CN111172680A

CN111172680A - Treatment method for improving softness of student garment fabric

Info

Publication number: CN111172680A
Application number: CN202010038042.XA
Authority: CN
Inventors: 李贺
Original assignee: Anhui Hengyi Textile Technology Co ltd
Current assignee: Anhui Hengyi Textile Technology Co ltd
Priority date: 2020-01-14
Filing date: 2020-01-14
Publication date: 2020-05-19

Abstract

The invention discloses a processing method for improving the softness of student garment materials, which comprises the following steps: clamping one end of the fabric, cutting off the fabric and clamping the other end of the fabric, stretching the fabric, spraying a softening liquid and drying to obtain a soft student garment fabric; the softness of the fabric is greatly improved by spraying the softening liquid on the fabric, and the reduction of the softness of the fabric caused by the shrinkage of the fabric after the spraying of the softening liquid is prevented; the whole fabric is completely stretched by the fabric processing device, so that the reduction of the softness of the fabric caused by excessive shrinkage and over-compact inside of the fabric is effectively avoided, the multi-directional stretching of the fabric enables the pores among the threads of the fabric to be greatly increased, the absorption of the fabric on soft liquid is facilitated, and the softness of the fabric is improved; the fabric is cut through the cutting mechanism, the fabric is not required to be cut manually, time and labor are saved, the fabric cut is smooth, and the cutting effect is guaranteed.

Description

Treatment method for improving softness of student garment fabric

Technical Field

The invention relates to the technical field of preparation of student garment fabrics, in particular to a processing method for improving the softness of student garment fabrics.

Background

Patent document (CN106626593B) discloses a novel net sandy beach chair surface fabric of compliance and set composite thereof, this surface fabric is impaired easily when in-service use or washing, thereby lead to inside too tight real and the surface fabric compliance that leads to reduce, this surface fabric is at the in-process of production preparation, it is too compact to knit the line in the surface fabric, it is whole more closely knit, the absorption of soft liquid of being not convenient for, the surface fabric is too tight real, the compliance is poor, place generally during the production cutting in the platform and cut, produce the fold easily, thereby lead to the incision unevenness, the cutting effect is unsatisfactory.

Disclosure of Invention

The invention aims to provide a processing method for improving the softness of fabric of student clothes, which greatly improves the softness of the fabric by spraying a softening liquid on the surface of the stretched fabric, adding sodium benzoate, octamethyl silicone oil, sodium stearate, sodium laurate, polyvinyl alcohol and sodium hexametaphosphate into preparation raw materials of the softening liquid, and simultaneously adding tetraethoxysilane, sodium dodecyl benzene sulfonate, aromatic polyester and n-butyl acrylate into the preparation raw materials of the softening liquid to prevent the fabric from shrinking after the softening liquid is sprayed to cause the reduction of the softness of the fabric, thereby solving the technical problem that the traditional student clothes fabric is easy to shrink to cause the reduction of the softness of the fabric due to over-compact interior;

according to the fabric clamping device, the second air cylinder is started to drive the first mounting plate to move, so that the clamping plate is driven to move, the clamping plate can be adjusted in the horizontal direction, the lifting motor is started to drive the lifting screw to rotate, and the first mounting plate is driven to lift, so that the clamping plate is adjusted in the vertical direction, and the fabric is conveniently clamped; the four clamping motors are started to drive the corresponding clamping plates to rotate, so that four corners of the fabric are clamped and fixed, the two ends of the fabric are pulled through the clamping plates in the process that the rotary hand wheel is rotated to drive the two mounting frames to move reversely, the fabric is stretched along the directions of the two ends, the two clamping plates on the same second mounting plate move reversely by starting the moving motors, the two corners of the end part of the fabric are pulled to the two sides, the fabric is stretched transversely, the whole fabric is completely stretched, the fabric is stretched in multiple directions, so that pores among fabric threads are greatly increased, absorption of the fabric for soft liquid is facilitated, the softness of the fabric is greatly improved, and the technical problems that soft liquid is inconvenient to absorb, the fabric is too tight and poor in softness in the traditional preparation process of the fabric for the student garment are solved;

through installing cutting mechanism on the support frame, promote the second cutting board through first cylinder and be close to first cutting board, make first cutting board, second cutting board cooperation use and cut off the surface fabric from the centre, need not the manpower and cut the surface fabric, labour saving and time saving, simultaneously the surface fabric is when the cutting, the one end of surface fabric passes the strip and leads to the groove and hang down naturally for the surface smoothness when the cutting of surface fabric, through artifical the cutting when having solved traditional student's garment materials preparation, cut the poor technical problem of effect.

