CN219410174U - High-temperature nylon shaping and color judging equipment - Google Patents

Abstract

The utility model provides nylon high-temperature setting and color judging equipment, and relates to the technical field of nylon yarn inspection; comprising the following steps: the hosiery machine is used for knitting the nylon yarns into a sock belt; a first oven for shaping the sock belt coming out of the sock knitting machine at a high temperature; a dyeing machine for dyeing the hosiery strap coming out of the first oven; a rinsing bath for rinsing the hosiery strap coming out of the dyeing machine; a dehydrator for dehydrating the hose coming out of the rinsing bath; a second oven for drying the hosiery strap coming out of the dehydrator; the color judgment inspection bench is used for placing the sock belts coming out of the second oven; the stocking storing and taking rack is arranged on the stocking conveyor. The utility model has the advantages that: checking whether the color of the sock belt is uniform, when the color of the sock belt is uniform, the used nylon yarn is high-temperature resistant nylon yarn, and when the color of the sock belt is non-uniform, the used nylon yarn is non-high-temperature resistant nylon yarn, so that the high-temperature resistant nylon yarn is screened out.

Description

High-temperature nylon shaping and color judging equipment

Technical Field

The utility model relates to the technical field of nylon yarn inspection, in particular to nylon high-temperature setting and color judging equipment.

Background

In recent years, the requirements of people on colors, light senses, styles and the like of textiles such as clothing and the like are continuously improved and changed, profit space of each industry chain is reduced, the requirements of high added value products of the clothing industry chain are increasingly greater, and the development of various new products meeting the requirements of clients is the power and the aim of continuous progress of our department. With the increasing of cloth orders of various sensitive colors (blue, gray, red, etc.) of downstream customers, the dyeing and finishing setting temperature is increased, and the requirements on yarns are also higher and higher.

The high-temperature resistant nylon yarn is woven into cloth, and after high-temperature dyeing, the cloth is uniformly colored, so that the high-quality nylon yarn is obtained; the nylon yarn which is not resistant to high temperature is woven into cloth, after high temperature dyeing, the cloth is uneven in color absorption, and especially the cloth with sensitive colors (blue, gray, red and the like) is easy to generate horizontal stripes, so that the nylon yarn is low-quality nylon yarn.

After purchasing nylon yarns, cloth clothing manufacturers directly weave and dye the nylon yarns at high temperature in a large batch if the nylon yarns are not removed, so that a high-proportion defective cloth can be produced. As a supplier of the nylon yarn, the high-temperature resistant nylon yarn is screened out in a quality inspection link, namely, the nylon yarn which is not resistant to high temperature is removed, the high-temperature resistant nylon yarn is sold to a cloth and clothing manufacturer with high-temperature dyeing requirements, the abnormal rate of dyeing and finishing of the subsequent processing of the nylon yarn is reduced to the greatest extent, and the benefit and the public praise of the supplier of the nylon yarn are greatly improved. Therefore, how to screen out the high temperature resistant nylon yarns is a difficult problem to be solved.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a nylon high-temperature setting and color judging device for screening out high-temperature resistant nylon yarns.

The utility model is realized in the following way: a nylon high-temperature setting and color judging device, comprising:

the hosiery machine is used for knitting the nylon yarns into a sock belt;

a first oven for shaping the sock belt coming out of the sock knitting machine at a high temperature;

a dyeing machine for dyeing the hosiery strap coming out of the first oven;

a rinsing bath for rinsing the hosiery strap coming out of the dyeing machine;

a dehydrator for dehydrating the hose coming out of the rinsing bath;

a second oven for drying the hosiery strap coming out of the extractor;

the color judgment inspection bench is used for placing the sock belts coming out of the second oven;

the sock belt conveyor sequentially passes through the sock knitting machine, the first oven, the dyeing machine, the rinsing and dehydrating machine, the second oven and the color judging inspection table;

the stocking storing and taking frame is arranged on the stocking conveyor.

