阅读说明：本技术 一种绢布抗静电处理装置及工艺 (Silk cloth antistatic treatment device and process ) 是由 陆伟 于 2021-07-06 设计创作，主要内容包括：本发明涉及织物技术技术领域,具体为一种绢布抗静电处理装置及工艺,该方法采用含有导电纱线以及绢丝的面料为原料织造抗静电绢布,对抗静电绢布进行煮炼漂洗以及抑菌处理后将其浸润抗静电剂溶液,利用挤压机构初步轧出多余水分后通过烘干卷筒烘干并消除抗静电剂的蒸发异味,通过该方法有效缓解了绢丝纺纱静电严重的问题,进一步提高了绢布的抗静电能力,在绢布浸润抗静电溶液后先对其进行初步轧水,节省抗静电溶液的同时减小了后续对绢布的烘干消耗,在绢布进行抗静电溶液浸润时通过搅拌喷头使抗静电溶液形成搅拌对流并在其消耗后自动定比补充,提高绢布浸润效果的同时减少工作人员的工作量。(The invention relates to the technical field of fabrics, in particular to a silk cloth antistatic treatment device and a process, the method adopts the fabric containing conductive yarns and spun silks as raw materials to weave antistatic spun silk cloth, the antistatic spun silk cloth is soaked in antistatic agent solution after boiling rinsing and bacteriostasis treatment, excess water is preliminarily rolled out by an extrusion mechanism and then is dried by a drying reel, the evaporation peculiar smell of the antistatic agent is eliminated, the method effectively relieves the problem of serious static electricity of spun silk spinning, further improves the antistatic capability of the spun silk cloth, the silk cloth is firstly subjected to preliminary water squeezing after being soaked in the antistatic solution, so that the drying consumption of the silk cloth is reduced while the antistatic solution is saved, when silk cloth is soaked by the antistatic solution, the antistatic solution forms stirring convection through the stirring nozzle and is automatically supplemented in a fixed ratio after the antistatic solution is consumed, so that the silk cloth soaking effect is improved, and the workload of workers is reduced.)

1. A silk cloth antistatic treatment device comprises a workbench (11), and is characterized in that: the automatic drying machine is characterized in that two fixing plates (12) are symmetrically and fixedly arranged on the end face of one side of the far ground away from the workbench (11), a positioning roller (13) is fixedly arranged between the two fixing plates (12), the workbench (11) is close to an immersion tank (29) fixedly arranged on the end face of one side of the near ground, an immersion cavity (28) which is opened to one side of the far ground away and is communicated with the workbench (11) is arranged in the immersion tank (29), a guide roller (27) which is axially parallel to the positioning roller (13) is fixedly arranged between the inner walls of two opposite sides of the immersion cavity (28), five stirring nozzles (30) are respectively arranged on the inner walls of two axially parallel sides of the immersion cavity (28) and the guide roller (27) in an array manner, the five stirring nozzles (30) on two sides have height difference, a drying box (31) is fixedly arranged on one side of the far ground away from the workbench (11), and a drying mechanism is arranged in the drying box (31), drying box (31) are close to fixedly on immersion fluid case (29) one side terminal surface and are equipped with liquid reserve tank (16), liquid reserve tank (16) are close to ground one side and are equipped with extrusion mechanism.

2. The antistatic treatment device for silk cloth according to claim 1, characterized in that: be close to five stirring shower nozzles (30) in fixed plate (12) one side are located soaking chamber (28) inner wall middle part, keep away from five stirring shower nozzles (30) in fixed plate (12) one side are located soaking chamber (28) inner wall and are close to ground fourth department, ten stirring shower nozzle (30) link up through the internal pipeline, keep away from fixed plate (12) one side intermediate position stirring shower nozzle (30) and backwash pump liquid outlet UNICOM, soaking chamber (28) bottom intermediate position link up be equipped with the through-hole and with backwash pump inlet UNICOM.

