CN113756021B

CN113756021B - Intelligent production equipment and production method for crepe-foam tissue fabric fibers

Info

Publication number: CN113756021B
Application number: CN202111115335.4A
Authority: CN
Inventors: 徐金兰; 王星华; 郭建洋; 罗艳; 刘小南
Original assignee: Jiangsu Dehua Textiles Co ltd
Current assignee: Jiangsu Dehua Textiles Co ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2022-07-12
Anticipated expiration: 2041-09-23
Also published as: CN113756021A; KR102484469B1

Abstract

The invention discloses an intelligent production device and a production method for crepe tissue fabric fibers, which comprise a main body bin, wherein a processing bin is arranged at one side in the main body bin, a first drying bin and a second drying bin are respectively arranged at the top and the bottom of the other side in the main body bin, supporting columns are symmetrically arranged at four corners of the bottom of the main body bin, a bottom plate is jointly arranged at the bottoms of the inner sides of four groups of supporting columns, and an air outlet bin door is arranged at one end of the first drying bin. According to the invention, through the matching use of the soaking component, the processing bin and the crumpling component, the servo motor is controlled to drive the two eccentric wheels to rotate, and the movable guide roller is forced to swing back and forth inside the soaking pool by the matching of the rotating wheel and the eccentric wheels, so that the fiber fabric also continuously swings inside the soaking pool, thereby greatly improving the contact effect of the fabric fiber and the liquid medicine inside the soaking pool, shortening the time for the fabric fiber to pass through the liquid medicine, and improving the overall production efficiency of the equipment.

Description

Intelligent production equipment and production method for crepe-foam tissue fabric fibers

Technical Field

The invention relates to the technical field of production and processing of crepe fabrics, in particular to intelligent production equipment and a production method of crepe fabric fibers.

Background

The crepe fabric is a thin pure cotton or cotton fabric in concave-convex crepe, has the advantages of unique appearance, light and thin texture, no sticking when being worn, coolness and comfort, no need of ironing after washing and the like, is suitable for being used as children clothes, women shirts, dress, night clothes and the like, and is a piece of fashion clothing which is not worn in summer for people; meanwhile, with the attack of Korean flow, the crepe fabric is new and fashionable in summer, and products comprise beautiful and comfortable overskirts for women, outskirts for suits, short-sleeve shirts for men and the like.

When the conventional equipment for producing the crepe tissue fabric fibers is used, the fabric fibers usually directly pass through a liquid medicine pool, so that the time of the fabric fibers passing through liquid medicine cannot be further shortened in order to ensure the effect of the liquid medicine on the fabric fibers, and the efficiency of soaking the liquid medicine in the fabric fibers cannot be rapidly and effectively improved, so that the efficiency of producing the crepe tissue fabric fibers by using the whole device is reduced; when the conventional equipment for producing the crepe tissue fabric fibers is used, in order to ensure the drying effect on the crepe tissue fabric fibers, the drying bin is often longer, so that the occupied area of the whole equipment is increased, the equipment is inconvenient to transport, the occupied area of the equipment cannot be further reduced while the drying effect of the equipment on the crepe tissue fabric fibers is ensured, and the drying efficiency of the equipment is improved; meanwhile, when the soaked crepe tissue fabric fibers are cleaned by the conventional production equipment for the crepe tissue fabric fibers, the crepe tissue fabric fibers are usually directly sent into a cleaning pool to be cleaned, so that the effect and efficiency of the equipment on cleaning the crepe tissue fabric fibers are reduced, the utilization effect of the equipment on water resources cannot be further improved, and the waste of the water resources is easily caused.

Disclosure of Invention

The invention aims to provide intelligent production equipment and a production method for fibers of a crepe tissue fabric, so as to solve the related problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the intelligent production equipment for the crepe tissue fabric fibers comprises a main body bin, wherein a processing bin is arranged on one side inside the main body bin, a first drying bin and a second drying bin are respectively arranged at the top and the bottom of the other side inside the main body bin, supporting columns are symmetrically arranged at the positions of four corners of the bottom of the main body bin, a bottom plate is jointly arranged at the bottoms of the inner sides of four groups of supporting columns, an air outlet bin door is arranged at one end of the first drying bin, air outlets are uniformly formed in the outer side of the air outlet bin door, two groups of outer guide rollers which are mutually matched are respectively arranged at the bottoms of two sides of the main body bin, two groups of inner guide rollers which are mutually matched are symmetrically arranged at the bottoms of two sides inside the main body bin, crumpling components are jointly arranged at the tops of two ends inside the processing bin, soaking components are jointly arranged at the inner bottom of the processing bin and the top of the bottom plate, and drying components are jointly arranged inside the first drying bin and the second drying bin, a cleaning assembly is arranged on one side, far away from the processing bin, of the top of the bottom plate, a steering guide roller is arranged on one side, close to the processing bin, of the interior of the second drying bin, and a control panel is arranged at the bottom of one end, close to the air outlet bin door, of the processing bin;

the drying component comprises an air heater, a first guide roller, air injection holes, ceramic heating lamps, conveying pipes, first connecting pipes, second connecting pipes, mounting pipes and a first spray head, wherein five groups of first guide rollers are jointly arranged on two sides of the interior of the first drying bin, the ceramic heating lamps are evenly mounted at the inner bottom of the first drying bin, the air heater is mounted at the top of the first drying bin, the conveying pipes are mounted at the output end of the air heater, four groups of first connecting pipes and a group of second connecting pipes are respectively mounted on the outer sides of the conveying pipes, the air injection holes communicated with the interior of the first connecting pipes are evenly formed in one end, close to the first connecting pipes, of the interior of the first drying bin, the mounting pipes are evenly mounted at the inner top of the second drying bin, the first spray heads are evenly mounted on the outer sides of the mounting pipes, one ends, close to the second connecting pipes, of the mounting pipes are communicated with the interior of the second connecting pipes, the control panel is electrically connected with the air heater through a lead.

