1. The utility model provides an anti-static fiber cloth surface cleaning processing method, this anti-static fiber cloth surface cleaning processing method adopts anti-static fiber cloth surface cleaning processing apparatus as follows, and this anti-static fiber cloth surface cleaning processing apparatus includes base (1), support curb plate (2), winding mechanism (3) and actuating mechanism (4), its characterized in that: the symmetry is provided with support curb plate (2) around on base (1) up end, supports and is provided with winding mechanism (3) and actuating mechanism (4) between curb plate (2), wherein:

the winding mechanism (3) comprises discharging rollers (31), discharging branched chains (32), transmission rollers (33), winding branched chains (34), winding rollers (35), rotating motors (36), a chain wheel I (37) and a transmission chain (38), the discharging rollers (31) are arranged in the middle of the lower side between the supporting side plates (2), the front ends and the rear ends of the discharging rollers (31) are connected with the supporting side plates (2) through the discharging branched chains (32), a plurality of transmission rollers (33) are arranged above the discharging rollers (31) between the supporting side plates (2) in a rotating fit mode, the transmission rollers (33) are arranged in a triangular mode, the winding rollers (35) are arranged at the upper end of the right side between the supporting side plates (2) through the winding branched chains (34), the rotating motors (36) are arranged at the front ends of the winding branched chains (34) on the front side, and the rotating motors (36) are connected with the supporting side plates (2) on the front side through motor seats, a first chain wheel (37) is arranged in the middle of an output shaft of the rotating motor (36), and the first chain wheel (37) is connected with the executing mechanism (4) through a transmission chain (38);

the automatic dust-removing machine is characterized in that the executing mechanism (4) comprises a dust scraping plate (41), a linkage plate (42), a first compression spring rod (43), a reciprocating branch chain (44), a dust-dipping branch chain (45), a washing branch chain (46), a water squeezing branch chain (47), a drying plate (48) and a blowing branch chain (49), triangular through grooves are formed in the left side of a driving roller (33) at the lower end of the left side and the right side of the driving roller (33) at the right side of a supporting side plate (2), the dust scraping plate (41) is arranged between the inner sides of the triangular through grooves at the front side and the rear side in a sliding fit mode, the linkage plate (42) is symmetrically arranged at the front end and the rear end of the dust scraping plate (41), the first compression spring rods (43) are uniformly arranged between the linkage plate (42) at the rear side and the supporting side plate (2) at the rear side, the reciprocating branch chain (44) is arranged at the front side of the linkage plate (42) at the front side, and the transmission roller (33) at the upper end of the right side and the left side between the supporting side plates (2) are sequentially arranged from the right side and the left side, A soaking branch chain (46) and a water squeezing branch chain (47), a drying plate (48) and a blowing branch chain (49) are sequentially arranged between a driving roller (33) and a winding roller (35) which are positioned at the upper end of the left side between the supporting side plates (2) from left to right, the drying plate (48) is made of metal materials which are symmetrically arranged up and down, and electric heating wires are arranged inside the drying plate (48);

when the anti-static fiber cloth surface cleaning treatment device is used for cleaning the anti-static fiber cloth, the method comprises the following steps:

s1, device check: before starting the antistatic fiber cloth surface cleaning treatment device, the device is checked before operation;

s2, placing materials: firstly, placing coiled anti-static fiber cloth to be cleaned between the discharging branched chains (32), and then drawing the outer end of the anti-static fiber cloth upwards to enable the anti-static fiber cloth to pass through the winding mechanism (3) and the actuating mechanism (4) and to be wound on the outer side of the winding branched chain (34);

s3, rolling and cleaning: the anti-static fiber cloth is rolled through the rolling branch chain (34), and in the process of rolling the anti-static fiber cloth, the execution mechanism (4) can sequentially carry out ash scraping, ash dipping, washing, water squeezing, drying and air blowing treatment on the anti-static fiber cloth;

s4, taking out materials: when the anti-static fiber cloth on the outer side of the discharging branch chain (32) is completely rolled by the rolling branch chain (34), the anti-static fiber cloth which is rolled on the outer side of the rolling branch chain (34) is taken out upwards.

2. The method for cleaning and treating the surface of the anti-static fiber cloth material as claimed in claim 1, wherein the method comprises the following steps: blowing branch chain (32) include pressure spring pole two (321), spacing side piece (322), pressure spring pole three (323) and spacing upper block (324), all be provided with the bearing spout on the relative side of support curb plate (2), bearing spout middle part downside is semi-circular structure, and the bearing spout left side of bearing spout is provided with pressure spring pole two (321), pressure spring pole two (321) right-hand member is provided with spacing side piece (322), and the rectangle spout has been seted up to spacing side piece (322) right side lower extreme, the last lateral wall lower extreme of rectangle spout is provided with spacing upper block (324) through pressure spring pole three (323), spacing side piece (322) right side lower extreme and spacing upper block (324) lower extreme are the arc structure corresponding with wind-up roll (35), and wind-up roll (35) are located under the rectangle spout between lateral wall and spacing side piece (322), spacing upper block (324).

3. The method for cleaning and treating the surface of the anti-static fiber cloth material as claimed in claim 1, wherein the method comprises the following steps: the winding branch chain (34) comprises a T-shaped rotating rod (341), a ball (342), a four pressure spring rod (343), a limiting arc block (344), a first electromagnet (345) and a second electromagnet (346), wherein the upper end of the right side of the opposite side surface of the supporting side plate (2) is provided with a T-shaped circular groove, the T-shaped rotating rod (341) is arranged in the T-shaped circular groove in a rotating fit manner, the ball (342) which is attached to the T-shaped rotating rod (341) is uniformly arranged on the circular arc surface of one side with the larger diameter of the T-shaped circular groove in a rotating fit manner, an output shaft of the rotating motor (36) penetrates through the supporting side plate (2) to be connected with the T-shaped rotating rod (341) at the front side, corresponding placing grooves are formed in the upper ends of the opposite side surfaces of the T-shaped rotating rod (341) and the supporting side plate (2), the four pressure spring rod (343) is provided with the limiting arc block (344) on the left side wall and the right side wall of the T-shaped rotating rod (341), and the front ends and rear ends of the winding roller (35) are respectively positioned in the limiting arc blocks (344) on the left side and right side of the front and rear two placing grooves A first electromagnet (345) is arranged on the lower side of the opposite side surface of the T-shaped rotating rod (341), and a second electromagnet (346) is arranged on the opposite side surface of the supporting side plate (2) and positioned on the lower side of the first electromagnet (345).

