CN113186605A - Production process and equipment of antibacterial tear-resistant chinlon 6DTY high stretch yarn - Google Patents

Abstract

The invention discloses a production process of an antibacterial and tear-resistant nylon 6DTY high stretch yarn, which is characterized in that functional master batches are added to ensure that the produced nylon fiber has comfortable use and has antibacterial and antiviral health compatibility at the same time, the production process comprises a mixing assembly, the mixing assembly comprises a stirring tank, a plurality of groups of symmetrical stirring rods distributed annularly are arranged in the stirring tank, a connecting assembly is arranged at the top end of the stirring tank, the connecting assembly comprises a device box, a rectangular frame is arranged in the device box, a second moving rod is arranged in the rectangular frame in a sliding clamping manner, a feeding assembly is arranged on one side of the device box, the feeding assembly comprises an inner tank, a rotary table is arranged in the inner tank, a piston is arranged above the rotary table, and the functional master batches are quantitatively added by utilizing the reciprocating lifting of the piston, and stopping adding the functional master batch by moving the second movable rod.

Description

Production process and equipment of antibacterial tear-resistant chinlon 6DTY high stretch yarn

Technical Field

The invention relates to the technical field of nylon yarn production, in particular to a production process and equipment of an antibacterial tear-resistant nylon 6DTY high stretch yarn.

Background

At present, in intense market competition, the development and production of functional products with differentiated high added values become the development direction of the chinlon industry, and only new products are invented continuously to create new fabrics for weaving factories, so that the functional products can win the market competition. The antibacterial tear-resistant chinlon 6DTY high stretch yarn is one of functional products with high added values, the added value of the product can be increased, the sales profits are improved, processing equipment is required to be equipped in the spinning process to add the functional master batch, the proportion of the functional master batch to be added can be ensured to be rapid and accurate, and therefore a production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn are provided for solving the problems.

Disclosure of Invention

The invention aims to provide a production process and equipment of an antibacterial tear-resistant chinlon 6DTY high stretch yarn, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the production process of the antibacterial tear-resistant chinlon 6DTY high stretch yarn comprises the following steps:

step one, cutting polyamide fiber slices stored and provided in a storage bin, wherein the polyamide fiber slices are required for production;

step two, carrying out hot melting on the cut nylon fibers;

adding the functional master batch in the stirring process, and mixing and stirring;

step four, the mixed solution is uniformly sprayed into fine filaments from micropores of a spinneret plate by using an extruder, and the fine filaments are rapidly cooled and slowly cooled by a side-blowing cooling system to form fibers with good crystallization orthotropic property;

and step five, processing the formed fiber through a subsequent process to form the 6DTY high stretch yarn.

Production equipment of antibacterial tear-resistant nylon 6DTY high stretch yarn comprises a mixing assembly, wherein the mixing assembly comprises a stirring tank, a central shaft is arranged at the center of the stirring tank, a plurality of groups of symmetrical stirring rods distributed in an annular shape are arranged on the central shaft, a first bevel gear is arranged at the top end of the central shaft, a connecting assembly is arranged at the top end of the stirring tank, the connecting assembly comprises a device box, a rotating card inside the device box is provided with a rotating shaft, a second gear is arranged on the rotating shaft, a rectangular frame is arranged on one side of the device box, symmetrical cylinders are arranged inside the rectangular frame, a first moving rod is arranged in a sliding card inside the cylinders, a first spring is sleeved outside the cylinders and the first moving rod, a connecting block is symmetrically arranged between the first moving rods, a feeding assembly is arranged on one side of the device box, and the feeding assembly comprises an outer tank, outer jar internally mounted has the inner tank, the connecting cylinder is installed to inner tank one side, connecting cylinder internally mounted has the dwang, second conical gear is installed to dwang one end, the carousel is installed to the dwang other end, carousel opposite side edge installs the rocking arm, rocking arm other end card is equipped with the connecting seat, the piston is installed on the connecting seat top, the ball is installed to the piston top, the storage tank is installed on outer jar top.

