CN113417085B - Waterproof spraying device based on antibacterial down coat surface fabric of graphite alkene - Google Patents

Abstract

The invention relates to a waterproof spraying device based on graphene antibacterial down jacket fabric, which relates to the technical field of fabric processing, and comprises a processing chamber, a conveying roller assembly arranged in the processing chamber, and a rotating cover, wherein the rotating cover is movably connected in the processing chamber in a shaft manner; the spraying component is arranged close to one side of the vertical conveying surface of the fabric, and the outer end of the spraying component is movably lapped with the rotating cover; the conveying roller assembly drives the fabric to be conveyed in the processing chamber, the spraying assembly sprays the waterproof agent onto the fabric, and the spraying assembly simultaneously drives the rotating cover to rotate to abut against the vertical conveying surface of the fabric and the rotating cover scrapes the waterproof agent uniformly. The invention ensures that the spraying is more uniform, the mottle is not easy to generate on the surface of the fabric, the formation of a waterproof layer on the surface of the fabric is convenient, the thickness of the waterproof layer is uniform, the processing quality guarantee of the fabric is ensured, the application prospect is good, the braking reactivity of the device is stronger, and the use and control of the equipment are more flexible.

Description

Waterproof spraying device based on antibacterial down coat surface fabric of graphite alkene

Technical Field

The invention belongs to the technical field of chemical industry, and particularly relates to a waterproof spraying device based on graphene antibacterial down jacket fabric.

Background

The down jacket is a jacket filled with down filling, is a cold-proof jacket in winter, is thicker and heavier than common jacket, cannot be washed after being worn in winter, and is usually washed after being worn for a period of time, so that higher requirements are provided for the bacteriostatic property of the down jacket;

in recent years, the antibacterial performance of graphene is slowly researched and discovered, the antibacterial application of graphene can not only cut the cell membrane of bacteria by inserting the cell membrane of the bacteria, but also destroy the cell membrane by directly extracting phospholipid molecules on the cell membrane in a large scale so as to kill the bacteria, the antibacterial characteristic of graphene can be applied to underwear, socks, bedding and the like at present, the strong physical antibacterial performance of the graphene is continuously accepted by the market, and compared with other antibacterial fiber textile applications in the market, the graphene antibacterial fabric has strong advantages in manufacturing down jackets;

generally, the requirement of the waterproof property of the fabric of the down jacket as winter clothes is strong, and the waterproof process needs to be paid more attention to the processing of the fabric of the down jacket, generally, the fabric is soaked in a waterproof agent or a spraying device is used for spraying the waterproof agent on the fabric,

the existing waterproof spraying device is applied to the waterproof treatment process of the fabric, so that the spraying is uneven, mottle is easily generated on the surface of the fabric, in addition, the thickness of the waterproof layer on the surface of the fabric is different, the waterproof effect of the fabric is influenced, the quality is difficult to ensure, and the application prospect is poor;

therefore, a waterproof spraying device based on the graphene antibacterial down jacket fabric is provided.

Disclosure of Invention

The invention aims to solve the problems and provide a waterproof spraying device based on graphene bacteriostatic down jacket fabric, which is simple in structure and reasonable in design.

The invention realizes the purpose through the following technical scheme:

a waterproof spraying device based on graphene bacteriostatic down jacket fabric comprises a treatment chamber, a conveying roller assembly arranged in the treatment chamber, and a rotating cover, wherein the rotating cover is movably connected in the treatment chamber in a shaft manner; and

the spraying component is arranged close to one side of the vertical conveying surface of the fabric, and the outer end of the spraying component is movably lapped with the rotating cover;

the conveying roller assembly drives the fabric to be conveyed in the processing chamber, the spraying assembly sprays the waterproof agent onto the fabric, and the spraying assembly simultaneously drives the rotating cover to rotate to abut against the vertical conveying surface of the fabric and the rotating cover scrapes the waterproof agent uniformly.

As a further optimization scheme of the invention, the conveying roller assembly comprises four conveying rollers which are arranged in the processing chamber and distributed in a matrix manner and a driving roller which is arranged at the top end of the processing chamber, fabric enters the processing chamber from the driving roller and sequentially bypasses the four conveying rollers from the conveying rollers at the bottom end of the processing chamber, a belt pulley group is connected between the driving roller and the adjacent conveying roller in a shaft manner, and a servo motor is connected at the driving end of the belt pulley group in a shaft manner.

