spray head.

Through adopting above-mentioned technical scheme, at the in-process of weaving quick-witted body production surface fabric, operating personnel starts the extraction piece, the extraction piece will fly the wadding away to the setting tank in, the water pump starts and extracts the water in the water tank this moment, water rethread shower and subside the shower nozzle and carry to the setting tank in, it subsides to fly the wadding and take place with water contact for it is difficult for floating everywhere to fly the wadding behind the entering setting tank, the step of the batting of flying of operating personnel distraction clearance extraction has been reduced, so that operating personnel controls weaving quick-witted body production surface fabric comparatively attentively, thereby the efficiency of weaving quick-witted body production surface fabric has been improved.

Preferably, the extraction piece includes extraction cover, air pump, first extraction pipe and second extraction pipe, the extraction cover sets up directly over the weaving machine body, the air pump sets up in the frame, the one end of first extraction pipe is linked together with the extraction cover, the other end is linked together with the air pump, the one end and the air pump of second extraction pipe are linked together, the other end and the setting tank of second extraction pipe communicate with each other.

Through adopting above-mentioned technical scheme, at the in-process of weaving quick-witted body production surface fabric, operating personnel starts the air pump, and the air pump will fly the wadding through the extraction cover extract to first extraction pipe in, and rethread second extraction pipe is carried to the setting tank for fly the wadding and be difficult for drifting around and lead to the fact the influence to the surface fabric, reduced the possibility that flying the wadding harmd operating personnel health simultaneously.

Preferably, one end of the second extraction pipe, which is far away from the air pump, is communicated with a three-way pipe, and one end of the three-way pipe, which is far away from the second extraction pipe, is communicated with the settling tank.

Through adopting above-mentioned technical scheme, the flying cotton fibre that the second extraction pipe will extract is carried to the settling tank in through the three-way pipe, under the effect of three-way pipe for flying cotton fibre has improved the settling velocity of flying cotton fibre in getting into the settling tank uniformly.

Preferably, a support plate is arranged on the rack in the vertical direction, a linear driving mechanism is arranged on the support plate, and the extraction cover is connected with the linear driving mechanism.

Through adopting above-mentioned technical scheme, when operating personnel discover to fly the wadding too much, operating personnel starts linear driving mechanism, and linear driving mechanism drives the extraction cover, has reduced the distance between extraction cover and the weaving machine body to fly the wadding and comparatively steadily be extracted to the extraction cover in, thereby reduced the possibility that the batting influences the surface fabric, make simultaneously that the batting is difficult for causing the influence to operating personnel's health.

Preferably, the settling tank is internally provided with a slag storage assembly, the slag storage assembly comprises a slag storage frame and a slag storage cloth bag, a fixing groove is formed in the inner wall of the settling tank, the slag storage frame is arranged in the fixing groove, the slag storage cloth bag is connected with the inner wall of the slag storage frame, and the communication part of the three-way pipe and the settling tank is arranged on one side, away from the water tank, of the slag storage frame.

Through adopting above-mentioned technical scheme, drop to depositing in the sediment sack behind flying wadding and the water contact for flying wadding is difficult for gluing in the bottom of settling tank, and this moment is depositing under the effect of sediment sack, collects the flying wadding that subsides for operating personnel and provides convenience. When needs are cleared up deposit the sediment sack, the sediment frame is deposited to operating personnel orientation direction pulling of keeping away from the setting bin for deposit sediment frame and fixed slot separation, operating personnel can clear up the flying wadding that subsides in depositing the sediment sack this moment.

Preferably, the settling tank is provided with a connecting groove, the connecting groove is internally and rotatably connected with a door plate, and the door plate is connected with the settling tank through a fixing component.

Through adopting above-mentioned technical scheme, when operating personnel need clear up the flying wadding that subsides in the sediment sack, operating personnel rotates the door plant towards the direction of keeping away from the setting tank, operating personnel can stimulate this moment and deposit the sediment frame, make deposit sediment frame and setting tank separation, so that operating personnel collects the flying wadding that subsides, collect the completion back, operating personnel reuses fixed subassembly and fixes door plant and setting tank mutually, make the door plant comparatively seal the setting tank steadily, the possibility that flying wadding drifts away and locates the setting tank has been reduced.