The purpose of the invention can be realized by the following technical scheme:

a processing method for improving the softness of student garment materials comprises the following specific steps:

step one, starting a discharging motor in the fabric processing device, enabling an output shaft of the discharging motor to rotate and drive a discharging roller to rotate, enabling the discharging roller to discharge, enabling the fabric to pass between a first cutting plate and a second cutting plate and extend to the lower part of an installation bottom plate through a strip-shaped through groove in the installation bottom plate, starting one of second air cylinders, enabling the corresponding second installation plate to move to the upper part of a material receiving plate through the second air cylinder, simultaneously starting two corresponding clamping motors, enabling the clamping plates to rotate in the forward direction through the clamping motors, enabling the clamping plates to open, enabling the clamping plates to be located below the fabric, starting a lifting motor on the corresponding installation frame, enabling the output shaft of the lifting motor to rotate and drive a driving gear to rotate, enabling the driving gear to drive a gear belt to rotate, driving two lifting screw rods to rotate, and driving the first installation plate to ascend while the lifting screw rods rotate, the clamping motor is started to drive the clamping plate to rotate forward and clamp and fix two corners of the bottom of the fabric;

step two, starting a first air cylinder, wherein an output rod of the first air cylinder extends out and pushes a second cutting plate to be close to the first cutting plate, the first cutting plate and the second cutting plate are matched for use to cut off the fabric from the middle, the cut end part of the fabric naturally sags, starting another second air cylinder, the output rod of the second air cylinder extends out and drives a corresponding clamping plate to move to the bottom of the sagging end of the fabric, and by starting a corresponding lifting motor, the lifting motor drives the corresponding clamping plate to ascend to the same height of the bottom of the sagging end of the fabric, and starts a corresponding clamping motor to clamp and fix two corners of the sagging end of the fabric;

adjusting two lifting motors, driving four clamping plates to be located on the same horizontal plane through the two lifting motors, at the moment, enabling the fabric to be in a horizontal state, rotating a rotating hand wheel, driving a threaded rod to rotate through the rotating hand wheel, driving two mounting frames to move in opposite directions, driving the corresponding second mounting plates to move respectively through the two mounting frames, pulling two ends of the fabric through the clamping plates in the process of moving the two mounting frames in opposite directions, starting the moving motors on the two second mounting plates, driving a moving screw to rotate through the moving motors, driving the two moving plates to move in opposite directions, driving the corresponding clamping plates to move in opposite directions, and pulling two corners of the end portions of the fabric to two sides;

and step four, guiding the soft liquid into the liquid guide pipe through an external guide pipe, spraying the liquid in the liquid guide pipe through a spray head to enable the soft liquid to be uniformly sprayed on the surface of the fabric, starting a drying fan, blowing the surface of the fabric by the drying fan, drying the fabric, after the fabric is kept still for 1h, loosening a clamping plate by starting a clamping motor, and taking down the fabric to obtain the soft fabric for the student garment.

Further, the softening liquid is prepared from the following raw materials in parts by weight: 4-6 parts of aromatic polyester, 5-9 parts of polyvinyl alcohol, 7-8 parts of sodium benzoate, 5-8 parts of sodium dodecyl benzene sulfonate, 9-10 parts of octamethyl silicone oil, 2-3 parts of sodium hexametaphosphate, 3-4 parts of sodium stearate, 3-5 parts of n-butyl acrylate, 6-10 parts of tetraethoxysilane, 2-3 parts of sodium laurate and 40-50 parts of deionized water.

Further, the softening liquid is prepared by the following steps:

s1, adding deionized water into the reaction kettle, heating to 60-72 ℃, adding tetraethoxysilane and sodium dodecyl benzene sulfonate, and stirring at the rotating speed of 700-850r/min for 25 min;

s2, adding aromatic polyester and n-butyl acrylate into the reaction kettle, heating the temperature of the reaction kettle to 73-78 ℃, and stirring for 30min at the rotating speed of 650-750 r/min;

s3, adding sodium benzoate, octamethyl silicone oil, sodium stearate, sodium laurate, polyvinyl alcohol and sodium hexametaphosphate into the reaction kettle, and stirring at the rotating speed of 625-700r/min for 45min to obtain the soft liquid.

The fabric processing device comprises two support frames, first vertical plates are fixedly arranged at the tops of the two support frames through bolts, a discharging roller is arranged between the first vertical plates, two ends of the discharging roller are rotatably arranged in the two first vertical plates through bearings respectively, a discharging motor is fixedly arranged on one of the first vertical plates, an output shaft end of the discharging motor is fixedly connected with one end of the discharging roller, an installation bottom plate is horizontally fixed on the upper surface of the support frames through bolts, two second vertical plates are vertically fixed on the upper surface of the installation bottom plate through bolts, the two second vertical plates are arranged at two side edges of the upper surface of the installation bottom plate respectively, and a roller shaft is rotatably arranged between the two second vertical plates;

the cutting mechanism is fixedly installed on the upper surface of the installation bottom plate, two installation frames are movably arranged between the two support frames, two lifting screws are rotatably installed on the installation frames through bearings and bearing seats, first installation plates are movably installed on the two lifting screws, the first installation plates are in threaded connection with the two lifting screws, driven gears are fixedly sleeved at the bottoms of the two lifting screws, lifting motors are fixedly installed on the support frames, driving gears are fixedly installed at output shaft ends of the lifting motors, and the driving gears are in transmission connection with the two driven gears through gear belts respectively;