Further, the sock belt storing and taking frame comprises a frame, transverse supporting rods, longitudinal supporting rods and handles, wherein two handles are fixedly connected with the left side and the right side of the frame respectively, a plurality of transverse supporting rods and a plurality of longitudinal supporting rods are arranged at intervals and are fixedly connected with the frame, and the transverse supporting rods and the longitudinal supporting rods form a sock belt supporting grid.

Further, the color judgment device also comprises a number card, a camera and a computer, wherein the number card is placed on the color judgment inspection bench, the camera is installed on the color judgment inspection bench, and the camera is also connected with the computer through a data line;

the camera is used for photographing the sock belt and the numbered card, and then transmitting the photographed image to the computer, and the display screen of the computer displays the image.

Further, the dyeing machine comprises a dye vat, a sock belt feeding device, a liquid spraying device and a dye temperature control device;

the sock belt feeding device comprises a sock belt conveying pipe and clamping and conveying wheels, the sock belt conveying pipe is fixedly arranged above the dye vat, an outlet of the sock belt conveying pipe is communicated with the dye vat, and the two clamping and conveying wheels are arranged up and down and are both in rotary connection with an inlet of the sock belt conveying pipe;

the liquid spraying device comprises a nozzle, a dye output pipe, a water pump, a dye input pipe, a dye supply pipe, a feeding valve and a hopper, wherein the dye output pipe penetrates through the sock belt conveying pipe, one end of the dye output pipe is communicated with the nozzle, the nozzle is positioned in the sock belt conveying pipe, the other end of the dye output pipe is communicated with the outlet of the water pump, one end of the dye input pipe is communicated with the inlet of the water pump, the other end of the dye input pipe is communicated with a bottom discharge opening of the dye vat, one end of the dye supply pipe is communicated with the dye input pipe, the other end of the dye supply pipe is communicated with the hopper, and the feeding valve is arranged in the dye supply pipe;

the dye vat temperature adjusting device comprises a heater, a temperature sensor and a temperature controller, wherein the heater is installed at the bottom of the dye vat, the temperature sensor is installed on the inner surface of the dye vat, and the heater and the temperature sensor are electrically connected with the temperature controller.

The utility model has the advantages that: 1. the method comprises the steps of knitting the nylon yarns into the sock, shaping, dyeing, rinsing, dehydrating and drying the sock at high temperature, and finally checking whether the sock is even in color absorption, wherein the nylon yarns are high-temperature resistant nylon yarns when the sock is even in color judgment, and the nylon yarns are non-high-temperature resistant nylon yarns when the sock is uneven in color judgment, so that the high-temperature resistant nylon yarns are screened out, the non-high-temperature resistant nylon yarns are eliminated, and the quality of the sold nylon yarns is improved. 2. The arrangement of the stocking storing and taking frame and the stocking conveyor is beneficial to transferring the stocking among various instruments and improves the production efficiency. 3. The images of the sock belts are photographed and transmitted to a computer, so that the staff can conveniently conduct remote color judgment and check and record, and the number is convenient for tracing the nylon yarns. 4. The sock belt feeding device of the dyeing machine enables the sock belts connected end to circulate in the dye, and prevents the sock belts from being stained due to unsmooth flowing, and influences the subsequent color judgment.

Drawings

The utility model will be further described with reference to examples of embodiments with reference to the accompanying drawings.

FIG. 1 is a schematic structural diagram of the nylon high-temperature setting and color judging device.

FIG. 2 is a schematic view of the nylon yarn package of the present utility model in a material tank.

Fig. 3 is a schematic view of the camera of the present utility model mounted on a color judgment table.

Fig. 4 is a schematic view of the structure of the stocking rack according to the present utility model.

Fig. 5 is a schematic view of the structure of the dyeing machine according to the present utility model.