Preferably, set up two holes of stepping down of relative setting on the setting box, relative two that set up the hole of stepping down is kept away from the one end of setting box and is compared in the equal tilt up setting of one end that is close to the setting box, each equal sliding connection has one in the hole of stepping down and accepts the board, two it is inconsistent and forms with the inner wall of setting box and accepts the space to accept the board, it sets up in one side of depositing the sediment frame and keeping away from the water tank to accept the space.

Through adopting above-mentioned technical scheme, when needs are collected the flying cotton fibre that subsides, operating personnel will accept two and insert the setting tank from the hole of stepping down that corresponds for two are accepted board looks butt, accept to form between the inner wall of board and setting tank this moment and accept the space, and the flying cotton fibre that subsides this moment drops to in accepting the space, has reduced operating personnel and has stopped the step of the flying cotton fibre that the clearance subsided after the quick-witted body work of weaving, thereby has further improved the efficiency of quick-witted body production surface fabric of weaving.

Preferably, two scrapers which are arranged oppositely are arranged in the settling tank, and one end of each of the two scrapers, which is close to the water tank, is correspondingly abutted against one bearing plate.

Through adopting above-mentioned technical scheme, after operating personnel cleared up the sediment sack of depositing, operating personnel will deposit the sediment frame and reinsert in the fixed slot, reuse fixed subassembly with door plant and settling box fixed mutually, operating personnel is towards the direction pulling two of keeping away from settling box again and is accepted the board, scraper blade and accepting the board and contact and will accept on the board to be infected with the flying cotton fibre and scrape down this moment for flying cotton fibre is difficult to follow and accepts the board and remove outside settling box.

Preferably, two all rotate in the hole of stepping down and be connected with the baffle, around being equipped with the torsional spring in the pivot of baffle, the one end of torsional spring is connected with the baffle, and the other end is connected with the inner wall in the hole of stepping down.

Through adopting above-mentioned technical scheme, when operating personnel will accept the board and insert in the setting tank, accept the board and contact with the baffle and drive the baffle rotation, the torsional spring is in compression state this moment. When operating personnel control baffle and settling tank separation, under the effect of torsional spring resilience force, the baffle reseals the hole of stepping down that corresponds for the three-way pipe is carried the flying wadding in the settling tank and is difficult for following the hole of stepping down and wafts.

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

1. the extracting part extracts the flying cotton fibers, and the settling part settles the flying cotton fibers, so that the flying cotton fibers are not easy to fly around after being collected, the step of the operators for clearing the collected flying cotton fibers by distraction is reduced, the operators can conveniently control the textile machine body to produce the fabric more intensely, and the efficiency of the textile machine body for producing the fabric is improved;

2. by arranging the linear driving mechanism connected with the extraction cover, the linear driving mechanism is convenient for adjusting the distance between the extraction cover and the textile machine body, so that the extraction cover can more stably extract the flying cotton;

3. through setting up two and accepting the board, form between two and accept the board and the inner wall of setting tank and accept the space for operating personnel need not to stop the work of weaving quick-witted body and can clear up the sediment sack.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram for showing a positional relationship between a settling tank and a water tank according to an embodiment of the present application;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

fig. 4 is an enlarged schematic view of a portion B in fig. 2.

