阅读说明：本技术 一种自动化纺织设备及控制系统 (Automatic change weaving equipment and control system ) 是由 浠ｈタ 代西 于 2020-04-01 设计创作，主要内容包括：本发明实施例公开了一种自动化纺织设备,包括储浆罩以及安装在储浆罩底部内壁的挤压筒,在所述挤压筒的上方连接有原纱浸入筒,在所述储浆罩的内壁安装有与原纱浸入筒侧壁连接的分离机构,本发明可通过分隔条和隔开块对浸没过浆液的纱线进行分隔,使得相邻的纱线不会出现粘连的现象,即使有结块浆液附着在长丝表面,导致相邻的长丝粘连在一起,当其通过隔开块时也会被迅速分开,使得纱线的质量不会受到影响,同时当原纱浸入筒滚动时,刮除块可随之一起滚动,并将原纱浸入筒表面的浆液刮下,避免出现纱线表面的浆膜被原纱浸入筒表面的浆液黏走导致纱线表面浆液不均匀的情况发生。(The embodiment of the invention discloses automatic spinning equipment, which comprises a pulp storage cover and an extrusion cylinder arranged on the inner wall of the bottom of the pulp storage cover, the invention can separate the yarn immersed with the serosity by a separating strip and a separating block, so that the adjacent yarns can not be adhered, even if there are lumps of the size adhering to the filament surface, causing adjacent filaments to stick together, they are quickly separated as they pass through the spacer, so that the quality of the yarn is not affected, meanwhile, when the raw yarn is immersed in the drum to roll, the scraping block can roll along with the raw yarn, and the slurry of the surface of the raw yarn immersed in the drum is scraped, so that the condition that the slurry on the surface of the yarn is not uniform due to the fact that the serous fluid on the surface of the raw yarn immersed in the drum is adhered to the serous fluid on the surface of the yarn is avoided.)

1. The automatic textile equipment is characterized by comprising a pulp storage cover (1) and an extrusion cylinder (2) arranged on the inner wall of the bottom of the pulp storage cover (1), wherein a raw yarn immersion cylinder (3) is connected above the extrusion cylinder (2), a separation mechanism (4) connected with the side wall of the raw yarn immersion cylinder (3) is arranged on the inner wall of the pulp storage cover (1), and a drying mechanism (5) arranged on the upper surface of the pulp storage cover (1) is arranged at one end, far away from the raw yarn immersion cylinder (3), of the separation mechanism (4);

the separating mechanism (4) comprises a conveying belt (401) arranged in the pulp storage cover (1), the surface of the conveying belt (401) is connected with a plurality of separating strips (402), one end of the conveying belt (401) far away from the drying mechanism (5) is connected with the side wall of the raw yarn immersion cylinder (3), a fixed block (403) connected with the inner wall of the pulp storage cover (1) is arranged above the conveyer belt (401), a connecting frame (404) is arranged on the surface of one side of the fixing block (403) close to the conveying belt (401), a plurality of separating blocks (405) which correspond to the separating strips (402) in position and have triangular cross sections are arranged on the surface of the connecting frame (404), an orthotic block (406) in an isosceles trapezoid structure is arranged between two adjacent separating blocks (405), the said correcting block (406) is located at the end of the said spacer block (405) remote from the raw yarn immersion cylinder (3).

2. The automatic textile equipment according to claim 1, wherein the raw yarn immersion cylinder (3) comprises a fixed main shaft (301) and a connecting rotating sleeve (302) which are arranged on the inner wall of a pulp storage cover (1), a rotating cylinder (303) is sleeved on the outer side of the fixed main shaft (301), two ends of the rotating cylinder (303) are connected with the side wall of the fixed main shaft (301) through the connecting rotating sleeve (302), a plurality of protective grooves (304) corresponding to the positions of the straightening blocks (406) are formed in the outer side wall of the rotating cylinder (303), a pulp guiding through groove (305) is formed in the fixed main shaft (301), an isolation groove (306) is formed in the position, corresponding to the protective groove (304), of the inner side wall of the rotating cylinder (303), a pulp injection column (307) connected with the fixed main shaft (301) is arranged in the isolation groove (306), a pulp injection hole (308) communicated with the pulp guiding through groove (305) is formed in the pulp injection column (307), the inner wall of the isolation groove (306) is provided with a plurality of liquid discharge holes (309) with V-shaped longitudinal sections.