Preferably, the dipping component comprises a dipping pool, a fourth guide roller, a movable guide roller, a rotating rod, a fifth guide roller, a rotating wheel, an eccentric wheel, a sliding block, a sliding groove, a buffer spring and a servo motor, wherein the dipping pool is installed at one side of the top of the bottom plate close to the processing bin, the fourth guide roller is symmetrically arranged at the bottom of the dipping pool, the sliding groove is symmetrically arranged at the top of the two ends of the dipping pool, the sliding block is arranged in the sliding groove, the buffer spring is installed at one end, far away from the sliding block, of the inside of the sliding groove, one end, close to the sliding block, of the buffer spring is fixedly connected with the sliding block, the movable guide roller is jointly arranged at the inner sides of the two groups of sliding blocks, the sliding block is penetrated through the two ends of the movable guide roller and the rotating wheel is installed, the rotating rod is jointly arranged at the tops of the two ends of the dipping pool, and the eccentric wheels matched with the rotating wheel are all installed at the two ends of the rotating rod, one side that the bottom is close to the second stoving storehouse in the processing storehouse is provided with two sets of fifth guide rolls of mutually supporting, the bottom that control panel one end one side was kept away from in the processing storehouse is installed the servo motor who is connected with fifth guide roll and dwang transmission, control panel passes through the wire and is connected with the servo motor electricity.

Preferably, the cleaning assembly comprises a first water pump, a second cleaning bin, a second water pump, a first cleaning bin, a second guide roller, a U-shaped pipe, a second spray head, a mountain-shaped pipe, a third guide roller and a water squeezing guide roller, the first cleaning bin is installed at the middle position of the top of the bottom plate, the second water pump is installed on one side, away from the processing bin, of the first cleaning bin, the second cleaning bin is installed on one side, away from the processing bin, of the top of the bottom plate, the first water pump is installed on one side, away from the first cleaning bin, of the top of the bottom plate, the third guide roller is arranged on two sides of the interior of the second cleaning bin, two groups of water squeezing guide rollers which are matched with each other are arranged on the top of one side, close to the first cleaning bin, of the two ends of the interior of the second cleaning bin are symmetrically installed with the mountain-shaped pipes, the output end of the first water pump is respectively communicated with the interiors of the two groups of the mountain-shaped pipes, the inside bilateral symmetry in one-level washing storehouse is provided with the second guide roll, U type pipe is installed to the inside both ends symmetry in one-level washing storehouse, and the outside of U type pipe and "mountain" word venturi tube all evenly installs the second shower nozzle, the input of second water pump and the inside intercommunication in second grade washing storehouse, the output of second water pump communicates with the inside of two sets of U type pipes respectively, control panel passes through the wire and is connected with first water pump and second water pump electricity respectively.

Preferably, the crumpling component comprises a driving motor, a crumpling guide roller and a square frame, the square frame is installed at the tops of the two ends in the processing bin together, two sets of crumpling guide rollers matched with each other are arranged in the square frame, a second driving motor is installed at the top of one end of the processing bin far away from the control panel, and the output end of the second driving motor is fixedly connected with one end of the adjacent set of crumpling guide roller.

Preferably, the interior bottom of second grade cleaning bin and second water pump is all by keeping away from one side of second water pump downward sloping gradually to the opposite side, the input of second water pump and the inside bottom intercommunication of keeping away from first water pump one side in second grade cleaning bin, the drain valve is installed to the bottom that one end of one-level cleaning bin is close to second water pump one side.

Preferably, the inside one side that is close to the processing storehouse in second stoving storehouse is installed the baffle, the strip mouth has been seted up to the one end that the bottom is close to the processing storehouse in the second stoving storehouse, the deflector is installed to one side that the second stoving storehouse bottom is close to the strip mouth.

Preferably, the belt pulley is all installed to the dwang one end that is close to servo motor and servo motor's output, and the outside of two sets of belt pulleys is provided with driving belt jointly.

Preferably, the one end that second stoving storehouse and processing storehouse are close to the door of giving vent to anger all articulates there is supplementary door, and the handle is all installed in the outside of supplementary door.

Preferably, the bottom of one side of the first drying bin far away from the processing bin is provided with an installation frame, and the inner side of the installation frame is uniformly provided with fans.

Preferably, the use method of the intelligent production equipment for the crepe tissue fabric fibers comprises the following steps:

firstly, enabling common fiber fabric to sequentially pass through a first group of outer guide rollers, a first group of inner guide rollers, a first group of fourth guide rollers, a movable guide roller, a second group of fourth guide rollers, a fifth guide roller, a crumpling component, five groups of first guide rollers, two groups of second guide rollers, two groups of third guide rollers, a water squeezing guide roller, a steering guide roller, a second group of inner guide rollers and a second group of outer guide rollers, and enabling the fiber fabric to enter from one side of a processing bin and to be discharged from one side of a second drying bin;

secondly, controlling a servo motor and a crumpling component to start working, enabling the fiber fabric to move in the main body bin, driving two groups of eccentric wheels to rotate by the servo motor in the process, forcing a movable guide roller to swing back and forth in a soaking pool by the aid of cooperation of the rotating wheel and the eccentric wheels, enabling the fiber fabric to swing continuously in the soaking pool, extruding a large amount of liquid medicine existing on the fiber fabric by the fifth guide roller when the fiber fabric soaked in the liquid medicine in the soaking pool passes through the two groups of fifth guide rollers, and enabling the extruded liquid medicine to fall back to the inside of the soaking pool;

thirdly, when the fiber fabric passes through the crumpling component, the lines on the crumpling guide rollers of the crumpling component can be pressed on the fiber fabric, so that the fiber fabric is in a bubble-crepe shape, then when the fiber fabric passes through the five groups of first guide rollers, the hot air is controlled by the hot air blower to be respectively conveyed to the interiors of the first connecting pipe and the second connecting pipe through the conveying pipes, the hot air in the first connecting pipe is sprayed to the surface of the fiber fabric between the five groups of first guide rollers through the air spraying holes to dry the fiber fabric, and when the fiber fabric passes through the ceramic heating lamp, the ceramic heating lamp is controlled to heat the surface of the fiber fabric;

