JP6867672B2 - Double Russell knitted fabric with anti-slip function and antistatic function - Google Patents

Description

The present invention relates to a double Russell knitted fabric having an anti-slip function and an antistatic function, and is particularly suitable for use as an insole for antistatic shoes (hereinafter referred to as "electrostatic shoes"). It is about.

The double Russell knitted fabric is composed of an outer material, a lining, and a connecting yarn connecting the two, and is also called a three-dimensional knitted fabric. Therefore, it is used as a cushioning material because of its breathability, water permeability, bulkiness, and elasticity due to the vertically standing connecting yarn. However, since the surface of the double Russell knitted fabric is composed of a knitted yarn made of a synthetic resin multifilament or a monofilament, it may be slippery.

Therefore, the applicant has proposed a double Russell knitted fabric having a non-slip function by forming a foamed synthetic resin film on the outer or lining surface of the double Russell knitted fabric (Patent Document 1). Then, when I tried to use this double Russell knitted fabric as an insole for shoes, I found that the insole is difficult to move in the shoe, it is comfortable to wear, there is less stuffiness in the foot, and it can be used as a comfortable insole. confirmed.

Japanese Patent No. 4919855

Furthermore, when the applicant tried to use the above double Russell knitted fabric as an insole for safety shoes and electrostatic shoes, it was found that it could be used for safety shoes but not for electrostatic shoes. .. Electrostatic shoes have a conductive sole, which leaks static electricity generated on the human body from the sole to the ground surface to prevent the human body from being charged and prevent fires and explosions due to static electricity sparks from the human body. It is a thing. However, since the double Russell knitted fabric has a space between the outer material and the lining, it is found that the double Russell knitted fabric is insulated by this space and static electricity does not leak from the sole, and does not function as an electrostatic shoe. Therefore, an object of the present invention is to provide a double Russell knitted fabric that does not impair the function of the electrostatic shoe even when applied to the insole of the electrostatic shoe.

That is, the present invention is composed of an outer material and a lining, and a connecting thread connecting the outer material and the lining, and at least one of the outer material and the lining is a mesh having a substantially hexagonal shape or a substantially diamond-shaped watermark. In the double Russell knitted fabric which is a texture, the conductive synthetic resin film is present in a state of covering the knitting yarns constituting the mesh structure, and the watermarks constituting the mesh structure are present. There is no conductive synthetic resin film at the site, at least a part of the connecting yarn is a conductive connecting yarn, and the conductive connecting yarn is entwined with the knitting yarn constituting the outer material and the lining. The present invention relates to a double Russell knitted fabric having an anti-slip function and an antistatic function, which is exposed on the surfaces of the outer material and the lining and is in contact with the conductive synthetic resin film.

The double Russell knitted fabric according to the present invention is knitted by a double Russell knitting machine and is composed of an outer material, a lining, and a connecting yarn connecting both of them, which is well known in the past. There are various types of double Russell knitted fabrics as the knitting structure of the outer material and the lining. For example, a knitting yarn knitted with two or more chain knitting yarns having a mesh-like structure having a substantially hexagonal or substantially diamond-shaped watermark, or a plain knitting yarn knitted with a chain knitting yarn and an insertion yarn. Some are from organizations. In the present invention, the mesh-like structure described above is adopted for either or both of the outer material and the lining. For example, a mesh-like structure may be adopted for the outer material and a plain structure may be adopted for the lining, and vice versa. Further, a mesh-like structure may be adopted for both the outer material and the lining.

In the double Russell knitted fabric according to the present invention, the outer material and the lining are knitted by knitting a multifilament yarn or the like. It is preferable to mix the binder yarn in the knitting yarn of the outer material and / or the lining. As the binder yarn, a low melting point fusion fiber is used. For example, a core-sheath type fiber having a low melting point component as a sheath and a high melting point component as a core is used. As a combination of the low melting point component and the high melting point component, low melting point polyester / high melting point polyester, low melting point nylon / high melting point nylon and the like are used. Specifically, the product names "Melset" (manufactured by Unitika Ltd.), "Cornetta" (manufactured by Unitika Trading Co., Ltd.), "Flor M" (same as above) and the like are used. When the binder yarn is mixed, the filaments constituting the knitting yarn of the outer material and / or the lining are fused by heat treatment. This has the advantage that the morphological stability of the outer material and / or the lining is improved, and thus the morphological stability of the entire double Russell knitted fabric is also improved.