3. The automatic textile equipment according to claim 1, wherein a guide rod (407) is installed on the other side surface of the fixing block (403), a sleeving column (408) is installed at one end, far away from the fixing block (403), of the guide rod (407), a scraping plate (409) is connected to the position, corresponding to the protection groove (304), of the side wall of the sleeving column (408), a plurality of clamping grooves (410) are formed in the side wall of the scraping plate (409), and a scraping block (411) in a V-shaped structure is installed in each clamping groove (410).

4. An automated weaving device according to claim 1, characterized in that the cross section of the dividing strip (402) is in the form of a right-angled triangle.

5. The automatic textile equipment according to claim 1, wherein a raw yarn pressing ring (201) is installed on the side wall of the extrusion cylinder (2) at a position corresponding to the protection groove (304), and the thickness value of the raw yarn pressing ring (201) is set in a linearly decreasing trend from inside to outside.

6. The automatic textile equipment according to claim 1, wherein the drying mechanism (5) comprises a fixing frame (501) installed on the surface of the pulp storage cover (1), a steam cavity (502) is arranged in the fixing frame (501), a pulling rotating shaft (7) is connected to the fixing frame (501), a pressing wheel shaft (503) is arranged above the pulling rotating shaft (7), both ends of the pressing wheel shaft (503) are connected with pressing columns (504) penetrating through the fixing frame (501) to the outer side, a pressing spring (505) which is connected with the fixing frame (501) at the end face and used for pushing the pressing columns (504) to press downwards is sleeved on the side wall of each pressing column (504), a drying frame (506) with a trapezoidal isosceles-shaped longitudinal section is installed on one side of the fixing frame (501) far away from the raw yarn immersion cylinder (3), and a spiral heating pipe (507) is arranged in the drying frame (506), the one end that stoving frame (506) are close to mount (501) is installed and is separated board (6), just former yarn pinch roller set (508) is installed to the other end of stoving frame (506).

7. The automatic textile equipment according to claim 6, wherein the partition plate (6) comprises a partition plate (601) installed in a drying rack (506), a through groove (602) is formed in the partition plate (601), and a plurality of partition strips (603) with triangular cross sections are installed in the through groove (602) at equal intervals.

8. The automatic textile equipment according to claim 6, wherein the pulling rotating shaft (7) comprises a pulling shaft (701) rotatably connected to the fixing frame (501), a plurality of arc-shaped ring grooves (702) are formed in the side wall of the pulling shaft (701) at equal intervals, and a plurality of pressing blocks (509) are installed on the side wall of the pressing column (504) corresponding to the arc-shaped ring grooves (702).

9. A control system of automatic textile equipment is characterized by comprising a central processing unit, a heating module, a size storage cover (1), a yarn wheel shaft module, a monitoring module, a yarn separating module and a drying module, wherein the drying module is arranged on the upper surface of the size storage cover (1);

the heating module is used for heating the size in the size storage cover (1) so that the base yarn is more easily adhered by the size;

the yarn wheel shaft module is used for driving the raw yarn to be immersed in the slurry and extruding the raw yarn to enable the slurry to fully permeate into the raw yarn so as to enable fibers on the yarn to be bonded together, thereby improving the strength of the yarn, meanwhile, the slurry is controlled to be sprayed out of the yarn wheel so as to enable the slurry attached to the yarn to be more uniform, the slurry attached to the surface of the lower yarn wheel is washed, and then the yarn is conveyed to the yarn separation module;

the yarn separating module is used for separating the raw yarns covered with the slurry on the surface so as to prevent adjacent yarns from being adhered to each other, and then transmitting the separated yarns to the drying module;

the drying module is used for drying the yarns transmitted by the yarn separating module so as to enable the serous fluid on the surfaces of the yarns to be solidified into serous membranes and to cover the surfaces of the yarns, thereby facilitating the subsequent weaving operation;

the monitoring module is used for monitoring the temperature of the heated slurry and the temperature of the drying module;

the central processing unit is used for controlling the opening and closing of the heating module, the yarn wheel shaft module, the monitoring module, the yarn separating module and the drying module.