Reference numerals: a hosiery knitting machine 1; a first oven 2; a dyeing machine 3; a dye vat 31; a strap feeding device 32; a hose transporting pipe 321; pinch wheel 322; a liquid spraying device 33; a nozzle 331; a dye delivery tube 332; a water pump 333; a dye input tube 334; a dye supply pipe 335; a feed valve 336; a hopper 337; a discharge valve 338; a dye drain 339; a dye temperature control device 34; a heater 341; a temperature sensor 342; a rinsing tank 4; a dehydrator 5; a second oven 6; a color judgment inspection bench 7; a sock belt 71; a numbering card 72; a camera 73; a hose conveyor 8; a stocking rack 9; a frame 91; a transverse strut 92; a longitudinal strut 93; a handle 94; a material box 10; nylon yarn bobbin 101.

Detailed Description

The embodiment of the utility model provides a high-temperature nylon shaping and color judging device, which aims to test nylon yarns before the nylon yarns leave the factory and sell or before the nylon yarns are woven into cloth in a large scale and are dyed at a high temperature, screen out high-temperature resistant nylon yarns from the nylon yarns, remove the non-high-temperature resistant nylon yarns, improve the quality of the sold nylon yarns, and reduce the production proportion of defective cloth generated after the nylon yarns are woven into the cloth in a large scale and dyed at a high temperature.

The general idea of the technical scheme in the embodiment of the utility model is as follows:

before the nylon yarn leaves the factory and sells, the core link of high-temperature dyeing and finishing of downstream cloth clothing manufacturers is simulated, a plurality of nylon yarn barrels (or called spinning cakes) are firstly drawn in a material box, the nylon yarn is woven into a sock, compared with the cloth of the clothing, the sock consumes less yarn, the sock is subjected to high-temperature setting, dyeing, rinsing, dewatering and drying, finally whether the sock is uniform in color absorption is checked, and whether the nylon yarn belongs to the high-temperature resistant nylon yarn is judged according to the color judgment result, so that the high-temperature resistant nylon yarn is screened out, the nylon yarn which cannot resist high temperature is removed in advance before sales is facilitated, and the quality of the sold nylon yarn is improved.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 5, a preferred embodiment of the present utility model.

A nylon high-temperature setting and color judging device, comprising:

the hosiery machine 1 is used for knitting nylon yarns into a sock belt;

a first oven 2 for shaping the hosiery belts coming out of the hosiery machine 1 at high temperature;

a dyeing machine 3 for dyeing the hosiery strap coming out of said first oven 2;

a rinsing bath 4 for rinsing the hosiery belts coming out of the dyeing machine 3;

a dehydrator 5 for dehydrating the hose coming out of said rinsing bath 4;

a second oven 6 for drying the hosiery strap coming out of said extractor 5;

a color judgment inspection bench 7 for placing the sock belt 71 coming out of the second oven 6; the inspector checks at the color-judging inspection table 7 whether the sock belt 71 is uniform in color absorption, when the sock belt 71 is uniform in color judgment, the nylon yarn used is a high-temperature resistant nylon yarn, and when the sock belt 71 is nonuniform in color judgment, the nylon yarn used is a nylon yarn which is not high-temperature resistant.

A sock belt conveyor 8 sequentially passes through the sock machine 1, the first oven 2, the dyeing machine 3, the rinsing dehydrator 5, the second oven 6 and the color judging inspection table 7;

a stocking rack 9 is placed on the stocking conveyor 8.

