CN213417193U - Ultrathin anti-skid silk stockings - Google Patents

Abstract

The utility model discloses an ultra-thin anti-skidding silk socks belongs to the fabrics field. When the silk stockings are woven, each weaving line comprises a spandex weaving line and a chinlon weaving line which are parallel, and the adjacent weaving lines of the two paths are sequentially hooked and serially woven in a sleeved mode. Adopt heat setting's mode when silk socks are stereotyped, not only can eliminate silk socks cloth surface fold and also can realize that the spandex is knitted line and polyamide fibre and is knitted the adhesion of line adhesion, the adhesion of knitting line intersect for silk socks are knitted line structure more firmly, the utility model discloses an ultra-thin anti-skidding silk socks not only can prevent to collude the silk, also can prevent to run the condition of line when tailorring from appearing by the silk socks cloth, have prolonged the life of silk socks and greatly increased silk socks's practicality.

Description

Ultrathin anti-skid silk stockings

Technical Field

The utility model relates to a fabrics technical field, more specifically say, relate to an ultra-thin anti-skidding silk socks.

Background

With the pursuit of people for fashion life, dressing and dressing are more diversified, and silk stockings can show body beauty and are favored by women as a representative of fashion. The material for sewing the silk stockings needs to be light, thin and elastic, has air permeability, can discharge sultry moisture in hot summer, and avoids uncomfortable wearing caused by sweat greasy skin.

The wearing of the silk stockings mainly depends on the elastic coating to highlight the aesthetic feeling of the lines of the body, and once the silk stockings slide downwards, the silk stockings generate folds which seriously affect the aesthetic effect of the silk stockings. In order to avoid the silk stockings from sliding downwards when being worn, most of the existing ultrathin medium stockings and stockings need to be added with a rib top. However, the rib top is easy to be tightened and is very easy to fall off. In order to improve the aesthetic property of the rib top, special ribbon with silica gel lace is needed to be sewed as the rib top, the processing procedure is complex, and the cost is very high.

Through retrieval, the prior art discloses bare ammonia high-density panty-hose (Chinese patent application No. 201820452911.1, application date 2018, 04, 02, in month 04) which adopts parallel spandex threads and nylon threads, the weaving mode sequentially comprises a first route, a second route, a third route and a fourth route which are synchronously woven along a spiral from top to bottom, the threads of each route comprise a spandex thread and a nylon thread which are parallel, the threads of adjacent routes are sequentially hooked, and the hooking intersections 3 of the threads of the adjacent routes are fixed by hot melt adhesives. The panty-hose directly knitted by the method saves the process of yarn covering, simplifies the production process, reduces the cost, and has thin and good elasticity; the knitting cross points 3 of the knitting yarns are bonded by hot melt adhesive, and the panty-hose is not easy to hook yarns.

The utility model discloses a mode that adopts directly to weave has saved the package yarn process, has simplified technology to the cloth elasticity that obtains is better, and utilizes the hot melt adhesive to prevent to collude the silk. However, the knitting yarn is formed by directly and parallelly weaving spandex and chinlon, and the 70D anti-falling chinlon is easy to slip when being worn, so that the knitting yarn is difficult to use in stockings and stockings.

In addition, another prior art discloses a high-density wrinkled ultra-strong protection type composite fabric (Chinese patent application number: 201821266928.4, application date: 2018, 08.07), which comprises a 40D nylon four-side elastic layer, a functional waterproof moisture-permeable material layer and an ultra-light knitted base fabric, wherein the 40D nylon four-side elastic layer comprises nylon yarns and spandex yarns which are woven along the warp direction and cotton yarns and spandex yarns which are woven along the weft direction, the warp and weft components of the 40D nylon yarns and 40D spandex yarns are warp-wise 70D nylon yarns and 40D spandex yarns and weft-wise 40S cotton yarns and 40D spandex yarns, the functional waterproof moisture-permeable material layer is a PTFE film, the pore diameter of the PTFE film is between 0.0004 mu m and 400 mu m, the ultra-light knitted base fabric is composed of pore-shaped coils which are formed by bending yarns in space, and each pore-shaped coil is composed of one yarn. The utility model discloses a mainly be the wearability and the elasticity that improve the material, can not solve the antiskid effect that the silk stocking cloth needs.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