3. The antistatic treatment device for silk cloth according to claim 1, characterized in that: the drying mechanism comprises a drying chamber (22) which is arranged inside the drying box (31) and is provided with an opening far away from one side of the fixed plate (12), two drying rotating shafts (33) which are axially parallel to the positioning roller (13) and are meshed with straight teeth mutually are arranged on the inner wall of one side of the drying chamber (22) in a rotating mode, the connecting line between the axes of the drying rotating shafts (33) and the horizontal plane are forty-five degrees, a motor (32) is fixedly arranged on the outer end face of the drying box (31) relative to the corresponding position of the drying rotating shaft (33) far away from one side of the ground, one side of the drying rotating shaft (33) far away from the ground is close to one side end of the motor (32), extends to the outer end face of the drying box (31) and is in power connection with the motor (32), a drying reel (20) is fixedly arranged on the end face of one side of the drying rotating shaft (33) far away from the motor (32), a heating chamber (21) is arranged in the drying reel (20), drying reel (20) are kept away from on motor (32) a side end face and are rotated and are equipped with linking post (34) that correspond side inner wall fixed connection with stoving chamber (22), link up and be equipped with two and heat circulating pipe (35) that heating chamber (21) inner wall and stoving case (31) outer terminal surface link up in post (34) through, correspond the position two heat circulating pipe (35) connect the admission line and the pipeline of giving vent to anger of heating air pump respectively.

4. The antistatic treatment device for silk cloth according to claim 1, characterized in that: the extrusion mechanism includes that the array sets up four articulated slab (19) on liquid reserve tank (16) is close to ground side end face, articulated slab (19) are close to on the central side end face of array torsional spring and articulate and are equipped with extrusion pendulum rod (15), are close to two extrusion pendulum rod (15) torsional spring return directions of fixed plate (12) one side are clockwise, keep away from two extrusion pendulum rod (15) torsional spring return directions of fixed plate (12) one side are anticlockwise, are close to, keep away from rotate between corresponding position (19) one side end and are equipped with rolling wheel (14), two rolling wheel (14) extrude each other under the spring action of torsional spring between corresponding position extrusion pendulum rod (15) and articulated slab (19).

5. The antistatic treatment device for silk cloth according to claim 3, characterized in that: stoving chamber (22) are close to and link up between fixed plate (12) one side inner wall and stoving case (31) and are equipped with cloth feeding groove (24) near fixed plate (12) a side terminal surface, torsional spring is articulated between the relative both sides inner wall of stoving chamber (22) and is equipped with switching board (23), switching board (23) initial state is perpendicular with workstation (11), just keep away from workstation (11) one side inner wall with stoving chamber (22) and keep away from workstation (11) one side fixed distance when switching board (23) are in initial state, it is equipped with except that flavor mouth (25) to link up between being close to ground one side inner wall and workstation (11) one side terminal surface to dry chamber (22), except that flavor mouth (25) external suction duct.

6. The antistatic treatment device for silk cloth according to claim 1, characterized in that: be equipped with in liquid reserve tank (16) opening to keeping away from water storage chamber (17) of ground one side, be equipped with in liquid reserve tank (16) opening to keeping away from storage agent chamber (18) of ground one side, workstation (11) are close to on motor (32) a side end face about water storage chamber (17), storage agent chamber (18) correspond on the position terminal surface fixed be equipped with two make-up water pump (36), the imbibition pipeline of make-up water pump (36) and the water storage chamber (17), the storage agent chamber (18) UNICOM of corresponding position, the play liquid pipeline and the imbibition chamber (28) UNICOM of make-up water pump (36).

7. The antistatic treatment device for silk cloth according to claim 6, characterized in that: photoelectric sensors (26) are fixedly arranged on the inner wall of one side, far away from the fixing plate (12), of the liquid immersion cavity (28), and the two supplementing water pumps (36) are controlled through the photoelectric sensors (26).

8. An antistatic treatment process for silk cloth is characterized in that: the method comprises the following steps:

firstly, weaving antistatic spun silk cloth by using a fabric containing conductive yarns and spun silk as a raw material;

secondly, boiling and rinsing the antistatic silk cloth;

thirdly, soaking the antistatic silk cloth in bacteriostatic liquid and drying;

soaking the antistatic silk cloth in the antistatic agent solution and preliminarily rolling out excessive water by using an extrusion mechanism, wherein the rolling-out rate is 40-50%;

fifthly, drying the antistatic silk cloth through a drying drum and eliminating the evaporation odor of the antistatic agent, wherein the drying temperature is 180-220 degrees;

sixthly, the antistatic silk cloth obtained in the step 5 is rinsed, dried and coiled.

9. The silk cloth antistatic treatment process according to claim 8, characterized in that: the conductive yarn is formed by twisting a plurality of conductive yarns and bamboo charcoal fibers in parallel, the ratio of the conductive yarns to spun silk weaving strands is 1 to 5, and the antistatic capability of the spun silk cloth can be effectively improved by doping the conductive yarns into the spun silk.