a second air cylinder is fixedly mounted on one side of the first mounting plate, the end part of an output rod of the second air cylinder penetrates through the first mounting plate and is fixedly mounted with the second mounting plate, two movable plates are movably arranged on the second mounting plate and are in sliding connection with the second mounting plate through a sliding block and a sliding rail, a clamping plate is rotatably mounted on each movable plate, a clamping motor is fixedly mounted on each movable plate, the output shaft end of each clamping motor is fixedly connected with one end of each clamping plate, a movable lead screw is transversely arranged on one side of the second mounting plate and is rotatably mounted on the second mounting plate through a bearing and a bearing seat, a movable motor is fixedly mounted on the second mounting plate, and the output shaft end of each movable motor is fixedly connected with one end of each movable lead screw;

a material receiving plate is horizontally arranged below the mounting bottom plate, supporting legs are mounted at the corner positions of the bottom surface of the material receiving plate, the material receiving plate is located between the two mounting frames, fixed plates are vertically arranged on the outer sides of the two mounting frames respectively, a threaded rod is arranged between the two fixed plates and is rotatably connected with the two fixed plates through bearings, a rotating hand wheel is mounted at one end of the threaded rod, and the threaded rod is in threaded connection with the bottoms of the two mounting frames;

the drying device is characterized in that a liquid guide pipe is transversely fixed on the bottom surface of the mounting bottom plate, a spray head is installed at the bottom of the liquid guide pipe, a drying fan is further fixedly installed on the bottom surface of the mounting bottom plate, a strip-shaped through groove is formed in the mounting bottom plate, and a lower notch of the strip-shaped through groove is located between the liquid guide pipe and the drying fan.

Furthermore, two fixed plates are further provided with two cross rods, two ends of each cross rod are fixedly connected with the two fixed plates respectively, and the cross rods are connected with the bottoms of the two mounting racks in a sliding mode.

Further, two the inboard top of support frame all transversely is fixed with the slide rail, the equal fixed mounting in both sides at mount frame top has the slider, the support frame passes through slider, slide rail sliding connection with the mounting bracket.

Furthermore, the threads on the threaded rod are symmetrically distributed.

Further, the cutting mechanism comprises two side plates, the two side plates are vertically fixed on the upper surface of the mounting base plate through welding, a first cutting plate is horizontally fixed between the two side plates, a second cutting plate is movably arranged between the two side plates, a fixed rod is fixedly installed between the two side plates through welding, a first air cylinder is fixedly installed on one side of the fixed rod, and an output rod of the first air cylinder penetrates through the fixed rod and is fixedly connected with the second cutting plate;

the inner sides of the two side plates are provided with strip-shaped sliding grooves, and the two ends of the second cutting plate are respectively slidably mounted in the strip-shaped sliding grooves of the two side plates.

The invention has the beneficial effects that:

according to the invention, the softening liquid is sprayed on the surface of the stretched and tightened fabric, sodium benzoate, octamethyl silicone oil, sodium stearate, sodium laurate, polyvinyl alcohol and sodium hexametaphosphate are added into the raw materials for preparing the softening liquid, so that the flexibility of the fabric is greatly improved, and simultaneously tetraethoxysilane, sodium dodecyl benzene sulfonate, aromatic polyester and n-butyl acrylate are added into the raw materials for preparing the softening liquid, so that the fabric is prevented from shrinking after the softening liquid is sprayed, and the softness of the fabric is prevented from being reduced;

according to the fabric clamping device, the second air cylinder is started to drive the first mounting plate to move, so that the clamping plate is driven to move, the clamping plate can be adjusted in the horizontal direction, the lifting motor is started to drive the lifting screw to rotate, and the first mounting plate is driven to lift, so that the clamping plate is adjusted in the vertical direction, and the fabric is conveniently clamped; the four clamping motors are started to drive the corresponding clamping plates to rotate, so that four corners of the fabric are clamped and fixed, the rotating hand wheel is rotated to drive the threaded rod to rotate and drive the two mounting frames to move reversely, the two mounting frames respectively drive the corresponding second mounting plates to move, the two ends of the fabric are pulled by the clamping plates in the process of reverse movement of the two mounting frames, the fabric is stretched along the directions of the two ends, the moving screw is driven to rotate by the moving motor and drive the two moving plates to move reversely by starting the moving motor, so that the two clamping plates on the same second mounting plate move reversely, the two corners at the end parts of the fabric are pulled to the two sides, the fabric is transversely stretched, the whole fabric is completely stretched tightly, the softness of the fabric is effectively prevented from being reduced due to excessive contraction and over-tightness of the fabric, and the pores between the fabric threads are greatly increased due to multi-directional, the absorption of the fabric to the softening liquid is facilitated, so that the softness of the fabric is greatly improved;

through installing cutting mechanism on the support frame, promote the second cutting board through first cylinder and be close to first cutting board, make first cutting board, second cutting board cooperation use and cut off the surface fabric from the centre, need not the manpower and cut the surface fabric, labour saving and time saving, the surface fabric is when the cutting simultaneously, and the one end of surface fabric passes the strip and leads to the groove and hang down naturally for the surface fabric is level and smooth when the cutting, thereby has guaranteed the notched level and smooth of surface fabric, has guaranteed the cutting effect.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a perspective view of a fabric processing apparatus according to the present invention;