4. The method for cleaning and treating the surface of the anti-static fiber cloth material as claimed in claim 1, wherein the method comprises the following steps: the reciprocating branched chain (44) comprises mounting side plates (441), rotating rods (442), oval blocks (443), rotating motors (444), arc-shaped scraping plates (445), ash blocking side plates (446) and' -21274, the front-side linkage plate (42) is symmetrically provided with the mounting side plates (441) at the upper side and the lower side, the rotating rods (442) are arranged between the front ends of the mounting side plates (441) in a rotating fit manner, the oval blocks (443) are arranged on the outer side surface of the rotating rods (442), the outer side surface of each oval block (443) is attached to the front side surface of the front-side linkage plate (42), the rotating motors (444) are arranged at the lower ends of the rotating rods (442), the rotating motors (444) are connected with the front-side supporting side plates (2) through motor seats, the arc-shaped scraping plates (445) are arranged at the upper ends of the ash blocking plates (41), the lower ends of the left ash blocking plates (41) between the supporting side plates (2) are symmetrically arranged with the ash blocking side plates (446) in a detachable manner, the lower end of the ash scraping plate (41) positioned on the right side between the supporting side plates (2) is detachably provided with a \ 21274and a figure ash baffle plate (447).

5. The method for cleaning and treating the surface of the anti-static fiber cloth material as claimed in claim 1, wherein the method comprises the following steps: the ash-staining branched chain (45) comprises Contraband-shaped plates (451), a first compression spring rod (452), square sliding blocks (453), a resisting roller (454), a winding roller (455), an ash-staining adhesive tape (456), a first belt wheel (457), a first transmission belt (458) and a second belt wheel (459), wherein arc through grooves are formed in the middle of each supporting side plate (2), Contraband-shaped plates (451) are arranged at the front ends of the arc through grooves on the front side and the rear ends of the arc through grooves on the rear side, rectangular through grooves are formed in the opposite sides of the shape plates (451), the five compression spring rods (452) are symmetrically arranged on the upper side wall and the lower side wall of each rectangular through groove, the square sliding blocks (453) in sliding fit with the rectangular through grooves are arranged at the opposite ends of the five compression spring rods (452), the resisting rollers (454) are arranged between the square sliding blocks (453) at the front end and the rear end in a rotating fit manner, the winding rollers (455) are symmetrically arranged on the right side of the, dust-staining adhesive tapes (456) are wound on the outer side faces of the abutting rollers (454), the outer ends of the dust-staining adhesive tapes (456) are wound on the outer side faces of winding rollers (455) on the right sides of the dust-staining adhesive tapes, the rear ends of the winding rollers (455) penetrate through the supporting side plates (2) and are provided with belt wheels I (457), the belt wheels I (457) are connected through a transmission belt I (458), and the front ends of the winding rollers (455) on the upper sides penetrate through the supporting side plates (2) and are provided with belt wheels II (459).

6. The method for cleaning and treating the surface of the anti-static fiber cloth material as claimed in claim 1, wherein the method comprises the following steps: the dipping and washing branched chain (46) comprises a round cylinder (461), a water inlet pipe (462), a cleaning plate (463) and a connecting plate (464), wherein the round cylinder (461) is arranged between the supporting side plates (2) and positioned on the left side of the dust dipping branched chain (45), water leakage through holes are uniformly formed in the lower end of the round cylinder (461), a water injection through hole is formed in the front side of the round cylinder (461) on the supporting side plate (2) on the front side, a water inlet pipe (462) is arranged on the outer side of the water injection through hole on the front end surface of the supporting side plate (2), a sliding through groove is formed in the left side of the round cylinder (461) on the left side of the supporting side plate (2), the cleaning plate (463) is arranged between the inner walls of the sliding through grooves on the front side and the rear side in a sliding fit manner, a cleaning through groove is formed between the left side surface and the right side surface of the middle part of the cleaning plate (463), cleaning cloth is arranged on the upper side wall and the lower side surface of the cleaning through groove, the rear end of the cleaning plate (463) passes through the supporting side plate (2) and is provided with the connecting plate (464), the lower end of the connecting plate (464) is connected with a linkage plate (42) at the rear side.

7. The method for cleaning and treating the surface of the anti-static fiber cloth according to claim 5, characterized in that: the water squeezing branched chain (47) comprises a water squeezing rod (471), a chain wheel II (472), a transmission gear (473), a speed reducing gear (474), a belt wheel III (475) and a transmission belt II (476), the water squeezing rod (471) is symmetrically arranged on the right side of a transmission roller (33) positioned at the upper end of the left side between the supporting side plates (2) in a vertical rotating fit manner, the chain wheel II (472) is arranged at the front end of the water squeezing rod (471) at the lower side through the supporting side plates (2) in a penetrating manner, the chain wheel II (472) is connected with a transmission chain (38), the transmission gears (473) are respectively arranged at the front end of the water squeezing rod (471) at the upper side and the front end of the chain wheel II (472) at the lower side, the transmission gears (473) are mutually meshed, the speed reducing gear (474) meshed with the transmission gear (473) at the lower side is arranged on the front side of the supporting side plate (2) at the front side through the rotating fit manner, the belt wheel III (474) is arranged at the front end of the belt wheel III (476), and the third pulley 475 is connected to the second pulley 459 via a second belt 476.

