CN115475722A - Textile fabric hot-pressing process - Google Patents

Abstract

The invention relates to the technical field of textile fabric processing, in particular to a textile fabric hot-pressing process, which comprises a hot-pressing equipment support, wherein an initial roller shaft is installed on the inner side of the hot-pressing equipment support, a heating roller shaft is installed at the rear end of the initial roller shaft, a pressing roller shaft is installed below the heating roller shaft, conveying belts are arranged at the input ends of the initial roller shaft, the pressing roller shaft and the heating roller shaft, and the conveying belts are connected with a single-phase motor through a driving wheel; and the side plate bracket is fixed above the hot-pressing equipment bracket. According to the invention, the bevel gear can be driven by the inclined screw rod in the silver ion mixing mechanism to horizontally rotate and simultaneously turn over, and the stirring rod arranged on the surface of the bevel gear can fully stir the glue while rotating the bevel gear, so that the glue deposited at the bottom can be turned upwards, the mixing speed of the glue is further improved, and the problem of poor glue use effect caused by long-term standing of the glue is avoided.

Description

Textile fabric hot-pressing process

Technical Field

The invention relates to the technical field of textile fabric processing, in particular to a textile fabric hot-pressing process.

Background

The fabric hot-pressing compounding process is a process of spraying glue on an injection molding framework for heating and manually coating the fabric. The fabric compounded by hot pressing is generally provided with back foam and non-woven fabric, and when the fabric is compounded, the non-woven fabric can prevent glue from permeating into foam and cloth, so that the non-uniform thickness of the fabric is avoided.

In the double-roller hot embossing device for the textile fabric, which is combined with the retrieval and has the application number of CN111778676A, the invention discloses the double-roller hot embossing device for the textile fabric, which comprises an embossing rack, wherein an unreeling roller is arranged on one side of the embossing rack, a reeling roller is arranged on the other side of the embossing rack, a driving motor is arranged on the side part of the other side of the embossing rack, a driving shaft is arranged at the front part of the driving motor, and the front end of the driving shaft is connected with the end part of the reeling roller; the upper portion both sides of knurling frame all are equipped with a location section of thick bamboo, go up to be equipped with knurling core cylinder between the section of thick bamboo of fixing a position, and the lower part both sides of knurling frame all are equipped with down a location section of thick bamboo, are equipped with knurling die cavity cylinder down between the section of thick bamboo of fixing a position, and knurling die cavity cylinder is parallel arrangement with knurling core cylinder, and the top at knurling die cavity cylinder is installed to knurling core cylinder, the problem of existence:

in the existing fabric hot-pressing composite process, a glue tank is not provided with a mixed structure, so that the long-time standing of the glue affects the use effect of the glue, and therefore, a textile fabric hot-pressing process is provided.

Disclosure of Invention

The invention aims to provide a textile fabric hot-pressing process to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a textile fabric hot-pressing apparatus comprising:

the hot-pressing device comprises a hot-pressing device support, wherein an initial roller shaft is installed on the inner side of the hot-pressing device support, a heating roller shaft is installed at the rear end of the initial roller shaft, a pressing roller shaft is installed below the heating roller shaft, conveying belts are arranged at the input ends of the initial roller shaft, the pressing roller shaft and the heating roller shaft, and the conveying belts are connected with a single-phase motor through a driving wheel;

curb plate support, it is fixed the top of hot pressing equipment support, the top of curb plate support is fixed with the roof, ration confession gluey mechanism is installed on the right side of curb plate support, and the left side of curb plate support installs silver ion mixing mechanism, silver ion mixing mechanism includes:

the mixing motor is installed on the left side of the silver ion mixing mechanism, the output end of the mixing motor is connected with an inclined screw, bevel gears are arranged on the upper side and the lower side of the inclined screw, stirring rods are fixed on the left side and the right side of the surface of each bevel gear, a guide rod is fixed in the middle of the surface of each bevel gear, the tail end of each guide rod is connected with a connecting bearing, a T-shaped sliding block is fixed on a fixing rod on one side of the connecting bearing, and a T-shaped sliding groove is formed in the outer portion of each T-shaped sliding block;

the delivery pipe is connected above the silver ion mixing mechanism, and the tail end of the delivery pipe is connected with a pump body;

the connecting pipe, its connection is in one side that the mechanism is glued to the ration confession, the end-to-end connection of connecting pipe has the backup pad, and the lower terminal surface of backup pad is provided with a plurality of and goes out gluey shower nozzle, the below that goes out gluey shower nozzle is provided with cavity linkage plate, and the below of cavity linkage plate is provided with the rubber coating roller.