The utility model aims to overcome the not enough that silk socks do not possess anti-skidding effect among the prior art, provide an ultra-thin anti-skidding silk socks. The utility model discloses a fine spandex that does not wrap yarn is knitted line and polyamide fibre and is knitted line and arrange according to specific structure to improve its non-skid property, can no longer set up the rid cuff, it is more comfortable to wear.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses an ultra-thin anti-skidding silk socks, this silk socks cloth each way knit the line all include parallel a spandex knit line and a polyamide fibre knit the line, adjacent two tunnel knit the line and collude a cluster cover in proper order and weave, wherein, the spandex knit the line and knit the line with the polyamide fibre and be and arrange from top to bottom, the spandex knit the line place face as the inside lining of the silk socks after the heat setting.

As a further improvement of the present invention, the denier of the spandex thread is not higher than 20D, the denier of the nylon thread is not higher than 12D, and the denier of the spandex thread is greater than the denier of the nylon thread.

As a further improvement of the utility model, the denier of the spandex knitted thread is 12-20D, and the denier of the chinlon knitted thread is 6-12D.

As a further improvement of the present invention, the denier of the spandex yarn is higher than the denier of the nylon yarn by 5D or more.

As a further improvement of the utility model, two adjacent weaving lines overlap each other to produce the crosspoint through linking up, adopt the mode adhesion of heat setting to the crosspoint.

As a further improvement of the utility model, the lower surface of the spandex knitting line is adhered with the upper surface of the chinlon knitting line in a heat setting mode.

As a further improvement of the utility model, the heat setting temperature interval of the silk stockings is 118-130 ℃.

As a further improvement of the utility model, the spandex knitting line adopts the anti-run spandex.

As a further improvement of the utility model, the nylon knitting yarns are nylon filaments.

As a further improvement of the utility model, the silk stockings are silk stockings with rib top or silk stockings with non-rib top.

As a further improvement of the utility model, the silk stockings are panty stockings or mid-stockings or stocking or socks or ankle stockings.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

(1) the utility model discloses an ultra-thin anti-skidding silk socks, this silk socks cloth each way knit the line all include parallel a spandex knit line and a polyamide fibre knit the line, adjacent two tunnel knit the line and collude a cluster cover in proper order and weave, wherein, the spandex knit the line and knit the line with the polyamide fibre and be and arrange from top to bottom, the spandex knit the line place face as the inside lining of the silk socks after the heat setting. Wearing the utility model discloses a during anti-skidding silk stocking, the silk stocking inside facing that contacts with human skin has good anti-skidding effect, can effectively avoid silk stocking gliding when the crooked activity of shank, even silk stocking mouth does not set up the rid cuff and also can guarantee the tight no fold of silk stocking. Benefit from the good antiskid nature of the utility model discloses antiskid silk socks when wearing simultaneously with shoes, have the effect that prevents to walk in-process shoes and drop.

(2) The utility model discloses an ultra-thin anti-skidding silk socks, two adjacent road weaves the line and produces the crosspoint through linking up with colluding, adopts heat setting's mode adhesion to the crosspoint. The utility model discloses a run-off prevention spandex, the silk stocking cloth after the heat setting is handled is more stable, can reduce the silk stocking and collude the appearance of silk to can conveniently carry out the cloth and tailor and can not produce the line of running. The utility model discloses silk socks that various forms were easily tailor into to the silk socks, long service life, its structural design is reasonable, and the principle is simple, convenient to popularize and use.

Drawings

FIG. 1 is a schematic diagram of a knitting yarn structure with spandex covered yarn for each knitting path;

FIG. 2 is a schematic view of a knitting structure of spandex covered yarn for separating roads;

FIG. 3 is a schematic view of a knitting yarn structure in which spandex and chinlon are arranged up and down;

fig. 4 is a schematic view of an ultra-thin anti-slip pantyhose.

The reference numerals in the schematic drawings illustrate:

1. weaving spandex threads; 2. nylon knitting yarns; 3. the intersection point.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples.

