CN209798197U - Antistatic carbon black fiber filament - Google Patents

Abstract

An antistatic carbon black fiber filament relates to the technical field of fibers, in particular to an antistatic carbon black fiber filament. The metal fiber monofilament, the textile fiber monofilament and the conductive fiber monofilament are wound into a hollow spiral structure, the conductive fiber monofilament penetrates through the hollow spiral structure formed by the metal fiber monofilament and the textile fiber monofilament, the metal fiber monofilament, the textile fiber monofilament and the conductive fiber monofilament are wound into a whole, and the diameter of the cross section of the conductive fiber monofilament is 25-40 mu m. After the technical scheme is adopted, the utility model discloses beneficial effect does: the carbon black fiber filament yarn winding device is simple in structure and reasonable in design, metal fiber monofilaments and textile fiber monofilaments are wound on the carbon black fiber monofilaments in a crossed mode, the antistatic capacity of the fiber filament yarn can be effectively enhanced, and the use experience degree of the fiber filament yarn is improved.

Description

Antistatic carbon black fiber filament

Technical Field

The utility model relates to the technical field of fiber, concretely relates to antistatic carbon black fiber filament.

Background

Filaments, also known as continuous filaments, are a class of chemical fiber forms. The filaments are continuous long strands. In the manufacturing process of chemical fibers, spinning fluid is continuously extruded from a spinneret orifice, is cooled by air or is solidified into filaments in a solidification bath to form continuous filaments, and then is subjected to post-processing procedures such as stretching, twisting or deformation for further processing and application. The filaments thus produced have lengths of several kilometers or tens of kilometers, both monofilament and multifilament. Chemical fiber filaments are commonly used in various clothing, apparel, and other industrial sectors.

The fiber filament is commonly used for spinning ready-made clothes, the textile is easy to generate static electricity due to friction and induction in the production, processing and using processes, the resistivity of the conventional fiber material is over 1010 omega cm, and generated charges are not easy to dissipate. The presence of such static electricity directly affects the use properties of the textile: as raw materials, the yarns can cause fiber winding or machine part blockage in the process of processing into yarns, and the smooth production is influenced by unclear opening of warps and uneven folding of fabrics in weaving. When the fabric with static electricity is used, dust is easy to adhere due to accumulation of static charge, and the clothes adhere to limbs and are easy to cause discomfort; and can cause the increase of the pH value of blood, the decrease of the calcium content in blood, the increase of the calcium content in urine, the increase of blood sugar and the decrease of the vitamin C content. In addition, high static electricity can also generate electric shock to the human body and cause damage to electronic components; electromagnetic radiation generated by electrostatic discharge can also cause electromagnetic interference to such delicate electronic instruments and equipment, thereby affecting their normal use.

The harm of static electricity to human bodies is gradually paid attention to by people, along with the enhancement of health consciousness of people, the antistatic property of fiber filaments is more and more concerned by people, but the antistatic property of the existing fiber filaments is poorer.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an antistatic carbon black fiber filament to prior art's defect and not enough, it can solve present fiber filament at the relatively poor defect of antistatic ability.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the metal fiber monofilament, the textile fiber monofilament and the conductive fiber monofilament are wound into a hollow spiral structure, the conductive fiber monofilament penetrates through the hollow spiral structure formed by the metal fiber monofilament and the textile fiber monofilament, the metal fiber monofilament, the textile fiber monofilament and the conductive fiber monofilament are wound into a whole, and the diameter of the cross section of the conductive fiber monofilament is 25-40 mu m.

Furthermore, the conductive fiber monofilament is a carbon black fiber monofilament or a carbon black mixed fiber monofilament.

Furthermore, a plurality of protrusions are formed outwards in the circumferential direction of the circular cross section of the textile fiber monofilament, the protrusions are evenly arranged in the circumferential direction of the circular cross section of the textile fiber monofilament, and the protrusions are semicircular.

Furthermore, 8-16 bulges are formed outwards in the circumferential direction of the circular cross section of the textile fiber monofilament.

Furthermore, the textile fiber monofilament is one or more of polyester fiber, polyamide fiber, polyvinyl chloride fiber, acrylic fiber, vinylon fiber, polypropylene fiber, aramid fiber, polytetrafluoroethylene fiber, polyimide fiber, polyphenylene sulfide fiber, glass fiber and basalt fiber.

Furthermore, the metal fiber monofilament is formed by blending stainless steel metal fibers and pure cotton fibers.

The utility model discloses a theory of operation: the metal fiber has good antistatic performance and high conductivity, the static charge dissipation capacity is strong, static electricity is not easy to generate, the generated static electricity is easy to dissipate, the accumulation of the static electricity is avoided, meanwhile, the metal fiber also has an electromagnetic shielding function, the human body can be protected from being invaded by electromagnetic waves, and in addition, the metal fiber also has strong antibacterial property, excellent corrosion resistance, sweat resistance, acid and alkali resistance; the carbon black fiber has good electric conduction and heat conduction performance and good electromagnetic shielding performance, can eliminate static electricity through electronic conduction and corona discharge, has good antistatic effect, and is almost permanent; meanwhile, the metal fiber monofilament and the textile fiber monofilament are spirally wound on the carbon black fiber monofilament, so that the antistatic capacity of the fiber filament can be effectively enhanced.

