DE102018102215B4 - An antibacterial composite fiber fabric with copper alloy fibers - Google Patents

Abstract

Antibacterial composite fiber fabric with copper alloy fibers (112), comprising: a plurality of copper alloy warp threads (11) and a plurality of elastic weft threads (12), the copper alloy warp threads (11) each being a composite of at least one flexible copper alloy fiber (112) and a plurality of microfibers (111 ) is to provide antibacterial threads.

Description

technical field

The invention relates to an antibacterial composite fiber fabric with copper alloy fibers, which not only has a function of improved elasticity, but also has an excellent antibacterial property, so that the bulk of this antibacterial composite fiber fabric is suitable for the environmentally friendly production of clothes or other textile products, which are advantageously combined with a special comfortable to wear with a fresh feeling, and a method for producing such a composite fiber fabric.

State of the art

In the prior art known through use, the commercial products have been provided with an antibacterial fabric conventionally made from a plurality of synthetic fibers coated with silver-containing antibacterial chemicals with special weaving processes. The disadvantage of this design, however, is that its silver ions or nanosilver can penetrate the human body through the skin and the silver compounds other than silver nitrate (AgNO ₃ ) are not soluble in water, which can cause an accumulation of heavy metals in the human body and thus health harms the user. In view of the above-mentioned problems of the prior art, the antibacterial fibers containing copper are gradually being used instead of active silver ions or nanosilver for the production of antibacterial fabric products. Copper-containing antibacterial fibers belong to inorganic antibacterial fibers and their surfaces are either coated with copper and copper chemical compound or impregnated with copper agents that achieve antibacterial effect through active copper ions. This treatment works against skin fungi, bacteria and possible odor. However, the chemical compound of copper for preparing an antibacterial fabric is soluble in water and not acid-resistant, so stable release of positively charged copper ions is impossible through such antibacterial-treated fibers, which are disadvantageously penetrable through the skin into the human body and later through metabolism of the body are secreted. Another disadvantage is that the copper-containing chemical agents coated or impregnated on the fiber surface can quickly lose or reduce their antibacterial effects after repeated cleaning of the antibacterial fabric.

Furthermore, from the DE 20 2005 008 041 U1 An inner lining for an item of equipment for at least temporarily covering body parts, in particular clothing, blankets, sleeping bags, is known from several layers, with at least one layer being arranged from a woven and/or knitted fabric or leather. Here, the at least one layer is formed from a woven and/or knitted fabric or leather with an antimicrobial effect. The antimicrobial effect is achieved by a metal, vzw. Silver. In particular, the metal is in the form of particles, but metal fibers are also possible.

object of the invention

The invention is therefore based on the object of creating an antibacterial composite fiber fabric with copper alloy fibers that is easy to produce and to specify a method for its production.

The solution to the problem results from the features of patent claim 1 and patent claim 4.

Further advantageous configurations of the invention result from the dependent claims.

In particular, the antibacterial composite fiber fabric is advantageously manufacturable by the following steps: (a) Providing an appropriate amount of copper alloy raw materials containing high-purity electrolytic copper, adding an appropriate amount of corrosion-resistant and highly wear-resistant metal elements having a high strength and excellent elongation, and melting this composite material in one Melting bath for the production of copper alloy solutions; (b) pouring the molten copper alloy solution into a casting furnace and performing a casting process to deform alloyed copper bare wires; (c) performing repeated expansion treatments to produce flexible copper alloy fibers; (d) blending proportionately at least one or more copper alloy fibers with a plurality of polyester microfibers, which are blended in an appropriate mixing ratio and woven together to prepare the antibacterial threads; (e) making copper alloy warps with improved elasticity as well as excellent antibacterial function; and (f) finally, a plurality of copper alloy warps are advantageously woven with a plurality of elastic wefts to produce an antibacterial composite fiber fabric, the fabric structure of which has a function of improved elasticity and has an effective antibacterial property.

The invention also creates an antibacterial composite fiber fabric with copper alloy fibers, which is advantageously made from a plurality of copper alloy warp threads and a plurality of elastic weft threads with special weaving processes and stages of finishing, wherein the copper alloy warp threads are each admixed with a composite of at least one flexible copper alloy fiber or a plurality of flexible copper alloy fibers with a plurality of microfibers, particularly polyester microfibers, to prepare the antibacterial threads, wherein a plurality of copper alloy warps are woven with a plurality of elastic weft threads to produce an antibacterial composite fiber fabric advantageously in order that the fabric structure has a function of improved elasticity, and wherein the integrated copper alloy fibers can advantageously be produced an oxidation layer, which the positively charged copper ions in the antibacterial composite fiber fabric can be released, so that the build-up of a plurality of copper alloy warp threads through the copper alloy media has a permanent long-term stable antibacterial effect to solve the above-mentioned problems according to the prior art that the copper-containing chemical agents coated or impregnated on the fiber surface after repeated Cleaning the antibacterial fabric can quickly lose or reduce its antibacterial effects, so that the bulk of an antibacterial fabric is suitable for the environmentally friendly production of clothing or other textile products, which is advantageous to wear with a special fresh feeling.