FIG. 2 is a partial structural view of a fabric treatment apparatus according to the present invention;

FIG. 3 is a partial structural view of another angle of the fabric treating apparatus of the present invention;

FIG. 4 is a perspective view of the cutting mechanism of the present invention;

FIG. 5 is an assembled cross-sectional view of the cutting mechanism, mounting plate, catheter and drying blower of the present invention.

In the figure: 1. a support frame; 2. a first vertical plate; 3. a discharge roller; 4. a discharging motor; 5. a cutting mechanism; 51. a side plate; 52. a first cutting plate; 53. a second cutting plate; 54. a first cylinder; 55. fixing the rod; 6. a mounting frame; 7. mounting a bottom plate; 8. a second vertical plate; 9. a roll shaft; 10. a fixing plate; 11. a threaded rod; 12. a cross bar; 13. a material receiving plate; 14. lifting a screw rod; 15. a first mounting plate; 16. a lifting motor; 18. a driving gear; 19. a driven gear; 20. a second cylinder; 21. a second mounting plate; 22. moving the plate; 23. moving the lead screw; 24. a moving motor; 25. a splint; 26. a clamping motor; 27. drying the fan; 28. a catheter; 29. and (4) a spray head.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

Example 1

step one, starting a discharging motor 4 in the fabric processing device, enabling an output shaft of the discharging motor 4 to rotate and drive a discharging roller 3 to rotate, enabling the discharging roller 3 to start discharging, enabling the fabric to pass between a first cutting plate 52 and a second cutting plate 53 and extend to the lower part of an installation bottom plate 7 through a strip-shaped through groove on the installation bottom plate 7, starting one of second air cylinders 20, enabling the second air cylinder 20 to drive a corresponding second installation plate 21 to move to the upper part of a material receiving plate 13, simultaneously starting two corresponding clamping motors 26, enabling the clamping plates 25 to rotate forward through the clamping motors 26 to enable the clamping plates 25 to open, enabling the clamping plates 25 to be located below the fabric, starting a lifting motor 16 on a corresponding installation frame 6, enabling the output shaft of the lifting motor 16 to rotate and drive a driving gear 18 to rotate, enabling the driving gear 18 to drive a gear belt to rotate, and driving a driven gear 19 to rotate through the gear belt, and driving two lifting, the lifting screw 14 rotates and simultaneously drives the first mounting plate 15 to ascend, drives the clamping plate 25 to ascend, enables the clamping plate 25 to ascend to the bottom of one end of the fabric, starts the clamping motor 26, and drives the clamping plate 25 to rotate in the forward direction and clamp and fix two corners of the bottom of the fabric;

step two, starting a first air cylinder 54, wherein an output rod of the first air cylinder 54 extends out and pushes a second cutting plate 53 to be close to the first cutting plate 52, the first cutting plate 52 and the second cutting plate 53 are matched for use to cut off the fabric from the middle, the cut end part of the fabric naturally sags, starting another second air cylinder 20, the output rod of the second air cylinder 20 extends out and drives a corresponding clamping plate 25 to move to the bottom of the sagging end of the fabric, the corresponding lifting motor 16 is started, the lifting motor 16 drives the corresponding clamping plate 25 to ascend to the same height of the bottom of the sagging end of the fabric, and a corresponding clamping motor 26 is started to enable the clamping plate 25 to clamp and fix two corners of the sagging end of the fabric;

step three, adjusting two lifting motors 16, driving four clamping plates 25 to be positioned on the same horizontal plane through the two lifting motors 16, at the moment, the fabric is in a horizontal state, rotating a rotating hand wheel, driving a threaded rod 11 to rotate through the rotating hand wheel, driving two mounting frames 6 to move in opposite directions, driving the corresponding second mounting plates 21 to move respectively through the two mounting frames 6, pulling two ends of the fabric through the clamping plates 25 in the process of moving the two mounting frames 6 in opposite directions, simultaneously starting moving motors 24 on the two second mounting plates 21, driving a moving screw 23 to rotate through the moving motors 24, driving two moving plates 22 to move in opposite directions, driving the corresponding clamping plates 25 to move in opposite directions through the two moving plates 22, and pulling two corners of the end parts of the fabric to two sides, so that the whole fabric is;

and step four, guiding the soft liquid into a liquid guide pipe 28 through an external guide pipe, spraying the liquid in the liquid guide pipe 28 through a spray head 29 to enable the soft liquid to be uniformly sprayed on the surface of the fabric, starting a drying fan 27, blowing air to the surface of the fabric by the drying fan 27, drying the fabric, after the fabric is kept still for 1h, loosening a clamping plate 25 by starting a clamping motor 26, and taking down the fabric to obtain the soft fabric for the student garment.