In the present invention, a conductive synthetic resin film is formed in contact with the knitting yarn surface of the outer material and / or the lining which has a mesh-like structure. Therefore, the conductive synthetic resin film or other synthetic resin film is not formed at the watermarks having a substantially hexagonal shape or a substantially rhombic shape in which no knitting yarn is present. This is because when a synthetic resin film is formed on the watermark, the water permeability and air permeability that are the characteristics of the double Russell knitted fabric are reduced. Further, when both the outer material and the lining have a mesh-like structure, the conductive synthetic resin film may be formed on either the outer material or the lining, or may be formed on both the outer material and the lining. May be good.

The conductive synthetic resin film is preferably a conductive foamed synthetic resin film. The foamed synthetic resin film is a synthetic resin film having air bubbles inside. The bubbles may be formed in any way, but it is particularly preferable to use heat-expandable microcapsules and expand them. That is, by heating the heat-expandable microcapsules to expand the outer shell of the microcapsules, the inclusion portion of the expanded microcapsules becomes bubbles. Further, even when the microcapsules expand and the outer shell is torn, if the contained gas remains in the synthetic resin film, it becomes a bubble.

There are various methods for imparting conductivity to the synthetic resin film, but generally, a method of mixing a conductive agent in the synthetic resin film is adopted. As the conductive agent, conventionally known ones are used, and for example, carbon black or the like is used. In addition, a conductive polymer may be used as the synthetic resin to impart conductivity to the synthetic resin film.

In the present invention, the outer material and the lining are connected by a conductive connecting yarn, and the conductive connecting yarn is entwined with the knitting yarns constituting the outer material and the lining, and as a result, is exposed on the surfaces of the outer material and the lining. It has become. Therefore, when the conductive synthetic resin film is formed on the outer material and / or the lining surface having a mesh-like structure, the conductive connecting yarn is in contact with the conductive synthetic resin film. As for the conductive connecting yarn, all the connecting yarns connecting the outer material and the lining may be conductive connecting yarns, or some connecting yarns may be conductive connecting yarns and others may be non-conductive connecting yarns. .. For example, in all the connecting yarns, 10 to 50% of them may be conductive connecting yarns. As the conductive connecting yarn, a conventionally known conductive yarn is used, and for example, a monofilament yarn or a multifilament yarn kneaded with carbon black is used. In particular, in order to have both rigidity and conductivity as a connecting yarn, a non-conductive monofilament yarn is used as a core yarn, and the sheath yarn is composed of a conductive yarn composed of a multifilament yarn surrounding the surface of the core yarn. It is preferable to use a conductive thread.

The conductive synthetic resin film is provided in a state of being in contact with the knitting yarn constituting the mesh-like structure and the conductive connecting yarn entwined with the knitting yarn. It is preferable that the conductive foamed synthetic resin film is formed in such an manner. That is, it is preferable that the knitting yarn constituting the mesh-like structure is provided so as to substantially surround the knitting yarn. Here, substantially surrounding the knitting yarn means that the surface of the knitting yarn constituting the outer material and / or the lining is completely covered, and a part of the knitting yarn wraps around to the back surface of the knitting yarn. Further, a cavity is provided between the surface of the knitting yarn and the conductive foamed synthetic resin film, and the conductive foamed synthetic resin film wrapping around the back surface of the knitting yarn is in a state of being bonded to the knitting yarn. Is. Therefore, the conductive foamed synthetic resin film is in contact with the knitting yarn and the conductive connecting yarn entwined with the knitting yarn without falling off from the knitting yarn while holding a cavity between the knitting yarn and the surface of the knitting yarn. -ing Further, in this case, the conductive foamed synthetic resin film that wraps around the back surface of the knitting yarn may be in contact with the conductive connecting yarn.

A preferable method for forming the conductive foamed synthetic resin film in the above-mentioned state on the double Russell knitted fabric is as follows. First, an aqueous resin emulsion containing a conductive agent and heat-expandable microcapsules is prepared. As the conductive agent, for example, carbon black is used. The heat-expandable microcapsules are plastic microspheres (particle size: about 10 to 30 μm) in which a liquid substance that gasifies when heated is encapsulated in a shell wall of a thermoplastic resin, and the shell is heated. The gas pressure inside the wall increases, and at the same time, the shell wall of the thermoplastic resin softens and expands. As the liquid substance that gasifies when heated, an organic solvent such as a low boiling point hydrocarbon or an aromatic hydrocarbon, or a decomposition gas generating substance such as a hideout compound or a hydrazide compound is used. In the case of an organic solvent, it is volatilized and gasified by heating. Further, when the decomposed gas generating substance is heated, the compound is decomposed to generate carbon dioxide gas, nitrogen gas and the like and gasify. Specific examples of the thermally expandable microcapsules used are Expandel (manufactured by Kema Nobel), Microsphere F50, Microsphere F60 (manufactured by Matsumoto Yushi Pharmaceutical Co., Ltd.), and Advansel EM (manufactured by Sekisui Chemical Co., Ltd.) ) Etc. are used. Further, a forming binder STR728 (manufactured by Matsui Dye Chemical Industry Co., Ltd.) in which an aqueous synthetic resin emulsion and a heat-expandable microcapsule are mixed in advance can also be used.