Preferably, install first bearing on the center pin, first bearing is installed on the agitator tank top, first bearing upper end card is equipped with first spacing ring, first gear is installed to the center pin upper end, spacing piece is all installed at first gear both ends, the feed inlet is installed on the agitator tank top, the discharge gate is installed to the agitator tank bottom, and is symmetrical the scraper blade is installed to the puddler other end.

Preferably, the card is rotated to axis of rotation one end and is equipped with the bearing frame, the bearing frame is installed in the inside bottom of device case, the motor is installed on the axis of rotation top, the casing is installed in the motor outside, casing fixed mounting is on device case top.

Preferably, the cylinder one end and first carriage release lever one end are all installed the articulated seat of second, install the dead lever on the articulated seat of second, the card is equipped with first articulated seat on the dead lever, and is symmetrical the first articulated seat other end fixed mounting of cylinder one end is in the both sides of the inboard symmetry of rectangle frame, and is symmetrical the first articulated seat other end fixed mounting of first carriage release lever one end is in the both sides of connecting block symmetry.

Preferably, the first spring both ends respectively with the drum with the articulated seat one end fixed connection of second that first carriage release lever is connected, connecting block internally mounted has the second carriage release lever, the card is equipped with the spacing section of thick bamboo of symmetry on the second carriage release lever, the symmetry spacing section of thick bamboo one side fixed mounting is on the side of another set of symmetry in the rectangle frame inboard, the second carriage release lever slides and runs through rectangle frame and device case, the handle is installed to connecting block one side.

Preferably, the connecting rod has been distributed to inner tank outside annular, connecting rod other end fixed mounting is at the outer jar inner wall, conical hopper is installed to the inside bottom of storage tank, conical hopper center department has seted up the blanking hole, the blanking passageway is installed to the conical hopper bottom, blanking passageway bottom annular distributes has a plurality of connecting rod, the blanking passageway bottom is passed through the connecting rod with the inner tank top and is connected.

Preferably, the connecting cylinder runs through outer jar and inner tank, connecting cylinder internally mounted has the second bearing of symmetry, the dwang is installed inside the second bearing of symmetry, the third bearing is installed to the dwang, a removal section of thick bamboo is installed in the third bearing outside, the inside sliding tray of having seted up the symmetry of a removal section of thick bamboo, the sliding block of symmetry is installed in the third bearing outside, and the sliding block sliding card is located in the sliding hole.

Preferably, a fixed column is installed at the edge of the other side of the rotary table, one end of the rotary arm is rotatably clamped outside the fixed column, a cylinder is installed at the other end of the rotary arm, the connecting seat is clamped on the cylinder, a symmetrical second limiting ring is clamped on the cylinder, a sealing cylinder is installed at the top end of the piston, a second spring is installed inside the sealing cylinder, a third moving rod is sleeved inside the second spring, a clamping ring is installed at the middle end of the third moving rod, the clamping ring is installed at the middle end of the second spring, and the top end of the third moving rod is fixedly connected with the bottom end of the ball.

Preferably, first gear and the meshing of second gear, connecting block opposite side and removal section of thick bamboo outside fixed connection, first conical gear can with the meshing of second conical gear, the ball can laminate with the blanking hole of conical hopper center department, outer jar runs through the agitator tank top.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the functional master batch is added in the spinning process, so that the produced nylon fiber has the use comfort and has the health compatibility of antibiosis and antivirus, the prepared high stretch yarn has high toughness, good elasticity and wear resistance, the tear resistance of nylon is improved, the nylon fabric is prevented from being easily torn, the raw materials are easy to obtain, the preparation process is simple, and the prepared nylon fiber has stable and lasting antibacterial performance;