10. The silk cloth antistatic treatment process according to claim 8, characterized in that: the antistatic agent is FK-305 antistatic agent, and the mixing proportion of the FK-305 antistatic agent and water is 1 to 7.

Technical Field

The invention relates to the technical field of fabrics, in particular to an antistatic treatment device and process for silk cloth.

Background

Spun silk refers to yarn produced by spinning such as combing, drafting and twisting silk by-products similar to cotton yarn, and spun silk fabrics are plain weave, light and thin, tough, stiff and smooth.

Spun silk is influenced by the material, the static is serious in the spinning process, spun cloth made of the spun silk can rub with each other to generate static in storage and transportation, the inconvenience of subsequent processing is caused, people can generate stabbing pain and itching feeling when the static is generated after the spun silk is made into clothes, and the feeling is very uncomfortable.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an antistatic treatment device and process for silk cloth, which can improve the antistatic capability of the silk cloth and ensure the stable soaking effect of an antistatic solution.

The technical scheme of the invention is realized as follows: the automatic drying machine comprises a workbench, the workstation is kept away from two fixed plates, two fixed registration rollers that are equipped with on the ground side end face symmetrically and fixedly between the fixed plate, the workstation is close to the fixed infusion case that is equipped with on the ground side end face, the infusion incasement is equipped with the opening to keeping away from ground one side and the immersion fluid chamber that link up with the workstation, the fixed guide roll that is equipped with registration roller axial direction parallel between the relative both sides inner wall in immersion fluid chamber, the immersion fluid chamber is equipped with five stirring shower nozzles, five on the parallel both sides inner wall of guide roll axial direction respectively the stirring shower nozzle has the difference in height, the workstation is kept away from the fixed stoving case that is equipped with in ground one side, the stoving mechanism that is equipped with in the stoving case, the stoving case is close to the fixed liquid reserve tank that is equipped with on infusion case side end face, the liquid reserve tank is close to ground one side and is equipped with extrusion mechanism.

The invention is further configured to: be close to five stirring shower nozzles in fixed plate one side are located immersion fluid intracavity wall middle part, keep away from five stirring shower nozzles in fixed plate one side are located immersion fluid intracavity wall and are close to ground fourth department, ten the stirring shower nozzle link up through the internal conduit, keeps away from fixed plate one side intermediate position stirring shower nozzle and backwash pump liquid outlet UNICOM, immersion fluid chamber bottom intermediate position link up be equipped with the through-hole and with backwash pump liquid inlet UNICOM.

The drying mechanism comprises a drying cavity which is arranged in the drying box and has an opening facing away from one side of the fixed plate, two drying rotating shafts which are axially parallel to the positioning roller and are meshed with straight teeth of each other are rotatably arranged on the inner wall on one side of the drying cavity, the included angle between the line and the horizontal plane between the axes of the two drying rotating shafts is forty-five degrees, a motor is fixedly arranged on the outer end face of the drying box corresponding to the drying rotating shaft on one side away from the ground, the drying rotating shaft on one side away from the ground is close to one side end of the motor, extends to the outer end face of the drying box and is connected with the power of the motor, a drying reel is fixedly arranged on the end face of one side of the drying rotating shaft away from the motor, a heating cavity is arranged in the drying reel, a linking column fixedly connected with the inner wall of the drying cavity on one side away from the end face of the motor is rotatably arranged on the end face of the drying reel, two heat circulating pipes which are communicated with the inner wall of the heating cavity and the outer end face of the drying box are arranged in the linking column, the two heat circulating pipes at the corresponding positions are respectively connected with an air inlet pipeline and an air outlet pipeline of the heating air pump.

The extrusion mechanism includes that the array sets up four articulated joints on the liquid reserve tank is close to ground side end face, the articulated joint is close to articulated the being equipped with of torsional spring on the central side end face of array and extrudes the pendulum rod, is close to two extrusion pendulum rod torsional spring return directions of fixed plate one side are clockwise, keep away from two extrusion pendulum rod torsional spring return directions of fixed plate one side are anticlockwise, are close to, keep away from two extrusion pendulum rods of fixed plate one side are kept away from and are equipped with the wheel, two rotate between the articulated joint side of corresponding position, the wheel extrudees each other under the spring action of torsional spring between corresponding position extrusion pendulum rod and the articulated joint.

The stoving chamber is close to and link up with the stoving case and is equipped with cloth feeding groove between being close to fixed plate one side inner wall and a fixed plate side end face, the articulated switching board that is equipped with of torsional spring between the relative both sides inner wall in stoving chamber, switching board initial condition is perpendicular with the workstation, when switching board is in initial condition and keep away from workstation one side end and stoving chamber and keep away from workstation one side inner wall and keep fixed distance, the stoving chamber is close to and link up with the smell removal mouth near ground one side inner wall and workstation between being close to a ground side end face, remove the external pipeline of breathing in of smell mouth.