The softening liquid is prepared from the following raw materials in parts by weight: 4 parts of aromatic polyester, 5 parts of polyvinyl alcohol, 7 parts of sodium benzoate, 5 parts of sodium dodecyl benzene sulfonate, 9 parts of octamethyl silicone oil, 2 parts of sodium hexametaphosphate, 3 parts of sodium stearate, 3 parts of n-butyl acrylate, 6 parts of tetraethoxysilane, 2 parts of sodium laurate and 40 parts of deionized water.

The softening liquid is prepared by the following steps:

s1, adding deionized water into the reaction kettle, heating to 60 ℃, adding tetraethoxysilane and sodium dodecyl benzene sulfonate, and stirring at the rotating speed of 700r/min for 25 min;

s2, adding aromatic polyester and n-butyl acrylate into the reaction kettle, heating the temperature of the reaction kettle to 73 ℃, and stirring for 30min at the rotating speed of 65 r/min;

s3, adding sodium benzoate, octamethyl silicone oil, sodium stearate, sodium laurate, polyvinyl alcohol and sodium hexametaphosphate into the reaction kettle, and stirring at the rotating speed of 625r/min for 45min to obtain a soft liquid.

Example 2

A processing method for improving the softness of student garment materials comprises the following specific steps: the same as in example 1.

The softening liquid is prepared from the following raw materials in parts by weight: 5 parts of aromatic polyester, 7 parts of polyvinyl alcohol, 7.5 parts of sodium benzoate, 6 parts of sodium dodecyl benzene sulfonate, 9.5 parts of octamethyl silicone oil, 2.5 parts of sodium hexametaphosphate, 3.5 parts of sodium stearate, 4 parts of n-butyl acrylate, 8 parts of tetraethoxysilane, 2.5 parts of sodium laurate and 45 parts of deionized water.

The softening liquid is prepared by the following steps:

s1, adding deionized water into the reaction kettle, heating to 67 ℃, adding tetraethoxysilane and sodium dodecyl benzene sulfonate, and stirring at the rotating speed of 775r/min for 25 min;

s2, adding aromatic polyester and n-butyl acrylate into the reaction kettle, heating the temperature of the reaction kettle to 75 ℃, and stirring for 30min at the rotating speed of 700 r/min;

s3, adding sodium benzoate, octamethyl silicone oil, sodium stearate, sodium laurate, polyvinyl alcohol and sodium hexametaphosphate into the reaction kettle, and stirring at 675r/min for 45min to obtain a soft liquid.

Example 3

The softening liquid is prepared from the following raw materials in parts by weight: 6 parts of aromatic polyester, 9 parts of polyvinyl alcohol, 8 parts of sodium benzoate, 8 parts of sodium dodecyl benzene sulfonate, 10 parts of octamethyl silicone oil, 3 parts of sodium hexametaphosphate, 4 parts of sodium stearate, 5 parts of n-butyl acrylate, 10 parts of tetraethoxysilane, 3 parts of sodium laurate and 50 parts of deionized water.

The softening liquid is prepared by the following steps:

s1, adding deionized water into the reaction kettle, heating to 72 ℃, adding tetraethoxysilane and sodium dodecyl benzene sulfonate, and stirring at the rotating speed of 850r/min for 25 min;

s2, adding aromatic polyester and n-butyl acrylate into the reaction kettle, heating the temperature of the reaction kettle to 78 ℃, and stirring for 30min at the rotating speed of 750 r/min;

s3, adding sodium benzoate, octamethyl silicone oil, sodium stearate, sodium laurate, polyvinyl alcohol and sodium hexametaphosphate into the reaction kettle, and stirring at the rotating speed of 700r/min for 45min to obtain a soft liquid.

As shown in fig. 1-5, the fabric processing device includes two support frames 1, first vertical plates 2 are fixedly mounted on the tops of the two support frames 1 through bolts, a discharging roller 3 is arranged between the first vertical plates 2, two ends of the discharging roller 3 are respectively rotatably mounted in the two first vertical plates 2 through bearings, a discharging motor 4 is fixedly mounted on one of the first vertical plates 2, an output shaft end of the discharging motor 4 is fixedly connected with one end of the discharging roller 3, a mounting bottom plate 7 is horizontally fixed on the upper surface of the support frame 1 through a bolt, two second vertical plates 8 are vertically fixed on the upper surface of the mounting bottom plate 7 through a bolt, the two second vertical plates 8 are respectively arranged at two side edges of the upper surface of the mounting bottom plate 7, and a roller shaft 9 is rotatably mounted between the two second vertical plates 8;

the cutting mechanism 5 is fixedly installed on the upper surface of the installation bottom plate 7, two installation frames 6 are movably arranged between the two support frames 1, two lifting screw rods 14 are rotatably installed on the installation frames 6 through bearings and bearing seats, first installation plates 15 are movably installed on the two lifting screw rods 14, the first installation plates 15 are in threaded connection with the two lifting screw rods 14, driven gears 19 are fixedly sleeved at the bottoms of the two lifting screw rods 14, a lifting motor 16 is fixedly installed on the support frames 1, a driving gear 18 is fixedly installed at an output shaft end of the lifting motor 16, and the driving gear 18 is in transmission connection with the two driven gears 19 through gear belts respectively;