2. the invention uses a motor to drive a rotating shaft to rotate, the rotating shaft drives a second gear to rotate, the second gear drives a first gear to rotate, the first gear drives a central shaft to rotate, the central shaft rotates to drive stirring rods distributed annularly to rotate circularly, the stirring rods are used for carrying out hot melting stirring on the nylon slices, a scraper at one end of each stirring rod is used for cleaning the inner wall of the stirring tank, at the moment, the central shaft rotates to drive a first conical gear to rotate, the first conical gear rotates to drive a second conical gear to rotate, the second conical gear rotates to drive a third bearing to rotate, the third bearing rotates to drive a rotating rod to rotate, the rotating rod rotates to drive a rotating disc to rotate, the rotating disc rotates to drive a fixed column at the edge of the rotating disc to move circularly, the fixed column drives one end of a rotating arm to deflect and move, and the other end of the rotating arm is clamped on a cylinder at the bottom end of a connecting seat, the piston at the top end of the connecting seat can reciprocate in the top end of the inner tank and the blanking channel under the action of the rotating arm, the piston reciprocates to drive a third moving rod at the top end to reciprocate, the third moving rod moves to drive a second spring fixed by a clamping ring at the outer side of the third moving rod to reciprocate, and a ball at the top end of the second spring ascends and descends;

3. according to the invention, the connecting block is moved to the position of the limiting cylinder at the other end and is contacted with the limiting cylinder by pushing the handle, the second moving rod is limited after the connecting block is moved by utilizing the hinging action of the first hinging seat and the second hinging seat, the elastic action of the first spring and the sliding clamping of the first moving rod in the cylinder, the moving of the connecting block drives the moving cylinder to move, so that the moving cylinder moves along the sliding clamping direction of the sliding block in the sliding groove, and the second bevel gear is not meshed with the first bevel gear, thus the feeding is stopped.

Drawings

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

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

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

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 6 is an enlarged view of the structure at C of FIG. 3 according to the present invention;

FIG. 7 is an enlarged view of the structure shown at D in FIG. 4 according to the present invention;

in the figure: 1. a mixing assembly; 101. a stirring tank; 102. a first bearing; 103. a first limit ring; 104. a central shaft; 105. a stirring rod; 106. a squeegee; 107. a first gear; 108. a limiting sheet; 109. a first bevel gear; 2. a connecting assembly; 201. a device case; 202. a rotating shaft; 203. a second gear; 204. a bearing seat; 205. a motor; 206. a rectangular frame; 207. a first hinge mount; 208. fixing the rod; 209. a second hinge mount; 210. a cylinder; 211. a first movable bar; 212. a first spring; 213. connecting blocks; 214. a second movable bar; 215. a limiting cylinder; 216. a handle; 3. a feeding assembly; 301. an outer tank; 302. a connecting rod; 303. an inner tank; 304. a connecting cylinder; 305. a second bearing; 306. rotating the rod; 307. a third bearing; 308. a second bevel gear; 309. moving the drum; 310. a turntable; 311. fixing a column; 312. a rotating arm; 313. a cylinder; 314. a second stop collar; 315. a connecting seat; 316. a piston; 317. a third moving bar; 318. a second spring; 319. a snap ring; 320. a sealing cylinder; 321. a ball; 322. a material storage tank; 323. a conical funnel; 324. a blanking channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the production process of the antibacterial tear-resistant chinlon 6DTY high stretch yarn comprises the following steps:

step one, cutting polyamide fiber slices stored and provided in a storage bin, wherein the polyamide fiber slices are required for production;

step two, carrying out hot melting on the cut nylon fibers;

adding the functional master batch in the stirring process, and mixing and stirring;

step four, the mixed solution is uniformly sprayed into fine filaments from micropores of a spinneret plate by using an extruder, and the fine filaments are rapidly cooled and slowly cooled by a side-blowing cooling system to form fibers with good crystallization orthotropic property;

and step five, processing the formed fiber through a subsequent process to form the 6DTY high stretch yarn.