Preferably, the quantitative glue supplying mechanism comprises:

the rotary convex part is arranged in the quantitative glue supply mechanism and close to the lower part, the surface of the rotary convex part is hinged with a transmission connecting rod, one end of the transmission connecting rod is hinged with a lifting slide block, the outer part of the lifting slide block is provided with a limiting groove, the left side of the lifting slide block is provided with an adsorption drift diameter, and the tail end of the adsorption drift diameter is provided with a duckbill valve;

go out gluey latus rectum, it sets up the left side of spacing groove, the internally mounted who goes out gluey latus rectum has the stop pole, and is fixed with slide bar cushion rubber board below by the pole, the top of stop pole is provided with expanding spring, and expanding spring's top is provided with flexible piece, the top of flexible piece is provided with the circulation lug, and the outside of circulation lug is provided with the movable groove, the left and right sides of stop pole all is provided with the stopper.

Preferably, flexible piece passes through expanding spring and stopper elastic connection, and ends the pole and run through in the inside of expanding spring and stopper in proper order, it constitutes T style of calligraphy structure with the cushion rubber board to cut off the pole, and ends pole and cushion rubber board bonding connection.

Preferably, the lifting slide block realizes sliding movement in the limiting groove through the rotary convex part and the transmission connecting rod, and the upper part and the lower part of the rotary convex part are communicated with each other through an adsorption drift diameter.

Preferably, the ration is glued the mechanism and is passed through the pump body, conveyer pipe and silver ion mixed mechanism and communicate each other, go out gluey latus rectum and the mutual intercommunication of connecting pipe, and go out gluey shower nozzle and pass through backup pad and the mutual intercommunication of connecting pipe to go out gluey shower nozzle along the lower terminal surface equidistance evenly distributed of backup pad.

Preferably, the hollow connector tile is further provided with:

a guide slider mounted at the junction of the hollow connector tile and the side panel bracket;

the lifting screw rod is arranged in the hollow connecting plate in a penetrating mode, a fixing plate is arranged below the lifting screw rod, a glue scraping plate is fixed at the tail end of the fixing plate, a screw rod servo motor is installed below the fixing plate, a glue inlet hole is formed in the inner portion of the glue scraping plate close to the rear end of the glue scraping plate, a glue storage tank is fixed on one side, away from the vertical central line of an initial roller shaft, of the glue inlet hole, an arc matching groove is formed in the lower portion of the glue scraping plate, the initial roller shaft, a pressing roller shaft and a heating roller shaft respectively form a belt transmission structure through a conveying belt, a driving wheel and a single-phase motor, and the pressing roller shaft and the heating roller shaft are parallel to each other.

Preferably, the cavity links up the fishplate bar and passes through the lead screw connection, the lift lead screw constitutes the screw drive structure with lead screw servo motor, and the cavity links up the fishplate bar and passes through the guide slider and realize sliding movement on the curb plate support, advance the gluey hole and store up gluey jar and communicate each other, fixed plate and frictioning board mutually perpendicular, and the surface of frictioning board and the terminal surface of initial roller are located same vertical plane.

Preferably, the oblique screws are meshed with the bevel gear, and the oblique screws are symmetrically distributed around the vertical central line of the bevel gear, wherein one group of the oblique screws are connected with the silver ion mixing mechanism through bearings.

Preferably, the stirring rods are uniformly distributed along the surface of the bevel gear at equal intervals, the bevel gear is perpendicular to the guide rods, the guide rods slide in the T-shaped sliding grooves through the linking bearings and the T-shaped sliding blocks, and the guide rods penetrate through the inside of the linking bearings.

A textile fabric hot-pressing process is characterized by comprising the following steps:

s1, winding a fabric to be hot-pressed on the surface of an initial roll shaft (4), and guiding glue water into a quantitative glue supply mechanism (2) from a silver ion mixing mechanism (3) through a pump body 8;

s11, a rotating convex piece (201) driven by a motor drives a transmission connecting rod (202) to synchronously rotate, a lifting sliding block (204) can be lifted and moved in a limiting groove (205), when the lifting sliding block (204) descends, the pressure in the lifting sliding block (204) is increased, and glue is sucked into the limiting groove (205) through an adsorption drift diameter (203);

s12, when the lifting slide block (204) ascends, glue is discharged outwards through the glue discharging drift diameter (212), the circulating lug (207) can rotate under the action of the motor, when one end of the circulating lug (207) is in mutual contact with the telescopic block (208), the telescopic block (208) can be pushed to move downwards, the telescopic spring (209) compresses at the moment, the buffer rubber plate (210) is attached to the glue discharging drift diameter (212), the limiting groove (205) can be in a closed state, when the telescopic spring (209) resets, the glue can normally flow into the connecting pipe (10) through the glue discharging drift diameter (212), and the connecting pipe (10) flows to the glue discharging spray head (12) through the supporting plate (13) and is uniformly dripped on the surface of the glue spreading roller shaft (11);