Description of reference numerals: 1. a frame; 11. a support plate; 111. a linear drive mechanism; 2. a textile machine body; 3. a cotton cleaning component; 31. drawing the part; 311. extracting the cover; 312. an air pump; 313. a first extraction tube; 314. a second extraction tube; 32. a sedimentation member; 321. a water tank; 322. a settling tank; 323. a shower pipe; 324. a water pump; 325. a sedimentation nozzle; 35. a three-way pipe; 36. fixing grooves; 37. connecting grooves; 38. a door panel; 39. a placement groove; 4. a slag storage assembly; 41. a slag storage frame; 42. a slag storage cloth bag; 5. a fixing assembly; 51. a fixing plate; 511. a fixing hole; 52. fixing a column; 521. a yielding groove; 6. a hole of abdication; 61. a baffle plate; 62. a torsion spring; 7. a bearing plate; 71. a limiting plate; 72. a receiving space; 8. and a scraper.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a weaving machine for producing moisture absorption ventilative type crease-resistant surface fabric. Referring to fig. 1, a textile machine for producing moisture-absorbing and breathable crease-resistant fabric comprises a textile machine body 2 and a lint removing component 3 which are arranged on a machine frame 1, wherein the lint removing component 3 comprises a drawing part 31 and a settling part 32, the drawing part 31 and the settling part 32 are both arranged on the machine frame 1, and the drawing part 31 is arranged right above the textile machine body 2. The sedimentation member 32 comprises a water tank 321, a sedimentation tank 322 and a spray pipe 323, the water tank 321 is fixed on the rack 1, the sedimentation tank 322 is fixed on one side of the water tank 321 far away from the rack 1 and communicated with the water tank 321, one end of the spray pipe 323 is communicated with the water tank 321, the other end of the spray pipe 323 is communicated with the sedimentation tank 322, the spray pipe 323 extends into the sedimentation tank 322 and is communicated with a sedimentation spray head 325, and a water pump 324 is arranged on the spray pipe 323.

Referring to fig. 1, the drawing member 31 includes a drawing hood 311, an air pump 312, a first drawing pipe 313 and a second drawing pipe 314, a support plate 11 is fixed on the frame 1 in a vertical direction, the drawing hood 311 is connected to the support plate 11, and the drawing hood 311 is covered right above the spinning machine body 2. The air pump 312 is fixed on the water tank 321, one end of the first pumping pipe 313 is communicated with the pumping cover 311, the other end is communicated with the air pump 312, one end of the second pumping pipe 314 is communicated with one end of the air pump 312 far away from the first pumping pipe 313, and the other end is communicated with the settling tank 322.

When an operator produces the fabric using the textile machine body 2, the operator simultaneously activates the air pump 312 and the water pump 324, and the air pump 312 pumps the flying cotton wadding produced during the fabric production into the first suction pipe 313 through the suction hood 311 and then into the settling tank 322 through the second suction pipe 314. Meanwhile, the water pump 324 conveys water in the water tank 321 to the spraying tank through the spraying pipe 323, the water then settles the flying catkins entering the settling tank 322 through the settling nozzle 325, the flying catkins after contacting with the water drop into the settling tank 322, so that the flying catkins are not easy to fly around in the settling tank 322, the step of clearing the flying catkins by operators with following distraction is reduced, so that the operators can control the textile machine body 2 to produce the fabric more attentively, and the efficiency of the textile machine body 2 to produce the fabric is improved.

Referring to fig. 1, a linear driving mechanism 111 is fixed to the support plate 11 in a vertical direction, and the linear driving mechanism 111 is fixed to a side of the draw-out cover 311 away from the textile machine body 2. In this embodiment, the linear driving mechanism 111 is configured as a screw rod and a motor, the screw rod is rotatably connected to the supporting plate 11, the motor is fixed at one end of the supporting plate 11 far away from the rack 1, and the screw rod is coaxially fixed with the output end of the motor. The draw-out cover 311 is formed in a horn shape, and one end of the draw-out cover 311 having a larger caliber is provided on the side of the draw-out cover 311 close to the textile machine body 2.

When flying cotton is more, the operator starts the linear driving mechanism 111, and the linear driving mechanism 111 drives the extracting cover 311 to move towards the direction of the textile machine body 2, so that the extracting cover 311 can extract flying cotton more stably. Meanwhile, the horn-shaped extraction cover 311 has a large coverage area, so that the possibility of flying cotton fibers drifting around is further reduced, the flying cotton fibers are not easy to influence the quality of the fabric and the health of operators, and the efficiency of controlling the textile machine body 2 to produce the fabric by the operators is improved.