As a further optimization scheme of the invention, the spraying component comprises a mounting plate, an inclined plate, a spraying pipeline and a nozzle component, wherein the mounting plate is movably mounted on the inner side wall of the treatment chamber, the inclined plate is arranged on the inner side wall of the treatment chamber and is parallel to the rotating cover, a supporting plate parallel to the inclined plate is arranged on the mounting plate, the spraying pipeline is mounted on the supporting plate, and the nozzle component is mounted on the spraying pipeline.

As a further optimization scheme of the invention, the inner side wall of the rotating cover is provided with a limiting plate in lap joint with the inclined plate, one side of the rotating cover, which is far away from the limiting plate, is provided with an inner baffle, a spraying channel is formed between the inner baffle and the inclined plate, the top end of the rotating cover, which is close to the vertical conveying surface of the fabric, is provided with a strickle, and the inner side wall of the treatment chamber, which corresponds to the upper part of the rotating cover, is provided with a high-level plate which is arranged in parallel with the limiting plate.

As a further optimization scheme of the invention, the spraying pipeline consists of a main pipe, two branch pipes of a connecting pipe and a bent pipe, the connecting pipe is inserted on the supporting plate, a pressure regulating valve is arranged outside the connecting pipe, one end of the connecting pipe is connected with a liquid conveying pipe, a water pump connected with the liquid conveying pipe is arranged in the treatment chamber, the main pipe is connected to one end of the connecting pipe, the two branch pipes and one branch pipe are connected with the main pipe through the bent pipe, and joints are uniformly distributed outside the main pipe and the branch pipes.

As a further optimization scheme of the invention, the nozzle assembly consists of a brake nozzle connected with an external connector of the main pipe and a spraying nozzle connected with an external connector of the branch pipe.

As a further optimization scheme of the invention, a partition plate is arranged in a rectangular space formed by the four conveying rollers in the treatment chamber, a pulse heater is arranged at the bottom of the partition plate, and a drain pipe and a water level meter are arranged outside the treatment chamber.

As a further optimization scheme of the invention, one conveying roller positioned on the partition plate and the processing chamber are arranged in a sliding fit manner, and a screw rod adjusting assembly used for adjusting the lifting of the conveying roller is arranged outside the processing chamber.

The invention has the beneficial effects that:

1. according to the invention, the spraying pipeline is connected with the waterproof agent, the rotating cover is impacted to rotate outwards when the waterproof agent is sprayed by the nozzle assembly, so that the scraping piece at the outer end of the rotating cover is in a contact state with the fabric at the moment, and the scraping piece in contact with the fabric is used for scraping in the spraying process of the waterproof agent, so that the spraying is more uniform, the surface of the fabric is not easy to mottle, the waterproof layer on the surface of the fabric is convenient to form, the thickness of the waterproof layer is uniform, the processing quality guarantee of the fabric is ensured, the application prospect is good, the braking reactivity of the device is stronger, and the use and control of the device are more flexible.

2. According to the invention, the height adjustment of the conveying rollers is controlled by the screw rod adjusting assembly, so that the distance between two adjacent vertically arranged conveying rollers can be adjusted, and the tension of the conveyed fabric can be flexibly adjusted according to the processing process.

Drawings

FIG. 1 is a top view provided by the present invention;

FIG. 2 is a schematic view of the internal structure provided by the present invention;

FIG. 3 is a schematic structural view of a spray assembly provided by the present invention;

FIG. 4 is a schematic view of the installation of a nozzle assembly provided by the present invention;

FIG. 5 is a perspective view of a spray line provided by the present invention;

FIG. 6 is a rear view provided by the present invention;

in the figure: 1. a processing chamber; 2. a spray assembly; 21. mounting a plate; 22. a sloping plate; 23. a transfusion tube; 24. spraying a pipeline; 241. a main pipe; 242. a connecting pipe; 243. a branch pipe; 244. bending the pipe; 245. a joint; 25. a nozzle assembly; 251. a brake nozzle; 252. a spray nozzle; 26. a support plate; 27. a pressure regulating valve; 3. a conveying roller; 4. a drive roll; 5. a high-level plate; 6. a water pump; 7. a rotating cover; 8. a pulse heater; 9. a water level gauge; 10. a liquid discharge pipe; 11. a servo motor; 12. a pulley group; 13. a partition plate; 14. a screw rod adjusting assembly; 15. a scraping member; 16. an inner baffle; 17. and a limiting plate.