10. The control system of the automatic textile equipment is characterized in that the heating module is a steam heating pipe which is spirally sleeved on the side wall of the pulp storage cover (1).

Technical Field

The embodiment of the invention relates to the field of spinning, in particular to automatic spinning equipment and a control system.

Background

Textile equipment is the various mechanical equipment required for processing natural fibers or chemical fibers into textiles. Textile machines in the broadest sense also include chemical machines that produce chemical fibers. Textile machines are the production means and material bases of the textile industry, the technical level, quality and manufacturing costs of which are directly related to the development of the textile industry.

Common weaving equipment is more in the existing market, wherein the most important step during weaving is thick liquid silk equipment, and thick liquid silk device is when carrying out the starching operation to the filament, in case the thick liquid of the longer dressing trough of operating time can be attached to the surface of mud jacking roller, because of the thick liquid is comparatively thick, after the filament process mud jacking roller, the thick liquid of filament surface part is very easily glued away by the thick liquid on mud jacking roller surface and leads to filament surface thick liquid inhomogeneous, the partial caking thick liquid on mud jacking roller surface can be attached to the filament surface when serious, lead to adjacent filament adhesion together, thereby the cracked condition of filament very easily appears.

Disclosure of Invention

Therefore, the embodiment of the invention provides automatic textile equipment and a control system, and aims to solve the problems that in the prior art, due to the fact that slurry in a slurry tank is attached to the surface of a squeezing roller for a long time, and the slurry is thick, when filaments pass through the squeezing roller, a slurry film on the surface of each filament is easily adhered by the slurry on the surface of the squeezing roller, the slurry on the surface of each filament is uneven, and if the filaments are serious, part of agglomerated slurry on the surface of the squeezing roller is attached to the surface of each filament, so that adjacent filaments are adhered together, and therefore the filaments are easy to break.

In order to achieve the above object, an embodiment of the present invention provides the following:

an automatic spinning device comprises a pulp storage cover and an extrusion cylinder arranged on the inner wall of the bottom of the pulp storage cover, wherein a raw yarn immersion cylinder is connected above the extrusion cylinder, a separation mechanism connected with the side wall of the raw yarn immersion cylinder is arranged on the inner wall of the pulp storage cover, and a drying mechanism arranged on the upper surface of the pulp storage cover is arranged at one end, far away from the raw yarn immersion cylinder, of the separation mechanism;

separating mechanism is including installing at the inside conveyer belt that stores up the thick liquid cover the surface connection of conveyer belt has a plurality of parting bead, just the conveyer belt keep away from drying mechanism one end with raw yarn soaks a section of thick bamboo lateral wall and connects the top of conveyer belt is equipped with and stores up thick liquid cover inner wall connection's fixed block, one side surface mounting that the fixed block is close to the conveyer belt has the link the surface mounting of link has a plurality of and the parting bead position to correspond and the transversal partition piece of personally submitting the triangle-shaped structure, adjacent two separate and install the position correction piece that is isosceles trapezoid structure between the piece, the position correction piece is located separate the one end that the raw yarn soaks a section of thick bamboo of keeping away from of piece.

As a preferred scheme of the invention, the raw yarn immersion cylinder comprises a fixed main shaft and a connecting rotating sleeve which are arranged on the inner wall of a pulp storage cover, a rotating cylinder is sleeved on the outer side of the fixed main shaft, two ends of the rotating cylinder are connected with the side wall of the fixed main shaft through the connecting rotating sleeve, a plurality of protective grooves corresponding to the positions of the straightening blocks are formed in the outer side wall of the rotating cylinder, a pulp guiding through groove is formed in the fixed main shaft, an isolation groove is formed in the position, corresponding to the protective grooves, of the inner side wall of the rotating cylinder, a grouting column connected with the fixed main shaft is arranged in the isolation groove, a grouting hole communicated with the pulp guiding through groove is formed in the grouting column, and a plurality of liquid discharging holes with V-shaped longitudinal sections are formed in the inner wall of the isolation groove.