a second cylinder 20 is fixedly arranged on one side of the first mounting plate 15, the end part of an output rod of the second cylinder 20 penetrates through the first mounting plate 15 and is fixedly provided with a second mounting plate 21, two moving plates 22 are movably arranged on the second mounting plate 21, the moving plates 22 are connected with the second mounting plate 21 in a sliding way through sliding blocks and sliding rails, a clamping plate 25 is rotatably arranged on the moving plate 22, a clamping motor 26 is fixedly arranged on the moving plate 22, the output shaft end of the clamping motor 26 is fixedly connected with one end of the clamping plate 25, one side of the second mounting plate 21 is transversely provided with a movable screw 23, the movable lead screw 23 is rotatably mounted on the second mounting plate 21 through a bearing and a bearing seat, the second mounting plate 21 is fixedly provided with a movable motor 24, and the output shaft end of the movable motor 24 is fixedly connected with one end of the movable lead screw 23;

a material receiving plate 13 is horizontally arranged below the mounting bottom plate 7, support legs are mounted at corner positions of the bottom surface of the material receiving plate 13, the material receiving plate 13 is located between the two mounting frames 6, fixing plates 10 are respectively vertically arranged on the outer sides of the two mounting frames 6, a threaded rod 11 is arranged between the two fixing plates 10, the threaded rod 11 is rotatably connected with the two fixing plates 10 through bearings, a rotating hand wheel is mounted at one end of the threaded rod 11, and the threaded rod 11 is in threaded connection with the bottoms of the two mounting frames 6;

a liquid guide pipe 28 is transversely fixed on the bottom surface of the mounting bottom plate 7, a spray head 29 is installed at the bottom of the liquid guide pipe 28, a drying fan 27 is further fixedly installed on the bottom surface of the mounting bottom plate 7, a strip-shaped through groove is formed in the mounting bottom plate 7, and a lower notch of the strip-shaped through groove is located between the liquid guide pipe 28 and the drying fan 27.

Two fixed plates 10 are further provided with two cross rods 12, two ends of each cross rod 12 are fixedly connected with the two fixed plates 10 respectively, and the cross rods 12 are connected with the bottoms of the two mounting frames 6 in a sliding mode.

Two the inboard top of support frame 1 all transversely is fixed with the slide rail, the equal fixed mounting in both sides at 6 tops of mounting bracket has the slider, support frame 1 passes through slider, slide rail sliding connection with mounting bracket 6.

The threads on the threaded rod 11 are symmetrically distributed.

The cutting mechanism 5 comprises two side plates 51, the two side plates 51 are vertically fixed on the upper surface of the mounting base plate 7 through welding, a first cutting plate 52 is horizontally fixed between the two side plates 51, a second cutting plate 53 is movably arranged between the two side plates 51, a fixing rod 55 is fixedly arranged between the two side plates 51 through welding, a first air cylinder 54 is fixedly arranged on one side of the fixing rod 55, and an output rod of the first air cylinder 54 penetrates through the fixing rod 55 and is fixedly connected with the second cutting plate 53;

the inner sides of the two side plates 51 are provided with strip-shaped sliding grooves, and two ends of the second cutting plate 53 are respectively slidably mounted in the strip-shaped sliding grooves of the two side plates 51.

according to the invention, the second cylinder 20 is started to drive the first mounting plate 15 to move, so that the clamping plate 25 is driven to move, the clamping plate 25 can be adjusted in the horizontal direction, the lifting motor 16 is started to drive the lifting screw 14 to rotate, and the first mounting plate 15 is driven to lift, so that the clamping plate 25 is adjusted in the vertical direction, and the fabric can be conveniently clamped; the four clamping motors 26 are started to drive the corresponding clamping plates 25 to rotate, so that four corners of the fabric are clamped and fixed, the rotating hand wheel is rotated to drive the threaded rod 11 to rotate and drive the two mounting frames 6 to move reversely, the two mounting frames 6 respectively drive the corresponding second mounting plates 21 to move, the two ends of the fabric are pulled by the clamping plates 25 in the process of reverse movement of the two mounting frames 6, the fabric is stretched along the directions of the two ends, the moving motor 24 is started, the moving screw 23 is driven to rotate by the moving motor 24, and the two moving plates 22 are driven to move reversely, so that the two clamping plates 25 on the same second mounting plate 21 move reversely, the two corners at the end parts of the fabric are pulled to two sides, the fabric is transversely stretched, the whole fabric is completely stretched tightly, and unfolded, and the reduction of the softness of the fabric caused by excessive contraction and over-, meanwhile, the fabric is stretched in multiple directions, so that pores among the fabric threads are greatly increased, and the fabric is favorable for absorbing softening liquid, so that the softness of the fabric is greatly improved;