Production equipment of antibiotic tear-resistant polyamide 6DTY high-elastic yarn, including mixed subassembly 1, mixed subassembly 1 is including agitator tank 101, agitator tank 101 center department installs center pin 104, install the puddler 105 of the symmetry of a plurality of groups ring-shaped distribution on the center pin 104, first bevel gear 109 is installed on center pin 104 top, coupling assembling 2 is installed on agitator tank 101 top, coupling assembling 2 is including device case 201, the inside rotation card of device case 201 is equipped with axis of rotation 202, install second gear 203 on the axis of rotation 202, rectangular frame 206 is installed to device case 201 one side, rectangular frame 206 internally mounted has the drum 210 of symmetry, the inside slide card of drum 210 is equipped with first carriage release lever 211, drum 210 and the outside cover of first carriage release lever 211 are equipped with first spring 212, the symmetry install connecting block 213 between the first carriage release lever 211, reinforced subassembly 3 is installed to device case 201 one side, reinforced subassembly 3 is including outer jar 301, outer jar 301 internally mounted has inner tank 303, connecting cylinder 304 is installed to inner tank 303 one side, connecting cylinder 304 internally mounted has dwang 306, second conical gear 308 is installed to dwang 306 one end, carousel 310 is installed to the dwang 306 other end, carousel 310 opposite side edge installs rocking arm 312, rocking arm 312 other end card is equipped with connecting seat 315, piston 316 is installed on connecting seat 315 top, ball 321 is installed to piston 316 top, storage tank 322 is installed on outer jar 301 top.

Install first bearing 102 on the center pin 104, first bearing 102 is installed on agitator tank 101 top, first bearing 102 upper end card is equipped with first spacing ring 103, first gear 107 is installed to center pin 104 upper end, spacing piece 108 is all installed at first gear 107 both ends, the feed inlet is installed on agitator tank 101 top, the discharge gate is installed to agitator tank 101 bottom, the symmetry scraper blade 106 is installed to the puddler 105 other end, utilizes scraper blade 106 to clean agitator tank 101 inner wall.

Rotation axis 202 one end is rotated the card and is equipped with bearing frame 204, bearing frame 204 is installed in the inside bottom of device case 201, motor 205 is installed on rotation axis 202 top, the casing is installed in the motor 205 outside, casing fixed mounting makes motor 205 can drive second gear 203 and rotate on the top of device case 201.

The articulated seat 209 of second is all installed to drum 210 one end and first movable rod 211 one end, install dead lever 208 on the articulated seat 209 of second, the card is equipped with first articulated seat 207 on the dead lever 208, and is symmetrical the first articulated seat 207 other end fixed mounting of drum 210 one end is in the both sides of the inboard symmetry of rectangle frame 206, and is symmetrical the first articulated seat 207 other end fixed mounting of first movable rod 211 one end is in the both sides of connecting block 213 symmetry, makes connecting block 213 can drive drum 210 and first movable rod 211 and carry out the skew.

First spring 212 both ends respectively with the articulated seat 209 one end fixed connection of second that drum 210 and first carriage release lever 211 are connected, connecting block 213 internally mounted has second carriage release lever 214, the slip card is equipped with the spacing section of thick bamboo 215 of symmetry on the second carriage release lever 214, the symmetry spacing section of thick bamboo 215 one side fixed mounting is on the side of another set of symmetry in rectangle frame 206 inboard, second carriage release lever 214 slides and runs through rectangle frame 206 and device case 201, handle 216 is installed to connecting block 213 one side, makes second carriage release lever 214 can drive connecting block 213 and remove, and utilizes first spring 212 elasticity to carry on spacingly to it.