8. The method for cleaning and treating the surface of the anti-static fiber cloth material as claimed in claim 1, wherein the method comprises the following steps: the blowing branch chain (49) comprises semi-annular plates (491), a lifting device (21274), shape side plates (492), a rotating circular rod (493), chain wheels (494) and fan blades (495), the upper end of each supporting side plate (2) is located on the right side of the drying plate (48) and provided with a ventilation circular groove, the semi-annular plates (491) are symmetrically arranged on the upper side and the lower side of the ventilation circular groove between the supporting side plates (2), the front end of each supporting side plate (2) on the front side is located on the outer side of the ventilation circular groove and provided with the lifting device (21274), the shape side plates (492) and the lifting device (21274) are arranged on the middle of each shape side plate (492) in a rotating matching mode, the chain wheels (494) connected with the transmission chain (38) are arranged at the rear end of each rotating circular rod (493), and the fan blades (495) are uniformly arranged at the rear end of each chain wheel (494).

Background

The antistatic fiber cloth is made of terylene as main body and is woven by terylene filament and high-performance permanent conductive fiber through special process, and is used for manufacturing dustproof clothing, antistatic clothing, etc., therefore, the antistatic fiber cloth is widely applied to industries sensitive to static electricity and high in requirement on cleanliness, such as medical treatment, pharmacy, food, precision instruments, aerospace and the like, and because of wide application of the antistatic fiber cloth, therefore, a large number of antistatic fiber cloth manufacturing enterprises exist in the existing market, however, the antistatic fiber cloth manufacturing enterprises can produce coiled antistatic fiber cloth which is easy to be gradually dirty and yellow in the long-term stacking process, therefore, the antistatic fiber cloth manufacturing enterprises can generally clean the surfaces of the coiled antistatic fiber cloth which is piled for a long time and is dirty, therefore, the cleaned antistatic fiber cloth can be sold, and the cleaning of the surface of the dirty coiled antistatic fiber cloth is particularly important;

however, in the prior art, laundry equipment is usually adopted to clean dirty rolled antistatic fiber cloth, the rolled antistatic fiber cloth needs to be scattered and then is sequentially cleaned, dried, aired, ironed and wound, and the following problems generally exist in the process:

1. the time required in the process is longer, so that the efficiency of cleaning the dirty coiled antistatic fiber cloth is reduced;

2. the process needs more manpower and material resources, so that the cost for cleaning the dirty coiled antistatic fiber cloth by an antistatic fiber cloth manufacturing enterprise is increased.

Disclosure of Invention

In order to solve the above problems, the present invention provides an anti-static fiber cloth surface cleaning method, which adopts an anti-static fiber cloth surface cleaning device, wherein the anti-static fiber cloth surface cleaning device comprises a base, supporting side plates, a winding mechanism and an executing mechanism, the supporting side plates are symmetrically arranged on the upper end surface of the base in front and back, and the winding mechanism and the executing mechanism are arranged between the supporting side plates, wherein:

the winding mechanism comprises an emptying roller, an emptying branch chain, transmission rollers, a winding branch chain, a winding roller, a rotating motor, a first chain wheel and a transmission chain, wherein the emptying roller is arranged in the middle of the lower side between the supporting side plates, the front end and the rear end of the emptying roller are connected with the supporting side plates through the emptying branch chain, a plurality of transmission rollers are arranged between the supporting side plates and positioned above the emptying roller through rotating fit, the transmission rollers are arranged in a triangular mode, the winding roller is arranged at the upper end of the right side between the supporting side plates through the winding branch chain, the rotating motor is arranged at the front end of the winding branch chain of the front side, the rotating motor is connected with the supporting side plates of the front side through a motor base, the middle of an output shaft of the rotating motor is provided with a first chain wheel, and the first chain wheel is connected with the execution mechanism through the transmission chain;

the actuating mechanism comprises a dust scraping plate, a linkage plate, a first compression spring rod, a reciprocating branched chain, a dust dipping branched chain, a washing branched chain, a water squeezing branched chain, a drying plate and a blowing branched chain, wherein the left side of a driving roller at the lower end of the left side on a supporting side plate and the right side of the driving roller at the right side are both provided with a triangular through groove, the dust scraping plate is arranged between the inner sides of the triangular through grooves at the front side and the rear side in a sliding fit manner, the linkage plate is symmetrically arranged at the front end and the rear end of the dust scraping plate, the first compression spring rod is uniformly arranged between the linkage plate at the rear side and the supporting side plate at the rear side, the reciprocating branched chain is arranged at the front side of the linkage plate at the front side, the drying plate and the blowing branched chain are sequentially arranged between the driving roller at the right side and the driving roller at the upper end of the left side between the supporting side plates from the right side to the left side, the drying plate and the blowing branched chain are sequentially arranged between the driving roller at the upper end of the left side and the winding roller from the left side between the supporting side plates, the drying plate is made of metal materials which are symmetrically arranged up and down, and heating wires are arranged inside the drying plate;

when the anti-static fiber cloth surface cleaning treatment device is used for cleaning the anti-static fiber cloth, the method comprises the following steps:

s1, device check: before starting the antistatic fiber cloth surface cleaning treatment device, the device is checked before operation;

s2, placing materials: firstly, placing coiled antistatic fiber cloth to be cleaned between the discharging branched chains, and then drawing the outer end of the antistatic fiber cloth upwards to enable the antistatic fiber cloth to pass through the winding mechanism and the actuating mechanism and to be wound on the outer side of the winding branched chain;

s3, rolling and cleaning: the anti-static fiber cloth is wound through the winding branch chain, and in the winding process of the anti-static fiber cloth, the execution mechanism can sequentially conduct dust scraping, dust dipping, soaking, water squeezing, drying and air blowing treatment on the anti-static fiber cloth;

s4, taking out materials: and when the anti-static fiber cloth on the outer side of the discharging branched chain is completely rolled by the rolling branched chain, taking out the anti-static fiber cloth which is rolled on the outer side of the rolling branched chain upwards.