The structure, ratio, size and the like shown in the drawings of the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention does not have the substantial significance in the technology, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy which can be produced by the present invention and the achievable purpose. In addition, the terms "upper", "lower", "left", "right" and "middle" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

In the traditional silk stocking cloth, the cloth weaving structure for the silk stockings mainly adopts the following two modes: each weaving line adopts spandex coated yarn, and adopts a hook-connected and series-sleeved weaving mode of adjacent weaving lines, as shown in figure 1; every other weaving line adopts chinlon weaving lines, the other weaving lines adopt spandex covered yarns, and the adjacent weaving lines adopt a hook-connected and string-sleeved weaving mode, as shown in figure 2. The spandex covered yarn adopts a mode of covering spandex with chinlon, and yarns woven by chinlon and spandex are twisted into a covered yarn by winding. In the weaving structure of the traditional silk stockings, spandex forms wrapping yarn without anti-skidding effect, the woven silk stockings are often required to be provided with rib openings, the weaving process of the silk stockings is increased, and the rib openings are easy to cause the condition of tightening feet.

Example 1

With reference to fig. 3, the ultra-thin anti-slip silk stocking of the present embodiment adopts a multi-path weft knitting method to perform fabric knitting. Each weaving line of the cloth comprises a spandex weaving line 1 and a chinlon weaving line 2 which are parallel, and the adjacent weaving lines of the two paths are sequentially hooked to form a coil to carry out serial-sleeve weaving. In each path of knitting line, the spandex knitting line 1 and the chinlon knitting line 2 are arranged up and down, and after the knitting is finished, the cloth is subjected to heat setting.

In order to provide the silk stockings with both good air permeability and sufficient strength, the denier of the spandex yarn 1 is not higher than 20D, the denier of the nylon yarn 2 is not higher than 12D, and the denier of the spandex yarn 1 is required to be larger than the denier of the nylon yarn 2. The denier is a measure of the weight of the knitted yarn per unit length, i.e., the letter D defines the thickness of the knitted yarn, and the lower the value of D of the knitted yarn, the better the air permeability of the resulting hosiery, and the greater the value of D, the greater the thickness of the resulting hosiery.

By way of further limitation, it may be further required that the denier of the spandex thread 1 is 12D to 20D, the denier of the nylon thread 2 is 6D to 12D, and the denier of the spandex thread 1 is higher than the denier of the nylon thread 2 by 5D or more.

For example, 8D or 10D nylon filament is matched with 15D spandex filament; for another example, 10D or 12D nylon filament is matched with 20D anti-run spandex. The combination of the thick and thin spandex threads 1 and the nylon threads 2 ensures that the ultrathin antiskid silk stockings in the embodiment have good elasticity, high strength, lightness, thinness and air permeability.

Further, in this embodiment, two adjacent knitting yarns are overlapped with each other by hooking to form a cross point 3, and the cross point 3 is bonded by heat setting.

The spandex thread 1 can be adhered to the nylon thread 2 after heat setting, and the lower surface of the spandex thread 1 is adhered to the upper surface of the nylon thread 2 in a heat setting mode, so that the structure of the spandex thread 1 and the nylon thread 2 which are arranged up and down is fixed.

When the silk stockings are worn, the surface of the spandex knitted line 1 is worn as the inner lining of the silk stockings, so that the friction force between the inner lining of the silk stocking cloth and the skin of a human body is increased, and the anti-skidding effect is achieved. Because the anti-skidding silk socks of this embodiment can laminate with the foot well, when wearing silk socks and shoes, can reach the effect that the shoes were worn to the light foot, can have the effect that prevents shoes and drop when the walking. The silk stockings of this embodiment can reach tight and non-slip effect when wearing, therefore this ultra-thin anti-skidding silk stockings can be applied to the silk stockings of various heights, both can be the panty hose and also can be to multiple forms such as the higher well stocking or long stocking or socks or ankle socks of antiskid requirement, silk stockings also can not set up the rid cuff.

In the ultrathin anti-skidding silk stockings, the spandex serves as an inner lining to play an anti-skidding role, and the chinlon can increase the wear resistance of the silk stockings.