Inner tank 303 outside annular distribution has connecting rod 302, connecting rod 302 other end fixed mounting is in outer jar 301 inner wall, conical hopper 323 is installed to the inside bottom of storage tank 322, conical hopper 323 center department has seted up the blanking hole, blanking passageway 324 is installed to conical hopper 323 bottom, blanking passageway 324 bottom annular distribution has a plurality of connecting rod 302, blanking passageway 324 bottom is connected through connecting rod 302 with inner tank 303 top, makes functional master batch can follow the blanking hole and fall in the storage tank 322.

Connecting cylinder 304 runs through outer jar 301 and inner tank 303, connecting cylinder 304 internally mounted has the second bearing 305 of symmetry, dwang 306 is installed inside the second bearing 305 of symmetry, third bearing 307 is installed to dwang 306, remove a section of thick bamboo 309 is installed in the third bearing 307 outside, the inside sliding tray of symmetry has been seted up to a removal section of thick bamboo 309, the sliding block of symmetry is installed in the third bearing 307 outside, and the sliding block sliding card locates in the sliding hole, makes a removal section of thick bamboo 309 remove and can drive second conical gear 308 and remove.

Fixed column 311 is installed at carousel 310 opposite side edge, rocking arm 312 one end is rotated the card and is located the fixed column 311 outside, cylinder 313 is installed to the rocking arm 312 other end, connecting seat 315 card is located on cylinder 313, the card is equipped with symmetrical second spacing ring 314 on the cylinder 313, makes carousel 310 can drive piston 316 reciprocating motion, sealed cylinder 320 is installed on the piston 316 top, sealed cylinder 320 internally mounted has second spring 318, the inside cover of second spring 318 is equipped with third carriage release lever 317, snap ring 319 is installed to third carriage release lever 317 middle-end, snap ring 319 installs at second spring 318 middle-end, third carriage release lever 317 top and ball 321 bottom fixed connection utilize second spring 318 elasticity to cushion functional mother's grain, prevent that it from being crushed to block up the blanking hole.

First gear 107 and the meshing of second gear 203, connecting block 213 opposite side and the outside fixed connection of a removal section of thick bamboo 309, first conical gear 109 can mesh with second conical gear 308, makes first conical gear 109 can drive second conical gear 308 and rotate, ball 321 can laminate with the blanking hole of conical hopper 323 center department, outer jar 301 runs through agitator tank 101 top, makes the blanking volume that functional master batch can be controlled to ball 321.

The working principle is as follows: when the invention is used, cut nylon chips are put in from a feed inlet, a motor 205 is started, the motor 205 drives a rotating shaft 202 to rotate, the rotating shaft 202 rotates to drive a second gear 203 to rotate, the second gear 203 rotates to drive a first gear 107 to rotate, the first gear 107 rotates to drive a central shaft 104 to rotate, the central shaft 104 rotates to drive an annularly distributed stirring rod 105 to circularly rotate, the nylon chips are subjected to hot melting stirring by the stirring rod 105, the inner wall of a stirring tank 101 is cleaned by a scraper 106 at one end of the stirring rod 105, at the moment, the central shaft 104 rotates to drive a first bevel gear 109 to rotate, the first bevel gear 109 rotates to drive a second bevel gear 308 to rotate, the second bevel gear 308 rotates to drive a third bearing 307 to rotate, the third bearing 307 rotates to drive a rotating rod 306 to rotate, the rotating rod 306 rotates to drive a rotating disk 310 to rotate, the rotating disk 310 rotates to drive a fixed column 311 at the edge of the rotating disk to circularly move, the fixed column 311 drives one end of the rotating arm 312 to shift and move, the other end of the rotating arm 312 is clamped on the column 313 at the bottom end of the connecting seat 315, so that the piston 316 at the top end of the connecting seat 315 can reciprocate at the top end of the inner tank 303 and inside the blanking channel 324 under the action of the rotating arm 312, the piston 316 reciprocates to drive the third moving rod 317 at the top end to reciprocate, the third moving rod 317 moves to drive the second spring 318 fixed by the snap ring 319 at the outer side of the third moving rod to reciprocate, the ball 321 at the top end of the second spring 318 ascends and descends, the functional master batches inside the storage tank 322 fall from the blanking hole and fall into the stirring tank 101 from the gap between the blanking channel 324 and the inner tank 303 to be mixed, hot-melted and stirred with the nylon chips, when the ball 321 descends, the stretching effect of the second spring 318 is utilized to ensure that the functional master batches are not clamped into powder to block the blanking hole and be blocked when the ball 321 descends, the sealing cylinder 320 is used for preventing the functional master batch from being clamped on the second spring 318, after the functional master batch is added, the connecting block 213 is moved to the position of the limiting cylinder 215 at the other end and is contacted with the limiting cylinder 215 by pushing the handle 216, after the connecting block 213 is moved, the connecting block 213 is slidably clamped in the cylinder 210 by utilizing the hinging action of the first hinging seat 207 and the second hinging seat 209, the elastic action of the first spring 212 and the first moving rod 211, the second moving rod 214 is limited, the connecting block 213 is moved to drive the moving cylinder 309 to move along the sliding block, so that the moving cylinder 309 is slidably clamped in the sliding groove direction, the second bevel gear 308 is not engaged with the first bevel gear 109, and the feeding is stopped.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The production process of the antibacterial tear-resistant chinlon 6DTY high stretch yarn is characterized by comprising the following steps of:

step one, cutting polyamide fiber slices stored and provided in a storage bin, wherein the polyamide fiber slices are required for production;

step two, carrying out hot melting on the cut nylon fibers;

adding the functional master batch in the stirring process, and mixing and stirring;

step four, the mixed solution is uniformly sprayed into fine filaments from micropores of a spinneret plate by using an extruder, and the fine filaments are rapidly cooled and slowly cooled by a side-blowing cooling system to form fibers with good crystallization orthotropic property;

and step five, processing the formed fiber through a subsequent process to form the 6DTY high stretch yarn.

2. Production facility of antibiotic tear-resistant polyamide fibre 6DTY high stretch yarn, including mixed subassembly (1), its characterized in that: mixing assembly (1) is including agitator tank (101), agitator tank (101) center department installs center pin (104), install puddler (105) of the symmetry of a plurality of sets of annular distributions on center pin (104), first bevel gear (109) are installed on center pin (104) top, coupling assembling (2) are installed on agitator tank (101) top, coupling assembling (2) are including device case (201), the inside rotation card of device case (201) is equipped with axis of rotation (202), install second gear (203) on axis of rotation (202), rectangle frame (206) are installed to device case (201) one side, rectangle frame (206) internally mounted has symmetrical drum (210), the inside slip card of drum (210) is equipped with first carriage release lever (211), drum (210) and first carriage release lever (211) outside cover are equipped with first spring (212), connecting blocks (213) are arranged between the first moving rods (211) which are symmetrical, a feeding component (3) is arranged on one side of the device box (201), the feeding assembly (3) comprises an outer tank (301), an inner tank (303) is arranged in the outer tank (301), a connecting cylinder (304) is arranged on one side of the inner tank (303), a rotating rod (306) is arranged in the connecting cylinder (304), a second bevel gear (308) is arranged at one end of the rotating rod (306), a turntable (310) is arranged at the other end of the rotating rod (306), a rotating arm (312) is arranged at the edge of the other side of the rotating disc (310), a connecting seat (315) is clamped at the other end of the rotating arm (312), piston (316) is installed on connecting seat (315) top, ball (321) are installed to piston (316) top, storage tank (322) are installed on outer jar (301) top.

3. The production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn according to claim 2 are characterized in that: install first bearing (102) on center pin (104), install on agitator tank (101) top first bearing (102), first bearing (102) upper end card is equipped with first spacing ring (103), first gear (107) are installed to center pin (104) upper end, spacing piece (108) are all installed at first gear (107) both ends, the feed inlet is installed on agitator tank (101) top, the discharge gate is installed to agitator tank (101) bottom, and the symmetry scraper blade (106) are installed to puddler (105) other end.

