CN113981579B - Efficient texturing processing device and production process for polyamide yarns - Google Patents

Abstract

The invention relates to the technical field of texturing machines, in particular to a nylon yarn efficient texturing processing device. The technical scheme comprises the following steps: casing, steam component, electric heating assembly and backward flow subassembly, the heating chamber is installed at the inside top of casing, and the cooling chamber is installed to the bottom of heating chamber, and the bottom welding of casing has the drain pan, and the internally mounted of drain pan has electric heating assembly, and backward flow subassembly is installed to electric heating assembly's top, installs the mounting panel in the backward flow subassembly, and one side of mounting panel is equipped with the air guide groove. According to the invention, the air guide groove is arranged on one side of the mounting plate, and the air flow in the pressurizing pipe can be guided by the air guide groove to blow the biphenyl steam downwards, so that the biphenyl steam can circularly flow in the bottom shell, and the air flow forms the air curtain in the horizontal direction, thus the biphenyl steam is prevented from leaking on the premise of ensuring the normal transmission of the nylon yarn, and the safety of the device in plasticizing and heating the nylon yarn by using the biphenyl steam is increased.

Description

Efficient texturing processing device and production process for polyamide yarns

Technical Field

The invention relates to the technical field of texturing machines, in particular to a nylon yarn efficient texturing processing device and a production process.

Background

The nylon is one of materials frequently used in modern chemical fiber processing, the nylon yarn made of the nylon has bright gloss, is smooth in touch feeling and has smoothness of natural silk, and is easy to be artificially processed and produced in batch, the use cost is greatly lower than that of silk materials, and the nylon yarn is a low-cost substitute material for silk in the textile industry, the elasticity of the nylon yarn is enhanced after the nylon yarn is processed by an elasticizer in the production process, so that the nylon yarn is prevented from being broken in the use process, the integral quality of textiles made of the nylon yarn is improved, the nylon yarn is heated at two different temperatures by the elasticizer processing, the nylon yarn is refrigerated, biphenyl steam and the nylon yarn are subjected to chemical reaction, the nylon yarn is plasticized, and the tensile resistance of the nylon yarn is improved.

Through the retrieval, patent publication No. CN214361932U discloses a from texturing machine that takes heat preservation device warp hot case, relates to texturing machine and warp hot case technical field, the power distribution box comprises a box body, install the hot door above the box, the heating chamber has been seted up below being located the hot door in the box, be equipped with the hot rail in the heating chamber, heating chamber week side is equipped with the asbestos insulation board, be equipped with regulation structure and hot rail clearance structure in the box respectively.

The existing texturing machine deformation hot box with a heat preservation device has the following defects:

1. when the existing texturing machine with the heat preservation device is used for texturing nylon yarns, biphenyl steam is needed to plasticize the nylon yarns in a certain temperature environment, and the biphenyl steam is a toxic chemical gas, so that the existing texturing machine keeps air circulation when in use, avoids the biphenyl poisoning of workers and reduces the safety of the device;

2. the existing texturing machine that adds from taking heat preservation device warp hot box when heating the nylon yarn, owing to need reheat the nylon yarn after heating cooling, consequently two sets of electrical heating structures of traditional device inside need be installed alone, has not only reduced the heating efficiency of device, still can increase the power consumption of device, has promoted the cost of nylon yarn processing.

Disclosure of Invention

The invention aims to provide a nylon yarn high-efficiency texturing processing device and a production process aiming at the problems in the background technology.

The technical scheme of the invention is as follows: the utility model provides a high-efficient processingequipment that elasticizes of polyamide fibre silk, includes casing, steam components, electric heating element and backward flow subassembly, the heating chamber is installed at the inside top of casing, the cooling chamber is installed to the bottom of heating chamber, the internally mounted of cooling chamber has cooling element, install the semiconductor refrigeration board in the cooling element, the bottom welding of casing has the drain pan, the internally mounted of drain pan has electric heating element, install an installation section of thick bamboo in the electric heating element, backward flow subassembly is installed to electric heating element's top, install the mounting panel in the backward flow subassembly, one side of mounting panel is equipped with the air guide groove, steam components is installed to one side of drain pan, install the water tank in the steam components.