Examples of the aqueous resin emulsion include vinyl acetate homopolymer emulsion, vinyl acetate copolymer emulsion, ethylene-vinyl acetate copolymer emulsion, acrylic emulsion, acrylic-styrene copolymer emulsion, vinylidene chloride emulsion, urethane emulsion, and polyolefin emulsion. Used. When an aqueous resin emulsion is applied and dried, the water content evaporates and the polymer particles aggregate to form a film. An aqueous resin emulsion containing a conductive agent and heat-expandable microcapsules can be easily obtained by adding and mixing a commercially available conductive agent and heat-expandable microcapsules to a commercially available aqueous resin emulsion. At this time, arbitrary components such as a cross-linking agent, a pigment, an antifungal agent, a fragrance, and an antibacterial agent may be added and mixed. The amount of the conductive agent added may be such that when the polymer particles aggregate to form a film, the conductive agents such as carbon black come into contact with each other, and is generally about 5 to 20 parts by mass. The amount of the heat-expandable microcapsules added is arbitrary, but is generally about 0.01 to 2 parts by mass.

An aqueous resin emulsion containing a conductive agent and heat-expandable microcapsules is applied to the surface of the knitting yarn which is the outer material and / or the lining of the double Russell knitted fabric and constitutes the mesh-like structure. The coating amount is appropriately adjusted so that the emulsion sufficiently adheres to the front surface of the knitting yarn and the aqueous resin emulsion does not flow on the back surface. Further, this coating may be applied to the entire surface and / or lining (of course, not to the watermarked portion), or may be partially applied in a striped pattern or a staggered pattern. Here, the viscosity of the aqueous resin emulsion containing the conductive agent and the heat-expandable microcapsules is preferably about 1500 to 20000 cp (25 ° C., measured with a B-type viscometer). If the viscosity is less than 15,000 cp, even if it is applied to the surface of the knitted yarn, the aqueous resin emulsion does not stay on the surface of the knitted yarn and tends to flow to the back surface through the conductive connecting yarn or the like. Further, when the viscosity exceeds 20000 cp, it tends to be difficult to uniformly adhere to the surface of the knitted yarn. The coating on the knitting yarn surface can be performed by a conventionally known method, but it is preferable to retransfer the aqueous resin emulsion transferred to the gravure roll to the knitting yarn surface. By this method, the aqueous resin emulsion can be applied to the surface of the knitting yarn relatively uniformly.

After applying the aqueous resin emulsion, it is introduced into the drying step. The drying temperature is arbitrary, but is generally preferably about 100 to 140 ° C. If the drying temperature is less than 100 ° C., it takes a long time to evaporate water from the aqueous resin emulsion to form a film, and the heat-expandable microcapsules tend not to expand sufficiently. Further, when the drying temperature exceeds 140 ° C., the expansion of the heat-expandable microcapsules precedes the formation of the film by the aqueous resin emulsion, and the surface of the film tends to be fluffy. That is, the drying temperature and the drying time are appropriately adjusted in consideration of the balance between the film formation and the expansion of the microcapsules.

In the preferred method described above, since the water-based resin emulsion is applied to the surface of the knitting yarn of the mesh-like structure, the water-based resin emulsion does not flow in the plane direction but flows to the back surface of the knitting yarn and reaches a part of the connecting yarn. .. As a result, it is possible to reveal a state in which the knitted yarn is substantially surrounded by the conductive foamed synthetic resin film. Further, since the aqueous resin emulsion is used, the film formation is performed by the aggregation of the polymer particles, and the microcapsules expand at the time of this aggregation. Therefore, due to the balance between aggregation and expansion, appropriate bubbles are generated in the synthetic resin film, and the volume of the synthetic resin film itself increases. The conductive foamed synthetic resin film is in a state of substantially surrounding the knitting yarn and is in contact with the conductive connecting yarn on the back surface of the knitting yarn. It is lifted in the opposite direction of the yarn), and a cavity is formed between the conductive foamed synthetic resin film and the surface of the knitting yarn.