As a preferable scheme of the invention, a guide rod is installed on the surface of the other side of the fixed block, a sleeve column is installed at one end of the guide rod, which is far away from the fixed block, a scraping plate is connected to a position, corresponding to the protective groove, of the side wall of the sleeve column, a plurality of embedding slots are formed in the side wall of the scraping plate, and scraping blocks in a V-shaped structure are installed in the embedding slots.

As a preferable scheme of the invention, the cross section of the separating strip is in a right-angled triangle structure.

As a preferable scheme of the invention, a raw yarn pressing ring is installed at a position, corresponding to the protective groove, on the side wall of the extrusion cylinder, and the thickness value of the raw yarn pressing ring is set in a linearly decreasing trend from inside to outside.

As a preferred scheme of the invention, the drying mechanism comprises a fixed frame arranged on the surface of the pulp storage cover, a steam cavity is arranged in the fixed frame, a pulling rotating shaft is connected to the fixed frame, a pressing wheel shaft is arranged above the pulling rotating shaft, two ends of the pressing wheel shaft are both connected with pressing columns penetrating through the fixed frame to the outer side, pressing springs are sleeved on the side walls of the pressing columns, the end faces of the pressing springs are connected with the fixed frame and used for pushing the pressing columns to press downwards, a drying frame with an isosceles trapezoid-shaped longitudinal section is arranged on one side of the fixed frame far away from a raw yarn immersion barrel, spiral heating pipes are arranged in the drying frame, a partition plate is arranged at one end of the drying frame close to the fixed frame, and a raw yarn clamping wheel set is arranged at the other end of the drying frame.

As a preferable scheme of the invention, the partition plate comprises a partition plate installed in the drying rack, a through groove is formed in the partition plate, and a plurality of partition strips with triangular cross sections are installed in the through groove at equal intervals.

As a preferable scheme of the present invention, the pulling rotating shaft includes a pulling shaft rotatably connected to the fixing frame, a plurality of arc-shaped ring grooves are formed in the side wall of the pulling shaft at equal intervals, and a plurality of pressing blocks are installed at positions of the side wall of the pressing column corresponding to the arc-shaped ring grooves.

A control system of automatic textile equipment comprises a central processing unit, a heating module, a size storage cover, a yarn wheel shaft module, a monitoring module, a yarn separating module and a drying module, wherein the drying module is arranged on the upper surface of the size storage cover;

the heating module is used for heating the size in the size storage cover so that the base yarn is more easily adhered by the size;

the yarn wheel shaft module is used for driving the raw yarn to be immersed in the slurry and extruding the raw yarn to enable the slurry to fully permeate into the raw yarn so as to enable fibers on the yarn to be bonded together, thereby improving the strength of the yarn, meanwhile, the slurry is controlled to be sprayed out of the yarn wheel so as to enable the slurry attached to the yarn to be more uniform, the slurry attached to the surface of the lower yarn wheel is washed, and then the yarn is conveyed to the yarn separation module;

the yarn separating module is used for separating the raw yarns covered with the slurry on the surface so as to prevent adjacent yarns from being adhered to each other, and then transmitting the separated yarns to the drying module;

the drying module is used for drying the yarns transmitted by the yarn separating module so as to enable the serous fluid on the surfaces of the yarns to be solidified into serous membranes and to cover the surfaces of the yarns, thereby facilitating the subsequent weaving operation;

the monitoring module is used for monitoring the temperature of the heated slurry and the temperature of the drying module;

the central processing unit is used for controlling the opening and closing of the heating module, the yarn wheel shaft module, the monitoring module, the yarn separating module and the drying module.

As a preferable scheme of the invention, the heating module is a steam heating pipe which is spirally sleeved and connected with the side wall of the pulp storage cover.