Referring to fig. 1, in order to improve the settling efficiency of the flying cotton in the settling tank 322, one end of the second extraction pipe 314, which is far away from the air pump 312, is communicated with a three-way pipe 35, one side of the three-way pipe 35, which is far away from the second extraction pipe 314, is communicated with the settling tank 322, and at this time, the flying cotton is dispersed under the action of the three-way pipe 35, so that the flying cotton more uniformly enters the settling tank 322. And in the present embodiment, the settling spray heads 325 are provided in three and opposite to the communication of the tee 35 and the settling tank 322. The three-way pipe 35 is matched with the three sedimentation nozzles 325, so that the possibility of sedimentation dead angles of the flying cotton entering the sedimentation tank 322 is reduced, and convenience is further provided for the subsequent cleaning of the flying cotton by operators.

Referring to fig. 1 and 2, in order to further improve the efficiency of cleaning the collected flying cotton by the operator, a slag deposit assembly 4 is arranged in the settling tank 322, and the slag deposit assembly 4 comprises a slag deposit frame 41 and a slag deposit cloth bag 42. The inner wall of the settling tank 322 is provided with a fixing groove 36, the slag storage frame 41 is arranged in the fixing groove 36 and is tightly abutted against the inner wall of the fixing groove 36, the inner ring of the slag storage frame 41 is flush with the inner wall of the settling tank 322, and the slag storage frame 41 is positioned below the communication part of the three-way pipe 35 and the settling tank 322. The slag storage cloth bag 42 is fixed on the inner ring of the slag storage frame 41.

Referring to fig. 2 and 3, a connecting groove 37 is formed on the settling tank 322, the connecting groove 37 is communicated with the fixing groove 36, a door plate 38 is rotatably connected to the connecting groove 37, and the door plate 38 is connected to the settling tank 322 through the fixing member 5. The fixing assembly 5 comprises a fixing plate 51 and a fixing column 52, the fixing plate 51 is connected to the door panel 38, a placing groove 39 is formed in the settling tank 322, the fixing plate 51 is arranged in the placing groove 39, a fixing hole 511 is formed in the fixing plate 51, an abdicating groove 521 communicated with the fixing hole 511 is formed in the bottom of the placing groove 39, the fixing column 52 penetrates through the fixing hole 511 and then is inserted into the abdicating groove 521, and the fixing column 52 is in threaded connection with the inner walls of the fixing hole 511 and the abdicating groove 521.

The flying cotton fibers are contacted with water and settled after entering the settling tank 322, the settled flying cotton fibers fall into the slag storage cloth bag 42, and part of water carried in the flying cotton fibers is filtered by the slag storage cloth bag 42 and then enters the water tank 321 again, so that the water for settling the flying cotton fibers can be recycled by an operator.

After the knitting machine stops working, the operator rotates the fixing post 52 to separate the fixing post 52 from the inner wall of the avoiding groove 521, and the operator rotates the door panel 38 in a direction away from the settling tank 322. After exposing fixed slot 36, operating personnel pulls towards the direction of keeping away from settling tank 322 and deposits sediment frame 41, when depositing sediment frame 41 and settling tank 322 separation, operating personnel can clear up the flying cotton fibre of collection, and the flying cotton fibre after the water sedimentation is difficult for continuing to fly away everywhere, has improved operating personnel's clearance and has deposited the efficiency of sediment sack 42.

Referring to fig. 2 and 4, when the flying wadding that produces in the working process of the textile machine body 2 is more, abdicating holes 6 communicated with the interior of the settling tank 322 are all provided on two side walls of the settling tank 322, and one side of each abdicating hole 6 close to the settling tank 322 is inclined downwards compared with one side far away from the settling tank 322. All sliding connection has one to accept board 7 in each hole of stepping down 6, and each accepts board 7 and all is fixed with a limiting plate 71 in the one side of keeping away from settling tank 322, and when two limiting plates 71 and the lateral wall looks butt that corresponds on the settling tank 322, two accept board 7 keep away from corresponding limiting plate 71 one end looks butt, form the receiving space 72 that is used for depositing the flying cotton fibre after subsiding between the inner wall of two accepting boards 7 and settling tank 322 this moment. The receiving space 72 is located directly above the slag storage frame 41. At this moment, the door plate 38 can be opened by the operator to clean flying catkins in the slag storage cloth bag 42, so that the flying catkins collected by the operator are cleaned in the working process of the textile machine body 2, the action of stopping the textile machine body 2 from working by the operator is reduced, and the efficiency of producing fabrics by the textile machine body 2 is improved.