Detailed Description

The present application will now be described in further detail with reference to the drawings, and it should be noted that the following detailed description is given for purposes of illustration only and should not be construed as limiting the scope of the present application, as these numerous insubstantial modifications and variations can be made by those skilled in the art based on the teachings of the present application.

Example 1

As shown in fig. 1-2, a waterproof spraying device based on graphene bacteriostatic down jacket fabric comprises a treatment chamber 1, a conveying roller assembly arranged in the treatment chamber 1, and a rotating cover 7, wherein the rotating cover 7 is movably coupled in the treatment chamber 1; and

the spraying component 2 is arranged close to one side of the vertical conveying surface of the fabric, and the outer end of the spraying component 2 is movably lapped with the rotating cover 7;

the conveying roller assembly drives the fabric to be conveyed in the processing chamber 1, the spraying assembly 2 sprays the waterproof agent on the fabric, and the spraying assembly 2 simultaneously drives the rotating cover 7 to rotate to abut against the vertical conveying surface of the fabric and the rotating cover 7 scrapes the waterproof agent uniformly.

The conveying roller assembly is composed of four conveying rollers 3 which are arranged in the processing chamber 1 and distributed in a matrix mode and a driving roller 4 which is arranged on the top end of the processing chamber 1, a belt pulley group 12 is connected between the driving roller 4 and the adjacent conveying rollers 3 in a shaft mode, a servo motor 11 is connected to the driving end of the belt pulley group 12 in a shaft mode, the driving roller 4 and the conveying rollers 3 are driven to rotate simultaneously after the belt pulley group 12 is driven to rotate through the servo motor 11, the fabric enters the processing chamber 1 from the driving roller 4 and sequentially bypasses the four conveying rollers 3 from the conveying rollers 3 which are located at the bottom end of the processing chamber 1, and a conveying path of the fabric in the processing chamber 1 is constructed.

As shown in fig. 3-5, the spraying assembly 2 comprises a mounting plate 21, an inclined plate 22, a spraying pipeline 24 and a nozzle assembly 25, the mounting plate 21 is movably mounted on the inner side wall of the processing chamber 1, the inclined plate 22 is arranged on the inner side wall of the processing chamber 1 and is parallel to the rotating cover 7, a supporting plate 26 parallel to the inclined plate 22 is arranged on the mounting plate 21, the spraying pipeline 24 is mounted on the supporting plate 26, the supporting plate 26 supports the whole spraying pipeline 24, and the nozzle assembly 25 is mounted on the spraying pipeline 24.

The inside wall of rotating the cover 7 is equipped with the limiting plate 17 with swash plate 22 looks overlap joint, it is equipped with interior baffle 16 to rotate one side that the limiting plate 17 was kept away from to cover 7, and constitutes the spraying passageway between interior baffle 16 and the swash plate 22, the top of rotating the cover 7 is close to the upright transport surface department of surface fabric and is equipped with strickle piece 15, the inside wall of treatment chamber 1 corresponds the top of rotating the cover 7 and is equipped with the elevated plate 5 with limiting plate 17 parallel arrangement.

The spraying pipeline 24 comprises person in charge 241, connecting pipe 242, two branch pipes 243 and return bend 244, connecting pipe 242 pegs graft on backup pad 26, and the outside of connecting pipe 242 is equipped with the air-vent valve 27 for the pressure that control waterproofing agent carried, the one end of connecting pipe 242 is connected with transfer line 23, be equipped with the water pump 6 that is connected with transfer line 23 in the treatment chamber 1, draw the waterproofing agent in the treatment chamber 1 by water pump 6, carry to the connecting pipe 242 in through transfer line 23, then flow through in person in charge 241 and two branch pipes 243 in proper order, person in charge 241 connects the one end at connecting pipe 242, two be connected through return bend 244 between the branch pipe 243 and between a branch pipe 243 and the person in charge 241, the outside equipartition of person in charge 241 and branch pipe 243 has joint 245.

The nozzle assembly 25 is composed of a brake nozzle 251 connected to an external joint 245 of the main pipe 241 and a spray nozzle 252 connected to an external joint 245 of the branch pipe 243.