The utility model discloses a quick-witted including the workstation, be equipped with the opening in the liquid reserve tank to the water storage chamber of keeping away from ground one side, be equipped with the opening in the liquid reserve tank to the storage agent chamber of keeping away from ground one side, the workstation is close to on the motor side end face on the water storage chamber, store up the agent chamber and correspond the position terminal surface on fixedly be equipped with two make-up water pumps, make-up water pump's imbibition pipeline and the water storage chamber of corresponding position, store up agent chamber UNICOM, make-up water pump's play liquid pipeline and immersion fluid chamber UNICOM.

And the inner wall of one side of the liquid immersion cavity, which is far away from the fixed plate, is fixedly provided with a photoelectric sensor, and the two make-up water pumps are controlled by the photoelectric sensors.

The invention further discloses an antistatic treatment process for silk cloth, which comprises the following steps:

firstly, weaving antistatic spun silk cloth by using a fabric containing conductive yarns and spun silk as a raw material;

secondly, boiling and rinsing the antistatic silk cloth;

thirdly, soaking the antistatic silk cloth in bacteriostatic liquid and drying;

soaking the antistatic silk cloth in the antistatic agent solution and preliminarily rolling out excessive water by using an extrusion mechanism, wherein the rolling-out rate is 40-50%;

fifthly, drying the antistatic silk cloth through a drying drum and eliminating the evaporation odor of the antistatic agent, wherein the drying temperature is 180-220 degrees;

sixthly, the antistatic silk cloth obtained in the step 5 is rinsed, dried and coiled.

The conductive yarn is formed by twisting a plurality of conductive yarns and bamboo charcoal fibers in parallel, the ratio of the conductive yarns to spun silk weaving strands is 1 to 5, and the antistatic capability of the spun silk cloth can be effectively improved by doping the conductive yarns into the spun silk.

The antistatic agent is FK-305 antistatic agent, and the mixing ratio of the FK-305 antistatic agent to water is 1: 7.

By adopting the technical scheme, the mixed weaving method of the conductive yarns and the spun silks is adopted, the problem of serious static electricity of spun silk spinning is effectively relieved, then the silk cloth is soaked by the antistatic solution, the antistatic capability of the silk cloth is further improved, the silk cloth is firstly subjected to preliminary water squeezing after being soaked by the antistatic solution, the follow-up drying consumption of the silk cloth is reduced while the antistatic solution is saved, in addition, when the silk cloth is soaked by the antistatic solution, the antistatic solution in the soaking cavity forms stirring convection under the action of the stirring spray heads distributed in an array, the antistatic solution is automatically supplemented in a fixed ratio after being consumed, the silk cloth soaking effect is improved, and the workload of workers is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic cross-sectional view of an antistatic treatment device for silk cloth according to the present invention;

FIG. 2 is a schematic view of the internal structure of drying chamber 22;

FIG. 3 is a schematic perspective view of an antistatic treatment device for silk cloth according to the present invention;

FIG. 4 is a schematic perspective view of an antistatic treatment device for silk cloth according to the present invention;

FIG. 5 is a schematic view of the internal structure of the immersion chamber 28;

FIG. 6 is a schematic view of the internal structure of the immersion liquid chamber 28;

FIG. 7 is a schematic view of the antistatic treatment process of silk cloth according to the present invention.

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.

As shown in fig. 1 to 6, the invention firstly discloses a silk cloth antistatic treatment device, comprising a workbench 11, wherein two fixing plates 12 are symmetrically and fixedly arranged on one end surface of the workbench 11 far from the ground, a positioning roller 13 for initially positioning input silk cloth is fixedly arranged between the two fixing plates 12, an immersion liquid box 29 for performing antistatic agent solution immersion treatment on the silk cloth is fixedly arranged on one end surface of the workbench 11 near the ground, an immersion liquid cavity 28 with an opening towards one side far from the ground and communicated with the workbench 11 is arranged in the immersion liquid box 29, a guide roller 27 axially parallel to the positioning roller 13 is fixedly arranged between the inner walls of two opposite sides of the immersion liquid cavity 28, the silk cloth bypasses the side of the positioning roller 13 far from the ground and bypasses from one side of the guide roller 27 near the ground, the guide roller 27 is always positioned below the liquid level of the solution in the process of performing antistatic agent solution immersion treatment on the silk cloth in the immersion liquid cavity 28, soak solution chamber 28 and guide roll 27 axial direction parallel both sides inner wall on the array respectively be equipped with five stirring shower nozzle 30 that carry out circulation and mix to antistatic agent solution in the soaking solution chamber 28, five in both sides stirring shower nozzle 30 has the difference in height, workstation 11 keeps away from ground one side fixed and is equipped with stoving case 31, be equipped with in the stoving case 31 and carry out dry stoving mechanism to soaking antistatic agent solution silk cloth, stoving case 31 is close to fixedly on soaking solution case 29 side end face and is equipped with liquid reserve tank 16, liquid reserve tank 16 is close to ground one side and is equipped with the extrusion mechanism who carries out preliminary drying to silk cloth before drying.