The sock belts produced by the sock knitting machine 1 are placed on the sock belt storage rack, the sock belt storage rack is placed on the sock belt conveyor 8, the sock belt storage rack is conveyed to the position of the first oven 2, and the inspector places the sock belt storage rack in the first oven 2 to carry out high-temperature shaping of the sock belts; after the high-temperature shaping is finished, the sock belt storage rack is arranged on the sock belt conveyor 8, the sock belt storage rack is transported to the position of the dyeing machine 3, and the inspector takes out the sock belt from the sock belt storage rack and loads the sock belt on the dyeing machine 3; after the dyeing is completed, the inspector takes out the sock belts from the dyeing machine 3 and puts the sock belts in the sock belt storage rack, the sock belt storage rack is transported to the position of the rinsing pool 4 by the sock belt conveyor 8, and the inspector takes out the sock belts from the sock belt storage rack and puts the sock belts in the rinsing pool 4; after the rinsing is completed, the inspector takes out the sock belts from the rinsing pool 4 and places the sock belts in the sock belt storage rack, the sock belt storage rack is transported to the position of the dehydrator 5 by the sock belt conveyor 8, and the inspector takes out the sock belts from the sock belt storage rack and places the sock belts in the dehydrator 5; after the dehydration is completed, the inspector takes out the sock belts from the dehydrator 5 and places the sock belts in the sock belt storage rack, the sock belt storage rack is transported to the position of the second oven 6 by the sock belt conveyor 8, and the inspector takes out the sock belts from the sock belt storage rack and places the sock belts in the second oven 6; after the drying is completed, the inspector takes out the sock belts from the second oven 6 and places the sock belts in the sock belt storage rack, the sock belt storage rack is transported to the position of the color judgment inspection table 7 by the sock belt conveyor 8, and the inspector takes out the sock belts from the sock belt storage rack and places the sock belts in the color judgment inspection table 7. The arrangement of the stocking storing and taking frame 9 and the stocking conveyor 8 is beneficial to transferring the stocking among various instruments and improving the production efficiency. The belt conveyor may be a conventional belt conveyor.

The sock belt storing and taking frame 9 comprises a frame 91, transverse struts 92, longitudinal struts 93 and handles 94, wherein two handles 94 are respectively and fixedly connected with the left side and the right side of the frame 91, a plurality of transverse struts 92 and a plurality of longitudinal struts 93 are arranged at intervals and are fixedly connected with the frame 91, and the transverse struts 92 and the longitudinal struts 93 form a sock belt supporting grid. The handle 94 is provided to facilitate the handling of the stocking rack 9 by the inspector. The sock belt supporting grid has higher air permeability, and is beneficial to improving the speed of heating and drying the sock belt.

The color judgment device further comprises a number card 72, a camera 73 and a computer, wherein the number card 72 is placed on the color judgment test table 7, the camera 73 is installed on the color judgment test table 7, and the camera 73 is also connected with the computer through a data line;

the camera 73 is used for photographing the sock belt and the number card 72, and then transmitting the photographed image to the computer, and the display screen of the computer displays the image.

In addition to the inspector directly observing the uniformity of the suction color of the band, a camera 73 can also be used to take a picture of the band. The image of the sock belt is photographed and transmitted to the computer, so that the staff can conveniently conduct remote color judgment, the staff can conduct sock belt color judgment on the display screen of the computer, and the computer can store color judgment records so as to facilitate later checking records. The photographed image includes a number card 72, the number of the number card 72 is the number of the material box 10, the material box 10 is provided with a plurality of nylon yarn barrels 101, and the nylon yarn barrels 101 are drawn from the material box 10 and are arranged in the hosiery machine 1 before knitting the hosiery belts. Therefore, after the color judgment is made, the staff can trace the number to the corresponding material box 10, and the quality condition of the nylon yarns in the material box 10 can be approximately deduced. For example, three nylon bobbins 101 are selected from the material box 10, and when at least one of the knitted hosiery belts is colored at high temperature and then color absorption unevenness occurs, the quality of most nylon yarns in the material box 10 can be considered to be low, and the material box 10 is transported to a recycling warehouse; when the color absorption unevenness does not occur in all of the three knitted hosiery belts, it is considered that the quality of the majority of the nylon yarns in the material box 10 is high, and the material box 10 is transported to a sales warehouse. The number of nylon bobbins 101 is chosen from the material box 10 and is determined by the manufacturer according to the actual circumstances, by way of example only, according to the criteria of the number of occurrence of the uneven-suction hosiery.

If there is a strong demand for high temperature resistance of the nylon yarn, each nylon yarn cylinder 101 in the material box 10 may be selected to be knitted with a sock. And screening out the yarn barrels of the high-temperature resistant nylon yarns, so that the high-temperature resistant quality of the nylon yarns sold at the moment is ensured.