s2, a screw rod servo motor (18) adjusts the height of the hollow connecting plate (25) through a lifting screw rod (15) until the hollow connecting plate (25) is attached to an initial roller shaft (4), the initial roller shaft (4) rotates under the driving of a conveyor belt (19) and a single-phase motor (20) and is used for gluing the surface of the initial roller shaft (4), and redundant glue is guided into a glue storage tank (24) through a glue inlet hole (22) through a glue scraping plate (7);

s3, after covering the other layer of fabric on the adhesive layer, enabling the fabric to penetrate through a space between the lower pressing roller shaft (5) and the heating roller shaft (21), and carrying out hot press molding on the fabric through the lower pressing roller shaft (5) and the heating roller shaft (21);

s4, the mixing motor (301) drives the bevel screw (302) to rotate, the bevel gear (303) is driven by the bevel screw (302) to rotate horizontally and turn over at the same time, the stirring rod (304) is enabled to fully stir the glue under the rotation of the bevel gear (303) and rotate up and down in the silver ion mixing mechanism (3), and the silver ions and the glue are fully mixed.

Compared with the prior art, the invention provides a textile fabric hot-pressing process, which has the following beneficial effects:

according to the silver ion mixing mechanism, the glue and the silver ions can be fully and uniformly mixed, so that the silver ions can be added into the glue, the silver ions are mixed in the textile fabric through the glue, the adding effect of the silver ions is improved, the bevel gear can be driven to horizontally rotate and turn over by using the inclined screw in the silver ion mixing mechanism, the stirring rod arranged on the surface of the bevel gear can fully stir the glue under the rotation of the bevel gear and vertically rotate in the silver ion mixing mechanism, so that the glue deposited at the bottom can be upwards turned, the mixing speed of the glue is further improved, and the problem of poor glue using effect caused by long-term standing of the glue is avoided;

the quantitative glue supply mechanism can be conveyed to the inside of the quantitative glue supply mechanism through the pump body and the conveying pipe, so that the quantitative glue supply mechanism can be supplied, the situation that the glue amount in the quantitative glue supply mechanism is small is avoided, the rotating convex part is driven to rotate by the motor in the quantitative glue supply mechanism, the lifting slide block is driven to slide up and down, the glue can be sucked above the lifting slide block through the adsorption path by utilizing the sealing interval between the lifting slide block and the limiting groove and is extruded outwards through the lifting slide block, and the process range of the lifting slide block is always kept unchanged, so that the glue can be quantitatively sprayed out, and the situation that the fabric fails in hot pressing or a large amount of glue is wasted due to inconsistent glue output is avoided;

in order to further avoid excessive use of glue, the glue overflows from the left side and the right side of the fabric to the surface of the fabric, glue scraping plates are arranged on the left side and the right side of the initial roller shaft and the lower press roller shaft, the surfaces of the glue scraping plates are respectively attached to the end parts of the initial roller shaft and the lower press roller shaft, the glue overflowing from the two sides of the fabric can enter the inside of the glue storage tank again through glue inlet holes in the glue scraping plates by utilizing the rotation of the initial roller shaft and the lower press roller shaft, the extruded excessive glue can be stored again, and the arranged lifting screw rod can drive the hollow connecting plate to move up and down, so that the distance between the glue scraping roller shaft and the fabric on the initial roller shaft can be kept consistent all the time, and hot-pressing equipment can be used conveniently.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

FIG. 4 is a schematic structural view of a support of the hot pressing apparatus according to the present invention;

FIG. 5 is a schematic structural view of a doctor blade according to the present invention;

fig. 6 is an enlarged schematic view of the structure of fig. 1 at C according to the present invention.

In the figure: 1. a hot-pressing equipment support; 2. a quantitative glue supply mechanism; 201. rotating the male member; 202. a transmission link; 203. adsorption drift diameter; 204. a lifting slide block; 205. a limiting groove; 206. a movable groove; 207. circulating the bumps; 208. a telescopic block; 209. a tension spring; 210. a buffer rubber plate; 211. a cut-off lever; 212. tapping the rubber and passing through; 213. a limiting block; 3. a silver ion mixing mechanism; 301. a hybrid motor; 302. a helical screw; 303. a bevel gear; 304. a stirring rod; 305. a guide bar; 306. a T-shaped slider; 307. a T-shaped chute; 308. connecting the bearings; 4. an initial roll shaft; 5. pressing the roll shaft downwards; 6. a fixing plate; 7. scraping a rubber plate; 8. a pump body; 9. a delivery pipe; 10. a connecting pipe; 11. a rubberizing roll shaft; 12. a glue outlet nozzle; 13. a support plate; 14. an upper top plate; 15. a lifting screw rod; 16. a guide slider; 17. a side panel bracket; 18. a screw rod servo motor; 19. a conveyor belt; 20. a single-phase motor; 21. heating the roll shaft; 22. a glue inlet hole; 23. an arc-shaped matching groove; 24. a glue storage tank; 25. a hollow connector tile.