As a preferred technical scheme of the invention, the discharging branched chain comprises a second compression spring rod, a limiting side block, a third compression spring rod and a limiting upper block, wherein bearing chutes are respectively arranged on opposite side surfaces of the supporting side plates, the lower side of the middle part of each bearing chute is of a semicircular structure, the second compression spring rod is arranged on the left side of each bearing chute, the limiting side block is arranged at the right end of each compression spring rod, a rectangular chute is arranged at the lower end of the right side of each limiting side block, the limiting upper block is arranged at the lower end of the upper side wall of the rectangular chute through the third compression spring rod, the lower ends of the right side of the limiting side blocks and the lower end of the limiting upper block are of an arc structure corresponding to the winding roller, and the winding roller is positioned between the lower side wall of the rectangular chute and the limiting side blocks and the limiting upper blocks.

As a preferred technical scheme of the invention, the winding branch chain comprises a T-shaped rotating rod, rolling balls, a pressure spring rod IV, limiting arc blocks, an electromagnet I and an electromagnet II, wherein the upper ends of the right sides of the opposite sides of a supporting side plate are respectively provided with a T-shaped circular groove, the T-shaped rotating rod is arranged in the T-shaped circular groove in a rotating fit manner, the rolling balls attached to the T-shaped rotating rod are uniformly arranged on the circular arc surface of one side with larger diameter of the T-shaped circular groove in a rotating fit manner, an output shaft of a rotating motor penetrates through the supporting side plate to be connected with the T-shaped rotating rod on the front side, the T-shaped rotating rod and the upper ends of the opposite sides of the supporting side plate are provided with corresponding placing grooves, the limiting arc blocks are arranged on the left and right side walls of the placing groove of the T-shaped rotating rod through the pressure spring rod IV, the front and rear ends of a winding roller are respectively positioned between the limiting arc blocks on the left and right sides of the front and rear placing grooves, and the lower sides of the T-shaped rotating rod are provided with the electromagnet I, and an electromagnet II is arranged on the opposite side surface of the supporting side plate and positioned on the lower side of the electromagnet I.

As a preferred technical scheme, the reciprocating branched chain comprises installation side plates, a rotating rod, an elliptical block, a rotating motor, arc-shaped scraping plates, ash blocking side plates and a v-21274, the installation side plates are symmetrically arranged on the upper side and the lower side of a linkage plate on the front side, the rotating rod is arranged between the front ends of the installation side plates in a rotating fit mode, the elliptical block is arranged on the outer side surface of the rotating rod, the outer side surface of the elliptical block is attached to the front side surface of the linkage plate on the front side, the rotating motor is arranged at the lower end of the rotating rod and connected with a supporting side plate on the front side through a motor base, the arc-shaped scraping plates are arranged at the upper ends of the ash blocking plates, the ash blocking side plates are symmetrically arranged at the lower end of the ash blocking plate on the left side between the supporting side plates in a left-right mode, and the v-21274is arranged at the lower end of the ash blocking plate on the right side between the supporting side plates in a detachable mode.

As a preferred technical scheme of the invention, the dust-staining branched chain comprises an Contraband-shaped plate, a fifth compression spring rod, a square sliding block, a resisting roller, a winding roller, a dust-staining adhesive tape, a first belt wheel, a first transmission belt and a second belt wheel, wherein the middle part of each support side plate is provided with an arc-shaped through groove, the front end of the arc-shaped through groove at the front side and the rear end of the arc-shaped through groove at the rear side are both provided with Contraband-shaped plates, the opposite sides of the Contraband-shaped plate are both provided with rectangular through grooves, the upper side wall and the lower side wall of each rectangular through groove are symmetrically provided with the fifth compression spring rod, the opposite ends of the fifth compression spring rod are both provided with the square sliding blocks which are in sliding fit with the rectangular through grooves, the resisting rollers are both arranged between the square sliding blocks at the front end and the rear end in a rotating fit manner, the winding rollers are vertically symmetrically arranged on the right side of the resisting rollers in a rotating fit manner, the outer side surface of the resisting roller is wound with the dust-staining adhesive tape, and the outer end ends of the dust-staining adhesive tape are all wound on the outer side surface of the winding roller on the right side of the winding roller, the rear end of the winding roller penetrates through the supporting side plate and is provided with a first belt wheel, the first belt wheels are connected through a first transmission belt, and the front end of the winding roller on the upper side penetrates through the supporting side plate and is provided with a second belt wheel.

According to a preferred technical scheme, the immersion cleaning branched chain comprises a circular cylinder, a water inlet pipe, a cleaning plate and a connecting plate, the circular cylinder is arranged between supporting side plates and located on the left side of the dust dipping branched chain, water leakage through holes are uniformly formed in the lower end of the circular cylinder, a water injection through hole is formed in the front side of the circular cylinder on the supporting side plate on the front side, the water inlet pipe is arranged on the outer side of the water injection through hole on the front end face of the supporting side plate, a sliding through groove is formed in the left side of the circular cylinder on the left side of the supporting side plate, the cleaning plate is arranged between the inner walls of the sliding through grooves on the front side and the rear side in a sliding fit mode, the cleaning through groove is formed between the left side face and the right side face of the middle of the cleaning plate, cleaning cloth is arranged on the upper side wall and the lower side wall of the cleaning through groove, the rear end of the cleaning plate penetrates through the supporting side plate to be provided with the connecting plate, and the lower end of the connecting plate is connected with a linkage plate on the rear side.

As a preferred technical scheme of the invention, the water squeezing branched chain comprises a water squeezing rod, a second chain wheel, a transmission gear, a reduction gear, a third belt wheel and a second transmission belt, the water squeezing rod is vertically and symmetrically arranged on the right side of a transmission roller positioned at the upper end of the left side between support side plates through rotating fit, the front end of the water squeezing rod at the lower side penetrates through the support side plates to be provided with the second chain wheel, the second chain wheel is connected with a transmission chain, the front end of the water squeezing rod at the lower side and the front end of the second chain wheel are both provided with the transmission gear, the transmission gears are mutually meshed, the reduction gear meshed with the transmission gear at the lower side is arranged on the front side surface of the support side plate at the front side through rotating fit, the third belt wheel is arranged at the front end of the reduction gear, and the third belt wheel is connected with the second belt wheel through the second transmission belt.