fourthly, the fiber fabric sequentially passes between two groups of second guide rollers and between two groups of third guide rollers, at the moment, a first water pump is controlled to convey external clean water into the tubes in the shape of the Chinese character shan, the clean water is sprayed to the fiber fabric in the secondary cleaning bin through second nozzles on the tubes in the shape of the Chinese character shan, the cleaned water is conveyed into the U-shaped tubes through the second water pump, the cleaned water is sprayed to the fiber fabric in the primary cleaning bin through the second nozzles on the U-shaped tubes to primarily clean the fiber fabric, and the fiber fabric is further cleaned in the secondary cleaning bin;

and fifthly, when the further cleaned fiber fabric passes through the water squeezing guide roller, water in the fiber fabric is squeezed out and falls into the secondary cleaning bin, then when the fiber fabric passes through the lower parts of the multiple groups of mounting pipes, hot air entering the mounting pipes from the inside of the second connecting pipe is sprayed to the surface of the fiber fabric through the first spray head to dry the fiber fabric again, and finally the dried fiber fabric is discharged from the bottom of one side of the second drying bin, so that the production and processing of the crepe-bubble tissue fabric are completed.

Compared with the prior art, the invention provides the intelligent production equipment and the production method for the crepe tissue fabric fibers, and the equipment and the method have the following beneficial effects:

1. according to the invention, through the matched use of the soaking component, the processing bin and the crumpling component, when fabric fibers pass through the fourth guide roller and the movable guide roller, the servo motor is controlled to drive the two groups of eccentric wheels to rotate, and the movable guide roller is forced to swing back and forth in the soaking pool by the matching of the rotating wheel and the eccentric wheels, so that the fiber fabric can swing continuously in the soaking pool, the contact effect of the fabric fibers and liquid medicine in the soaking pool is greatly improved, the time for the fabric fibers to pass through the liquid medicine is shortened, the integral production efficiency of the equipment is also improved, and then when the fiber fabric which is soaked in the liquid medicine in the soaking pool passes through the two groups of fifth guide rollers, the fifth guide rollers extrude a large amount of liquid medicine existing on the fiber fabric, the extruded liquid medicine falls back into the soaking pool, and the utilization effect of the equipment on the liquid medicine can be further improved.

2. According to the invention, through the matching use of the drying component, the first drying bin and the second drying bin, when the fiber fabric passes through the five groups of first guide rollers, the hot air blower is controlled to respectively convey hot air to the first connecting pipe and the second connecting pipe through the conveying pipe, the hot air in the first connecting pipe is sprayed to the surface of the fiber fabric between the five groups of first guide rollers through the air spraying holes to dry the fiber fabric, when the fiber fabric passes through the ceramic heating lamp, the ceramic heating lamp is controlled to heat the surface of the fiber fabric, the length of the whole drying area of the equipment can be greatly reduced by utilizing the five groups of first guide rollers, the floor area of the equipment is shortened, and the drying effect and the drying efficiency of the equipment on the fiber fabric can be further improved.

3. The invention uses the cleaning component, the fabric fiber enters the first-stage cleaning bin and the second-stage cleaning bin in sequence after the wrinkling operation is finished and the fabric fiber is dried, when the fabric fiber enters the first-stage cleaning bin, the second water pump can convey the water cleaned in the first-stage cleaning bin to the inside of the U-shaped pipe, the water is sprayed to the fabric fiber by the second spray nozzle on the U-shaped pipe, the fabric fiber is primarily cleaned, then when the fabric fiber enters the second-stage cleaning bin, the first water pump is controlled to convey the external clean water to the inside of the pipe shaped like the Chinese character 'shan', the water is sprayed to the fabric fiber by the second spray nozzle on the outer side of the pipe shaped like the Chinese character 'shan', the fabric fiber is secondarily cleaned, the fabric fiber can be cleaned more cleanly, the primary sewage generated by cleaning falls into the inside of the second-stage cleaning bin to be secondarily utilized, the cleanliness of the fabric fiber after cleaning can be ensured by twice, the utilization effect of the equipment on water resources can be improved, the waste of the equipment on the water resources is reduced, and the popularization and the use are facilitated.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is a rear view of the present invention;

FIG. 4 is a rear cross-sectional view of the present invention;

FIG. 5 is a front cross-sectional view of the cleaning assembly of the present invention;

FIG. 6 is a perspective view of a plate guide roll of the present invention;

FIG. 7 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

fig. 8 is an enlarged view of fig. 4 at B.

In the figure: 1. a main body bin; 2. an air outlet bin gate; 3. an air outlet; 4. a drying assembly; 401. a hot air blower; 402. a first guide roller; 403. a gas injection hole; 404. a ceramic heating lamp; 405. a delivery pipe; 406. a first connecting pipe; 407. a second connecting pipe; 408. installing a pipe; 409. a first nozzle; 5. a first drying bin; 6. a second drying bin; 7. cleaning the assembly; 701. a first water pump; 702. a secondary cleaning bin; 703. a second water pump; 704. a primary cleaning bin; 705. a second guide roller; 706. a U-shaped pipe; 707. a second nozzle; 708. a tube shaped like a Chinese character 'shan'; 709. a third guide roller; 710. a water squeezing guide roller; 8. a material soaking component; 801. a material soaking pool; 802. a fourth guide roller; 803. a movable guide roller; 804. rotating the rod; 805. a fifth guide roller; 806. a rotating wheel; 807. an eccentric wheel; 808. a slider; 809. a sliding groove; 810. a buffer spring; 811. a servo motor; 9. a control panel; 10. an outer guide roller; 11. a processing bin; 12. an inner guide roller; 13. a crumpling assembly; 14. a fan; 15. a support column; 16. a base plate; 17. and turning to the guide roll.