When the high-efficient processingequipment that adds bullet of a nylon yarn among this technical scheme is used, heat the installation section of thick bamboo after circular telegram through electric heating coil, the installation section of thick bamboo is simultaneously to changeing the nylon yarn in the roller outside, the fin, the water in biphenyl solution and the water tank heats, plasticize the nylon yarn through biphenyl steam and high temperature environment, air current is insufflated to the inside of booster pipe to radiator fan simultaneously, the air current drives biphenyl steam through the air guide groove and circulates in the drain pan inside, carry out even refrigeration to the nylon yarn through the semiconductor refrigeration board centre gripping in plasticized nylon yarn gets into the cooling chamber, the nylon yarn after the cooling shrink gets into the heating chamber and rolls up through the take-up roll, simultaneously the inside vapor of water tank carries out the secondary heating to the nylon yarn outside take-up roll and the take-up roll in getting into the condenser pipe, the nylon yarn through the secondary heating discharges the casing through the row of material roller.

Preferably, one side of the cooling chamber is provided with an air inlet, and a heat radiation fan is arranged above the air inlet. The inside that the outside air current of casing got into the cooling chamber when the air inlet can carries out the forced air cooling heat dissipation to the heat dissipation post to can promote cooling module's cooling effect, can rotate after the cooling blower circular telegram, and then can drive the inside air flow of cooling chamber, so that accelerate the heat dissipation of heat dissipation post, and can prevent that biphenyl steam from taking place to reveal with the inside formation air curtain of drain pan in the leading-in pressure boost pipe of air.

Preferably, the welding of the both sides of casing has the fixed disk, and one side of fixed disk installs the connecting rod, and two sets of row's material rollers are installed to top one side of casing, and two sets of gyro wheels are installed to inside one side of casing, and two sets of feed rollers are installed to bottom one side of casing. Four groups of bolts are installed through helicitic texture in the inside of fixed disk, can be with casing and drain pan fixed mounting in the inside that adds the bullet machine through the fixed disk, the connecting rod can be connected fixedly to the fixed disk, thereby the holistic stability of device has been increased, it can rotate to arrange the material roller, thereby can avoid polyamide fibre silk and casing to take place the friction and the fracture, the gyro wheel can support polyamide fibre silk, the rotation through the gyro wheel reduces the frictional force between polyamide fibre silk and heating chamber and the cooling chamber, avoid polyamide fibre silk fracture in the course of working, the feed roll can rotate, thereby can be convenient for to the inside material loading of casing, take place the friction with the casing when avoiding polyamide fibre silk entering cooling chamber and cause the polyamide fibre silk fracture.

Preferably, the limiting plate is installed at the top of the semiconductor refrigeration plate, the clamping pieces are installed on two sides of the bottom of the semiconductor refrigeration plate, the silicon wafer is installed at the bottom of the semiconductor refrigeration plate, the base is installed at the bottom of the semiconductor refrigeration plate, and the three groups of heat dissipation columns are installed on one side of the base. The limiting plate can carry out the centre gripping of vertical direction with the cooperation of semiconductor refrigeration board to the polyamide fibre silk, and then can increase the area of contact of polyamide fibre silk and semiconductor refrigeration board, so as to promote the refrigeration effect of polyamide fibre silk, the clamping piece can carry out spacing fixed to semiconductor refrigeration board and limiting plate, thereby the installation stability of limiting plate and semiconductor refrigeration board has been increased, the silicon wafer can carry out automatically regulated to the electric power of semiconductor refrigeration board, thereby the refrigeration effect that can make the semiconductor refrigeration board remains stable, the both sides of base and the inner wall fixed connection of cooling chamber, the base can provide the position of installation to subassembly on every side, and can increase the installation stability of subassembly on every side, the heat radiating area that the heat dissipation post can increase the device, and with cooling fan cooperation hoisting device's radiating rate, the radiating efficiency of the cooling chamber inside has been promoted.