In the knitting process of the structure of the silk stocking, after two adjacent knitting lines are hooked, a cross point 3 formed by mutual overlapping is formed, and the cross point 3 forms a bulge on the surface of the silk stocking cloth due to the overlapping of the knitting lines, so that the silk stocking is easily and independently stretched by external force to cause the silk hooking of the cloth when in use. In order to make the connection of the threads more secure, the present embodiment is heat-set to the crossing points 3. The silk stockings adhered to the cross points 3 can reduce the probability of line hooking of the silk stockings, prevent the line running of the silk stocking cloth during cutting, and can realize cutting of the silk stockings into silk stockings in other forms such as stocking and the like. The embodiment prolongs the service life of the anti-skid silk stockings and enriches the forms of the anti-skid silk stockings.

Example 2

Because of the adoption of the anti-run spandex with low melting point, the operation temperature during heat setting of the embodiment can be lower than the heat setting temperature of the traditional silk stockings, the interval of the heat setting temperature is preferably 118-130 ℃, and the time is 10-15 seconds.

After heat setting, the surface wrinkles of the silk stocking cloth can be eliminated, the stability of the silk stockings in the long-term use process is ensured, the adhesion of the anti-run spandex and the chinlon can be realized, and the adhesion effect of the anti-run spandex and the chinlon is good. The cross points 3 formed by mutual overlapping of two adjacent knitting threads of the silk stockings are formed after the two adjacent knitting threads are hooked, so that the silk stockings are easily stretched independently by external force when in use, and the silk hooking of the cloth occurs. The heat setting of the embodiment can also adhere the cross points 3, thereby improving the capability of the silk stockings for resisting the silk hooking and avoiding the situation that the silk stockings are continuously loosened.

When the silk stockings are processed, the specific step sequence can be adjusted according to the production requirement.

The first step proceeds to step S1: and (5) weaving.

The cloth is knitted by adopting a multi-path knitting line weft knitting mode, and with reference to a figure 3, each path of knitting line of the cloth comprises a spandex knitting line 1 and a nylon knitting line 2 which are parallel, knitting lines are brought into the knitting lines by knitting needles of the weft knitting machine to form a coil, a crochet hook carries the knitting lines to sequentially penetrate the coil formed by the last needle to form a new layer of coil, and the knitting lines are mutually hooked and sleeved in series to form a silk stocking sock cylinder in a circulating mode, and in each path of knitting line, the spandex knitting line 1 and the nylon knitting line 2 are arranged up and down in a direction perpendicular to the direction of knitting the cloth.

The denier number of the spandex thread 1 selected in the weaving is not higher than 20D, the denier number of the nylon thread 2 is not higher than 12D, and the denier number of the spandex thread 1 is required to be larger than that of the nylon thread 2. As an optimization, the denier of the spandex thread 1 may be required to be 12D to 20D, the denier of the nylon thread 2 may be required to be 6D to 12D, and the denier of the spandex thread 1 may be required to be higher than the denier of the nylon thread 2 by 5D or more. The thick and thin spandex knitting threads 1 and the nylon knitting threads 2 are matched for use, so that the silk stockings are lighter, thinner and breathable while elasticity and strength of the silk stockings are ensured.

In the embodiment, the knitting adopts reverse weft knitting, namely the reverse side of the silk stocking processed by the knitting technology is outside, and the reverse side is the lining surface of the silk stocking and is worn as the surface contacting with the skin of a human body.

Because the spandex is high in elasticity and high in flexibility, when a thin weaving line is selected, the tension of the weaving line can fluctuate unevenly in the weaving process. In the embodiment, the spandex yarn feeder capable of uniformly controlling the tension of the knitting yarn is additionally arranged in the knitting step and used for controlling the tension of the spandex knitting yarn 1 in the knitting process, so that the improvement of the knitting quality is facilitated.

In order to facilitate the processing of the silk stockings, rib openings or temporary anti-falling rib openings can be sewn on the silk stockings according to requirements in the weaving process. The arranged rib openings or the temporary anti-falling rib openings can be removed in the subsequent steps according to the needs.

The second step proceeds to step S2: and (6) sewing the head.

The sewing of the toe requires the sewing of one end of the toe of the silk stocking leg with a sewing machine, so as to form a closed toe on the leg. The back side of the silk stockings is required to be sewn outside when the sewing is carried out, and the weaving process is finished because the back side of the silk stockings is woven in the step S1, so that the back side of the silk stockings is required to be outside, and the operation of turning the silk stockings before the sewing is not required.