Detailed Description

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

Referring to fig. 1-8, the present invention provides a technical solution: an intelligent production device for crepe tissue fabric fibers comprises a main body bin 1, wherein a processing bin 11 is arranged on one side inside the main body bin 1, a first drying bin 5 and a second drying bin 6 are respectively arranged at the top and the bottom of the other side inside the main body bin 1, supporting columns 15 are symmetrically arranged at four corners of the bottom of the main body bin 1, a bottom plate 16 is jointly arranged at the bottom of the inner sides of the four groups of supporting columns 15, an air outlet bin door 2 is arranged at one end of the first drying bin 5, air outlets 3 are uniformly arranged on the outer side of the air outlet bin door 2, two groups of outer guide rollers 10 which are mutually matched are respectively arranged at the bottoms of two sides of the main body bin 1, two groups of inner guide rollers 12 which are mutually matched are symmetrically arranged at the bottoms of two sides inside the main body bin 1, wrinkle pressing assemblies 13 are jointly arranged at the tops of two ends inside the processing bin 11, a soaking assembly 8 is jointly arranged at the top of the inner bottom of the processing bin 11 and the top of the bottom plate 16, drying assemblies 4 are jointly arranged inside the first drying bin 5 and the second drying bin 6, a cleaning component 7 is arranged on one side of the top of the bottom plate 16, which is far away from the processing bin 11, a steering guide roller 17 is arranged on one side of the interior of the second drying bin 6, which is close to the processing bin 11, and a control panel 9 is arranged at the bottom of one end of the processing bin 11, which is close to the air outlet bin door 2;

the drying component 4 comprises an air heater 401, a first guide roller 402, air injection holes 403, ceramic heating lamps 404, a delivery pipe 405, a first connecting pipe 406, a second connecting pipe 407, an installation pipe 408 and a first spray head 409, wherein five groups of first guide rollers 402 are arranged on two sides of the interior of the first drying bin 5, the ceramic heating lamps 404 are uniformly installed at the inner bottom of the first drying bin 5, the air heater 401 is installed at the top of the first drying bin 5, the delivery pipe 405 is installed at the output end of the air heater 401, four groups of first connecting pipes 406 and one group of second connecting pipes 407 are respectively installed on the outer side of the delivery pipe 405, the air injection holes communicated with the interior of the first connecting pipes 406 are uniformly formed at one end of the interior of the first drying bin 5 close to the first connecting pipes 406, the installation pipes 403 are uniformly installed at the inner top of the second drying bin 6, the first spray heads 409 are uniformly installed on the outer side of the installation pipes 408, one end of the installation pipes 408 close to the second connecting pipes 407 is communicated with the interior of the second connecting pipes 407, the control panel 9 is electrically connected to the air heater 401 through a wire.

Further, the material dipping component 8 comprises a material dipping pool 801, a fourth guide roller 802, a movable guide roller 803, a rotating rod 804, a fifth guide roller 805, a rotating wheel 806, an eccentric wheel 807, a sliding block 808, a sliding groove 809, a buffer spring 810 and a servo motor 811, wherein the material dipping pool 801 is installed at one side of the top of the bottom plate 16 close to the processing bin 11, the fourth guide rollers 802 are symmetrically arranged at two sides of the bottom in the material dipping pool 801, the sliding grooves 809 are symmetrically arranged at the tops of two ends of the material dipping pool 801, the sliding block 808 is arranged in the sliding groove 809, the buffer spring 810 is installed at one end of the sliding groove 809 far away from the sliding block 808, one end of the buffer spring 810 close to the sliding block 808 is fixedly connected with the sliding block 808, the movable guide rollers 803 are jointly arranged at the inner sides of the two groups 808, the two ends of the movable guide rollers 803 penetrate through the sliding block 808 and are installed with the rotating wheel 806, the rotating rods 804 are jointly arranged at the tops of the two ends in the material dipping pool 801, and the two ends of the rotating rod 804 are both provided with eccentric wheels 807 which are mutually matched with the rotating wheel 806, one side of the bottom in the processing bin 11 close to the second drying bin 6 is provided with two groups of fifth guide rollers 805 which are mutually matched, the bottom of one side of the processing bin 11 far away from one end of the control panel 9 is provided with a servo motor 811 which is in transmission connection with the fifth guide rollers 805 and the rotating rod 804, the control panel 9 is electrically connected with the servo motor 811 through a lead, the servo motor 811 is controlled to drive the two groups of eccentric wheels 807 to rotate, the movable guide rollers 803 are forced to swing back and forth in the soaking pool 801 by the matching of the rotating wheel 806 and the eccentric wheels 807, so that the fiber fabric can swing in the soaking pool 801 continuously, thereby greatly improved the contact effect of surface fabric fibre with soak the inside liquid medicine of material pond 801, shortened the surface fabric fibre and need passed through the time of liquid medicine, just also improved the holistic production efficiency of equipment.

Further, the cleaning assembly 7 comprises a first water pump 701, a second cleaning bin 702, a second water pump 703, a first cleaning bin 704, a second guide roller 705, a U-shaped pipe 706, a second spray head 707, a Chinese character 'shan' shaped pipe 708, a third guide roller 709 and a water squeezing guide roller 710, the first cleaning bin 704 is installed at the middle position of the top of the bottom plate 16, the second water pump 703 is installed at one side of the first cleaning bin 704 far away from the processing bin 11, the second cleaning bin 702 is installed at one side of the top of the bottom plate 16 far away from the processing bin 11, the first water pump 701 is installed at one side of the top of the bottom plate 16 far away from the first cleaning bin 704, the third guide rollers 709 are installed at two sides inside the second cleaning bin 702, two groups of water squeezing guide rollers 710 which are matched with each other are arranged at the top of one side of the second cleaning bin 702 close to the first cleaning bin 704, the Chinese character 'shan' shaped pipes 708 are symmetrically installed at two ends inside the second cleaning bin 702, the output end of the first water pump 701 is respectively communicated with the insides of the two groups of the 'mountain' -shaped pipes 708, the two sides inside the first-stage cleaning bin 704 are symmetrically provided with second guide rollers 705, the two ends inside the first-stage cleaning bin 704 are symmetrically provided with the U-shaped pipes 706, the outsides of the U-shaped pipes 706 and the 'mountain' -shaped pipes 708 are respectively and uniformly provided with the second spray heads 707, the input end of the second water pump 703 is communicated with the insides of the second-stage cleaning bin 702, the output end of the second water pump 703 is respectively communicated with the insides of the two groups of the U-shaped pipes 706, the control panel 9 is respectively electrically connected with the first water pump 701 and the second water pump 703 through wires, and fabric fibers are cleaned twice.