through installing cutting mechanism 5 on support frame 1, promote second cutting board 53 through first cylinder 54 and be close to first cutting board 52, make first cutting board 52, the cooperation of second cutting board 53 use and cut off the surface fabric from the middle, need not the manpower and cut the surface fabric, labour saving and time saving, the surface fabric is when the cutting simultaneously, the one end of surface fabric passes the strip and leads to the groove and hang down naturally for the surface fabric is level and smooth when the cutting, thereby guaranteed the notched level and smooth of surface fabric, guaranteed cutting effect.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A processing method for improving the softness of student garment materials is characterized by comprising the following specific steps:

step one, starting a discharging motor (4) in the fabric processing device, enabling an output shaft of the discharging motor (4) to rotate and drive a discharging roller (3) to rotate, enabling the discharging roller (3) to start discharging, enabling the fabric to penetrate through a position between a first cutting plate (52) and a second cutting plate (53) and penetrate through a strip-shaped through groove in an installation bottom plate (7) to extend to the lower portion of the installation bottom plate (7), starting one of second air cylinders (20), enabling the second air cylinder (20) to drive a corresponding second installation plate (21) to move to the upper portion of a material receiving plate (13), simultaneously starting two corresponding clamping motors (26), driving a clamping plate (25) to rotate in the forward direction through the clamping motors (26), enabling the clamping plate (25) to be opened, enabling the clamping plate (25) to be located below the fabric, starting a lifting motor (16) on a corresponding installation frame (6), enabling an output shaft of the lifting motor (16) to rotate and drive a driving gear (18) to, the driving gear (18) drives the gear belt to rotate, the driven gear (19) is driven to rotate through the gear belt, the two lifting screw rods (14) are driven to rotate, the first mounting plate (15) is driven to ascend while the lifting screw rods (14) rotate, the clamping plate (25) is driven to ascend, the clamping plate (25) is made to ascend to the bottom of one end of the fabric, the clamping motor (26) is started, and the clamping motor (26) drives the clamping plate (25) to rotate positively and clamp and fix two corners of the bottom of the fabric;

step two, starting a first air cylinder (54), wherein an output rod of the first air cylinder (54) extends out and pushes a second cutting plate (53) to be close to the first cutting plate (52), the first cutting plate (52) and the second cutting plate (53) are matched for use to cut off the fabric from the middle, the cut end part of the fabric naturally sags, starting another second air cylinder (20), the output rod of the second air cylinder (20) extends out and drives a corresponding clamping plate (25) to move to the bottom of the sagging end of the fabric, and by starting a corresponding lifting motor (16), the lifting motor (16) drives the corresponding clamping plate (25) to ascend to the same height of the bottom of the sagging end of the fabric, and starting a corresponding clamping motor (26) to clamp and fix two corners of the sagging end of the fabric by the clamping plate (25);

step three, adjusting two lifting motors (16), driving four clamping plates (25) to be positioned on the same horizontal plane through the two lifting motors (16), the fabric is in a horizontal state, the rotating hand wheel is rotated to drive the threaded rod (11) to rotate, the two mounting frames (6) are driven to move reversely, the two mounting frames (6) respectively drive the corresponding second mounting plates (21) to move, the two ends of the fabric are pulled by the clamping plates (25) in the process of the reverse movement of the two mounting frames (6), meanwhile, the moving motors (24) on the two second mounting plates (21) are started, the moving motors (24) drive the moving screw rods (23) to rotate, the two movable plates (22) are driven to move reversely, the two movable plates (22) drive the corresponding clamping plates (25) to move reversely, and two corners of the end part of the fabric are pulled to two sides, so that the whole fabric is completely stretched;

and step four, guiding the soft liquid into a liquid guide pipe (28) through an external guide pipe, spraying the liquid in the liquid guide pipe (28) through a spray head (29), uniformly spraying the soft liquid on the surface of the fabric, starting a drying fan (27), blowing air to the surface of the fabric by the drying fan (27), drying the fabric, after the fabric is kept still for 1h, loosening a clamping plate (25) by starting a clamping motor (26), and taking down the fabric to obtain the soft fabric for the student garment.

2. The processing method for improving the softness of the fabric of student's clothing according to claim 1, wherein the softening liquid is prepared from the following raw materials in parts by weight: 4-6 parts of aromatic polyester, 5-9 parts of polyvinyl alcohol, 7-8 parts of sodium benzoate, 5-8 parts of sodium dodecyl benzene sulfonate, 9-10 parts of octamethyl silicone oil, 2-3 parts of sodium hexametaphosphate, 3-4 parts of sodium stearate, 3-5 parts of n-butyl acrylate, 6-10 parts of tetraethoxysilane, 2-3 parts of sodium laurate and 40-50 parts of deionized water.