The third step is to perform step S3: and (6) dyeing.

Dyeing is a process for coloring silk stockings, and the silk stockings are required to be placed into a dyeing device, and added with dye and a fixing agent, so that finished color silk stockings are obtained. After dyeing, the silk stockings need to be dried so as to facilitate subsequent process steps.

The fourth step includes step S4: and (6) shaping.

The heat setting is adopted for the setting of the embodiment. After the shaping is finished, the spandex knitting yarns 1 and the chinlon knitting yarns 2 are adhered, so that the structures of the spandex knitting yarns 1 and the chinlon knitting yarns 2 which are arranged up and down are fixed, and in the shaping process, the spandex knitting yarns and the chinlon knitting yarns can be matched to be stretched to eliminate surface wrinkles of the silk stocking fabric.

The heat-setting step can be further modified. Because the anti-run spandex with the low melting point is adopted, the operation temperature during heat setting can be lower than the heat setting temperature of the traditional silk stockings, so that the wrinkles on the surface of the silk stockings cloth can be eliminated by the heat setting, the stability of the silk stockings in the long-term use process can be ensured, the adhesion of the anti-run spandex and the chinlon can be realized, and the adhesion effect of the anti-run spandex and the chinlon is good. The heat setting temperature range is preferably 118-130 ℃, and the time is 10-15 seconds.

The cross points 3 formed by mutual overlapping of two adjacent knitting threads of the silk stockings are formed after the two adjacent knitting threads are hooked, so that the silk stockings are easily stretched independently by external force when in use, and the silk hooking of the cloth occurs. The heat setting of the embodiment can also adhere the cross points 3, thereby improving the capability of the silk stockings for resisting the silk hooking and avoiding the situation that the silk stockings are continuously loosened.

The fifth step goes to step S5: reversed socks.

In the socks step of turning over, thereby overturn the leg of a stocking through turning over the socks device and change the inside and outside of silk socks, be about to in the inside lining upset outside to specifically in this embodiment, reach the positive and negative effect of silk socks when being fit for dressing.

Example 3

The embodiment can be used for processing various types of silk stockings.

As shown in figure 4, when the pantyhose are produced, the crotch splicing process is added to realize the processing deformation of the ultrathin antiskid silk stockings from the leg to the pantyhose. Specifically, the leg and the crotch are generally sewn together to form a portion below the waist of the pantyhose, and then the waist, the leg and the crotch are sewn together to form a unitary body, thereby obtaining the pantyhose.

When producing socks or ankle socks, can also carry out the tailoring technology, use and tailor the device and tailor the leg of a stocking, form the leg of a stocking of shorter socks or ankle socks.

Effect contrast test analysis

This contrast test compares under the same condition the utility model discloses with the antiskid nature of other four kinds of silk socks in the use, thereby prove the utility model discloses outstanding anti-skidding effect has.

Because panty hose's silk socks form has waist and crotch portion, is supported by human crotch portion when wearing, is difficult to compare the anti-skidding performance of silk socks, should will to the test the utility model discloses a panty hose is tailor with other four kinds of panty hoses with the size, keeps 90% of panty hose leg portion as the leg of a stocking, obtains a stocking that does not take the rid cuff. The stockings obtained do not have the rib tops, so the anti-skid effect of the silk stockings of the utility model and other four kinds of silk stockings is completely determined by the anti-skid property of the silk stockings.

The test selects a model to try on, the model is the same model, the height of the model is 165cm, the weight of the model is 49kg, and the silk stockings of the utility model and the silk stockings of comparison 1-4 can be normally worn. The comparison tests were divided into four groups, all performed independently, each group being compared separately. In the test, the left leg of the model is sequentially worn with samples 1-4 according to groups, and the right leg is worn with the silk stockings of the utility model. The model needs to walk continuously in the testing process, and the set testing time is 5 minutes.

The following table shows the results of comparative testing:

and (3) comparison test analysis:

the silk stockings adopted in the comparison test are the cut stocking of the panty hose, so the silk stockings in the comparison test have no rib top, and the anti-skid performance of the silk stockings in the comparison test can be ensured to depend on the weaving structure and the processing method of the silk stockings.