Preferably, the honeycomb duct is installed to top one side of water tank, and the solenoid valve is installed to the one end of honeycomb duct, and the condenser pipe that extends to the inside heating chamber is installed to the one side that the one end of solenoid valve extends to the casing, and the copper pipe is installed in the outside of condenser pipe, and the roll-up roller is installed in the outside of copper pipe. The honeycomb duct can guide during the inside vapor entering condenser pipe of water tank, thereby utilize vapor to heat the polyamide fibre silk in condenser pipe and the roll-up roller outside, the solenoid valve can carry out on-off control to the honeycomb duct, and then can control vapor and remove in the inside of honeycomb duct, the heat in the condenser pipe can absorb vapor, thereby shift the heat and heat the polyamide fibre silk in the roll-up roller, and can make the drop of water that produces after the condensation in the gravity influence flows back the water tank again, the copper pipe can increase the conduction efficiency of roll-up roller to the heat, thereby increase the heating efficiency of roll-up roller to the polyamide fibre silk, the roll-up roller can roll-up the polyamide fibre silk, and carry out the secondary heating to the polyamide fibre silk when driving polyamide fibre silk pivoted.

Preferably, the inside of drain pan is installed with the heated board, and one side of drain pan installs two sets of feeding rollers. The heated board can strengthen the heat preservation and heat insulation performance of drain pan to prevent that the inside heat of drain pan from passing through the drain pan discharge, increased the heat utilization efficiency of device, the pan feeding roller can rotate, thereby can reduce the frictional force between polyamide fibre silk and the drain pan, receive the friction when avoiding the polyamide fibre silk to get into the drain pan and cause the fracture.

Preferably, an electric heating coil is installed inside the installation cylinder, a micro-current controller is installed on one side inside the installation cylinder, radiating fins are installed on the outer side of the installation cylinder, a rotating roller is installed on the outer side of the installation cylinder, and a limiting roller is installed on the outer side of the rotating roller. Electric heating coil can with little current controller electric connection, after circular telegram to electric heating coil through little current controller, can turn into heat energy with the electric energy, thereby the subassembly to installation section of thick bamboo and around heats, the cable conductor that extends the installation section of thick bamboo is installed to one side of little current controller, after through cable conductor external power supply, little current controller can supply power to electric heating coil, the inside heat of installation section of thick bamboo can be absorbed to the fin, and then can heat the inside biphenyl solution of drain pan, change the roller and can rotate in the outside of installation section of thick bamboo, and then drive spacing roller and rotate, spacing roller can rotate in the outside of changeing the roller, so that drive the polyamide fibre silk and roll, can absorb the inside heat of installation section of thick bamboo simultaneously and heat the polyamide fibre silk.

Preferably, one side of the mounting plate extends to the outer side of the bottom shell and is provided with a limiting disc, a pressure increasing pipe is arranged on one side of the inner portion of the mounting plate, and one end of the pressure increasing pipe extends to one side of the shell and is provided with a communicating disc. Spacing dish can carry out spacing fixed to one side of mounting panel, so that increase the installation stability of mounting panel, the one end of pressure boost pipe is the design of loudspeaker form opening, transmit the back through the pressure boost pipe to the air current, make the horizontal diffusion of air current blow off the mounting panel, and then form the gas curtain in the inside of air guide groove, so as to stop biphenyl steam, avoid biphenyl steam to get into the inside eduction gear of casing, the intercommunication dish can with cooling fan's one side fixed connection, and then can make cooling fan blow in the air current to the inside of pressure boost pipe.

A high-efficiency texturing processing production process for nylon yarns comprises the following steps

The method comprises the following steps: after the device is fixedly arranged inside the elasticizer through bolts, a certain amount of biphenyl solution is added into the bottom shell, and a certain amount of water is added into the water tank;

step two: the electric heating coil is electrified through an external power supply of the micro-current controller, the installation barrel is heated after the electric heating coil is electrified, the installation barrel simultaneously heats the nylon yarns outside the rotating roller, the radiating fins, the biphenyl solution and water in the water tank, the nylon yarns are plasticized through biphenyl steam and a high-temperature environment inside the bottom shell, meanwhile, the heat radiating fan blows airflow into the pressurizing pipe, the biphenyl steam is driven by the airflow to circularly flow inside the bottom shell through the air guide groove, and the plasticized nylon yarns enter the cooling chamber and are uniformly cooled through the clamping of the semiconductor refrigerating plate;

step three: the nylon yarn after cooling shrinkage enters a heating chamber and is wound by a winding roller, meanwhile, water vapor in a water tank enters a condensation pipe to secondarily heat the nylon yarn outside the winding roller and the winding roller, and the secondarily heated nylon yarn is discharged out of a shell through a discharging roller.