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.

Embodiment 1

As shown in fig. 1, 4, 5 and 6, a textile fabric hot-pressing process includes: the hot-pressing device comprises a hot-pressing device support 1, wherein an initial roller shaft 4 is installed on the inner side of the hot-pressing device support 1, a heating roller shaft 21 is installed at the rear end of the initial roller shaft 4, a pressing roller shaft 5 is installed below the heating roller shaft 21, conveyor belts 19 are respectively arranged at the input ends of the initial roller shaft 4, the pressing roller shaft 5 and the heating roller shaft 21, the conveyor belts 19 are connected with a single-phase motor 20 through transmission wheels, the initial roller shaft 4, the pressing roller shaft 5 and the heating roller shaft 21 respectively form a belt transmission structure through the conveyor belts 19 and the transmission wheels and the single-phase motor 20, and the pressing roller shaft 5 is parallel to the heating roller shaft 21; the side plate support 17 is fixed above the hot-pressing equipment support 1, an upper top plate 14 is fixed above the side plate support 17, the quantitative glue supply mechanism 2 is installed on the right side of the side plate support 17, the silver ion mixing mechanism 3 is installed on the left side of the side plate support 17, the conveying pipe 9 is connected above the silver ion mixing mechanism 3, and the tail end of the conveying pipe 9 is connected with the pump body 8; the quantitative glue supply mechanism comprises a connecting pipe 10, a supporting plate 13, a plurality of glue outlet nozzles 12, a hollow connecting plate 25 and a guide sliding piece 16, wherein the connecting pipe 10 is connected to one side of the quantitative glue supply mechanism 2, the tail end of the connecting pipe 10 is connected with the supporting plate 13, the lower end face of the supporting plate 13 is provided with the glue outlet nozzles 12, the lower part of each glue outlet nozzle 12 is provided with the hollow connecting plate 25, the lower part of each hollow connecting plate 25 is provided with a glue coating roller shaft 11, and the guide sliding piece 16 is installed at the connecting part of the hollow connecting plate 25 and a side plate support 17; the lifting screw rod 15 penetrates through the hollow connecting plate 25, the lifting screw rod 15 can drive the hollow connecting plate 25 to move up and down, so that the distance between the glue coating roller shaft 11 and the fabric on the initial roller shaft 4 can be kept consistent all the time, the use of hot-pressing equipment is facilitated, a fixing plate 6 is arranged below the lifting screw rod 15, a glue scraping plate 7 is fixed at the tail end of the fixing plate 6, a screw rod servo motor 18 is installed below the fixing plate 6, a glue inlet hole 22 is formed in the glue scraping plate 7 close to the rear end, a glue storage tank 24 is fixed on one side, away from the vertical central line of the initial roller shaft 4, of the glue scraping plate 22, an arc-shaped matching groove 23 is formed in the lower portion of the glue scraping plate 7, in order to further avoid excessive glue from being used, the glue overflows to the surface of the fabric from the left side and the right side of the initial roller shaft 4 and the lower roller shaft 5, the surface of the glue scraping plate 7 is respectively attached to the end portions of the initial roller shaft 4 and the lower roller shaft 5, the glue on the left side and right side of the initial roller shaft 4 and the glue on the glue scraping plate 5 can enter the glue storage tank 22, and the glue on the initial roller shaft 7 is convenient for re-extruding of the glue storage tank.