The double Russell knitted fabric according to the present invention has a non-slip function and an antistatic function due to the presence of the conductive synthetic resin film and the conductive connecting yarn. Therefore, when this double Russell knitted fabric is cut to match the shape of the sole to form an insole and used for electrostatic shoes, the static electricity charged on the human body is satisfactorily leaked to the ground surface. Therefore, it is suitable as an insole for electrostatic shoes. The double Russell knitted fabric according to the present invention is not limited to the insoles of electrostatic shoes, and can be used for other purposes. For example, it can be laid between the floor and a rug or rug as a cushioning material to prevent the rug or rug from slipping, or applied to the seat or backrest of a chair to prevent slipping when a person sits down. It can also be used as a cushioning material.

When the double Russell knitted fabric according to the present invention is applied so that the conductive synthetic resin film comes into contact with the upper surface of the sole of the electrostatic shoe and the outer material without the conductive synthetic resin film comes into contact with the sole surface. , It has the following effects. That is, the static electricity generated in the human body passes from the sole of the foot to the surface of the lining through the conductive connecting yarn that is entwined with the knitting yarn of the outer material and is exposed on the surface of the outer material, and further passes through the conductive synthetic resin film to be electrostatically charged. Leakage from the sole of the shoe to the ground surface. Therefore, when the double Russell knitted fabric according to the present invention is applied as an insole for electrostatic shoes, the conductivity is good in the thickness direction of the double Russell knitted fabric, and there is an effect that the function of the electrostatic shoes is not impaired. In addition, since it is difficult to move in the electrostatic shoes, it is possible to obtain a comfortable electrostatic shoes that are comfortable to wear and have less stuffiness.

Hereinafter, the present invention will be described based on examples, but the present invention is not limited to the examples. According to the present invention, by providing a conductive synthetic resin film on the surface of a double Russell knitted fabric having a specific structure using a conductive connecting yarn, a double Russell knitted fabric having both a non-slip function and a conductive function in the thickness direction can be obtained. Should be interpreted as being.

Example 1
[Preparation of conductive connecting thread]
The core yarn is No. 1 nylon monofilament yarn, and 28 decitex / 2 filament conductive yarn (manufactured by Unitika Trading Co., Ltd., trade name "Megana E7") is used on the surface of this core yarn, and a bottom twist covering is applied under the condition of 800 T / M. gave. Next, using the above-mentioned conductive yarn, the upper twist covering was applied on the lower twist covering under the condition of 800 T / M. As described above, a conductive connecting yarn whose core yarn surface was coated with a sheath yarn of the conductive yarn was obtained. The total fineness of this conductive connecting yarn is 310 decitex, and the number of filaments is 5 filaments.

[Preparation for double Russell knitted fabric]
The following threads were supplied to _{L 1 to} L ₆ reeds using a double Russell knitting machine equipped with 6 reeds.
L ₁ : 280 denier / 24 filament black original polyester multifilament yarn L ₂ : 280 denier / 24 filament black original polyester multifilament yarn L ₃ : 1 nylon monofilament yarn L ₄ : 1 nylon monofilament yarn and conductive The connecting yarns were supplied in a 5: 1 arrangement.
L ₅ : 280 denier / 24 filament black polyester multifilament yarn L ₆ : 30 count twin yarn low melting point polyester binder yarn

Then, it was organized by the organization shown in FIG. The tissue shown in FIG. 1 is displayed at four tempos as follows.
L ₁ : 211/1122/1201/1211/1011/1211/101222/2122/2322/2122/2322/2122/2322
L ₂ : 1222/2122/2322/2122/2322/2122/2322/2111/1211/101/1211/1011/1211/1011
L ₃ : 2110/1210/1210/1210/1210/1210/1210/1223/1223/2123/2123/2123/2123/2123
L ₄ : 1223/2123/2123/2123/2123/2123/2123/2110/1210/1210/1210/1210/1210/1210
L ₅ : 1112/1110/1112/1110/1112/1111/1112/2221/2223/2221/2223/2221/2223/2221
L ₆ : 2221/2223/22221/2223/22221/2223/2221/1112/1110/1112/1110/1112/1110/1112

