CN223017088U - An antistatic and environmentally friendly viscose fiber - Google Patents

Abstract

The utility model provides an antistatic environment-friendly viscose fiber which comprises a viscose fiber body, wherein the surface of the viscose fiber body is provided with a bamboo charcoal fiber, the bamboo charcoal fiber is spirally wound on the surface of the viscose fiber body, and the surface of the bamboo charcoal fiber is wrapped with an antistatic layer. The utility model discloses at first set up bamboo charcoal fiber in viscose fiber body with spiral winding's form, bamboo charcoal fiber has excellent antistatic property, many bamboo charcoal fiber get up viscose fiber body's surface parcel, form antistatic skin, thereby play antistatic effect to viscose fiber body formed fabric, and through supporting basic unit and insulating top layer's setting, can further improve viscose fiber body formed fabric holistic antistatic property through insulating top layer, can improve antistatic property greatly, thereby prevent to appear static and lead to causing serious result, whole still has the moisture absorption ventilative, antibacterial characteristics moreover.

Description

Antistatic environment-friendly viscose fiber

Technical Field

The utility model relates to the technical field of viscose fibers, in particular to an antistatic environment-friendly viscose fiber.

Background

Viscose is a chemical fiber, belongs to artificial fiber, is a fiber spun by taking natural high polymer cellulose as a raw material after chemical processing, has the characteristics of high yield, short production period and low cost, is deeply favored by consumers, and is widely applied to the fields of clothing, home textile, non-woven fabric and the like;

However, the antistatic performance of the fabric made of viscose is poor, and under some working scenes which strictly require static isolation, the common viscose fabric cannot be antistatic, so that serious loss is caused and even danger is brought to workers.

Disclosure of utility model

The utility model aims to provide an antistatic environment-friendly viscose fiber for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model provides an antistatic environmental protection viscose fiber, includes viscose fiber body, viscose fiber body's surface is provided with bamboo charcoal fiber, bamboo charcoal fiber is spiral winding at viscose fiber body's surface, bamboo charcoal fiber's surface parcel has antistatic layer, antistatic layer includes supporting basic unit and insulating top layer, insulating top layer sets up in supporting basic unit's surface, supporting basic unit sets up in bamboo charcoal fibrous surface.

Preferably, the bamboo carbon fiber is formed by charring moso bamboo, and the cross section diameter of the bamboo carbon fiber is 2/3~3/4 of the cross section diameter of the viscose fiber body.

Preferably, the support base layer is an elastic fiber layer, and the elastic fiber layer is woven by an air jet loom.

Preferably, the insulating surface layer is a barbai yarn fiber layer, and the barbai yarn fiber layer is arranged on the surface of the elastic fiber layer.

Compared with the prior art, the utility model has the beneficial effects that:

The utility model discloses at first set up bamboo charcoal fiber in viscose fiber body with spiral winding's form, bamboo charcoal fiber has excellent antistatic property, many bamboo charcoal fiber get up viscose fiber body's surface parcel, form antistatic skin, thereby play antistatic effect to viscose fiber body formed fabric, and through supporting basic unit and insulating top layer's setting, can further improve viscose fiber body formed fabric holistic antistatic property through insulating top layer, can improve antistatic property greatly, thereby prevent to appear static and lead to causing serious result, whole still has the moisture absorption ventilative, antibacterial characteristics moreover.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present utility model;

Fig. 2 is a schematic main structure of the antistatic layer of the present utility model.

In the figure, 1, a viscose fiber body, 2, bamboo charcoal fibers, 3, an antistatic layer, 31, a support base layer, 32 and an insulating surface layer.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, the utility model provides an antistatic environment-friendly viscose fiber, including viscose fiber body 1, viscose fiber body 1's surface is provided with bamboo charcoal fiber 2, bamboo charcoal fiber 2 is the spiral winding at viscose fiber body 1's surface, bamboo charcoal fiber 2's surface parcel has antistatic layer 3, antistatic layer 3 includes supporting substrate layer 31 and insulating top layer 32, insulating top layer 32 sets up in supporting substrate layer 31's surface, supporting substrate layer 31 sets up in bamboo charcoal fiber 2's surface, bamboo charcoal fiber 2 is formed by mao bamboo carbomorphism, bamboo charcoal fiber 2's cross-section diameter is viscose fiber body 1 cross-section diameter's 2/3~3/4, supporting substrate layer 31 is elastic fiber layer, elastic fiber layer forms through the jet loom weaving, insulating top layer 32 is the babai yarn fibrous layer, babai yarn fibrous layer sets up at elastic fiber layer's surface.