Compared with the prior art, the invention has the following beneficial technical effects:

1. according to the invention, the air guide groove is arranged on one side of the mounting plate, and the air flow in the pressurizing pipe can be guided by the air guide groove to blow the biphenyl steam downwards, so that the biphenyl steam can circularly flow in the bottom shell, and the air flow forms the air curtain in the horizontal direction, thus the biphenyl steam is prevented from leaking on the premise of ensuring the normal transmission of the nylon yarn, and the safety of the device in plasticizing and heating the nylon yarn by using the biphenyl steam is increased.

2. According to the invention, the installation barrels are installed in the bottom shell, and after the installation barrels extend to the inside of the water tank, the water in the water tank and the biphenyl solution in the bottom shell are simultaneously electrically heated through the group of installation barrels, so that the installation quantity of electric heating components can be reduced, the electric heating efficiency is improved, the power consumption of the device is reduced, the purpose of energy conservation is achieved, and the cost of nylon yarn texturing processing is reduced.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic cross-sectional front view of the present invention;

FIG. 3 is a front external view of the present invention;

FIG. 4 is a partial schematic view of the cooling module of the present invention;

FIG. 5 is a schematic view of a partial structure of a steam assembly according to the present invention;

FIG. 6 is a schematic view of a partial structure of an electric heating assembly according to the present invention;

FIG. 7 is a partial schematic view of a reflow assembly of the present invention;

FIG. 8 is a process flow diagram of the present invention.

Reference numerals are as follows: 1. a housing; 101. fixing the disc; 102. a connecting rod; 103. a heating chamber; 104. a feed roll; 105. an air inlet; 106. a heat radiation fan; 107. a roller; 108. a cooling chamber; 109. a discharge roller; 2. a cooling assembly; 201. a semiconductor refrigeration plate; 202. a silicon wafer; 203. a limiting plate; 204. a base; 205. a heat-dissipating column; 206. a clip; 3. a steam component; 301. a water tank; 302. a flow guide pipe; 303. an electromagnetic valve; 304. a copper pipe; 305. a condenser tube; 306. a winding roller; 4. a bottom case; 401. a heat-insulating board; 402. a feeding roller; 5. an electric heating component; 501. mounting the cylinder; 502. an electric heating coil; 503. a heat sink; 504. a limiting roller; 505. a micro-current controller; 506. rotating the roller; 6. a reflow assembly; 601. a gas guide groove; 602. mounting a plate; 603. a pressure increasing pipe; 604. a limiting disc; 605. and a communication disc.

Detailed Description

The technical solution of the present invention is further explained with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1-8, the high-efficiency texturing processing device for nylon yarn provided by the invention comprises a shell 1, a steam component 3, an electric heating component 5 and a backflow component 6, wherein a heating chamber 103 is installed at the top inside the shell 1, a cooling chamber 108 is installed at the bottom of the heating chamber 103, a cooling component 2 is installed inside the cooling chamber 108, a semiconductor refrigeration plate 201 is installed inside the cooling component 2, a bottom shell 4 is welded at the bottom of the shell 1, the electric heating component 5 is installed inside the bottom shell 4, an installation cylinder 501 is installed inside the electric heating component 5, the backflow component 6 is installed above the electric heating component 5, an installation plate 602 is installed inside the backflow component 6, an air guide groove 601 is formed in one side of the installation plate 602, the steam component 3 is installed on one side of the bottom shell 4, and a water tank 301 is installed inside the steam component 3.