After the operator cleans the slag-depositing cloth bag 42, the slag-depositing frame 41 is clamped into the fixing groove 36 again, and the operator rotates the door plate 38 toward the direction of the settling tank 322, so that the door plate 38 is clamped into the connecting groove 37. The operator rotates the fixing plate 51 towards the direction of the settling box 322, after the fixing plate 51 is clamped into the placing groove 39, the fixing hole 511 is communicated with the abdicating groove 521, and the operator inserts the fixing column 52 into the fixing hole 511 and the abdicating groove 521 in sequence, so that the fixing column 52 is in threaded connection with the inner walls of the fixing hole 511 and the abdicating groove 521, the fixing of the door panel 38 and the settling box 322 is completed, and the possibility that flying flocs flow out of the settling box 322 from the connecting groove 37 is reduced.

Referring to fig. 2 and 4, two scraping plates 8 are fixed in the settling tank 322, and when an operator cleans the slag-collecting cloth bag 42 in the working process of the textile machine body 2, one ends of the two scraping plates 8 close to the rack 1 are respectively abutted against one bearing plate 7. And all rotate in two holes of stepping down 6 and be connected with a baffle 61, around being equipped with torsional spring 62 on the axis of rotation of baffle 61, the one end of torsional spring 62 is fixed mutually with baffle 61, and the other end is fixed mutually with the inner wall of hole of stepping down 6. When the operator inserts the receiving plate 7 into the settling tank 322 from the corresponding abdicating hole 6, the receiving plate 7 drives the baffle 61 to rotate, and the torsion spring 62 is in a compressed state.

After the flying cotton fibers in the slag storage cloth bag 42 are cleaned by the operator, the operator faces the pulling receiving plate 7 far away from the settling tank 322, at the moment, the flying cotton fibers partially settled drop into the slag storage cloth bag 42 again, and meanwhile, the scraper 8 cleans the residual flying cotton fibers on the receiving plate 7, so that the scraper 8 is not easy to move along with the receiving plate 7 to the settling tank 322. After the receiving plate 7 is separated from the settling tank 322, under the action of the resilience force of the torsion spring 62, the baffle 61 rotates and re-closes the abdicating hole 6, so that the flying cotton transported into the settling tank 322 is not easy to float out of the abdicating hole 6 under the action of the baffle 61.

The implementation principle of the textile machine for producing the moisture absorption breathable type anti-wrinkle fabric in the embodiment of the application is as follows: knitting machine body during operation, the flying cotton fibre that produces when extraction 31 extraction knitting machine body produces the surface fabric, extraction 31 will fly the cotton fibre and carry to settling tank 322 in, water pump 324 carries the water in water tank 321 to settling tank 322 this moment, flying cotton fibre and water contact and production subside, flying cotton fibre after subsiding drops to in depositing sediment sack 42, make the flying cotton fibre that gets into in settling tank 322 be difficult for drifting around, so that operating personnel clears up the flying cotton fibre of collecting, the possibility of operating personnel distraction collection drifting flying cotton fibre has been reduced, make operating personnel control textile machine body 2 production surface fabric comparatively with great concentration, thereby the efficiency of textile machine body 2 production surface fabric has been improved.