The dyeing machine 3 comprises a dye vat 31, a sock belt feeding device 32, a liquid spraying device 33 and a dye temperature control device 34;

the stocking feeding device 32 comprises a stocking transporting pipe 321 and pinch wheels 322, the stocking transporting pipe 321 is fixedly arranged above the dye vat 31, an outlet of the stocking transporting pipe 321 is communicated with the dye vat 31, and the two pinch wheels 322 are arranged up and down and are both rotatably connected with an inlet of the stocking transporting pipe 321; the gap for the sock belt to flow is formed between the two clamping and conveying wheels 322, the two clamping and conveying wheels 322 are meshed and driven through two corresponding gears (not shown) arranged outside the sock belt conveying pipe 321, a driving motor (not shown) controls the rotation of the clamping and conveying wheels 322, the clamping and conveying wheels 322 are used for enabling the sock belt to flow, the sock belt is prevented from being stained due to unsmooth flowing, and the subsequent color judgment is affected.

The liquid spraying device 33 comprises a nozzle 331, a dye output pipe 332, a water pump 333, a dye input pipe 334, a dye supply pipe 335, a feeding valve 336 and a hopper 337, wherein the dye output pipe 332 penetrates through the sock belt conveying pipe 321, one end of the dye output pipe 332 is communicated with the nozzle 331, the nozzle 331 is positioned in the sock belt conveying pipe 321, the other end of the dye output pipe 332 is communicated with an outlet of the water pump 333, one end of the dye input pipe 334 is communicated with an inlet of the water pump 333, the other end of the dye input pipe 334 is communicated with a bottom discharge opening of the dye vat 31, one end of the dye supply pipe 335 is communicated with the dye input pipe 334, the other end of the dye supply pipe 335 is communicated with the hopper 337, and the feeding valve 336 is arranged in the dye supply pipe 335; the feeding valve 336 is opened, the dye in the hopper 337 flows into the dye input pipe 334, and under the driving action of the water pump 333, the dye reaches the nozzle 331 from the dye output pipe 332, is sprayed on the hosiery strap, and flows to the dye vat 31 along the hosiery strap transporting pipe 321. The dye in the dye vat 31 enters the dye input pipe 334 from the bottom discharge port, so that the circulating flow of the dye is realized. When the dye in the dye vat 31 is sufficient, the feed valve 336 is closed. The bands are connected end to end in the dyeing machine 3 to form a ring shape, the bands are contacted with the dye in the band transporting pipe 321, and the bands are also contacted with the dye in the dye vat 31.

The liquid spraying device 33 further comprises a discharge valve 338 and a dye discharge pipe 339, wherein the discharge valve 338 is arranged on the dye discharge pipe 339, and the dye discharge pipe 339 is communicated with the bottom of the dye input pipe 334. During the dyeing operation, the discharge valve 338 is in a closed state; during cleaning, the discharge valve 338 is opened.

The temperature adjusting device of the dye vat 31 comprises a heater 341, a temperature sensor 342 and a temperature controller (not shown), wherein the heater 341 is installed at the bottom of the dye vat 31, the temperature sensor 342 is installed on the inner surface of the dye vat 31, and the heater 341 and the temperature sensor 342 are electrically connected with the temperature controller. The temperature controller is used for controlling the working state of the heater 341, the temperature sensor 342 feeds back the detected temperature of the dye vat 31 to the temperature controller, and when the detected temperature reaches a preset temperature threshold value, the temperature controller controls the heater 341 to be turned off; when the detected temperature is lower than a preset temperature threshold, the temperature controller controls the heater 341 to be activated.