As shown in fig. 1 and fig. 2, a textile fabric hot-pressing process includes: the rotary convex part 201 is installed at the lower part of the inner part of the quantitative glue supply mechanism 2, the surface of the rotary convex part 201 is hinged with a transmission connecting rod 202, one end of the transmission connecting rod 202 is hinged with a lifting slide block 204, the outer part of the lifting slide block 204 is provided with a limiting groove 205, the left side of the lifting slide block 204 is provided with an adsorption drift diameter 203, and the tail end of the adsorption drift diameter 203 is provided with a duckbill valve; the telescopic block 208 is elastically connected with a limit block 213 through a telescopic spring 209, a stop rod 211 sequentially penetrates through the telescopic spring 209 and the limit block 213, the stop rod 211 and a buffer rubber plate 210 form a T-shaped structure, the stop rod 211 is connected with the buffer rubber plate 210 in an adhesive manner, a glue outlet drift diameter 212 is arranged on the left side of the limit groove 205, the stop rod 211 is arranged inside the glue outlet drift diameter 212, a sliding rod buffer rubber plate 210 is fixed below the stop rod 211, the telescopic spring 209 is arranged above the stop rod 211, the telescopic block 208 is arranged above the telescopic spring 209, a circulating lug 207 is arranged above the telescopic block 208, a movable groove 206 is arranged outside the circulating lug 207, the limit blocks 213 are arranged on the left side and the right side of the stop rod 211, the lifting slide block 204 realizes sliding movement in the limit groove 205 through the rotary convex piece 201 and the transmission connecting rod 202, the upper and lower sides of the rotary convex part 201 are communicated with each other through an adsorption path 203, the quantitative glue supplying mechanism 2 is communicated with the silver ion mixing mechanism 3 through the pump body 8 and the delivery pipe 9, the glue outlet path 212 is communicated with the connection pipe 10, the glue outlet nozzle 12 is communicated with the connection pipe 10 through the support plate 13, the glue outlet nozzles 12 are uniformly distributed along the lower end surface of the support plate 13 at equal intervals, the silver ion mixing mechanism 3 is transmitted to the inside of the quantitative glue supplying mechanism 2 through the pump body 8 and the delivery pipe 9, the quantitative glue supplying mechanism 2 can be supplied, the situation that the glue amount in the quantitative glue supplying mechanism 2 is small is avoided, the rotary convex part 201 is driven to rotate by a motor in the quantitative glue supplying mechanism 2, so that the lifting slide block 204 is driven to slide up and down, the glue can be pumped into the upper part of the lifting slide block 204 through the adsorption path 203 by utilizing the sealing interval between the lifting slide block 204 and the limiting groove 205, and extrude outwards through the lifting slide block 204 to because the process scope of lifting slide block 204 remains unchanged all the time, thereby can guarantee that glue can quantitative blowout, avoid out the inconsistent condition that leads to surface fabric hot pressing failure or extravagant a large amount of glue of volume to appear.

As shown in fig. 1 and 3, a textile fabric hot-pressing process includes: a mixing motor 301 which is installed on the left side of the silver ion mixing mechanism 3, the output end of the mixing motor 301 is connected with an oblique screw 302, bevel gears 303 are arranged on the upper and lower sides of the oblique screw 302, the oblique screw 302 and the bevel gears 303 are meshed with each other, the oblique screws 302 are symmetrically distributed about the vertical central line of the bevel gears 303, one group of the oblique screws 302 is connected with the silver ion mixing mechanism 3 through a bearing, stirring rods 304 are fixed on the left and right sides of the surface of the bevel gears 303, a guide rod 305 is fixed in the middle of the surface of the bevel gears 303, the tail end of the guide rod 305 is connected with a linking bearing 308, a T-shaped sliding block 306 is fixed on one side of the linking bearing 308, a T-shaped sliding groove 307 is arranged outside the T-shaped sliding block 306, the stirring rods 304 are uniformly distributed along the surface of the bevel gears 303 at equal intervals, and the bevel gears 303 and the guide rod 305 are perpendicular to each other, the guide rod 305 slides in the T-shaped sliding groove 307 through the connecting bearing 308 and the T-shaped sliding block 306, the guide rod 305 penetrates through the inside of the connecting bearing 308, the silver ion mixing mechanism 3 is installed on one side of the side plate support 17, glue and silver ions can be fully and uniformly mixed, so that the silver ions can be added into the glue, the silver ions are mixed in the textile fabric through the glue, the adding effect of the silver ions is improved, the bevel gear 303 can be driven to horizontally rotate and turn over by utilizing the inclined screw 302 in the silver ion mixing mechanism 3, the stirring rod 304 installed on the surface of the bevel gear 303 can fully stir the glue under the rotation of the bevel gear 303, and simultaneously, the stirring rod rotates up and down in the silver ion mixing mechanism 3, so that the glue deposited at the bottom can be turned over upwards, and the mixing speed of the glue is further improved, avoid the problem of poor glue use effect caused by long-term standing of the glue.