The whole waterproof spraying device is characterized in that a fabric enters a treatment chamber 1 from a driving roller 4 and sequentially bypasses from the outside of four conveying rollers 3 from the conveying rollers 3 at the bottom end of the treatment chamber 1, the fabric passes under the water level of a waterproof agent in the treatment chamber 1 and is wetted by the waterproof agent, the spraying process of the waterproof agent is finished on the vertical conveying surface of the fabric,

the water-proof agent in the processing chamber 1 is pumped by the water pump 6 and is conveyed to the connecting pipe 242 through the liquid conveying pipe 23, the liquid conveying pressure of the connecting pipe 242 can be controlled through the pressure regulating valve 27 at the connecting pipe 242 according to the process requirement, the water-proof agent firstly enters the main pipe 241 from the connecting pipe 242 and is sprayed out through the braking nozzle 251 connected with the external connector 245 of the main pipe 241, at the moment, the water-proof agent has stronger pressure and is sprayed out from the braking nozzle 251 and then contacts the inner side wall of the rotating cover 7, in order to ensure that the rotating cover 7 can be turned up and down, the material such as plastic and the like can be selected, the water-proof agent sprayed out from the braking nozzle 251 has larger flow speed, the rotating cover 7 is movably connected in the processing chamber 1 in a shaft mode, the rotating cover 7 is further impacted to rotate outwards until the external part of the rotating cover 7 contacts the high-level plate 5 on the inner side wall of the processing chamber 1, and at the moment, the scraping piece 15 at the external end of the rotating cover 7 contacts the upright conveying surface of the fabric;

therefore, simultaneously, along with the continuous suction of the water pump 6, the waterproof agent in the main pipe 241 enters the branch pipe 243 after passing through the bent pipe 244 at the end part of the main pipe 241 and is sprayed out from the spraying nozzle 252 connected with the external joint 245 of the branch pipe 243, the waterproof agent sprayed out from the spraying nozzle 252 and the waterproof agent sprayed out from the braking nozzle 251 are converged and are sprayed out from the spraying channel between the front end of the inclined plate 22 and the inner baffle 16 to finish the spraying of the waterproof agent, meanwhile, as the fabric is in the continuous conveying process in the treatment chamber 1, and the scraping piece 15 at the outer end of the rotating cover 7 is kept in a contact state with the fabric at the moment, the scraping piece 15 carries out the uniform scraping operation on the sprayed fabric, the spraying is more uniform, the unevenness is not easy to generate on the surface of the fabric, the formation of a waterproof layer on the surface of the fabric is facilitated, the thickness of the waterproof layer is uniform, the processing quality of the fabric is ensured, and the application prospect is good;

in addition, after the water pump 6 stops working and no waterproofing agent flows into the spraying pipeline 24, the braking nozzle 251 and the spraying nozzle 252 stop spraying the waterproofing agent, the rotating cover 7 rotates after losing impact, the limiting plate 17 on the inner side wall of the rotating cover 7 is reset after contacting the inclined plate 22, at the moment, the scraping piece 15 at the front end of the rotating cover 7 is separated from contacting with the fabric, the braking reactivity is strong, and the use and control of the equipment are more flexible.

The inside of the treatment chamber 1 is positioned in a rectangular space formed by the four conveying rollers 3 and is provided with a partition plate 13, the bottom of the partition plate 13 is provided with a pulse heater 8 which is used for properly heating the waterproof agent and improving the adhesion effect with the fabric, and the outside of the treatment chamber 1 is provided with a liquid discharge pipe 10 and a water level gauge 9 which are used for discharging the waterproof agent and controlling the water level in the treatment chamber 1 so as to ensure that the water level of the waterproof agent does not exceed the height of the partition plate 13.