As a preferred technical scheme, the blowing branched chain comprises semicircular plates, a v-shaped side plate, a rotating circular rod, a chain wheel III and fan blades, wherein the upper end of the supporting side plate is positioned on the right side of the drying plate and provided with a ventilating circular groove, the semicircular plates are symmetrically arranged on the upper side and the lower side of the ventilating circular groove between the supporting side plates, the front end of the supporting side plate on the front side is positioned on the outer side of the ventilating circular groove and provided with the v-shaped side plate and the v-shaped side plate, the v-shaped side plate and the 21274are arranged in the middle of the circular side plate in a rotating fit mode, the chain wheel III connected with the transmission chain is arranged at the rear end of the rotating circular rod.

The invention has the beneficial effects that:

the invention can solve the following problems in the process of cleaning antistatic fiber cloth in the prior art: a. the coiled anti-static fiber cloth is scattered, and the process of cleaning, spin-drying, airing, ironing and winding the coiled anti-static fiber cloth needs longer time, so that the cleaning efficiency of the coiled anti-static fiber cloth is reduced; b. the cleaning process needs more manpower and material resources, so that the cost for cleaning the dirty coiled antistatic fiber cloth by an antistatic fiber cloth manufacturing enterprise is increased;

the method can carry out ash scraping, ash dipping, soaking, water squeezing, drying and air blowing treatment on the coiled anti-static fiber cloth in sequence under the condition that the coiled anti-static fiber cloth does not need to be scattered and then is washed, dried, aired and ironed in sequence, and improves the cleaning efficiency of the anti-static fiber cloth compared with the prior art;

compared with the prior art, the process of cleaning the anti-static fiber cloth reduces manpower and material resources required by cleaning the anti-static fiber cloth, thereby reducing the cost required by cleaning dirty coiled anti-static fiber cloth by anti-static fiber cloth manufacturing enterprises.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is a schematic view of a portion of the structure of the present invention;

FIG. 5 is an enlarged view taken at A of FIG. 4 in accordance with the present invention;

FIG. 6 is an enlarged view of the invention at B in FIG. 4;

FIG. 7 is an enlarged view of the invention at C of FIG. 4;

FIG. 8 is a schematic structural view (from back to front) between the present invention and an antistatic fiber cloth;

fig. 9 is an enlarged view of the invention at D in fig. 8.

In the figure, 1, a base; 2. supporting the side plates; 3. a winding mechanism; 4. an actuator; 31. a discharge roller; 32. discharging a branched chain; 33. a driving roller; 34. winding the branched chain; 35. a wind-up roll; 36. a rotating electric machine; 37. a chain wheel I; 38. a drive chain; 321. a second compression spring rod; 322. limiting the side block; 323. a third compression spring rod; 324. limiting an upper block; 341. a T-shaped rotating rod; 342. a ball bearing; 343. a fourth compression spring rod; 344. a limiting arc block; 345. an electromagnet I; 346. an electromagnet II; 41. a dust scraping plate; 42. a linkage plate; 43. a first compression spring rod; 44. a reciprocating branched chain; 45. dusting branched chains; 46. soaking and washing the branched chain; 47. squeezing the water branched chain; 48. drying the plate; 49. a blowing branch chain; 441. installing a side plate; 442. rotating the rod; 443. an elliptical block; 444. rotating the motor; 445. an arc-shaped scraper plate; 446. a dust-blocking side plate; 447. \ 21274;' SHAPE ASH-BLOCKING PLATE; 451. contraband shaped plates; 452. a pressure spring rod V; 453. a square slider; 454. a tightening roller; 455. a winding roller; 456. a dust-stained adhesive tape; 457. a first belt wheel; 458. a first transmission belt; 459. a second belt wheel; 461. a circular cylinder; 462. a water inlet pipe; 463. cleaning the plate; 464. a connecting plate; 471. a water squeezing rod; 472. a second chain wheel; 473. a transmission gear; 474. a reduction gear; 475. a third belt wheel; 476. a second transmission belt; 491. a semi-annular plate; 492. \ 21274and a side plate; 493. rotating the round bar; 494. a third chain wheel; 495. a fan blade.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 9, an antistatic fiber cloth surface cleaning method adopts an antistatic fiber cloth surface cleaning device, the antistatic fiber cloth surface cleaning device includes a base 1, supporting side plates 2, a winding mechanism 3 and an executing mechanism 4, the supporting side plates 2 are symmetrically arranged on the upper end surface of the base 1 in front and back, the winding mechanism 3 and the executing mechanism 4 are arranged between the supporting side plates 2, wherein:

the winding mechanism 3 comprises an emptying roller 31, emptying branch chains 32, transmission rollers 33, winding branch chains 34, winding rollers 35, a rotating motor 36, a first chain wheel 37 and a transmission chain 38, the emptying roller 31 is arranged in the middle of the lower side between the supporting side plates 2, the front end and the rear end of the emptying roller 31 are connected with the supporting side plates 2 through the emptying branch chains 32, a plurality of transmission rollers 33 are arranged above the emptying roller 31 between the supporting side plates 2 in a rotating fit mode, the transmission rollers 33 are arranged in a triangular mode, the winding rollers 35 are arranged at the upper end of the right side between the supporting side plates 2 through the winding branch chains 34, the rotating motor 36 is arranged at the front end of the winding branch chains 34 on the front side, the rotating motor 36 is connected with the supporting side plates 2 on the front side through a motor base, the first chain wheel 37 is arranged in the middle of output shafts of the rotating motor 36, and the first chain wheel 37 is connected with the executing mechanism 4 through the transmission chain 38;

blowing branch 32 include two 321 of pressure spring pole, spacing side piece 322, three 323 of pressure spring pole and spacing top piece 324, all be provided with the bearing spout on the relative side of support curb plate 2, bearing spout middle part downside is semi-circular structure, bearing spout left side is provided with two 321 of pressure spring pole, two 321 right-hand members of pressure spring pole are provided with spacing side piece 322, and the rectangle spout has been seted up to spacing side piece 322 right side lower extreme, the last lateral wall lower extreme of rectangle spout is provided with spacing top piece 324 through three 323 of pressure spring pole, spacing side piece 322 right side lower extreme and spacing top piece 324 lower extreme are the arc structure corresponding with wind-up roll 35, and wind-up roll 35 is located under the rectangle spout between lateral wall and spacing side piece 322, spacing top piece 324.