Further, crumple subassembly 13 includes driving motor, crumple guide roll and square frame, square frame is installed jointly at the top at both ends in the processing storehouse 11, and square frame's inside is provided with two sets of crumple guide rolls of mutually supporting, processing storehouse 11 is kept away from the top of 9 one ends of control panel and is installed second driving motor, and second driving motor's output and the one end fixed connection of an adjacent set of crumple guide roll, help crumpling the processing to the surface fabric fibre that has soaked liquid medicine, make the fibrous surface of surface fabric be the bubble crape form.

Further, the inner bottoms of the second-stage cleaning bin 702 and the second water pump 703 are gradually inclined downwards from one side away from the second water pump 703 to the other side, the input end of the second water pump 703 is communicated with the bottom of the inner side of the second-stage cleaning bin 702 away from the first water pump 701, a drain valve is installed at the bottom of one end of the first-stage cleaning bin 704 close to one side of the second water pump 703, the second water pump 703 can suck primary sewage at the inner bottom of the second-stage cleaning bin 702 conveniently, and the sewage in the inner bottom of the first-stage cleaning bin 704 can be discharged conveniently.

Further, 6 inside one sides that are close to processing storehouse 11 in the second stoving storehouse are installed the baffle, and the strip mouth has been seted up to the one end that the bottom is close to processing storehouse 11 in the

second stoving storehouse

6, and 6 one sides that the bottom is close to the strip mouth in the second stoving storehouse are installed the deflector, are convenient for utilize the damp and hot air that the stoving surface fabric fibre produced to carry out preheating treatment to the surface fabric fibre that is about to enter into second stoving storehouse 6.

Further, the belt pulley is all installed to the one end that dwang 804 is close to servo motor 811 and servo motor 811's output, and the outside of two sets of belt pulleys is provided with drive belt jointly, helps utilizing servo motor 811 to drive dwang 804 and stably rotates.

Further, the one end that second stoving storehouse 6 and processing storehouse 11 are close to the door 2 that gives vent to anger all articulates there is supplementary door, and the outside of supplementary door all installs the handle, opens supplementary door, and the operating personnel of being convenient for passes second stoving storehouse 6 and the inside subassembly in processing storehouse 11 with surface fabric fibre in proper order.

Further, the bottom of the first drying bin 5 far away from the processing bin 11 is provided with an installation frame, and the inner side of the installation frame is uniformly provided with a fan 14, so that the cooling treatment of the fabric fibers which are just dried is facilitated.

Further, the use method of the intelligent production equipment for the crepe-de-crepe tissue fabric fibers comprises the following steps:

firstly, enabling common fiber fabric to sequentially pass through a first group of outer guide rollers 10, a first group of inner guide rollers 12, a first group of fourth guide rollers 802, a movable guide roller 803, a second group of fourth guide rollers 802, a fifth guide roller 805, a crumpling component 13, a fifth group of first guide rollers 402, two groups of second guide rollers 705, two groups of third guide rollers 709, a water squeezing guide roller 710, a steering guide roller 17, a second group of inner guide rollers 12 and a second group of outer guide rollers 10, and enabling the fiber fabric to enter from one side of a processing bin 11 and to be discharged from one side of a second drying bin 6;

secondly, controlling a servo motor 811 and a crumpling component 13 to start working, so that the fiber fabric moves in the main body bin 1, driving two eccentric wheels 807 to rotate by the servo motor 811 in the process, forcing a movable guide roller 803 to swing back and forth in a soaking pool 801 by the cooperation of a rotating wheel 806 and the eccentric wheels 807, so that the fiber fabric continuously swings in the soaking pool 801, and then when the fiber fabric soaked in the liquid medicine in the soaking pool 801 passes through two groups of fifth guide rollers 805, the fifth guide rollers 805 extrude a large amount of liquid medicine existing on the fiber fabric, and the extruded liquid medicine falls back into the soaking pool 801;

thirdly, when the fiber fabric passes through the crumpling component 13, the wrinkles on the crumpling guide rollers of the crumpling component 13 are pressed on the fiber fabric, so that the fiber fabric is in a bubble-crepe shape, then when the fiber fabric passes through the five groups of first guide rollers 402, the hot air is respectively conveyed into the first connecting pipe 406 and the second connecting pipe 407 through the conveying pipe 405 by controlling the hot air heater 401, the hot air in the first connecting pipe 406 is sprayed to the surface of the fiber fabric between the five groups of first guide rollers 402 through the air spraying holes 403 to dry the fiber fabric, and when the fiber fabric passes through the ceramic heating lamps 404, the surface of the fiber fabric is heated by controlling the ceramic heating lamps 404;

fourthly, the fiber fabric sequentially passes between two groups of second guide rollers 705 and between two groups of third guide rollers 709, at the moment, the first water pump 701 is controlled to convey external clean water into the E-shaped pipe 708, the clean water is sprayed to the fiber fabric in the secondary cleaning bin 702 through a second spray head 707 on the E-shaped pipe 708, the cleaned water is conveyed into the U-shaped pipe 706 through the second water pump 703, the cleaned water is sprayed to the fiber fabric in the primary cleaning bin 704 through the second spray head 707 on the U-shaped pipe 706 to primarily clean the fiber fabric, and the fiber fabric is further cleaned in the secondary cleaning bin 702;

fifthly, when the further cleaned fiber fabric passes through the water squeezing guide roller 710, water in the fiber fabric is squeezed out and falls into the secondary cleaning bin 702, then when the fiber fabric passes through the lower parts of the multiple groups of mounting tubes 408, hot air entering the mounting tubes 408 from the inside of the second connecting tube 407 is sprayed to the surface of the fiber fabric through the first spray head 409 to dry the fiber fabric again, and finally the dried fiber fabric is discharged from the bottom of one side of the second drying bin 6, so that the production and processing of the creped tissue fabric are completed.