Referring to attached drawings 1, 5 and 6, being close to five stirring shower nozzles 30 on one side of the fixed plate 12 are located in the middle of the inner wall of the immersion liquid cavity 28 and are far away from one quarter of the inner wall of the immersion liquid cavity 28, ten stirring shower nozzles 30 are communicated with each other through an internal pipeline and are far away from the stirring shower nozzles 30 at the middle position on one side of the fixed plate 12 and the liquid outlet of the reflux pump, the middle position at the bottom of the immersion liquid cavity 28 is communicated with a through hole and is communicated with the liquid inlet of the reflux pump, the reflux pump is used for circulating the antistatic agent solution in the immersion liquid cavity 28 and is used for spraying the stirring shower nozzles 30, the antistatic agent solution in the immersion liquid cavity 28 forms convection and is stirred clockwise under the height difference effect of the stirring shower nozzles 30 on the two sides, and therefore the antistatic agent and water are mixed more uniformly.

Referring to the attached drawings 1, 2 and 4, the drying mechanism includes a drying chamber 22 disposed inside the drying box 31 and opened to one side far away from the fixing plate 12, two drying rotating shafts 33 axially parallel to the positioning roller 13 and meshed with straight teeth of the positioning roller 13 are rotatably disposed on the inner wall of one side of the drying chamber 22, a line between the axes of the two drying rotating shafts 33 and a horizontal plane included angle is forty-five degrees, a motor 32 is fixedly disposed on the outer end surface of the drying box 31 corresponding to the position of the drying rotating shaft 33 far away from one side of the ground, one side far away from the ground is provided with a side end of the drying rotating shaft 33 close to the motor 32 and extends to the outer end surface of the drying box 31 and is in power connection with the motor 32, a drying drum 20 is fixedly disposed on one side end surface far away from the motor 32, a heating cavity 21 is disposed in the drying drum 20, a column 34 fixedly connected with the inner wall of one side far away from the motor 32 is rotatably disposed on one side end surface of the drying drum 20, it is equipped with two heat-circulating pipes 35 that link up with the outer terminal surface of heating chamber 21 inner wall and stoving case 31 to link up in the post 34, corresponds the position two heat-circulating pipe 35 connects the admission line and the pipeline of giving vent to anger of heating the air pump respectively, through corresponding position two heat-circulating pipe 35 can be to the circulation of carrying steam and realizing heated air in the heating chamber 21, work as when motor 32 starts to drive two stoving reels 20 and rotate, silk cloth walks around two stoving reel 20 just removes along with the rotation of stoving reel 20, the heated air of heating chamber 21 inner loop will be dried silk cloth through heating stoving reel 20.

Referring to fig. 1, 3 and 4, the squeezing mechanism includes four hinged plates 19 arranged in an array on the end surface of the side close to the ground of the liquid storage tank 16, the hinged plates 19 are hinged with squeezing swing rods 15 by torsion springs on the end surface of the side close to the center of the array, the restoring direction of the torsion springs of the two squeezing swing rods 15 close to one side of the fixed plate 12 is clockwise, the restoring direction of the torsion springs of the two squeezing swing rods 15 far away from one side of the fixed plate 12 is counterclockwise, rolling wheels 14 are rotatably arranged between the ends of the two squeezing swing rods 15 close to one side of the fixed plate 12 far away from the hinged plates 19 at the corresponding positions, the two rolling wheels 14 squeeze each other under the action of the elasticity of the torsion springs between the squeezing swing rods 15 and the hinged plates 19 at the corresponding positions, and when silk cloth is soaked in the antistatic agent solution and passes between the two rolling wheels 14, the silk cloth is squeezed by the two rolling wheels 14, redundant moisture in the silk cloth is squeezed to flow back into the soaking cavity 28, so that the drying effect of the drying mechanism is ensured while waste is avoided.