The winding branched chain 34 comprises a T-shaped rotating rod 341, a ball 342, a four pressure spring rods 343, a limit arc block 344, a first electromagnet 345 and a second electromagnet 346, the upper ends of the right sides of the opposite sides of the supporting side plate 2 are all provided with T-shaped circular grooves, the T-shaped rotating rod 341 is arranged in the T-shaped circular grooves in a rotating fit manner, the circular arc surface of one side with larger diameter of the T-shaped circular groove is evenly provided with the ball 342 jointed with the T-shaped rotating rod 341 in a rotating fit manner, an output shaft of a rotating motor 36 passes through the supporting side plate 2 to be connected with the T-shaped rotating rod 341 at the front side, the upper ends of the opposite sides of the T-shaped rotating rod 341 and the supporting side plate 2 are provided with corresponding placing grooves, the left and right side walls of the placing grooves of the T-shaped rotating rod 341 are provided with the limit arc blocks 344 through the four pressure spring rods 343, the front and back ends of the winding roller 35 are respectively positioned between the limit arc blocks 344 at the left and right sides of the front and back placing grooves, and the lower sides of the T-shaped rotating rod 341 are provided with the first electromagnet 345, and a second electromagnet 346 is arranged on the opposite side surface of the supporting side plate 2 and is positioned below the first electromagnet 345.

When the device works specifically, firstly, the discharging roller 31 wound with the anti-static fiber cloth moves leftwards along the bearing chute from the right side of the supporting side plate 2, the limiting side block 322 can move leftwards under the extrusion of the discharging roller 31, after the discharging roller 31 moves to a proper position, the pressure spring rod II 321 can push the limiting side block 322 to limit the upper end of the discharging roller 31 rightwards, at the moment, the limiting upper block 324 can limit the upper right corner of the discharging roller 31 downwards under the action of the pressure spring rod III 323, then the outer end of the anti-static fiber cloth is pulled leftwards, so that the anti-static fiber cloth can sequentially bypass the three driving rollers 33, finally, the anti-static fiber cloth is pulled rightwards and wound onto the outer side surface of the winding roller 35, meanwhile, the anti-static fiber cloth can pass through the executing mechanism 4, then the output shaft of the rotating motor 36 rotates to drive the winding roller 35 to rotate anticlockwise through the T-shaped rotating rod 341, the winding roller 35 can wind the anti-static fiber cloth, the winding roller 35 can rotate along with the movement of the anti-static fiber cloth, and when the anti-static fiber cloth is wound by the winding roller 35, the executing mechanism 4 can sequentially perform dust scraping, dust soaking, water soaking, cleaning, water squeezing, drying and air blowing treatment on the anti-static fiber cloth;

when the anti-static fiber cloth on the outer side surface of the discharging roller 31 is completely wound by the winding roller 35, the output shaft of the rotating motor 36 stops rotating, the electromagnet 345 and the electromagnet 346 are electrified to be mutually adsorbed to position the placing groove, then the winding roller 35 is taken out upwards along the placing groove, then the limiting side block 322 is pushed to move leftwards to enable the limiting side block not to limit the discharging roller 31, then the discharging roller 31 is moved upwards and rightwards, and then the discharging roller 31 can be separated from the supporting side plate 2 rightwards along the supporting sliding groove, so that the discharging roller 31 is taken out; can be convenient for place and take out the blowing roller 31 that has antistatic fiber cloth to the coiling through blowing branch 32, be convenient for place and take out wind-up roll 35 through rolling branch 34 to the efficiency of getting material and blowing has been improved.

The actuating mechanism 4 include the scraping plate 41, the linkage plate 42, a pressure spring rod 43, reciprocal branch chain 44, be stained with grey branch chain 45, soak and wash branch chain 46, crowded water branch chain 47, drying plate 48 and branch chain 49 of blowing, the triangle-shaped logical groove has all been seted up to the drive roller 33 right side that lies in the left side lower extreme on the support curb plate 2 left side and right side drive roller 33, and be provided with the scraping plate 41 through sliding fit between the triangle-shaped logical groove inboard of front and back both sides, both ends symmetry is provided with the linkage plate 42 around the scraping plate 41, evenly be provided with a pressure spring rod 43 between the linkage plate 42 of rear side and the support curb plate 2 of rear side, the linkage plate 42 front side of front side is provided with reciprocal branch chain 44, it is stained with grey branch chain 45 to turn left from the right between drive roller 33 that lies in the right side and the left side drive roller 33 of left side upper end between the support curb plate 2, soak and wash branch chain 46 and crowded water branch chain 47, it has set gradually from the left side to turn right between the drive roller 33 that lies in the left side upper end and the wind roller 35 between the support curb plate 2 and the left side upper end and has been set gradually drying plate 48 and wind-up from the left side The air blowing branch chains 49, the drying plate 48 are made of metal materials which are symmetrically arranged up and down, and electric heating wires are arranged inside the drying plate 48;