The obtained double Russell knitted fabric is a black fabric in which the outer material and the lining are composed of a mesh-like structure having a substantially hexagonal openwork, and the outer material and the lining are connecting yarns (No. 1 nylon monofilament yarn and conductivity). It was connected by a connecting thread). Further, the conductive connecting yarn was entangled with the polyester multifilament yarn of the outer material and the lining, and was exposed on the surface of the outer material and the lining. Then, this was heat-treated under the condition of 160 ° C. and preset to a width of 200 cm. By this heat treatment, the surface of the low melting point polyester binder yarn was melted or softened, and the black original polyester multifilament was fused. As a result, the morphological stability of the lining was improved, and therefore the morphological stability of the entire double Russell knitted fabric was also improved.

[Preparation of aqueous resin emulsion]
An aqueous resin emulsion having the following composition and a viscosity of about 19000 cp was prepared.
Foaming Binder 2 parts by mass [Forming Binder 3DE (Heat-expandable acrylic emulsion manufactured by Matsui Dye Chemical Industry Co., Ltd.)]
76 parts by mass of acrylic resin [Binder 0402E (acrylic resin emulsion manufactured by Matsui Dye Chemical Industry Co., Ltd.)]
Crosslinker 4 parts by mass [Fixer FE (polyethylene urea-based crosslinker manufactured by Matsui Dye Chemical Industry Co., Ltd.)]
11 parts by mass of conductive agent [Lion Paste W311N (Carbon Black-containing paste manufactured by Lion Specialty Chemicals Co., Ltd.]]
Appropriate amount of water

The prepared aqueous resin emulsion was placed in a resin tank, picked up by a gravure roll, and transferred from the gravure roll to the lining of a double Russell knitted fabric. After the transfer, heat treatment was performed under the condition of 130 ° C. to obtain a double Russell knitted fabric having a conductive foamed synthetic resin film on the surface of the knitting yarn of the lining.

Example 2
[Preparation of conductive connecting thread]
The core yarn is No. 1 nylon monofilament yarn, and the surface of this core yarn is covered with a conductive yarn of 28 decitex / 2 filaments (manufactured by Unitica Trading Co., Ltd., trade name "Megana E7") under the condition of 800 T / M. A conductive connecting yarn was obtained. The total fineness of this conductive connecting yarn is 275 decitex, and the number of filaments is 3 filaments.
A double Russell knitted fabric was obtained under the same conditions as in Example 1 except that the above-mentioned conductive connecting yarn was used instead of the conductive connecting yarn used in Example 1.

The double Russell knitted fabric obtained in Examples 1 and 2 is placed on an iron plate, an electrode (“PROSTAT PR801W-5 pounds” manufactured by Prostat Co., Ltd.) is placed on the surface thereof, and the double Russell knitted fabric is formed by the iron plate and the electrode. When the electric resistance value in the thickness direction of the double Russell knitted fabric was measured using an electric resistance measuring device (“PROSTAT PRS801” manufactured by Prostat Co., Ltd.), the one in Example 1 was 2.2 × 10 ⁵ Ω. , and the those of example 2 was 8.0 × 10 ⁵ Ω. Therefore, it can be seen that the double Russell knitted fabric obtained in the examples has good conductivity and allows static electricity to leak satisfactorily.

It is a knitting structure diagram of the tabular Russell knitted fabric adopted in Examples 1 and 2.

Claims (3)

Double Russell, which is composed of an outer material and a lining, and a connecting thread connecting the outer material and the lining, and at least one of the outer material and the lining is a mesh-like structure having a substantially hexagonal or substantially rhombic watermark. In the knitted fabric
A conductive synthetic resin film is present in a state of covering the knitting yarn constituting the mesh-like structure, and a conductive synthetic resin film is present at the watermark portion constituting the mesh-like structure. Without
Wherein at least a portion of the connecting yarn is a core yarn consisting of monofilament yarns, a conductive connecting yarn composed of a formed sheath yarn of a conductive yarn comprising multifilament yarns you surround the core yarn, conductive The sex connecting yarn has a non-slip function characterized in that it is entwined with the knitting yarn constituting the outer material and the lining and is exposed on the surfaces of the outer material and the lining and is in contact with the conductive synthetic resin film. Double Russell knitted fabric with antistatic function. The double Russell knitted fabric having a non-slip function and an antistatic function according to claim 1, wherein the conductive synthetic resin film is a conductive foamed synthetic resin film. An insole of electrostatic shoes in which the double Russell knitted fabric according to claim 1 has the shape of a sole.

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