The working principle of the nylon yarn high-efficiency elasticizing processing device based on the first embodiment is as follows:

the method comprises the following steps: after the device is fixedly arranged inside the elasticizer through bolts, a certain amount of biphenyl solution is added into the bottom shell 4, and a certain amount of water is added into the water tank 301;

step two: an external power supply is connected with a micro-current controller 505 to electrify an electric heating coil 502, the electric heating coil 502 is electrified to heat an installation barrel 501, the installation barrel 501 simultaneously heats nylon yarns on the outer side of a rotating roller 506, a radiating fin 503, a biphenyl solution and water in a water tank 301, the nylon yarns are plasticized through biphenyl steam and a high-temperature environment in a bottom shell 4, meanwhile, an air flow is blown into the inside of a pressurizing pipe 603 by a radiating fan 106, the biphenyl steam is driven by the air flow through an air guide groove 601 to circularly flow in the bottom shell 4, and the plasticized nylon yarns enter a cooling chamber 108 and are uniformly cooled through clamping of a semiconductor refrigerating plate 201;

step three: the cooled and contracted nylon yarn enters the heating chamber 103 and is wound by the winding roller 306, meanwhile, water vapor in the water tank 301 enters the condensation pipe 305 to secondarily heat the winding roller 306 and the nylon yarn outside the winding roller 306, and the secondarily heated nylon yarn is discharged out of the shell 1 through the discharge roller 109.

Example two

As shown in fig. 1 to 8, compared with the first embodiment, the efficient texturing processing device for nylon yarn provided by the present invention further includes: an air inlet 105 is arranged on one side of the cooling chamber 108, a heat radiation fan 106 is arranged above the air inlet 105, fixed discs 101 are welded on two sides of the shell 1, a connecting rod 102 is arranged on one side of the fixed discs 101, two groups of discharging rollers 109 are arranged on one side of the top of the shell 1, two groups of rolling wheels 107 are arranged on one side of the interior of the shell 1, two groups of feeding rollers 104 are arranged on one side of the bottom of the shell 1, a limiting plate 203 is arranged on the top of the semiconductor refrigeration plate 201, clamping pieces 206 are arranged on two sides of the bottom of the semiconductor refrigeration plate 201, a silicon wafer 202 is arranged on the bottom of the semiconductor refrigeration plate 201, a base 204 is arranged on the bottom of the semiconductor refrigeration plate 201, three groups of heat radiation columns 205 are arranged on one side of the top of the water tank 301, a flow guide pipe 302 is arranged on one end of the flow guide pipe 302, one end of the electromagnetic valve 303 extends to one side of the housing 1 and is provided with a condensation pipe 305 extending to the inside of the heating chamber 103, the outer side of the condensation pipe 305 is provided with a copper pipe 304, the outer side of the copper pipe 304 is provided with a winding roller 306, the inner side of the bottom shell 4 is provided with a heat insulation plate 401, one side of the bottom shell 4 is provided with two sets of feeding rollers 402, the inner side of the installation cylinder 501 is provided with an electric heating coil 502, one side of the inner part of the installation cylinder 501 is provided with a micro-current controller 505, the outer side of the installation cylinder 501 is provided with a cooling fin 503, the outer side of the installation cylinder 501 is provided with a rotating roller 506, the outer side of the rotating roller 506 is provided with a limiting roller 504, one side of the installation plate 602 extends to the outer side of the bottom shell 4 and is provided with a limiting disc 604, one side of the inner part of the installation plate 602 is provided with a pressure increasing pipe 603, and one end of the pressure increasing pipe 603 extends to one side of the housing 1 and is provided with a communication disc 605.