As shown in fig. 5, one of the conveying rollers 3 located on the partition 13 is disposed in sliding fit with the processing chamber 1, a screw adjusting assembly 14 for adjusting the lifting of the conveying roller 3 is disposed outside the processing chamber 1, and the screw adjusting assembly 14 controls the height adjustment of the conveying roller 3, so that the distance between two adjacent vertically disposed conveying rollers 3 can be adjusted, and the tension of the fabric can be flexibly adjusted according to the processing procedure.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (6)

1. The utility model provides a waterproof spraying device based on antibacterial down coat surface fabric of graphite alkene, includes treatment chamber (1) and locates the conveying roller subassembly in treatment chamber (1), its characterized in that: the device also comprises a rotating cover (7), wherein the rotating cover (7) is movably connected in the processing chamber (1) in a shaft mode; and

the spraying component (2) is arranged close to one side of the vertical conveying surface of the fabric, and the outer end of the spraying component (2) is movably lapped with the rotating cover (7);

the spraying assembly (2) comprises a mounting plate (21), an inclined plate (22), a spraying pipeline (24) and a nozzle assembly (25), wherein the mounting plate (21) is movably mounted on the inner side wall of the treatment chamber (1), the inclined plate (22) is arranged on the inner side wall of the treatment chamber (1) and is parallel to the rotating cover (7), a supporting plate (26) parallel to the inclined plate (22) is arranged on the mounting plate (21), the spraying pipeline (24) is mounted on the supporting plate (26), and the nozzle assembly (25) is mounted on the spraying pipeline (24);

a limiting plate (17) in lap joint with the inclined plate (22) is arranged on the inner side wall of the rotating cover (7), an inner baffle (16) is arranged on one side, away from the limiting plate (17), of the rotating cover (7), a spraying channel is formed between the inner baffle (16) and the inclined plate (22), a strickling piece (15) is arranged at the position, close to the vertical conveying surface of the fabric, of the top end of the rotating cover (7), and a high-level plate (5) parallel to the limiting plate (17) is arranged above the inner side wall of the treatment chamber (1) corresponding to the rotating cover (7);

the conveying roller assembly drives the fabric to be conveyed in the processing chamber (1), the spraying assembly (2) sprays the waterproof agent onto the fabric, and the spraying assembly (2) simultaneously drives the rotating cover (7) to rotate to abut against the vertical conveying surface of the fabric and the rotating cover (7) scrapes the waterproof agent evenly.

2. The waterproof spraying device based on antibacterial down coat surface fabric of graphite alkene of claim 1, its characterized in that: the conveying roller subassembly comprises four conveying rollers (3) that are the matrix distribution and drive roll (4) on locating treatment chamber (1) top in locating treatment chamber (1), and the surface fabric gets into treatment chamber (1) and begins to bypass from four conveying roller (3) outsides in proper order from drive roll (4) and from conveying roller (3) that are located treatment chamber (1) bottom, the coupling has pulley group (12) between drive roll (4) and adjacent conveying roller (3), and the drive end coupling of pulley group (12) has servo motor (11).

3. The waterproof spraying device based on antibacterial down coat surface fabric of graphite alkene of claim 1, its characterized in that: spraying pipeline (24) comprises two branch pipes (243) and return bend (244) of being responsible for (241), connecting pipe (242) are pegged graft on backup pad (26), and the outside of connecting pipe (242) is equipped with air-vent valve (27), the one end of connecting pipe (242) is connected with transfer line (23), be equipped with water pump (6) that are connected with transfer line (23) in process chamber (1), be responsible for (241) and connect the one end at connecting pipe (242), two be connected through return bend (244) between branch pipe (243) and between a branch pipe (243) and being responsible for (241), be responsible for (243) and have joint (245) with the outside equipartition of branch pipe (243).

4. The waterproof spraying device based on antibacterial down coat surface fabric of graphite alkene of claim 1, its characterized in that: the nozzle assembly (25) is composed of a brake nozzle (251) connected with an external joint (245) of the main pipe (241) and a spraying nozzle (252) connected with an external joint (245) of the branch pipe (243).

5. The waterproof spraying device based on antibacterial down coat surface fabric of graphite alkene of claim 2, its characterized in that: the inside of the treatment chamber (1) is positioned in a rectangular space formed by the four conveying rollers (3) and is provided with a partition plate (13), the bottom of the partition plate (13) is provided with a pulse heater (8), and the outside of the treatment chamber (1) is provided with a liquid discharge pipe (10) and a water level meter (9).

6. The waterproof spraying device based on antibacterial down coat fabric of graphite alkene of claim 5, its characterized in that: one of the conveying rollers (3) positioned on the partition plate (13) is in sliding fit with the processing chamber (1), and a screw rod adjusting assembly (14) for adjusting the lifting of the conveying roller (3) is arranged outside the processing chamber (1).

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