Example two

The scheme in the first embodiment is further described in the following with reference to specific working modes, which are described in detail in the following:

a textile fabric hot-pressing process is characterized by comprising the following steps:

s1, winding a fabric to be hot-pressed on the surface of an initial roller shaft (4), and guiding glue water into a quantitative glue supply mechanism (2) from a silver ion mixing mechanism (3) through a pump body 8;

s11, a rotating convex piece (201) driven by a motor drives a transmission connecting rod (202) to synchronously rotate, a lifting sliding block (204) can be lifted and moved in a limiting groove (205), when the lifting sliding block (204) descends, the pressure in the lifting sliding block (204) is increased, and glue is sucked into the limiting groove (205) through an adsorption drift diameter (203);

s12, when the lifting slide block (204) ascends, glue is discharged outwards through the glue discharging drift diameter (212), the circulating lug (207) can rotate under the action of the motor, when one end of the circulating lug (207) is in mutual contact with the telescopic block (208), the telescopic block (208) can be pushed to move downwards, the telescopic spring (209) compresses at the moment, the buffer rubber plate (210) is attached to the glue discharging drift diameter (212), the limiting groove (205) can be in a closed state, when the telescopic spring (209) resets, the glue can normally flow into the connecting pipe (10) through the glue discharging drift diameter (212), and the connecting pipe (10) flows to the glue discharging spray head (12) through the supporting plate (13) and is uniformly dripped on the surface of the glue spreading roller shaft (11);

s2, a screw rod servo motor (18) adjusts the height of the hollow connecting plate (25) through a lifting screw rod (15) until the hollow connecting plate (25) is attached to an initial roller shaft (4), the initial roller shaft (4) rotates under the driving of a conveyor belt (19) and a single-phase motor (20) and is used for gluing the surface of the initial roller shaft (4), and redundant glue is guided into a glue storage tank (24) through a glue inlet hole (22) through a glue scraping plate (7);

s3, after covering the other layer of fabric on the adhesive layer, enabling the fabric to penetrate through a space between the lower pressing roller shaft (5) and the heating roller shaft (21), and carrying out hot press molding on the fabric through the lower pressing roller shaft (5) and the heating roller shaft (21);

s4, the mixing motor (301) drives the bevel screw (302) to rotate, the bevel gear (303) is driven by the bevel screw (302) to horizontally rotate and turn over at the same time, the stirring rod (304) is enabled to fully stir the glue water under the rotation of the bevel gear (303) and simultaneously to rotate up and down in the silver ion mixing mechanism (3), and the silver ions are fully mixed with the glue water.

The working principle is as follows: when the textile fabric hot-pressing process is used, firstly, the power inputs of a roll shaft, a rotating part, a cam and the like of the equipment are all motors, the fabric to be hot-pressed is wound on the surface of an initial roll shaft 4, a pump body 8 is started, after glue enters a quantitative glue supply mechanism 2 from a silver ion mixing mechanism 3, a rotating convex part 201 rotates under the action of the motors, so that a transmission connecting rod 202 is driven to synchronously rotate, a lifting slide block 204 in pin joint with the transmission connecting rod 202 can lift and move in a limiting groove 205, when the lifting slide block 204 descends, the pressure in the lifting slide block 204 is increased, the glue is sucked into the limiting groove 205 through an adsorption through diameter 203, and because a duckbill valve is arranged above the adsorption through diameter 203, the glue can only flow in a one direction and cannot be discharged downwards through the duckbill valve; secondly, when the lifting slider 204 is lifted, glue is discharged outwards through the glue outlet path 212, in order to match the movement of the lifting slider 204, a telescopic stop rod 211 is arranged inside the glue outlet path 212, the circulation bump 207 can rotate under the action of a motor, when one end of the circulation bump 207 is in contact with the telescopic block 208, the telescopic block 208 can be pushed to move downwards, the telescopic spring 209 is compressed, the buffer rubber plate 210 is attached to the glue outlet path 212, the limit groove 205 can be in a closed state, when the telescopic spring 209 is reset, the glue can normally pass through the glue outlet path 212 and flow into the connecting pipe 10, and the connecting pipe 10 flows to the glue outlet nozzle 12 through the support plate 13, so that the glue can be uniformly dripped on the surface of the glue coating roller shaft 11; secondly, the lifting screw rod 15 rotates under the action of the screw rod servo motor 18, so that the height of the hollow connecting plate 25 is adjusted, the hollow connecting plate 25 is attached to the initial roller shaft 4, the initial roller shaft 4 rotates under the driving of the conveyor belt 19 and the single-phase motor 20, the surface on the initial roller shaft 4 can be coated with glue, and the glue which is dripped from the two sides is scraped by the glue scraping plate 7 and enters the glue storage tank 24 through the glue inlet hole 22 for storage; then, after another layer of fabric is covered on the adhesive layer, the fabric passes through the space between the lower pressing roller shaft 5 and the heating roller shaft 21, and the fabric is subjected to hot press molding through the lower pressing roller shaft 5 and the heating roller shaft 21; finally, in the working process of the equipment, the mixing motor 301 can be started simultaneously, the mixing motor 301 drives the bevel screw 302 to rotate, the bevel screw 302 drives the bevel gear 303 to horizontally rotate and turn over simultaneously, the stirring rod 304 fully stirs the glue while rotating the bevel gear 303, and the glue rotates up and down in the silver ion mixing mechanism 3, so that the silver ions and the glue are fully mixed, and the glue is directly sprayed on the surface of the fabric along with the glue, and the antibacterial effect of the fabric is improved.