In this embodiment, when the air inlet 105 can be used, the air flow outside the housing 1 enters the inside of the cooling chamber 108 to perform air-cooling heat dissipation on the heat dissipation column 205, so as to improve the cooling effect of the cooling assembly 2, the heat dissipation fan 106 can rotate after being powered on, and further can drive the air flow inside the cooling chamber 108, so as to accelerate the heat dissipation of the heat dissipation column 205, and can guide the air into the pressure increasing pipe 603 to form an air curtain inside the bottom case 4 to prevent leakage of the biphenyl steam, four sets of bolts are installed inside the fixed disc 101 through a threaded structure, the housing 1 and the bottom case 4 can be fixedly installed inside the elasticizer through the fixed disc 101, the connecting rod 102 can connect and fix the fixed disc 101, so as to increase the overall stability of the device, the discharging roller 109 can rotate, so as to prevent the nylon yarn from being broken due to friction with the housing 1, and the roller 107 can support the nylon yarn, the friction force between the nylon yarn and the heating chamber 103 and the cooling chamber 108 is reduced through the rotation of the roller 107, the nylon yarn is prevented from being broken in the processing process, the feeding roller 104 can rotate, so that the feeding inside the shell 1 can be conveniently carried out, the nylon yarn is prevented from being broken due to the friction with the shell 1 when entering the cooling chamber 108, the limiting plate 203 can be matched with the semiconductor refrigerating plate 201 to clamp the nylon yarn in the vertical direction, the contact area between the nylon yarn and the semiconductor refrigerating plate 201 can be increased, so that the refrigerating effect of the nylon yarn is improved, the clamping piece 206 can limit and fix the semiconductor refrigerating plate 201 and the limiting plate 203, the mounting stability of the limiting plate 203 and the semiconductor refrigerating plate 201 is improved, the electric power of the semiconductor refrigerating plate 201 can be automatically adjusted through the silicon wafer 202, and the refrigerating effect of the semiconductor refrigerating plate 201 can be kept stable, the two sides of the base 204 are fixedly connected with the inner wall of the cooling chamber 108, the base 204 can provide mounting positions for surrounding components, and can increase the mounting stability of the surrounding components, the heat dissipation column 205 can increase the heat dissipation area of the device, and the heat dissipation speed of the device is increased by matching with the heat dissipation fan 106, thereby increasing the heat dissipation efficiency inside the cooling chamber 108, the guide pipe 302 can guide water vapor inside the water tank 301 to enter the condensation pipe 305, thereby heating the nylon yarn outside the condensation pipe 305 and the take-up roller 306 by the water vapor, the electromagnetic valve 303 can perform on-off control on the guide pipe 302, thereby controlling the water vapor to move inside the guide pipe 302, the condensation pipe 305 can absorb heat in the water vapor, thereby transferring the heat to the take-up roller 306 to heat the nylon yarn, and making water drops generated after condensation flow back to the water tank 301 again under the influence of gravity, the copper pipe 304 can increase the heat conduction efficiency of the take-up roller 306 to the nylon yarn, thereby increasing the heating efficiency of the take-up roller 306 to the nylon yarn, and the take-up yarn 306 can prevent the heat from being heated by the heat insulation coil 505 when the electric heating cable heater is installed on one side of the heat insulation drum, thereby preventing the heat insulation board 4 from being heated by the micro-control electric heating coil 501, thereby reducing the electric heating device, thereby reducing the electric heating of the electric heating coil 505 and the electric heating coil 501, and preventing the electric heating device from being connected with the heat of the heat insulation coil 501, thereby reducing the heat of the heat-control of the heat-up drum 501, after the cable is externally connected with a power supply, the micro-current controller 505 can supply power to the electric heating coil 502, the heat radiating fins 503 can absorb heat inside the installation cylinder 501, and further can heat a biphenyl solution inside the bottom case 4, the rotating roller 506 can rotate outside the installation cylinder 501, and further drives the limiting roller 504 to rotate, the limiting roller 504 can rotate outside the rotating roller 506, so as to drive nylon yarns to roll, and at the same time can absorb heat inside the installation cylinder 501 to heat the nylon yarns, the limiting disc 604 can limit and fix one side of the installation plate 602, so as to increase the installation stability of the installation plate 602, one end of the pressurizing pipe 603 is designed to be a horn-shaped opening, after the air flow is transmitted through the pressurizing pipe 603, the air flow is horizontally diffused and blown out of the installation plate 602, and further an air curtain is formed inside the air guide groove 601, so as to block the biphenyl steam, so as to prevent the biphenyl steam from entering the internal exhaust device of the casing 1, the connecting disc 605 can be fixedly connected with one side of the heat dissipation fan 106, and further can enable the heat dissipation fan 106 to blow in the air flow inside of the pressurizing pipe 603.

The above embodiments are merely some preferred embodiments of the present invention, and those skilled in the art can make various alternative modifications and combinations of the above embodiments based on the technical solution of the present invention and the related teaching of the above embodiments.