The embodiment of the invention has the following advantages:

the yarn immersed with the sizing agent can be separated through the separating strip and the separating block, so that the adjacent yarns cannot be adhered, even if caked sizing agent is attached to the surfaces of the filaments to cause the adjacent filaments to be adhered together, the adjacent filaments can be quickly separated when passing through the separating block, the quality of the yarn cannot be influenced, and meanwhile, when the raw yarn is immersed into the cylinder to roll, the scraping block can roll along with the raw yarn and scrape the sizing agent immersed into the surface of the cylinder, so that the condition that the sizing agent on the surface of the yarn is not uniform due to the fact that a size film on the surface of the yarn is adhered by the sizing agent immersed into the surface of the cylinder by the raw yarn is avoided;

the invention can also spray the slurry from the grouting column to the outside to achieve the purpose of washing the slurry attached to the surface of the raw yarn immersion cylinder, thereby further reducing the uneven coating probability of the slurry on the surface of the yarn, and meanwhile, when the filament after the slurry is dried, the filament can be dried only by being isolated again by the separating plate, thereby avoiding the phenomenon that the yarn is adhered due to the shaking and the like in the drying process of the yarn.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

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

FIG. 2 is a top view of a spacer block according to an embodiment of the present invention;

FIG. 3 is a schematic view of a conveyor belt according to an embodiment of the invention;

FIG. 4 is a top partial cross-sectional view of a spin basket according to an embodiment of the present invention;

FIG. 5 is a top view of a socketed column in accordance with an embodiment of the present invention;

FIG. 6 is a left side view of a pull shaft according to an embodiment of the present invention;

FIG. 7 is a top partial cross-sectional view of a partition plate according to an embodiment of the present invention.

In the figure:

1-a pulp storage cover; 2-extruding a container; 3-immersion of the raw yarn in a cylinder; 4-a separation mechanism; 5-a drying mechanism; 6-a partition plate; 7-pulling the rotating shaft; 201-raw yarn pressing ring;

301-fixing the main shaft; 302-connecting a rotating sleeve; 303-rotating the drum; 304-a guard trench; 305-slurry guiding through groove; 306-an isolation slot; 307-grouting column; 308-liquid injection hole; 309-drain hole;

401-a conveyor belt; 402-a separator bar; 403-fixing block; 404-a connecting frame; 405-a spacer block; 406-an orthotic block; 407-a guide bar; 408-a sleeving connection column; 409-scraping disc; 410-embedding card slot; 411-scraping block;

501-a fixing frame; 502-steam chamber; 503-a pinch roller shaft; 504-pressing the column; 505-a pressing spring; 506-drying rack; 507-heating pipes; 508-original yarn pinch roller set; 509-briquetting;

601-a separator; 602-passing through the slot; 603-separating strips;

701-pulling and pulling a shaft; 702-an arcuate ring groove.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. 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.

As shown in fig. 1, the present invention provides an automatic spinning apparatus which can separate yarns immersed in a slurry by a separation bar 402 and a separation block 405 so that adjacent yarns do not stick together, and when a raw yarn is rolled in a drum 3, a scraping block 411 can be rolled together and scrape off the slurry immersed in the surface of the drum 3; and still can be through outwards spouting the thick liquid from slip casting post 307 to the mesh of the thick liquid that realizes scouring raw yarn immersion cylinder 3 surface adhesion, when long filament after the thick liquid is accomplished is dried, can be kept apart once more by partition plate 6 and just can accomplish the stoving operation simultaneously, so just avoided the yarn to appear rocking the condition emergence that leads to the yarn adhesion in the stoving process, the yarn can pass through stoving frame 506 when drying simultaneously, because of stoving frame 506 is the isosceles trapezoid structure, so the thick liquid on yarn surface can not appear drying too fast easily thereby the condition such as fracture appears.

The equipment comprises a pulp storage cover 1 and an extrusion cylinder 2 arranged on the inner wall of the bottom of the pulp storage cover 1, wherein the two extrusion cylinders 2 are preferably selected, a raw yarn immersion cylinder 3 is connected to the upper part of the extrusion cylinder 2, a separating mechanism 4 connected with the side wall of the raw yarn immersion cylinder 3 is arranged on the inner wall of the pulp storage cover 1, and a drying mechanism 5 arranged on the upper surface of the pulp storage cover 1 is arranged at one end, far away from the raw yarn immersion cylinder 3, of the separating mechanism 4.