Referring to fig. 1, 3 and 4, a cloth feeding groove 24 is penetratingly arranged between an inner wall of one side of the drying cavity 22 close to the fixed plate 12 and an end surface of one side of the drying box 31 close to the fixed plate 12, an opening and closing plate 23 is hinged between inner walls of two opposite sides of the drying cavity 22, the opening and closing plate 23 is in an initial state and is perpendicular to the workbench 11, a side end of the opening and closing plate 23 far away from the workbench 11 keeps a fixed distance from an inner wall of one side of the drying cavity 22 far away from the workbench 11, a deodorizing port 25 is penetratingly arranged between an inner wall of one side of the drying cavity 22 close to the ground and an end surface of one side of the workbench 11 close to the ground, the deodorizing port 25 is externally connected with an air suction pipeline, when the spun silk cloth is extruded and enters the drying cavity 22 through the cloth feeding groove 24, the opening and closing plate 23 can open and close the drying cavity 22 to guide the cloth entering the drying cavity 22, and when the drying drum 20 dries the spun silk cloth, the foreign odor gas that external suction line will produce through removing flavor mouth 25 to heating antistatic agent solution in the stoving chamber 22 is clear away, effectively reduces the spun silk cloth peculiar smell, the warp the spun silk cloth of stoving reel 20 stoving passes through the clearance between the inboard wall of switching board 23 and stoving chamber 22 one side of keeping away from ground and wears out.

Referring to fig. 1 and 3, a water storage cavity 17 with an opening towards one side far away from the ground is arranged in the liquid storage tank 16, a chemical storage cavity 18 with an opening towards one side far away from the ground is arranged in the liquid storage tank 16, two make-up water pumps 36 are fixedly arranged on the end surface of one side of the workbench 11 close to the motor 32 and corresponding to the water storage cavity 17 and the chemical storage cavity 18, liquid outlet pipelines of the make-up water pumps 36 are communicated with the immersion liquid cavity 28, water in the water storage cavity 17 and antistatic agents in the chemical storage cavity 18 can be conveyed into the immersion liquid cavity 28 through the make-up water pumps 36, and meanwhile, fixed-ratio replenishment of antistatic agent solutions in the immersion liquid cavity 28 can be realized by setting different flow rates for the two make-up water pumps 36.

Referring to fig. 1 and 3, a photoelectric sensor 26 is fixedly arranged on an inner wall of the immersion liquid cavity 28 on the side away from the fixed plate 12, two of the make-up water pumps 36 are controlled by the photoelectric sensor 26, when the photoelectric sensor 26 senses that the liquid level of the antistatic agent solution in the immersion liquid cavity 28 drops to a set replenishment height, the photoelectric sensor 26 controls the two make-up water pumps 36 to start up the regular make-up water and the antistatic agent in the immersion liquid cavity 28, and when the antistatic agent solution in the immersion liquid cavity 28 returns to the set working height, the photoelectric sensor 26 controls the two make-up water pumps 36 to be turned off, so that the antistatic agent solution in the immersion liquid cavity 28 is automatically replenished.

Referring to the attached figure 7, the invention secondly discloses a silk cloth antistatic treatment process, which comprises the following steps:

firstly, weaving antistatic spun silk cloth by using a fabric containing conductive yarns and spun silk as a raw material;

secondly, boiling and rinsing the antistatic silk cloth;

thirdly, soaking the antistatic silk cloth in bacteriostatic liquid and drying;

soaking the antistatic silk cloth in the antistatic agent solution and preliminarily rolling out excessive water by using an extrusion mechanism, wherein the rolling-out rate is 40-50%;

fifthly, drying the antistatic silk cloth through a drying drum and eliminating the evaporation odor of the antistatic agent, wherein the drying temperature is 180-220 degrees;

sixthly, the antistatic silk cloth obtained in the step 5 is rinsed, dried and coiled.

Referring to fig. 7, the conductive yarn is formed by twisting a plurality of conductive yarns and bamboo charcoal fibers together, and the ratio of the conductive yarns to spun silk weaving strands is 1: 5, and the antistatic ability of the spun silk cloth can be effectively improved by doping the conductive yarns into the spun silk.

Referring to fig. 7, the antistatic agent is FK-305 antistatic agent, and the FK-305 antistatic agent and water are mixed in a mixing ratio of 1 to 7.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.