Claims (2)

1. The utility model provides a high-efficient processingequipment that elasticizes of polyamide fibre silk, includes casing (1), steam subassembly (3), electric heating assemblies (5) and backward flow subassembly (6), its characterized in that: a heating chamber (103) is installed at the top inside the shell (1), a cooling chamber (108) is installed at the bottom of the heating chamber (103), a cooling assembly (2) is installed inside the cooling chamber (108), a semiconductor refrigeration plate (201) is installed inside the cooling assembly (2), a bottom shell (4) is welded at the bottom of the shell (1), an electric heating assembly (5) is installed inside the bottom shell (4), an installation barrel (501) is installed inside the electric heating assembly (5), a backflow assembly (6) is installed above the electric heating assembly (5), an installation plate (602) is installed inside the backflow assembly (6), an air guide groove (601) is formed in one side of the installation plate (602), a pressurization pipe (603) is installed on one side of the inside of the installation plate (602), a steam assembly (3) is installed on one side of the bottom shell (4), and a water tank (301) is installed inside the steam assembly (3);

two discharging rollers (109) are installed on one side of the top of the shell (1), 2 rollers (107) are installed on one side of the interior of the shell (1), and 2 feeding rollers (104) are installed on one side of the bottom of the shell (1);

an air inlet (105) is formed in one side of the cooling chamber (108), and a heat radiation fan (106) is installed above the air inlet (105);

an electric heating coil (502) is installed inside the installation cylinder (501), a micro-current controller (505) is installed on one side inside the installation cylinder (501), a radiating fin (503) is installed on the outer side of the installation cylinder (501), and a rotating roller (506) is installed on the outer side of the installation cylinder (501);

a guide pipe (302) is installed on one side of the top of the water tank (301), an electromagnetic valve (303) is installed at one end of the guide pipe (302), a condensation pipe (305) extending to the inside of the heating chamber (103) is installed at one end of the electromagnetic valve (303) extending to one side of the shell (1), a copper pipe (304) is installed on the outer side of the condensation pipe (305), and a winding roller (306) is installed on the outer side of the copper pipe (304);

fixed disks (101) are welded on two sides of the shell (1), and a connecting rod (102) is installed on one side of each fixed disk (101);

a limiting plate (203) is mounted at the top of the semiconductor refrigeration plate (201), clamping pieces (206) are mounted on two sides of the bottom of the semiconductor refrigeration plate (201), a silicon wafer (202) is mounted at the bottom of the semiconductor refrigeration plate (201), a base (204) is mounted at the bottom of the semiconductor refrigeration plate (201), and three heat dissipation columns (205) are mounted on one side of the base (204);

the heat insulation plate (401) is arranged inside the bottom shell (4), and 2 feeding rollers (402) are arranged on one side of the bottom shell (4);

a limiting roller (504) is arranged on the outer side of the rotating roller (506);

spacing dish (604) are installed in the outside that one side of mounting panel (602) extended to drain pan (4), communicating disc (605) are installed to one side that the one end of pressure boost pipe (603) extended to casing (1), and communicating disc (605) sets up with the right side of cooling fan (106) relatively, makes cooling fan (106) blow in the air current through communicating disc (605) to the inside of pressure boost pipe (603).

2. The production process of the nylon yarn high-efficiency texturing processing device according to claim 1, which is characterized in that: the method comprises the following steps:

the method comprises the following steps: after the elasticizing processing device is fixedly arranged inside the elasticizing machine through bolts, a certain amount of biphenyl solution is added into the bottom shell (4), and a certain amount of water is added into the water tank (301);

step two: an external power supply is connected with an electric heating coil (502) through a micro-current controller (505) and heats an installation cylinder (501) after the electric heating coil (502) is electrified, the installation cylinder (501) heats nylon yarns on the outer side of a rotating roller (506), a radiating fin (503), a biphenyl solution and water in a water tank (301) at the same time, the nylon yarns are plasticized through biphenyl steam and a high-temperature environment in a bottom shell (4), meanwhile, a radiating fan (106) blows air flow into a pressurizing pipe (603), the air flow drives the biphenyl steam to circularly flow in the bottom shell (4) through an air guide groove (601), and the plasticized nylon yarns enter a cooling chamber (108) and are uniformly cooled through clamping of a semiconductor refrigerating plate (201);

step three: the cooled and contracted nylon yarn enters a heating chamber (103) and is wound by a winding roller (306), meanwhile, water vapor in a water tank (301) enters a condensation pipe (305) to secondarily heat the winding roller (306) and the nylon yarn on the outer side of the winding roller (306), and the secondarily heated nylon yarn is discharged out of the shell (1) through a discharging roller (109).

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