A nylon high-temperature setting and color judging process method comprises the following steps:

s1, selecting a nylon yarn cylinder 101 to be inspected, and knitting yarns of the nylon yarn cylinder 101 into a sock;

s2, performing high-temperature shaping on the knitted sock belt;

s3, dyeing the sock belts after high-temperature shaping;

s4, placing the dyed sock belts into clear water for rinsing;

s5, dehydrating the rinsed sock belts;

s6, drying the dehydrated sock belts;

s7, checking whether the dried sock is even in color absorption.

The method comprises the steps of knitting the nylon yarns into the sock, compared with cloth of clothes, the sock is less in yarn consumption, and finally checking whether the sock is uniform in color absorption or not through high-temperature setting, dyeing, rinsing, dehydrating and drying.

The S1 specifically comprises the following steps: the material box 10 is provided with a plurality of nylon yarn barrels 101, the material box 10 is transported to a checking room, the material box 10 is provided with a number, the nylon yarn barrels 101 are randomly selected from the material box 10, and yarns of the nylon yarn barrels 101 are woven into a sock. The nylon yarn cylinder 101 is selected from the material box 10 in a random sampling mode, the high temperature resistance of the nylon yarn in the material box 10 is rapidly evaluated, the inspection efficiency is ensured, and meanwhile, the production proportion of the sold nylon yarn which is woven into a cloth in a large batch and is subjected to high temperature dyeing to form defective cloth is reduced. Numbering is convenient for tracing the nylon yarns.

The S3 is specifically to dye the sock belts after high-temperature shaping into blue, grey or red; the high-temperature resistant nylon yarn is woven into cloth, and after high-temperature dyeing, the cloth is uniformly colored, so that the high-quality nylon yarn is obtained; the nylon yarn which is not resistant to high temperature is woven into cloth, after high temperature dyeing, the cloth is uneven in color absorption, and especially the cloth with sensitive colors (blue, gray, red and the like) is easy to generate horizontal stripes, so that the nylon yarn is low-quality nylon yarn.

Further comprises: s8, if the dried sock belts are unevenly dyed and have cross bars, conveying the material boxes 10 with corresponding numbers to a recovery warehouse; and if the dried sock belts are uniformly dyed and no transverse stripes appear, the material boxes 10 with corresponding numbers are transported to a sales warehouse.

The high-temperature setting temperature is 180-210 ℃, the high-temperature setting time is 3 minutes, and the dyeing temperature is 40-85 ℃.

The main working mode of the utility model is that the nylon is shaped and judged at high temperature:

selecting a nylon yarn cylinder 101 to be inspected, loading the nylon yarn cylinder 101 into a hosiery machine 1, and knitting nylon yarns into a sock belt; the temperature of the first oven 2 is set in advance, generally between 180 ℃ and 210 ℃, after the temperature is stable, the sock belts are laid on the sock belt storage rack 9, the sock belts are put into the first oven 2 for high-temperature shaping, timing shaping is started for 3 minutes, the sock belt storage rack 9 is taken out, and the sock belts wait for dyeing.

One end of the prepared stocking is fed into the inlet of the stocking transport tube 321 of the dyeing machine 3, and then the switch panel of the dyeing machine 3 is operated, the stocking is sucked into the stocking transport tube 321 by the stocking feeding device 32, and the other end of the stocking is fed into the dye vat 31, and the both ends of the stocking are connected, which may be by a needle and thread.