the reciprocating branched chain 44 comprises an installation side plate 441, a rotating rod 442, an elliptical block 443, a rotating motor 444, an arc-shaped scraper 445, ash blocking side plates 446 and 21274, a shape ash blocking plate 447, the installation side plates 441 are symmetrically arranged on the upper and lower sides of a linkage plate 42 on the front side, the rotating rod 442 is arranged between the front ends of the installation side plates 441 in a rotating fit manner, the elliptical block 443 is arranged on the outer side surface of the rotating rod 442, the outer side surface of the oval block 443 is attached to the front side surface of the linkage plate 42 at the front side, the lower end of the rotating rod 442 is provided with a rotating motor 444, the rotating motor 444 is connected with the supporting side plate 2 at the front side through a motor base, the upper ends of the ash scraping plates 41 are provided with arc-shaped scraping plates 445, the lower ends of the ash scraping plates 41 positioned on the left side between the supporting side plates 2 are symmetrically provided with ash blocking side plates 446 in a left-right mode in a detachable mode, and the lower ends of the ash scraping plates 41 positioned on the right side between the supporting side plates 2 are provided with a v-shaped ash blocking plate 21274in a detachable mode; the concrete detachable mode is '21274', the shape ash blocking plate 447 is fixedly connected with the supporting side plate 2 in a clamping way, and the ash blocking side plate 446 is fixedly connected with the supporting side plate 2 in a clamping way;

the ash-staining branched chain 45 comprises an Contraband-shaped plate 451, a first compression spring rod 452, a square sliding block 453, a resisting roller 454, a winding roller 455, an ash-staining adhesive tape 456, a first belt wheel 457, a first transmission belt 458 and a second belt wheel 459, wherein the middle part of a supporting side plate 2 is provided with an arc through groove, the front end of the arc through groove at the front side and the rear end of the arc through groove at the rear side are provided with Contraband-shaped plates 451, 2127490, the opposite sides of the shape plate 451 are provided with rectangular through grooves, the upper and lower side walls of the rectangular through groove are symmetrically provided with the first compression spring rod 452, the opposite ends of the five compression spring rod 452 are provided with the square sliding blocks 453 in sliding fit with the rectangular through grooves, the resisting rollers 454 are arranged between the square sliding blocks 453 at the front end and the rear end in a rotating fit manner, the winding rollers 455 are symmetrically arranged on the right side of the resisting rollers 454 in a rotating fit manner, the outer side surface of the resisting roller 454 is wound with the ash-staining adhesive tape 456, and the outer end of the resisting roller 454 is wound on the outer side surface of the winding roller 455 on the right side of the ash-staining adhesive tape, the rear ends of the winding rollers 455 penetrate through the supporting side plate 2 and are provided with first belt wheels 457, the first belt wheels 457 are connected through a first transmission belt 458, and the front ends of the upper winding rollers 455 penetrate through the supporting side plate 2 and are provided with second belt wheels 459;

immersion cleaning branch chain 46 include round tube 461, inlet tube 462, wash bowl 463 and connecting plate 464, it is provided with round tube 461 to lie in being stained with grey branch chain 45 left side between the support curb plate 2, the through-hole that leaks has evenly been seted up to round tube 461 lower extreme, it has been equipped with the water filling hole to lie in round tube 461 front side on the support curb plate 2 of front side, and it is provided with inlet tube 462 to lie in the water filling hole outside on the support curb plate 2 front end face, it has seted up the slip logical groove to lie in round tube 461 left side on the support curb plate 2 left side, be provided with wash bowl 463 through sliding fit between the slip logical inslot wall of front and back both sides, it leads to the groove to have seted up the washing between the left and right sides face in the wash bowl 463 middle part, and all be provided with the washing cloth on the lateral.

The water squeezing branched chain 47 comprises a water squeezing rod 471, a second chain wheel 472, a transmission gear 473, a speed reducing gear 474, a third belt wheel 475 and a second transmission belt 476, the water squeezing rod 471 is vertically and symmetrically arranged on the right side of the transmission roller 33 positioned at the upper end of the left side between the support side plates 2 through rotating fit, the front end of the water squeezing rod 471 at the lower side penetrates through the support side plates 2 and is provided with the second chain wheel 472, the second chain wheel 472 is connected with the transmission chain 38, the front end of the water squeezing rod 471 at the upper side and the front end of the second chain wheel 472 at the upper side are both provided with the transmission gear 473, the transmission gears 473 are mutually meshed, the speed reducing gear 474 meshed with the transmission gear 473 at the lower side is arranged on the front side surface of the support side plate 2 at the front side through rotating fit, the third belt wheel 475 is arranged at the front end of the speed reducing gear 474, and the third belt wheel 475 is connected with the second belt wheel 459 through the second transmission belt 476;

the blowing branch chain 49 comprises semi-annular plates 491, 21274, a shape side plate 492, a rotating round rod 493, chain wheel three 494 and fan blades 495, the upper end of the supporting side plate 2 is positioned at the right side of the drying plate 48 and is provided with a ventilation round groove, the semi-annular plates 491 are symmetrically arranged between the supporting side plates 2 and positioned at the upper side and the lower side of the ventilation round groove, the front end of the supporting side plate 2 at the front side is positioned at the outer side of the ventilation round groove and is provided with the ventilating round groove, the shape side plates 492 and 21274, the middle part of the shape side plate 492 is provided with the rotating round rod 493 in a rotating matching way, the rear end of the rotating round rod 493 is provided with the chain wheel three 494 connected with the transmission chain;

when the anti-static fiber cloth is moved rightwards from the upper part of the transmission roller 33 at the lower end of the left side, the anti-static fiber cloth can penetrate through the transmission roller 33, the ash scraping plate 41 and the arc-shaped scraper 445, when the anti-static fiber cloth is moved leftwards from the upper part of the transmission roller 33 at the right side, the anti-static fiber cloth can sequentially penetrate through the ash-stained adhesive tape 456, the lower side of the circular cylinder 461, the cleaning through groove and the squeezing rod 471, then when the anti-static fiber cloth is pulled rightwards from the upper part of the transmission roller 33 at the upper end of the left side, the anti-static fiber cloth sequentially penetrates through the drying plates 48 and the semi-annular plates 491, and finally the anti-static fiber cloth is wound on the outer side surface of the winding roller 35;