In the test of four groups, the utility model discloses a silk socks all do not appear the phenomenon of gliding at the model walking in-process. And the four silk stockings participating in comparison have severe gliding phenomenon, and have all appeared the condition that welt department hem and drive silk stocking gliding, at last because the gliding of hem rolls and causes the hem thickness to increase and make silk stocking tighten the shank just stop gliding.

And (4) comparing test conclusions:

can discover the silk socks of comparison and will appear obvious welt department turn-ups because the antiskid effect is not enough when wearing, this turn-up can drive silk socks gliding and tighten the shank gradually along with the walking of model in the test, the utility model discloses a silk socks do not have obvious turn-up when the dress.

The utility model discloses a silk stocking still can guarantee to wear when walking under the condition that does not set up the rid cuff and does not have the gliding phenomenon, and other four kinds of silk stockings that participate in the comparison can appear obvious gliding when wearing the walking under the condition that does not set up the rid cuff to the turn-up that produces in the welt department of silk stocking constantly drives silk stocking gliding, turn-up thickness constantly increases, and the tight shank of final turn-up tightening has just stopped the gliding.

The left leg of the model is worn as the silk stockings of the samples 1-4 compared in the test, and the right leg is worn as the silk stockings of the utility model according to the results of the above four groups of tests. In the contrast test, the anti-skid performance of the silk stockings of the utility model is obviously superior to that of the four kinds of common silk stockings compared by the test. Four kinds of comparison silk socks have all appeared the turn-ups and have driven silk socks constantly to slide down in the test in silk socks welt department, and the turn-up rolls and causes thickness constantly to increase, finally tightens the shank and has stopped the gliding, and this kind of turn-up tightens the shank and can cause the blood circulation of shank not smooth, thereby can appear the obvious mark of tightening of shank even seriously influencing the comfort level that the silk socks were worn.

The utility model discloses a silk socks have outstanding anti-skidding effect, can not appear silk socks turn-up gliding and cause to tighten the shank and bring the discomfort to can need not set up the rid cuff.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (9)

1. An ultra-thin anti-skidding silk socks which characterized in that: each weaving line of the silk stocking fabric comprises a spandex weaving line (1) and a chinlon weaving line (2) which are parallel, the adjacent weaving lines of the two paths are sequentially hooked and strung to weave, the spandex weaving lines (1) and the chinlon weaving lines (2) are vertically arranged in the direction perpendicular to the direction of weaving the fabric, and the surface where the spandex weaving lines (1) are located serves as the inner lining surface of the silk stocking after heat setting.

2. The ultra-thin anti-slip silk stocking of claim 1, wherein: the denier number of the spandex knitting line (1) is not higher than 20D, the denier number of the nylon knitting line (2) is not higher than 12D, and the denier number of the spandex knitting line (1) is larger than that of the nylon knitting line (2).

3. The ultra-thin anti-slip silk stocking according to claim 2 is characterized in that the denier of the spandex knitted thread (1) is 12-20D, and the denier of the nylon knitted thread (2) is 6-12D.

4. The ultra-thin anti-slip silk stocking of claim 2, wherein: the denier of the spandex yarns (1) is higher than that of the chinlon yarns (2) by more than 5D.

5. The ultra-thin anti-slip silk stocking of claim 1, wherein: two adjacent weaving lines are mutually overlapped through hooking to generate a cross point (3), and the cross point (3) is adhered after heat setting.

6. The ultra-thin anti-slip silk stocking of claim 1, wherein: the lower surface of the spandex knitting line (1) is adhered to the upper surface of the chinlon knitting line (2) after heat setting.

7. The ultra-thin anti-slip silk stocking according to any one of claims 1 to 6, wherein: the spandex threads (1) are made of anti-run spandex materials, and the nylon threads (2) are nylon filaments.

8. The ultra-thin anti-slip silk stocking of claim 1, wherein: the silk stockings are silk stockings with or without rib tops.

9. The ultra-thin anti-slip silk stocking of claim 1, wherein: the silk stockings are panty stockings or mid-stockings or stocking or socks or ankle socks.

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