3. The processing method for improving the softness of student garment materials according to claim 1, wherein the softening liquid is prepared by the following steps:

4. The processing method for improving the softness of the fabric for student's clothing according to claim 1, wherein the fabric processing device comprises two support frames (1), first vertical plates (2) are fixedly mounted on the tops of the two support frames (1) through bolts, a discharging roller (3) is arranged between the first vertical plates (2), two ends of the discharging roller (3) are rotatably mounted in the two first vertical plates (2) through bearings, a discharging motor (4) is fixedly mounted on one of the first vertical plates (2), an output shaft end of the discharging motor (4) is fixedly connected with one end of the discharging roller (3), a mounting bottom plate (7) is horizontally fixed on the upper surface of the support frame (1) through bolts, and two second vertical plates (8) are vertically fixed on the upper surface of the mounting bottom plate (7) through bolts, the two second vertical plates (8) are respectively arranged at the edges of two sides of the upper surface of the mounting bottom plate (7), and a roll shaft (9) is rotatably arranged between the two second vertical plates (8);

the cutting mechanism (5) is fixedly installed on the upper surface of the mounting bottom plate (7), two mounting frames (6) are movably arranged between the two support frames (1), two lifting screw rods (14) are rotatably installed on the mounting frames (6) through bearings and bearing seats, a first mounting plate (15) is movably installed on the two lifting screw rods (14), the first mounting plate (15) is in threaded connection with the two lifting screw rods (14), driven gears (19) are fixedly sleeved at the bottoms of the two lifting screw rods (14), a lifting motor (16) is fixedly installed on the support frames (1), a driving gear (18) is fixedly installed at the output shaft end of the lifting motor (16), and the driving gear (18) is in transmission connection with the two driven gears (19) through gear belts respectively;

one side fixed mounting of first mounting panel (15) has second cylinder (20), the output pole tip of second cylinder (20) runs through first mounting panel (15) and fixed mounting has second mounting panel (21), the activity is provided with two movable plates (22) on second mounting panel (21), movable plate (22) are through slider, slide rail and second mounting panel (21) sliding connection, rotate on movable plate (22) and install splint (25), fixed mounting has centre gripping motor (26) on movable plate (22), the output axle head of centre gripping motor (26) and the one end fixed connection of splint (25), one side of second mounting panel (21) transversely is provided with removal lead screw (23), removal lead screw (23) rotate through bearing, bearing frame and install on second mounting panel (21), fixed mounting has removal motor (24) on second mounting panel (21), the output shaft end of the moving motor (24) is fixedly connected with one end of the moving screw rod (23);

a material receiving plate (13) is horizontally arranged below the mounting bottom plate (7), support legs are mounted at corner positions of the bottom surface of the material receiving plate (13), the material receiving plate (13) is located between the two mounting frames (6), fixing plates (10) are respectively vertically arranged on the outer sides of the two mounting frames (6), a threaded rod (11) is arranged between the two fixing plates (10), the threaded rod (11) is rotatably connected with the two fixing plates (10) through a bearing, a rotary hand wheel is mounted at one end of the threaded rod (11), and the threaded rod (11) is in threaded connection with the bottoms of the two mounting frames (6);

the drying device is characterized in that a liquid guide pipe (28) is transversely fixed on the bottom surface of the mounting bottom plate (7), a spray head (29) is installed at the bottom of the liquid guide pipe (28), a drying fan (27) is further fixedly installed on the bottom surface of the mounting bottom plate (7), a strip-shaped through groove is formed in the mounting bottom plate (7), and a lower notch of the strip-shaped through groove is located between the liquid guide pipe (28) and the drying fan (27).

5. The processing method for improving the softness of student garment materials according to claim 4, wherein two cross bars (12) are further arranged on the two fixing plates (10), two ends of each cross bar (12) are fixedly connected with the two fixing plates (10), and the cross bars (12) are slidably connected with the bottoms of the two mounting frames (6).

6. The processing method for improving the softness of student garment materials according to claim 4, wherein sliding rails are transversely fixed to the tops of the inner sides of the two support frames (1), sliding blocks are fixedly mounted on two sides of the top of the mounting frame (6), and the support frames (1) are slidably connected with the mounting frame (6) through the sliding blocks and the sliding rails.

7. The processing method for improving the softness of student garment materials according to claim 4, wherein the threads on the threaded rod (11) are symmetrically distributed.

8. The processing method for improving the softness of the fabric for student's clothing as claimed in claim 4, wherein the cutting mechanism (5) includes two side plates (51), the two side plates (51) are vertically fixed on the upper surface of the installation bottom plate (7) by welding, a first cutting plate (52) is horizontally fixed between the two side plates (51), a second cutting plate (53) is movably arranged between the two side plates (51), a fixing rod (55) is fixedly installed between the two side plates (51) by welding, a first air cylinder (54) is fixedly installed on one side of the fixing rod (55), and an output rod of the first air cylinder (54) penetrates through the fixing rod (55) and is fixedly connected with the second cutting plate (53);

the inner sides of the two side plates (51) are provided with strip-shaped sliding grooves, and two ends of the second cutting plate (53) are respectively slidably mounted in the strip-shaped sliding grooves of the two side plates (51).