Firstly, the surface of the viscose fiber body 1 is provided with the bamboo charcoal fiber 2 in a spiral winding mode, the bamboo charcoal fiber 2 has excellent antistatic performance, the surfaces of the viscose fiber body 1 are wrapped by a plurality of bamboo charcoal fibers 2 to form an antistatic outer layer, thus the antistatic effect is achieved on the fabric formed by the viscose fiber body 1, the integral antistatic performance of the fabric formed by the viscose fiber body 1 can be further improved through the supporting base layer 31 and the insulating surface layer 2, the antistatic performance can be greatly improved, serious consequences caused by static electricity are prevented, and the fabric has the characteristics of moisture absorption, ventilation, bacteriostasis and antibiosis.

Drying moso bamboo for 5 years at 150-190 ℃ for 5-7 days, heating to 280-460 ℃ for pre-carbonization for 3-4 days, heating to 900-1000 ℃ for carbonization for 4-5 days, cooling to obtain blocky bamboo charcoal, carrying out superfine treatment on the blocky bamboo charcoal to form micro-powder to nano-scale, adding the nano-scale bamboo charcoal into a raw solution formed by cellulose, preparing the bamboo charcoal fiber 2 by using a spinning process, retaining the functions of adsorption, deodorization, moisture absorption and sweat release, heat storage, heat preservation, bacteriostasis, mildew prevention, good far infrared and anion emission and ultraviolet resistance of the bamboo charcoal fiber 2, improving the breaking strength and elasticity, heat resistance, water washing resistance, shaping durability and antistatic property of the bamboo charcoal fiber 2, and further improving the content of mineral substances such as potassium, calcium, sodium, magnesium, iron, manganese silicon, germanium and the like which are beneficial to body health in the bamboo charcoal fiber for 5 years.

The weight ratio of cellulose in the stock solution is 20-25%, the cellulose is at least one selected from bamboo pulp, cotton pulp and wood pulp, and plant cellulose is a renewable resource which can replace petroleum pyrolysis fiber products and is commonly existing in the nature, and the fiber containing bamboo charcoal and cellulose particles has the function of absorbing peculiar smell, can emit light fragrance of wood, and has the functions of preventing and inhibiting bacteria.

The elastic fiber layer is used as a base layer and is directly contacted with the bamboo charcoal fiber 2 for improving the overall strength, and simultaneously endowing the viscose fiber body 1 with the overall elasticity, so that the fabric woven by the viscose fiber body 1 has excellent wear resistance and elasticity, the wearing experience is improved, the texture of the Babai yarn fiber layer is light and thin, the moisture absorption and the air permeability are good, and the sweat-releasing and air-permeable effects can be achieved when the base layer is worn next to the skin.

The structure principle is that the bamboo charcoal fiber 2 formed by charring the moso bamboo is used for carrying out primary antistatic protection on the viscose fiber body 1, the bamboo charcoal fiber 2 spirally wound on the surface of the viscose fiber body 1 can form an antistatic layer 3, so that static electricity generated by mutual contact between the viscose fiber bodies 1 is prevented, the viscose fiber body 1 can be subjected to antistatic protection again through the arrangement of the antistatic layer 3, and double antistatic protection can be carried out on the viscose fiber body 1.

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

Claims (4)

1. An antistatic environmentally friendly viscose fiber, comprising a viscose fiber body (1), characterized in that: bamboo charcoal fibers (2) are arranged on the surface of the viscose fiber body (1), the bamboo charcoal fibers (2) are spirally wound on the surface of the viscose fiber body (1), the surface of the bamboo charcoal fibers (2) is wrapped with an antistatic layer (3), the antistatic layer (3) comprises a supporting base layer (31) and an insulating surface layer (32), the insulating surface layer (32) is arranged on the surface of the supporting base layer (31), and the supporting base layer (31) is arranged on the surface of the bamboo charcoal fibers (2). 2. The antistatic and environmentally friendly viscose fiber according to claim 1 is characterized in that the bamboo charcoal fiber (2) is made by carbonizing bamboo, and the cross-sectional diameter of the bamboo charcoal fiber (2) is 2/3 to 3/4 of the cross-sectional diameter of the viscose fiber body (1). 3. The antistatic and environmentally friendly viscose fiber according to claim 1 is characterized in that: the supporting base layer (31) is an elastic fiber layer, and the elastic fiber layer is woven by a jet loom. 4. The antistatic and environmentally friendly viscose fiber according to claim 3 is characterized in that the insulating surface layer (32) is a balayage fiber layer, and the balayage fiber layer is arranged on the surface of the elastic fiber layer.