When the device is used, the yarn can directly pass through the space between the extrusion barrel 2 and the raw yarn immersion barrel 3, then the yarn passes through the separation mechanism 4, and finally the separated yarn is introduced into the drying mechanism 5 for drying operation.

As shown in fig. 1, 2, 3 and 4, the separating mechanism 4 includes a conveyor belt 401 installed inside the slurry storage cover 1, a plurality of separating strips 402 are connected to the surface of the conveyor belt 401, one end of the conveyor belt 401 far from the drying mechanism 5 is connected to the side wall of the raw yarn immersion cylinder 3, a fixing block 403 connected to the inner wall of the slurry storage cover 1 is arranged above the conveyor belt 401, a connecting frame 404 is installed on the surface of one side of the fixing block 403 close to the conveyor belt 401, a plurality of separating blocks 405 corresponding to the separating strips 402 and having a triangular cross section are installed on the surface of the connecting frame 404, a position correcting block 406 having an isosceles trapezoid structure is installed between two adjacent separating blocks 405, and the position correcting block 406 is located at one end of the separating block 405 far from the raw yarn immersion cylinder 3.

The separating mechanism 4 can realize the operation of separating the yarns, and in the specific implementation, once the yarns immersed with the slurry are brought to the conveyer belt 401 by the raw yarn immersion cylinder 3, the yarns can directly move against the conveyer belt 401, because the surface of the conveyer belt 401 is connected with the separating strips 402, and the cross section of the separating strips 402 is in a right-angled triangle structure, the yarns can be separated by the separating strips 402 when moving along the conveyer belt 401 (for example, when the yarns adhered together contact the separating strips 402, the yarns are separated by the separating strips 402, the yarns slide along the inclined surfaces of the separating strips 402, then the gap between the adjacent yarns is larger, the yarns are not adhered again after separation occurs), so that the adjacent yarns are not adhered together, and then when the yarns are carried to move by the conveyer belt 401, the yarns are separated by the separating blocks 405 and are corrected by the correcting blocks 406, so as to be always positioned between the adjacent separating strips 402, thereby avoiding the occurrence of yarn movement and consequently yarn blocking.

As shown in fig. 1 and 4, the base yarn immersion cylinder 3 includes a fixed spindle 301 and a connecting rotary sleeve 302 mounted on the inner wall of the slurry storage cover 1, a rotary cylinder 303 is sleeved on the outer side of the fixed spindle 301, both ends of the rotary cylinder 303 are connected with the side wall of the fixed spindle 301 through the connecting rotary sleeve 302, a plurality of protective grooves 304 corresponding to the positions of the straightening blocks 406 are formed on the outer side wall of the rotary cylinder 303, a slurry guiding through groove 305 is formed inside the fixed spindle 301, an isolation groove 306 is formed at the position of the inner side wall of the rotary cylinder 303 corresponding to the protective groove 304, a slurry injection column 307 connected with the fixed spindle 301 is arranged in the isolation groove 306, a slurry guiding through groove 305 is formed inside the slurry injection column 307, and a plurality of liquid discharge holes 309 having a V-shaped longitudinal section are formed on the inner wall of the isolation groove 306.

The raw yarn immersion cylinder 3 can not only limit the yarn, but also spray the slurry from the inside, thereby achieving the purpose of washing the slurry attached to the surface of the raw yarn immersion cylinder 3, when the raw yarn immersion cylinder 3 is implemented, a plurality of yarns can be directly inserted into the protective groove 304 on the side wall of the rotary cylinder 303 (the position of the protective groove 304 corresponds to the position correcting block 406, namely the yarn in the protective groove 304 is positioned between two adjacent separating strips 402 on the conveying belt 401 after being led out), then the connecting rotary sleeve 302 can be driven to rotate by a driver (such as a motor or a belt), the connecting rotary sleeve 302 can drive the rotary cylinder 303 to rotate on the outer side wall of the fixed main shaft 301 after rotating, then after the rotary cylinder 303 rotates, the yarn in the protective groove 304 can be led into the conveying belt 401, because the slurry can be attached to the side wall of the rotary cylinder 303 in the long-term use process, in order that the slurry thickness on the surface of the yarn cannot be affected, therefore, the slurry can be discharged through the slurry guiding through groove 305 inside the fixed main shaft 301.