Example 1, as shown in fig. 1 to 4, when the fiber of the crepe tissue fabric needs to be produced, the auxiliary bin gates outside the processing bin 11 and the second drying bin 6 are opened, and the air outlet bin gate 2 is also opened, so that the common fiber fabric sequentially passes through the first set of outer guide rollers 10, the first set of inner guide rollers 12, the first set of fourth guide rollers 802, the movable guide rollers 803, the second set of fourth guide rollers 802, the fifth guide roller 805, the crumpling component 13, the fifth set of first guide rollers 402, the two sets of second guide rollers 705, the two sets of third guide rollers 709, the wringing guide roller 710, the steering guide roller 17, the second set of inner guide rollers 12 and the second set of outer guide rollers 10, so that the fiber fabric enters from one side of the processing bin 11 and is discharged from one side of the second drying bin 6, thereby facilitating the production of the crepe tissue fabric by subsequent equipment.

Embodiment 2, as shown in fig. 1, 2, 3, 4 and 8, when the apparatus dries the fabric fiber soaked with the liquid medicine, the control panel 9 controls the hot air blower 401 to respectively deliver hot air to the inside of the first connecting pipe 406 and the second connecting pipe 407 through the delivery pipe 405, the hot air inside the first connecting pipe 406 is sprayed to the surface of the fabric between the five groups of first guide rollers 402 through the air spraying holes 403 to dry the fabric, the hot and humid air generated by the drying process is discharged to the external environment through the air outlet 3 on the air outlet bin gate 2, and when the fabric passes through the ceramic heating lamp 404, the ceramic heating lamp 404 is controlled to heat the surface of the fabric, so as to further ensure the drying effect and efficiency of the apparatus on the fabric fiber.

In embodiment 3, as shown in fig. 1 to 6, when the fabric fibers soaked with the liquid medicine need to be cleaned, the control panel 9 controls the first water pump 701 to deliver outside clean water into the chevron-shaped pipe 708, and the clean water is sprayed to the fabric inside the secondary cleaning bin 702 by the second spray head 707 on the chevron-shaped pipe 708, the cleaned water is delivered to the inside of the U-shaped pipe 706 by the second water pump 703, and is sprayed to the fabric inside the primary cleaning bin 704 by the second spray head 707 on the U-shaped pipe 706 to primarily clean the fabric, while the inside of the secondary cleaning bin 702 is used to further clean the fabric, and when the further cleaned fabric passes through the squeezing guide roller 710, the water in the secondary cleaning bin 707 is squeezed out and falls into the inside of the secondary cleaning bin 702, so that the drying efficiency of the subsequent equipment on the fabric fibers can be ensured, and the squeezed out clean water can be secondarily utilized, greatly improves the utilization effect of the equipment on water resources and reduces the water resource consumption required by the equipment for producing the crepe-de-chine tissue fabric fibers.

The working principle is as follows: before the device is used, the servo motor 811 and the crumpling component 13 are controlled to start working, so that the fiber fabric moves in the main body bin 1, the servo motor 811 drives the two eccentric wheels 807 to rotate in the process, the sliding block 808 is forced to swing back and forth in the sliding groove 809 by the cooperation of the rotating wheel 806 and the eccentric wheels 807, the buffer spring 810 is shortened after being continuously stretched, the movable guide roller 803 is also made to swing back and forth in the soaking pool 801, so that the fiber fabric continuously swings in the soaking pool 801, and then when the fiber fabric soaked with the liquid medicine in the soaking pool 801 passes through the two groups of fifth guide rollers 805, the fifth guide rollers 805 squeeze out a large amount of liquid medicine existing on the fiber fabric, and the squeezed liquid medicine falls back into the soaking pool 801, so that the utilization effect of the device on the liquid medicine is improved;

then when the fiber fabric passes through the crumpling component 13, the texture on the crumpling guide rollers of the crumpling component 13 is pressed on the fiber fabric, so that the fiber fabric is in a bubble-crepe shape, then when the fiber fabric passes through the five groups of first guide rollers 402, the hot air blower 401 is controlled to respectively convey hot air to the interior of the first connecting pipe 406 and the second connecting pipe 407 through the conveying pipe 405, the hot air in the first connecting pipe 406 is sprayed to the surface of the fiber fabric between the five groups of first guide rollers 402 through the air spraying holes 403 to dry the fiber fabric, when the fiber fabric passes through the ceramic heating lamp 404, the ceramic heating lamp 404 is controlled to heat the surface of the fiber fabric, then the fiber fabric sequentially passes through the two groups of second guide rollers and between the two groups of third guide rollers 709, at the moment, the first water pump 701 is controlled to convey external clean water into the tube in a shape like the Chinese character 'shan' shape, and the second spray head 707 on the pipe in the like 'shan' shape is used for spraying the fiber fabric 708 in the secondary cleaning bin 702, the cleaned water is conveyed to the inside of the U-shaped pipe 706 through the second water pump 703, and is sprayed to the fiber fabric inside the primary cleaning bin 704 through the second spray head 707 on the U-shaped pipe 706 to primarily clean the fiber fabric, while the fiber fabric is further cleaned inside the secondary cleaning bin 702, when the further cleaned fiber fabric passes through the wringing guide roller 710, the water existing inside the further cleaned fiber fabric is squeezed out and falls into the secondary cleaning bin 702, then when the fiber fabric passes through the lower parts of the multiple groups of mounting pipes 408, the hot air entering the mounting pipe 408 from the inside of the second connecting pipe 407 is sprayed to the surface of the fiber fabric through the first spray head 409 to dry the fiber fabric again, and finally the dried fiber fabric is discharged from the bottom part of one side of the second drying bin 6, so that the production and processing of the creped tissue fabric are completed.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