After the technical scheme is adopted, the utility model discloses beneficial effect does: the carbon black fiber filament yarn winding device is simple in structure and reasonable in design, metal fiber monofilaments and textile fiber monofilaments are wound on the carbon black fiber monofilaments in a crossed mode, the antistatic capacity of the fiber filament yarn can be effectively enhanced, and the use experience degree of the fiber filament yarn is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of the present invention;

Fig. 2 is a schematic cross-sectional structure of the present invention;

Fig. 3 is a schematic cross-sectional structure diagram of the monofilament of the textile fiber of the present invention.

Description of reference numerals: metal fiber monofilament 1, textile fiber monofilament 2, conductive fiber monofilament 3 and protrusion 21.

Detailed Description

Referring to fig. 1 to fig. 3, the technical solution adopted by the present embodiment is: it comprises a metal fiber monofilament 1, a textile fiber monofilament 2 and a conductive fiber monofilament 3, wherein the metal fiber monofilament 1 and the textile fiber monofilament 2 are interwoven and wound into a hollow spiral structure, the conductive fiber monofilament 3 passes through a hollow spiral structure formed by the metal fiber monofilament 1 and the textile fiber monofilament 2, the metal fiber monofilament 1, the textile fiber monofilament 2 and the conductive fiber monofilament 3 are wound into a whole, after the conductive fiber monofilament 3 passes through a hollow spiral structure formed by the metal fiber monofilament 1 and the textile fiber monofilament 2, the three are tightly connected into a whole, and through the high conductivity of the metal fiber monofilament 1 and the conductive fiber monofilament 3, therefore, the antistatic capacity of the fiber filament is improved, the diameter of the cross section of the conductive fiber monofilament 3 is 25-40 μm, and in specific implementation, the diameter of the cross section of the conductive fiber monofilament 3 is 30 μm.

The conductive fiber monofilament 3 is a carbon black fiber monofilament or a carbon black mixed fiber monofilament, and in the specific implementation, the carbon black fiber monofilament is preferably selected, and has the advantages of high cost performance, light weight, adjustable conductivity and the most wide application.

The textile fiber monofilament comprises textile fiber monofilaments 2 and conductive fiber monofilaments 3, and is characterized in that a plurality of protrusions 21 are outwards formed in the circumferential direction of the circular cross section of each textile fiber monofilament 2, the protrusions 21 are evenly arranged in the circumferential direction of the circular cross section of each textile fiber monofilament 2, each protrusion 21 is semicircular, 8-16 protrusions 21 are outwards formed in the circumferential direction of the circular cross section of each textile fiber monofilament 2, and the textile fiber monofilaments 2 can be firmly and tightly connected with the metal fiber monofilaments 1 and the conductive fiber monofilaments 3 into a whole by evenly arranging the protrusions 21 in the circumferential direction of the circular cross section of each textile fiber monofilament 2.

the textile fiber monofilament 2 is one or more of polyester fiber, polyamide fiber, polyvinyl chloride fiber, acrylic fiber, vinylon fiber, polypropylene fiber, aramid fiber, polytetrafluoroethylene fiber, polyimide fiber, polyphenylene sulfide fiber, glass fiber and basalt fiber.

The metal fiber monofilament 1 is formed by blending stainless steel metal fibers and pure cotton fibers.

The metal fiber monofilament 1 has good antistatic performance and high conductivity, has strong static charge dissipation capacity, is not easy to generate static electricity, can dissipate the generated static electricity easily, avoids the accumulation of the static electricity, has an electromagnetic shielding function, can protect a human body from being invaded by electromagnetic waves, and has strong antibacterial property, excellent corrosion resistance, sweat resistance and acid and alkali resistance; the carbon black fiber monofilament has good electric conduction and heat conduction performance and good electromagnetic shielding performance, can eliminate static electricity through electronic conduction and corona discharge, has good antistatic effect, and is almost permanent; meanwhile, the metal fiber monofilament 1 and the textile fiber monofilament 2 are spirally wound on the carbon black fiber monofilament, so that the antistatic capacity of the fiber filament can be effectively enhanced.

the above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. An antistatic carbon black fiber filament characterized in that: the metal fiber monofilament, the textile fiber monofilament and the conductive fiber monofilament are wound into a hollow spiral structure, the conductive fiber monofilament penetrates through the hollow spiral structure formed by the metal fiber monofilament and the textile fiber monofilament, the metal fiber monofilament, the textile fiber monofilament and the conductive fiber monofilament are wound into a whole, and the diameter of the cross section of the conductive fiber monofilament is 25-40 mu m.

2. An antistatic carbon black fiber filament according to claim 1, wherein: the conductive fiber monofilament is a carbon black fiber monofilament or a carbon black mixed fiber monofilament.

3. An antistatic carbon black fiber filament according to claim 1, wherein: the spinning fiber monofilament comprises a spinning fiber monofilament, wherein a plurality of protrusions are formed outwards in the circumferential direction of the circular cross section of the spinning fiber monofilament, the plurality of protrusions are uniformly arranged in the circumferential direction of the circular cross section of the spinning fiber monofilament, and the protrusions are semicircular.

4. An antistatic carbon black fiber filament according to claim 3, wherein: 8-16 bulges are formed outwards on the circumferential direction of the circular cross section of the textile fiber monofilament.

5. An antistatic carbon black fiber filament according to claim 1, wherein: the textile fiber monofilament is one or more of polyester fiber, polyamide fiber, polyvinyl chloride fiber, acrylic fiber, vinylon fiber, polypropylene fiber, aramid fiber, polytetrafluoroethylene fiber, polyimide fiber, polyphenylene sulfide fiber, glass fiber and basalt fiber.

6. An antistatic carbon black fiber filament according to claim 1, wherein: the metal fiber monofilament is formed by blending stainless steel metal fibers and pure cotton fibers.