When the rotating cylinder 303 sprays the slurry from inside to outside, the slurry is directly sprayed by the high-pressure pump, when the rotating cylinder 303 is implemented, the output end of the high-pressure pump is directly communicated with the slurry guiding through groove 305, the slurry filled into the slurry guiding through groove 305 directly enters a plurality of slurry injecting columns 307, the slurry in the slurry injecting columns 307 is introduced into the isolation groove 306 through the liquid injecting holes 308, and the slurry introduced into the isolation groove 306 directly enters the liquid discharging holes 309 because the liquid discharging holes 309 are formed in the isolation groove 306 (because the end parts of the slurry injecting columns 307 are connected with the inner wall of the isolation groove 306, the liquid obtained in the slurry injecting columns 307 directly enters the liquid discharging holes 309 because the liquid discharging holes 309 are in a V-shaped structure in the longitudinal section, the slurry introduced into the liquid discharging holes 309 impacts the surface of the yarn in the isolation groove 306 at a higher speed, and the slurry discharged by the impact impacts the extruding cylinder 2, so that the slurry returns to the slurry attached to the outer side wall of the rotating cylinder 303, so that the serous fluid on the side wall of the rotary cylinder 303 can not cause influence on the serous fluid on the surface of the yarn, and simultaneously, because the rotary cylinder 303 is rotary, the grouting column 307 can be always attached to the inner wall of the isolation groove 306, so that the discharged serous fluid can wash the whole outer side wall of the rotary cylinder 303.

As shown in fig. 1 and 5, a guide rod 407 is mounted on the other side surface of the fixing block 403, a sleeve connection column 408 is mounted at one end of the guide rod 407, which is far away from the fixing block 403, a scraping plate 409 is connected to a position where the side wall of the sleeve connection column 408 corresponds to the protection groove 304, a plurality of embedding grooves 410 are formed in the side wall of the scraping plate 409, and scraping blocks 411 in a V-shaped structure are mounted in the embedding grooves 410.

When the rotary cylinder 303 rotates, the scraping plate 409 is driven by the rotary cylinder 303 to rotate around the circumference of the sidewall of the sleeve column 408, and then the scraping block 411 scrapes off the slurry attached to the sidewall of the rotary cylinder 303 once the scraping plate 409 rotates.

The lateral wall of recipient 2 corresponds position department with protection groove 304 and installs base yarn clamping ring 201, the thickness numerical value of base yarn clamping ring 201 is the linear degressive trend setting from inside to outside, so set up recipient 2, be after the protection groove 304 is gone into in order to make the yarn card, can be pushed down by base yarn clamping ring 201, and can not break away from protection groove 304, avoid the yarn adhesion, the yarn that is pressed simultaneously can make thick liquids can further get into inside the yarn, and the thickness of base yarn clamping ring 201 so sets up, thereby it is inside to be in protection groove 304 all the time to make the yarn that is in protection groove 304 can be promoted by base yarn clamping ring 201.

As shown in fig. 1 and 6, drying mechanism 5 is including installing mount 501 on storing up thick liquid cover 1 surface be provided with steam chamber way 502 in the mount 501, and be connected with on the mount 501 and pull pivot 7, the top of pulling pivot 7 is provided with pinch roller axle 503, pinch roller axle 503's both ends all are connected with the pressing post 504 that runs through mount 501 to the outside press the post 504 the lateral wall cover of pressing post 504 is equipped with the terminal surface and is connected with mount 501 and is used for promoting the pressing spring 505 that presses post 504 to push down, the drying rack 506 that the longitudinal section is isosceles trapezoid structure is installed to one side that raw yarn immersion tube 3 was kept away from to mount 501 be provided with in the drying rack 506 and is the heliciform heating pipe 507, the one end that drying rack 506 is close to mount 501 is installed and is separated board 6, just raw yarn presss from both sides wheelset 508 is installed to the other end of drying rack 506.