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

Claims

1. Crepe tissue surface fabric fibre intelligence production facility of bubble includes main part storehouse (1), its characterized in that: a processing bin (11) is arranged on one side inside the main bin (1), a first drying bin (5) and a second drying bin (6) are respectively arranged at the top and the bottom of the other side inside the main bin (1), supporting columns (15) are symmetrically arranged at the positions of four corners of the bottom of the main bin (1), a bottom plate (16) is jointly arranged at the bottom of the inner sides of the four groups of supporting columns (15), an air outlet bin door (2) is arranged at one end of the first drying bin (5), air outlets (3) are uniformly arranged on the outer side of the air outlet bin door (2), two groups of mutually matched outer guide rollers (10) are arranged at the bottoms of two sides of the main bin (1), two groups of mutually matched inner guide rollers (12) are symmetrically arranged at the bottoms of two sides inside the main bin (1), and crumpling assemblies (13) are jointly arranged at the tops of two ends inside the processing bin (11), the inner bottom of the processing bin (11) and the top of the bottom plate (16) are jointly provided with a soaking component (8), the interiors of the first drying bin (5) and the second drying bin (6) are jointly provided with a drying component (4), one side, far away from the processing bin (11), of the top of the bottom plate (16) is provided with a cleaning component (7), one side, close to the processing bin (11), of the interior of the second drying bin (6) is provided with a steering guide roller (17), and the bottom, close to one end of the air outlet bin door (2), of the processing bin (11) is provided with a control panel (9);

the drying component (4) comprises an air heater (401), a first guide roller (402), air injection holes (403), ceramic heating lamps (404), a conveying pipe (405), a first connecting pipe (406), a second connecting pipe (407), an installation pipe (408) and a first spray head (409), wherein five groups of first guide rollers (402) are arranged on two sides of the interior of the first drying bin (5) together, the ceramic heating lamps (404) are uniformly installed at the inner bottom of the first drying bin (5), the air heater (401) is installed at the top of the first drying bin (5), the conveying pipe (405) is installed at the output end of the air heater (401), four groups of first connecting pipes (406) and one group of second connecting pipes (407) are respectively installed on the outer side of the conveying pipe (405), the air injection holes (403) communicated with the interior of the first connecting pipes (406) are uniformly formed in one end, close to the first connecting pipes (406), of the interior of the first drying bin (5), the utility model discloses a drying device, including second stoving storehouse (6), installation pipe (408) are evenly installed at the interior top in second stoving storehouse (6), and first shower nozzle (409) are evenly installed in the outside of installation pipe (408), installation pipe (408) are close to the inside intercommunication of one end and second connecting pipe (407) of second connecting pipe (407), control panel (9) are connected through wire and air heater (401) electricity.

2. The intelligent crepe tissue fabric fiber production facility according to claim 1, characterised in that: the material soaking assembly (8) comprises a material soaking pool (801), a fourth guide roller (802), a movable guide roller (803), a rotating rod (804), a fifth guide roller (805), a rotating wheel (806), an eccentric wheel (807), a sliding block (808), a sliding groove (809), a buffer spring (810) and a servo motor (811), wherein the material soaking pool (801) is installed at one side of the top of the bottom plate (16) close to the processing bin (11), the fourth guide roller (802) is symmetrically arranged at two sides of the bottom in the material soaking pool (801), the sliding groove (809) is symmetrically arranged at the tops of two ends of the material soaking pool (801), the sliding block (808) is arranged in the sliding groove (809), the buffer spring (810) is installed at one end, far away from the sliding block (808), in the sliding groove (809), one end, close to the sliding block (808), of the buffer spring (810) is fixedly connected with the sliding block (808), two sets of the inboard of sliding block (808) is provided with movable guide roll (803) jointly, the both ends of activity guide roll (803) are passed sliding block (808) and are installed and rotate wheel (806), the top at both ends is provided with dwang (804) jointly in soaking material pond (801), and the both ends of dwang (804) all install with rotate wheel (806) eccentric wheel (807) of mutually supporting, one side that the bottom is close to second stoving storehouse (6) in processing storehouse (11) is provided with two sets of fifth guide roll (805) of mutually supporting, servo motor (811) of being connected with fifth guide roll (805) and dwang (804) transmission are installed to the bottom of control panel (9) one end one side is kept away from in processing storehouse (11), control panel (9) are connected through wire and servo motor (811) electricity.

3. The intelligent creped tissue fabric fiber production facility as recited in claim 1, wherein: cleaning assembly (7) include first water pump (701), second grade cleaning storehouse (702), second water pump (703), one-level cleaning storehouse (704), second guide roll (705), U type pipe (706), second shower nozzle (707), "mountain" style of calligraphy venturi tube (708), third guide roll (709) and crowded water guide roll (710), one-level cleaning storehouse (704) is installed to the intermediate position department at bottom plate (16) top, and one side that processing storehouse (11) was kept away from in one-level cleaning storehouse (704) installs second water pump (703), one side that processing storehouse (11) was kept away from at bottom plate (16) top is installed second grade cleaning storehouse (702), one side that one-level cleaning storehouse (704) was kept away from at bottom plate (16) top is installed first water pump (701), the inside both sides in second grade cleaning storehouse (702) all are provided with third guide roll (709), the inside top that is close to one-level cleaning storehouse (704) one side in second grade cleaning storehouse (702) is provided with two sets of mutually supporting crowded water guide The cleaning device comprises rollers (710), pipes shaped like Chinese character 'shan' are symmetrically installed at two ends inside the secondary cleaning bin (702), output ends of the first water pump (701) are respectively communicated with the insides of the two groups of pipes shaped like Chinese character 'shan's (708), second guide rollers (705) are symmetrically arranged on two sides inside the primary cleaning bin (704), U-shaped pipes (706) are symmetrically installed at two ends inside the primary cleaning bin (704), second spray heads (707) are evenly installed on the outer sides of the U-shaped pipes (706) and the pipes shaped like Chinese character 'shan's (708), an input end of the second water pump (703) is communicated with the inside of the secondary cleaning bin (702), output ends of the second water pump (703) are respectively communicated with the insides of the two groups of U-shaped pipes (706), and a control panel (9) is respectively electrically connected with the first water pump (701) and the second water pump (703) through wires.