Claims (10)

1. A textile fabric hot pressing device is characterized by comprising:

the hot-pressing device comprises a hot-pressing device support (1), wherein an initial roller shaft (4) is installed on the inner side of the hot-pressing device support (1), a heating roller shaft (21) is installed at the rear end of the initial roller shaft (4), a lower pressing roller shaft (5) is installed below the heating roller shaft (21), conveying belts (19) are arranged at the input ends of the initial roller shaft (4), the lower pressing roller shaft (5) and the heating roller shaft (21), and the conveying belts (19) are connected with a single-phase motor (20) through driving wheels;

curb plate support (17), it is fixed the top of hot pressing equipment support (1), the top of curb plate support (17) is fixed with roof (14), ration confession gluey mechanism (2) are installed on the right side of curb plate support (17), and the left side of curb plate support (17) installs silver ion mixing mechanism (3), silver ion mixing mechanism (3) include:

the mixing motor (301) is installed on the left side of the silver ion mixing mechanism (3), the output end of the mixing motor (301) is connected with an inclined screw (302), bevel gears (303) are arranged on the upper side and the lower side of the inclined screw (302), stirring rods (304) are fixed on the left side and the right side of the surface of each bevel gear (303), a guide rod (305) is fixed in the middle of the surface of each bevel gear (303), the tail end of each guide rod (305) is connected with a connecting bearing (308), a T-shaped sliding block (306) is fixed on one side of each connecting bearing (308), and a T-shaped sliding groove (307) is formed in the outer portion of each T-shaped sliding block (306);

the delivery pipe (9) is connected above the silver ion mixing mechanism (3), and the tail end of the delivery pipe (9) is connected with a pump body (8);

connecting pipe (10), it is connected one side that mechanism (2) are glued to the ration confession, the end-to-end connection of connecting pipe (10) has backup pad (13), and the lower terminal surface of backup pad (13) is provided with a plurality of and goes out gluey shower nozzle (12), the below that goes out gluey shower nozzle (12) is provided with cavity linkage plate (25), and the below of cavity linkage plate (25) is provided with scribbles gluey roller (11).

2. A textile fabric hot-pressing apparatus as claimed in claim 1, characterized in that said dosing and glue-supplying means (2) comprise:

the quantitative glue supply mechanism comprises a rotary convex part (201) which is arranged in the quantitative glue supply mechanism (2) and is close to the lower part, a transmission connecting rod (202) is hinged to the surface of the rotary convex part (201), a lifting slide block (204) is hinged to one end of the transmission connecting rod (202), a limiting groove (205) is formed in the outer part of the lifting slide block (204), an adsorption drift diameter (203) is arranged on the left side of the lifting slide block (204), and a duckbill valve is arranged at the tail end of the adsorption drift diameter (203);

go out gluey latus rectum (212), it sets up the left side of spacing groove (205), the internally mounted who goes out gluey latus rectum (212) has and cuts off pole (211), and the below of cutting off pole (211) is fixed with slide bar cushion rubber board (210), the top of cutting off pole (211) is provided with expanding spring (209), and expanding spring (209)'s top is provided with flexible piece (208), the top of flexible piece (208) is provided with circulation lug (207), and the outside of circulation lug (207) is provided with movable groove (206), the left and right sides of cutting off pole (211) all is provided with stopper (213).

3. A textile fabric hot-pressing device according to claim 2, wherein the telescopic block (208) is elastically connected with the limiting block (213) through a telescopic spring (209), the stop rod (211) sequentially penetrates through the telescopic spring (209) and the limiting block (213), the stop rod (211) and the buffer rubber plate (210) form a T-shaped structure, and the stop rod (211) is connected with the buffer rubber plate (210) in an adhesion manner.

4. A textile fabric hot-pressing apparatus according to claim 2, wherein the lifting slider (204) slides in the limiting groove (205) through the rotary convex member (201) and the transmission link (202), and the upper and lower sides of the rotary convex member (201) are communicated with each other through the adsorption path (203).

5. A textile fabric hot-pressing device according to claim 2, wherein the quantitative glue supplying mechanism (2) is communicated with the silver ion mixing mechanism (3) through the pump body (8) and the conveying pipe (9), the glue discharging path (212) is communicated with the connecting pipe (10), the glue discharging nozzles (12) are communicated with the connecting pipe (10) through the supporting plate (13), and the glue discharging nozzles (12) are uniformly distributed along the lower end surface of the supporting plate (13) at equal intervals.