when the rotating motor 36 drives the winding roller 455 to wind the anti-static fiber cloth, the output shaft of the rotating motor 444 can rotate to drive the elliptical block 443 to rotate through the rotating rod 442, when the elliptical block 443 rotates, the first compression spring rod 43 can drive the dust scraping plate 41 and the arc-shaped scraper 445 to reciprocate back and forth through the linkage plate 42, so that the dust scraping plate 41 and the arc-shaped scraper 445 can scrape dust on the surface of the anti-static fiber cloth, the dust on the surface of the anti-static fiber cloth can be gradually separated from the anti-static fiber cloth, the dust is easily stuck by the dust sticking branched chain 45, the scraped dust can fall downwards between the dust blocking side plates 446 and the dust blocking 21274, the dust blocking side plates 446 and the dust blocking 21274447 can prevent the dust from being adhered to the surface of the anti-static fiber cloth again, and when a proper amount of dust is arranged between the dust blocking side plates 446 and inside the dust blocking 74212447, the dust collector can be detached and cleaned, and then reset and installed;

meanwhile, the first sprocket 37 can drive the second sprocket 472 and the second transmission gear 473 on the lower side to rotate through the transmission chain 38 under the action of the rotating motor 36, the third belt wheel 475 and the second transmission belt 476 can be driven to rotate through the reduction gear 474 when the transmission gear 473 on the lower side rotates, the second transmission belt 476 can drive the second belt wheel 459 and the winding roller 455 on the upper side to rotate when the winding roller 455 on the upper side rotates, the first belt wheel 457 and the first transmission belt 458 can drive the winding roller 455 on the lower side to rotate, at the same time, the dust-stained adhesive tape 456 can adhere to the scraped dust on the surface of the antistatic fiber cloth, and the dust stained adhesive tape 456 adhered with the dust can be wound outside the winding roller 455 under the indirect drive of the reduction gear 474, so that the dust stained adhesive tape 456 adhered with the antistatic fiber cloth can adhere to the dust on the surface of the antistatic fiber cloth all the time, when the dust-staining adhesive tape 456 on the outer side surface of the tightening roller 454 is gradually reduced, the square sliding block 453 can drive the tightening roller 454 and the dust-staining adhesive tape 456 to tighten the anti-static fiber cloth under the action of the five compression spring rods 452, so that the dust-staining adhesive tape 456 can be always attached to the surface of the anti-static fiber cloth, and the dust-staining effect on the anti-static fiber cloth is improved;

at this time, water can be added into the circular cylinder 461 through the water inlet pipe 462, so that the water in the circular cylinder 461 can flow downwards to the surface of the anti-static fiber cloth along the water injection through hole, the anti-static fiber cloth can be wetted by the water, the linkage plate 42 at the rear side can drive the cleaning plate 463 and the cleaning cloth to move back and forth through the connecting plate 464, and the cleaning cloth can clean the surface of the wetted anti-static fiber cloth in the back and forth reciprocating process; when the lower transmission gear 473 indirectly rotates along with the transmission chain 38, the upper transmission gear 473 can be driven to rotate, so that the squeezing rod 471 can rotate, the squeezing rod 471 can squeeze the anti-static fiber cloth, moisture in the soaked anti-static fiber cloth can be squeezed outwards, and meanwhile, the squeezing rod 471 can also increase power for transmitting the anti-static fiber cloth;

when preventing that static fiber cloth is through stoving board 48, the heating wire to stoving board 48 inside is circular telegram, make the heating wire can heat stoving board 48, thereby make stoving board 48 after the heating can be dried the static fiber cloth of preventing after crowded water, sprocket three 494 can drive flabellum 495 through rotating round bar 493 and rotate simultaneously under drive chain 38's drive, can blow when flabellum 495 rotates and cool down air-dry to preventing static fiber cloth after drying, half annular plate 491 can rotate the flabellum 495 and blow out wind spacing this moment, thereby increased and blown the efficiency of cooling down to preventing static fiber cloth, will be convoluteed on wind-up roll 35 lateral surface after preventing static fiber cloth and passing half annular plate 491.

Can drive the both sides surface of scraping the ash board 41 and arc scraper 445 to preventing the static fibre cloth through reciprocal branch chain 44 and scrape grey processing, can continuously be stained with grey processing to preventing the both sides surface of static fibre cloth through being stained with grey branch chain 45, can soak and wash preventing the both sides surface of static fibre cloth through soaking branch chain 46, can outwards extrude the water in preventing the static fibre cloth through crowded water branch chain 47, and provide the power that removes to wind-up roll 35 one side to preventing the static fibre cloth, can dry the anti-static fibre cloth after crowded water is handled through drying block, later can blow the cooling to preventing the static fibre cloth through the branch chain 49 of blowing, make actuating mechanism 4 can scrape grey, be stained with grey, soak the soaking, wash, crowded water, stoving and the processing of blowing in proper order to preventing the static fibre cloth.

When the anti-static fiber cloth surface cleaning treatment device is used for cleaning the anti-static fiber cloth, the method comprises the following steps:

s1, device check: before starting the antistatic fiber cloth surface cleaning treatment device, the device is checked before operation;

s2, placing materials: firstly, placing coiled antistatic fiber cloth to be cleaned between the discharging branched chains 32, and then drawing the outer end of the antistatic fiber cloth upwards to enable the antistatic fiber cloth to pass through the winding mechanism 3 and the actuating mechanism 4 and to be wound outside the winding branched chain 34;

s3, rolling and cleaning: the anti-static fiber cloth is rolled through the rolling branch chain 34, and in the process of rolling the anti-static fiber cloth, the execution mechanism 4 can sequentially carry out ash scraping, ash dipping, washing, water squeezing, drying and air blowing treatment on the anti-static fiber cloth;

s4, taking out materials: when the anti-static fiber cloth outside the discharging branch chain 32 is completely rolled by the rolling branch chain 34, the anti-static fiber cloth rolled outside the rolling branch chain 34 is taken out upwards.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.