4. The intelligent crepe tissue fabric fiber production facility according to claim 1, characterised in that: the utility model discloses a wrinkle pressing assembly, including crumpling guide roll, processing storehouse (11) and second driving motor, the top of crumpling guide roll is installed jointly at the top at both ends in the processing storehouse (11), and the inside of square frame is provided with two sets of crumpling guide rolls of mutually supporting, processing storehouse (11) are kept away from the top of control panel (9) one end and are installed the second driving motor, and the output of second driving motor and the one end fixed connection of adjacent a set of crumpling guide roll.

5. The intelligent creped tissue fabric fiber production facility as recited in claim 3, wherein: the interior bottom of second grade washing storehouse (702) and second water pump (703) all by keeping away from second water pump (703) one side to the opposite side downward sloping gradually, the input of second water pump (703) and second grade washing storehouse (702) are inside to be kept away from the bottom intercommunication of first water pump (701) one side, the drain valve is installed to the bottom that one end of one-level washing storehouse (704) is close to second water pump (703) one side.

6. The intelligent creped tissue fabric fiber production facility as recited in claim 1, wherein: the baffle is installed to inside one side that is close to processing storehouse (11) in second stoving storehouse (6), the bar mouth has been seted up to the one end that the bottom is close to processing storehouse (11) in second stoving storehouse (6), the deflector is installed to one side that second stoving storehouse (6) bottom is close to the bar mouth.

7. The intelligent creped tissue fabric fiber production facility as recited in claim 2, wherein: the belt pulley is all installed to dwang (804) one end and the output of servo motor (811) that are close to servo motor (811), and the outside of two sets of belt pulleys is provided with driving belt jointly.

8. The intelligent creped tissue fabric fiber production facility as recited in claim 1, wherein: the one end that second stoving storehouse (6) and processing storehouse (11) are close to air outlet door (2) all articulates there is supplementary door, and the outside of supplementary door all installs the handle.

9. The intelligent crepe tissue fabric fiber production facility according to claim 1, characterised in that: the bottom of one side of the first drying bin (5) far away from the processing bin (11) is provided with an installation frame, and the inner side of the installation frame is uniformly provided with a fan (14).

10. The use method of the intelligent production equipment for the crepe tissue fabric fibers comprises the following steps:

firstly, enabling common fiber fabric to sequentially pass through a first group of outer guide rollers (10), a first group of inner guide rollers (12), a first group of fourth guide rollers (802), a movable guide roller (803), a second group of fourth guide rollers (802), a fifth guide roller (805), a crumpling component (13), a fifth group of first guide rollers (402), two groups of second guide rollers (705), two groups of third guide rollers (709), a water squeezing guide roller (710), a steering guide roller (17), a second group of inner guide rollers (12) and a second group of outer guide rollers (10), so that the fiber fabric enters from one side of a processing bin (11) and is discharged from one side of a second drying bin (6);

secondly, controlling a servo motor (811) and a crumpling component (13) to start working, so that the fiber fabric moves in the main body bin (1), wherein the servo motor (811) drives two eccentric wheels (807) to rotate, the movable guide roller (803) is forced to swing back and forth in the soaking pool (801) by the cooperation of a rotating wheel (806) and the eccentric wheels (807), the fiber fabric is enabled to swing continuously in the soaking pool (801), and then when the fiber fabric soaked in the liquid medicine in the soaking pool (801) passes through two groups of fifth guide rollers (805), the fifth guide rollers (805) extrude a large amount of liquid medicine existing on the fiber fabric, and the extruded liquid medicine falls back into the soaking pool (801);

thirdly, when the fiber fabric passes through the crumpling component (13), the texture on the crumpling guide rollers of the crumpling component (13) can be pressed on the fiber fabric, so that the fiber fabric is in a bubble-crepe shape, then when the fiber fabric passes through five groups of first guide rollers (402), the hot air is respectively conveyed to the inside of a first connecting pipe (406) and a second connecting pipe (407) through a conveying pipe (405) by controlling a hot air fan (401), the hot air in the first connecting pipe (406) is sprayed to the surface of the fiber fabric between the five groups of first guide rollers (402) through air spraying holes (403), and is dried, and when the fiber fabric passes through a ceramic heating lamp (404), the ceramic heating lamp (404) is controlled to heat the surface of the fiber fabric;

fourthly, the fiber fabric sequentially passes between two groups of second guide rollers (705) and between two groups of third guide rollers (709), at the moment, a first water pump (701) is controlled to convey external clean water into a pipe shaped like a Chinese character 'shan' (708), the clean water is sprayed to the fiber fabric inside the secondary cleaning bin (702) through a second spray head (707) on the pipe shaped like a Chinese character 'shan' (708), the cleaned water is conveyed into a U-shaped pipe (706) through the second water pump (703), the cleaned water is sprayed to the fiber fabric inside the primary cleaning bin (704) through the second spray head (707) on the U-shaped pipe (706), the fiber fabric is primarily cleaned, and the fiber fabric is further cleaned inside the secondary cleaning bin (702);

and fifthly, when the further cleaned fiber fabric passes through the water squeezing guide roller (710), water in the fiber fabric is squeezed out and falls into the secondary cleaning bin (702), then when the fiber fabric passes through the lower parts of the multiple groups of mounting pipes (408), hot air entering the mounting pipes (408) from the inside of the second connecting pipe (407) is sprayed to the surface of the fiber fabric through the first spray nozzle (409) to dry the fiber fabric again, and finally the dried fiber fabric is discharged from the bottom of one side of the second drying bin (6), so that the production and processing of the crepe tissue fabric are completed.