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 (9)

1. A weaving machine for producing crease-resistant surface fabric of moisture absorption ventilative type which characterized in that: the textile machine comprises a rack (1), a textile machine body (2) and a lint cleaning assembly (3), wherein the textile machine body (2) is arranged on the rack (1), the lint cleaning assembly (3) comprises a drawing part (31) and a settling part (32), the drawing part (31) is communicated with the settling part (32), the drawing part (31) is arranged right above the textile machine body (2), and the settling part (32) is arranged on one side, far away from the textile machine body (2), of the drawing part (31);

subside piece (32) including water tank (321), settling tank (322) and shower (323), water tank (321) set up in frame (1), settling tank (322) set up on water tank (321) and are linked together with water tank (321), the one end and the settling tank (322) of weaving quick-witted body (2) are linked together in extraction piece (31), the one end and the settling tank (322) of shower (323) are linked together, the other end is linked together with water tank (321), be equipped with water pump (324) on shower (323), shower (323) extend to and link up in settling tank (322) and subside shower nozzle (325).

2. The textile machine for producing moisture-absorbing breathable anti-wrinkle fabric according to claim 1, characterized in that: the extracting part (31) comprises an extracting cover (311), an air pump (312), a first extracting pipe (313) and a second extracting pipe (314), the extracting cover (311) is arranged right above the spinning machine body (2), the air pump (312) is arranged on the rack (1), one end of the first extracting pipe (313) is communicated with the extracting cover (311) and the other end of the first extracting pipe is communicated with the air pump (312), one end of the second extracting pipe (314) is communicated with the air pump (312) and the other end of the second extracting pipe is communicated with the settling tank (322).

3. The textile machine for producing moisture-absorbing breathable anti-wrinkle fabric according to claim 2, characterized in that: one end, far away from the air pump (312), of the second extraction pipe (314) is communicated with a three-way pipe (35), and one end, far away from the second extraction pipe (314), of the three-way pipe (35) is communicated with the settling tank (322).

4. The textile machine for producing moisture-absorbing breathable anti-wrinkle fabric according to claim 2, characterized in that: the frame (1) is provided with a supporting plate (11) along the vertical direction, the supporting plate (11) is provided with a linear driving mechanism (111), and the extraction cover (311) is connected with the linear driving mechanism (111).

5. The textile machine for producing moisture-absorbing breathable anti-wrinkle fabric according to claim 3, characterized in that: the slag storage component (4) is arranged in the settling tank (322), the slag storage component (4) comprises a slag storage frame (41) and a slag storage cloth bag (42), a fixing groove (36) is formed in the inner wall of the settling tank (322), the slag storage frame (41) is arranged in the fixing groove (36), the slag storage cloth bag (42) is connected with the inner wall of the slag storage frame (41), and the communication position of the three-way pipe (35) and the settling tank (322) is arranged on one side, away from the water tank (321), of the slag storage frame (41).

6. The textile machine for producing moisture-absorbing breathable anti-wrinkle fabric according to claim 5, characterized in that: settling tank (322) is last to be seted up spread groove (37), swivelling joint has door plant (38) in spread groove (37), door plant (38) are connected with settling tank (322) through fixed subassembly (5).

7. The textile machine for producing moisture-absorbing breathable anti-wrinkle fabric according to claim 5, characterized in that: offer two holes of stepping down (6) of relative setting on settling tank (322), relative two that set up step down hole (6) and keep away from the equal tilt up setting in the one end that is close to settling tank (322) relatively in the one end of settling tank (322), each it has one to accept board (7), two to accept in hole (6) equal sliding connection board (7) inconsistent and form bearing space (72) with the inner wall of settling tank (322), bearing space (72) set up the one side of keeping away from water tank (321) in sediment frame (41).

8. The textile machine for producing hygroscopic, breathable and wrinkle-resistant fabric according to claim 7, characterized in that: two scraper blades (8) which are oppositely arranged are arranged in the sedimentation box (322), and one end of each scraper blade (8) close to the water tank (321) is correspondingly abutted to one bearing plate (7).

9. The textile machine for producing hygroscopic, breathable and wrinkle-resistant fabric according to claim 7, characterized in that: two all rotate in the hole of stepping down (6) and be connected with baffle (61), around being equipped with torsional spring (62) in the pivot of baffle (61), the one end of torsional spring (62) is connected with baffle (61), and the other end is connected with the inner wall in hole of stepping down (6).

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