The drying mechanism 5 is to dry the yarn covered with slurry, when it is implemented, the yarn is directly passed through the pulling shaft 7, and the pressing shaft 503 is put down, so that the pressing column 504 is pushed by the pressing shaft 503 and the pressing spring 505 to descend, then the yarn is fixed, at this time, steam can be injected into the steam cavity channel 502 to wet the pulling shaft 7, when the yarn passes through the pulling shaft 7, the slurry on the yarn surface can not be attached to the pulling shaft 7, then the yarn passes through the separating plate 6 and the drying rack 506, and then passes through the original yarn clamping wheel set 508, at this time, the pulling shaft 7 and the original yarn clamping wheel set 508 can fix both ends of the yarn, when the yarn passes through the drying rack 506, because the longitudinal section of the drying rack 506 is in an isosceles trapezoid structure and the spiral heating pipe 507 (high heat medium such as high temperature steam can pass through the inside of the heating pipe 507) is arranged inside, therefore, the heat in the yarn is gradually increased from left to right (taking fig. 1 as an example, the smaller the caliber is, the more the internal heat is gathered), that is, the situation that the slurry on the surface of the yarn is dried too fast to cause cracks and the like is avoided, and the slurry does not contact other objects in the drying process, so that the integrity of the slurry film on the surface of the yarn is greatly ensured.

As shown in fig. 7, the partition plate 6 includes a partition plate 601 installed in the drying rack 506, a through groove 602 is opened on the partition plate 601, a plurality of partition strips 603 with a triangular cross section are installed in the through groove 602 at equal intervals, and the partition plate 6 is used for further partitioning yarns, so that the yarn adhesion caused by shaking during the drying process is avoided.

As shown in fig. 6, the pulling shaft 7 includes a pulling shaft 701 rotatably connected to the fixing frame 501, a plurality of arc-shaped ring grooves 702 are formed on a side wall of the pulling shaft 701 at equal intervals, a plurality of pressing blocks 509 are installed at positions corresponding to the arc-shaped ring grooves 702 on a side wall of the pressing column 504, when the yarn passes through the pulling shaft 701, the yarn can be separated by the arc-shaped ring grooves 702, and then when the pressing column 504 descends, the pressing blocks 509 can press the yarn, so that the purpose of fixing the yarn at one end of the drying frame 506 is achieved, and the other end of the drying frame 506 is fixed by the raw yarn clamping wheel set 508.

A control system of automatic textile equipment comprises a central processing unit, a heating module, a size storage cover 1, a yarn wheel shaft module, a monitoring module, a yarn separating module and a drying module, wherein the drying module is arranged on the upper surface of the size storage cover 1;

the heating module is used for heating the size in the size storage cover 1 so that the base yarn is more easily adhered by the size;

the yarn wheel shaft module is used for driving the raw yarn to be immersed in the slurry and extruding the raw yarn to enable the slurry to fully permeate into the raw yarn so as to enable fibers on the yarn to be bonded together, thereby improving the strength of the yarn, meanwhile, the slurry is controlled to be sprayed out of the yarn wheel so as to enable the slurry attached to the yarn to be more uniform, the slurry attached to the surface of the lower yarn wheel is washed, then the yarn is conveyed to the yarn separation module, and the yarn wheel shaft module can control the wheel shaft to rotate and the slurry spraying operation;

the yarn separating module is used for separating the raw yarns covered with the slurry on the surface so as to prevent adjacent yarns from being adhered to each other, and then transmitting the separated yarns to the drying module;

the drying module is used for drying the yarns transmitted by the yarn separating module so as to enable the serous fluid on the surfaces of the yarns to be solidified into serous membranes and to cover the surfaces of the yarns, thereby facilitating the subsequent weaving operation;

the monitoring module is used for monitoring the temperature of the heated slurry and the temperature of the drying module;

the central processing unit is used for controlling the opening and closing of the heating module, the yarn wheel shaft module, the monitoring module, the yarn separating module and the drying module.

The heating module is a steam heating pipe which is spirally sleeved on the side wall of the pulp storage cover 1, so that the heating is more uniform, and the condition of too fast heating can not occur.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.