4. The production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn according to claim 2 are characterized in that: the rotating shaft (202) one end is rotated the card and is equipped with bearing frame (204), install in device case (201) inside bottom bearing frame (204), motor (205) are installed on rotating shaft (202) top, the casing is installed in motor (205) outside, casing fixed mounting is on device case (201) top.

5. The production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn according to claim 4 are characterized in that: articulated seat of second (209) is all installed to drum (210) one end and first carriage release lever (211) one end, install dead lever (208) on the articulated seat of second (209), the card is equipped with first articulated seat (207) on dead lever (208), and is symmetrical first articulated seat (207) other end fixed mounting in the both sides of rectangle frame (206) inboard symmetry of drum (210) one end, the symmetry first articulated seat (207) other end fixed mounting in the both sides of connecting block (213) symmetry of first carriage release lever (211) one end.

6. The production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn according to claim 5 are characterized in that: first spring (212) both ends respectively with drum (210) and the articulated seat of second (209) one end fixed connection that first carriage release lever (211) are connected, connecting block (213) internally mounted has second carriage release lever (214), the card is gone up to slide on second carriage release lever (214) is equipped with spacing section of thick bamboo (215) of symmetry, the symmetry spacing section of thick bamboo (215) one side fixed mounting is on the side of another group of symmetry of rectangle frame (206) inboard, second carriage release lever (214) slide and run through rectangle frame (206) and device case (201), handle (216) are installed to connecting block (213) one side.

7. The production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn according to claim 2 are characterized in that: inner tank (303) outside annular distribution has connecting rod (302), connecting rod (302) other end fixed mounting is in outer jar (301) inner wall, conical hopper (323) are installed to storage tank (322) inside bottom, conical hopper (323) center department has seted up the blanking hole, blanking passageway (324) are installed to conical hopper (323) bottom, blanking passageway (324) bottom annular distribution has a plurality of connecting rod (302), blanking passageway (324) bottom is passed through connecting rod (302) with inner tank (303) top and is connected.

8. The production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn according to claim 2 are characterized in that: connecting cylinder (304) run through outer jar (301) and inner tank (303), connecting cylinder (304) internally mounted has second bearing (305) of symmetry, dwang (306) are installed inside second bearing (305) of symmetry, third bearing (307) are installed in dwang (306), remove a section of thick bamboo (309) is installed in third bearing (307) outside, the inside sliding tray of symmetry has been seted up in removal section of thick bamboo (309), the sliding block of symmetry is installed in third bearing (307) outside, and the sliding block sliding card locates in the sliding hole.

9. The production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn according to claim 2 are characterized in that: fixed column (311) are installed to carousel (310) opposite side edge, rocking arm (312) one end is rotated the card and is located fixed column (311) outside, cylinder (313) are installed to rocking arm (312) other end, connecting seat (315) card is located on cylinder (313), the second spacing ring (314) that the card was equipped with the symmetry on cylinder (313), sealed cylinder (320) are installed on piston (316) top, sealed cylinder (320) internally mounted has second spring (318), the inside cover of second spring (318) is equipped with third carriage release lever (317), snap ring (319) are installed to third carriage release lever (317) middle-end, install in second spring (318) middle-end snap ring (319), third carriage release lever (317) top and ball (321) bottom fixed connection.

10. The production process and equipment of the antibacterial tear-resistant chinlon 6DTY high stretch yarn according to claim 8 are characterized in that: first gear (107) and second gear (203) meshing, connecting block (213) opposite side and removal section of thick bamboo (309) outside fixed connection, first conical gear (109) can mesh with second conical gear (308), ball (321) can be laminated with the blanking hole of conical hopper (323) center department, outer jar (301) run through agitator tank (101) top.

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