The switch panel of the dyeing machine 3 is operated again, and the water pump 333 and the temperature controller enter the normal working state at the same time, and at this time, the dyeing machine 3 enters the full-automatic working operation. The band feeding means 32 control the band circulation speed, which is preferably approximately equal to 60 m/min. When the dyeing machine 3 is heated to a temperature between 40 ℃ and 50 ℃, a feed valve 336 is opened, and the prepared dye and auxiliary agent are added. During the period from the time when the dye is added to the time when the temperature rises to 85 ℃, the staff responsible for dyeing cannot leave the dyeing machine 3, the period is the key time for transferring the dye to the surface to the inside of the fiber, and if the sock is not smooth during the period, the subsequent color judgment is easily affected by the dyeing of the sock. After the dyeing is completed, the dyeing machine 3 stops running, and the joints of the sock belts are found and cut off. And fishing out the sock belts, putting the sock belts into clear water for rinsing, dehydrating, putting the sock belts into a second oven 6 for drying, and finally waiting for color judgment of the sock belts. And judging whether the yarn of the nylon yarn cylinder 101 belongs to the high-temperature-resistant yarn or not according to the color judgment result of the sock. And finally, the suppliers of nylon yarns screen out the high-temperature resistant nylon yarn drums 101 as high-quality products, and sell the high-quality products to downstream cloth and clothing manufacturers, so that the production proportion of defective cloth of downstream customers is reduced, and customer losses are reduced.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that the specific embodiments described are illustrative only and not intended to limit the scope of the utility model, and that equivalent modifications and variations of the utility model in light of the spirit of the utility model will be covered by the claims of the present utility model.

Claims (4)

1. The high-temperature nylon shaping and color judging device is characterized by comprising:

the hosiery machine is used for knitting the nylon yarns into a sock belt;

a first oven for shaping the sock belt coming out of the sock knitting machine at a high temperature;

a dyeing machine for dyeing the hosiery strap coming out of the first oven;

a rinsing bath for rinsing the hosiery strap coming out of the dyeing machine;

a dehydrator for dehydrating the hose coming out of the rinsing bath;

a second oven for drying the hosiery strap coming out of the extractor;

the color judgment inspection bench is used for placing the sock belts coming out of the second oven;

the sock belt conveyor sequentially passes through the sock knitting machine, the first oven, the dyeing machine, the rinsing and dehydrating machine, the second oven and the color judging inspection table;

the stocking storing and taking frame is arranged on the stocking conveyor.

2. The high-temperature nylon setting and color judging device according to claim 1, wherein the sock strip storage rack comprises a frame, transverse struts, longitudinal struts and handles, wherein two handles are fixedly connected with the left side and the right side of the frame respectively, a plurality of transverse struts and a plurality of longitudinal struts are arranged at intervals and are fixedly connected with the frame, and the transverse struts and the longitudinal struts form a sock strip supporting grid.

3. The nylon high-temperature setting and color judging device according to claim 1, further comprising a number card, a camera and a computer, wherein the number card is placed on the color judging inspection bench, the camera is installed on the color judging inspection bench, and the camera is further connected with the computer through a data line;

the camera is used for photographing the sock belt and the numbered card, and then transmitting the photographed image to the computer, and the display screen of the computer displays the image.

4. The nylon high-temperature setting and color judging device according to claim 1, wherein the dyeing machine comprises a dye vat, a sock belt feeding device, a liquid spraying device and a dye temperature control device;

the sock belt feeding device comprises a sock belt conveying pipe and clamping and conveying wheels, the sock belt conveying pipe is fixedly arranged above the dye vat, an outlet of the sock belt conveying pipe is communicated with the dye vat, and the two clamping and conveying wheels are arranged up and down and are both in rotary connection with an inlet of the sock belt conveying pipe;

the liquid spraying device comprises a nozzle, a dye output pipe, a water pump, a dye input pipe, a dye supply pipe, a feeding valve and a hopper, wherein the dye output pipe penetrates through the sock belt conveying pipe, one end of the dye output pipe is communicated with the nozzle, the nozzle is positioned in the sock belt conveying pipe, the other end of the dye output pipe is communicated with the outlet of the water pump, one end of the dye input pipe is communicated with the inlet of the water pump, the other end of the dye input pipe is communicated with a bottom discharge opening of the dye vat, one end of the dye supply pipe is communicated with the dye input pipe, the other end of the dye supply pipe is communicated with the hopper, and the feeding valve is arranged in the dye supply pipe;

the dye vat temperature adjusting device comprises a heater, a temperature sensor and a temperature controller, wherein the heater is installed at the bottom of the dye vat, the temperature sensor is installed on the inner surface of the dye vat, and the heater and the temperature sensor are electrically connected with the temperature controller.