6. A textile fabric heat-pressing apparatus as claimed in claim 1, wherein the hollow connector tiles (25) are further provided with:

a guide slide (16) mounted at the junction of the hollow connector tile (25) and side panel bracket (17);

lifting screw (15), it wears to establish the inside of cavity linkage plate (25), the below of lifting screw (15) is equipped with fixed plate (6), and the end of fixed plate (6) is fixed with rubber scraping plate (7), lead screw servo motor (18) are installed to the below of fixed plate (6), rubber scraping plate (7) inside has been seted up by the rear end and has been advanced gluey hole (22), and advances gluey hole (22) and keep away from one side of initial roller (4) vertical center line and be fixed with and store up gluey jar (24), arc matching groove (23) have been seted up to the below of rubber scraping plate (7), initial roller (4), push down roller (5) and heating roller (21) constitute belt transmission structure through conveyer belt (19), drive wheel and single phase motor (20) respectively, and push down roller (5) and heating roller (21) are parallel to each other.

7. A textile fabric hot-pressing device according to claim 6, characterized in that the hollow connection plate (25) is connected through a screw rod, the lifting screw rod (15) and the screw rod servo motor (18) form a screw rod transmission structure, the hollow connection plate (25) realizes sliding movement on the side plate bracket (17) through a guide sliding piece (16), the glue inlet hole (22) is communicated with the glue storage tank (24), the fixing plate (6) is perpendicular to the glue scraping plate (7), and the surface of the glue scraping plate (7) and the end surface of the initial roller shaft (4) are positioned in the same vertical plane.

8. A textile fabric hot-pressing device according to claim 1, wherein the oblique screws (302) are meshed with the bevel gear (303), and the oblique screws (302) are symmetrically distributed about the vertical center line of the bevel gear (303), wherein one group of the oblique screws (302) is connected with the silver ion mixing mechanism (3) through a bearing.

9. The textile fabric hot-pressing device according to claim 1, characterized in that the stirring rods (304) are uniformly distributed along the surface of the bevel gear (303) at equal intervals, the bevel gear (303) and the guide rod (305) are perpendicular to each other, the guide rod (305) slides in the T-shaped sliding groove (307) through the engaging bearing (308) and the T-shaped sliding block (306), and the guide rod (305) penetrates through the inside of the engaging bearing (308).

10. A textile fabric hot-pressing process is characterized by comprising the following steps:

s1, winding a fabric to be hot-pressed on the surface of an initial roll shaft (4), and guiding glue water into a quantitative glue supply mechanism (2) from a silver ion mixing mechanism (3) through a pump body 8;

s11, a rotating convex piece (201) driven by a motor drives a transmission connecting rod (202) to synchronously rotate, a lifting sliding block (204) can be lifted and moved in a limiting groove (205), when the lifting sliding block (204) descends, the pressure in the lifting sliding block (204) is increased, and glue is sucked into the limiting groove (205) through an adsorption drift diameter (203);

s12, when the lifting slide block (204) ascends, glue is discharged outwards through the glue discharging drift diameter (212), the circulating lug (207) can rotate under the action of the motor, when one end of the circulating lug (207) is in mutual contact with the telescopic block (208), the telescopic block (208) can be pushed to move downwards, the telescopic spring (209) compresses at the moment, the buffer rubber plate (210) is attached to the glue discharging drift diameter (212), the limiting groove (205) can be in a closed state, when the telescopic spring (209) resets, the glue can normally flow into the connecting pipe (10) through the glue discharging drift diameter (212), and the connecting pipe (10) flows to the glue discharging spray head (12) through the supporting plate (13) and is uniformly dripped on the surface of the glue spreading roller shaft (11);

s2, a screw rod servo motor (18) adjusts the height of the hollow connecting plate (25) through a lifting screw rod (15) until the hollow connecting plate (25) is attached to an initial roller shaft (4), the initial roller shaft (4) rotates under the driving of a conveyor belt (19) and a single-phase motor (20) and is used for gluing the surface of the initial roller shaft (4), and redundant glue is guided into a glue storage tank (24) through a glue inlet hole (22) through a glue scraping plate (7);

s3, after covering the other layer of fabric on the adhesive layer, enabling the fabric to penetrate through a space between the lower pressing roller shaft (5) and the heating roller shaft (21), and carrying out hot press molding on the fabric through the lower pressing roller shaft (5) and the heating roller shaft (21);

s4, the mixing motor (301) drives the bevel screw (302) to rotate, the bevel gear (303) is driven by the bevel screw (302) to horizontally rotate and turn over at the same time, the stirring rod (304) is enabled to fully stir the glue water under the rotation of the bevel gear (303) and simultaneously to rotate up and down in the silver ion mixing mechanism (3), and the silver ions are fully mixed with the glue water.

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