character list

• 1 eine vergrößerte Teilschnittansicht eines antibakteriellen Verbundfasergewebes mit Kupferlegierungsfasern der vorliegenden Erfindung;
• 2 eine perspektivische Schnittansicht eines antibakteriellen Verbundfasergewebes mit Kupferlegierungsfasern der vorliegenden Erfindung;
• 3 eine Draufsicht eines antibakteriellen Verbundfasergewebes mit Kupferlegierungsfasern der vorliegenden Erfindung;
• 4 ein Blockdiagramm, das die Schritte zum Herstellen von einem antibaktierellen Verbundfasergewebes mit Kupferlegierungsfasern darstellt;
• 5 eine schematische Ansicht, die das Gießverfahren zum Herstellen von legierten Kupferblankdrähten darstellt;
• 6 eine schematische Ansicht, die eine Anwendung des antibaktierellen Verbundfasergewebes mit Kupferlegierungsfasern der vorliegenden Erfindung zur Herstellung einer Schuhspitze darstellt;
• 7 eine schematische Ansicht, die eine andere Anwendung des antibaktierellen Verbundfasergewebes mit Kupferlegierungsfasern der vorliegenden Erfindung zur Herstellung des Bodens einer Unterhose darstellt;
• 8 eine schematische Ansicht, die eine andere Anwendung des antibaktierellen Verbundfasergewebes mit Kupferlegierungsfasern der vorliegenden Erfindung zur Herstellung der Achselstücke einer Kleidung darstellt;
• 9 eine schematische Ansicht, die eine andere Anwendung des antibaktierellen Verbundfasergewebes mit Kupferlegierungsfasern der vorliegenden Erfindung zur Herstellung einer Schuhauflage darstellt; und
• 10 eine schematische Ansicht, die eine andere Anwendung des antibaktierellen Verbundfasergewebes mit Kupferlegierungsfasern der vorliegenden Erfindung zur Herstellung von Socken darstellt.

The present invention will be better understood by reference to the following detailed description in conjunction with the accompanying drawings.

• 1 Fig. 12 is an enlarged partial sectional view of an antibacterial composite fiber fabric containing copper alloy fibers of the present invention;
• 2 Fig. 14 is a sectional perspective view of an antibacterial composite fiber fabric containing copper alloy fibers of the present invention;
• 3 Fig. 14 is a plan view of an antibacterial composite fiber fabric containing copper alloy fibers of the present invention;
• 4 Fig. 14 is a block diagram showing the steps of manufacturing an antibacterial composite fiber fabric with copper alloy fibers;
• 5 Fig. 12 is a schematic view showing the casting process for manufacturing alloyed copper bare wires;
• 6 Fig. 12 is a schematic view showing an application of the antibacterial composite fiber fabric containing copper alloy fibers of the present invention to manufacture a shoe toe;
• 7 Fig. 12 is a schematic view showing another application of the antibacterial composite fiber fabric containing copper alloy fibers of the present invention to manufacture the bottom of panties;
• 8th Fig. 12 is a schematic view showing another application of the antibacterial composite fiber fabric containing copper alloy fibers of the present invention for manufacturing the shoulder straps of a garment;
• 9 Fig. 12 is a schematic view showing another application of the antibacterial composite fiber fabric containing copper alloy fibers of the present invention to manufacture a shoe pad; and
• 10 Fig. 12 is a schematic view showing another application of the antibacterial composite fiber fabric containing copper alloy fibers of the present invention for manufacturing socks.

Ways to carry out the invention

A preferred embodiment of the bulk of an antibacterial fabric 10 of the present invention as set forth in 1 until 3 can be made essentially from a plurality of copper alloy warp threads 11 and a plurality of elastic weft threads 12 using special weaving processes and stages of finishing, with the copper alloy warp threads 11 each having a composite of at least one flexible copper alloy fiber 112 or a plurality of flexible copper alloy fibers 112 mixed in with it a plurality of microfibers, here polyester microfibers 111, to prepare the antibacterial threads, the polyester microfiber 111 being usable either a nylon monofiber, a multi-monofilament nylon fiber, a PE fiber, a nylon fiber, a knotless fiber or a dyneema fiber is to allow release of the positively charged copper ions from copper alloy warps 11 via the copper alloy fibers 112 into a plurality of polyester microfibers 111 so that the construction of a plurality of copper alloy warps 11 through the copper alloy media d he copper alloy fibers 112 has a permanent long-term stable antibacterial effect. In addition, the flexible copper alloy fibers 112 having a plurality of Polyester microfibers 111 admixed, wherein a plurality of copper alloy warp threads 11 can be advantageously woven, warp knitted, knitted or braided with a plurality of elastic weft threads 12 to produce an antibacterial composite fiber fabric with copper alloy fibers, so that the fabric structure has a function with improved elasticity so that the Main mass of an antibacterial fabric 10 is suitable for the environmentally friendly production of clothes or other textile products, which acts against main fungi bacteria and possible odor by the antibacterial treatment and is advantageous to wear with the special fresh feeling comfortable to solve the above-mentioned problems according to the prior art Technology that the copper-containing chemical agents coated or impregnated on the fiber surface can quickly lose or reduce their antibacterial effects after repeated cleaning of the antibacterial fabric, advantageous t to do.

• Bereitstellen einer geeigneten Menge von Kupferlegierungsrohmaterialien enthaltend mit Elektrolytkupfer von hoher Reinheit, Hinzufügen einer geeigneten Menge von korrosionsbeständigen und hochverschleißfesten Metallelementen mit einer hohen Festigkeit und exzellenten Dehnung, und Schmelzen dieses Verbundwerkstoffs in einem Schmelzbad zur Erzeugung von Kupferlegierungslösungen X;
• Gießen die geschmolzene Kupferlegierungslösung X in einen Gießofen 51 und Durchführen eines Gießverfahrens 5 zur Verformung von legierten Kupferblankdrähten X1 (wie in 5 dargestellt);
• Durchführung von wiederholten Ausdehnungsbehandlungen zur Herstellung von flexiblen Kupferlegierungsfasern 112;
• Beimischung anteilmäßig von zumindest einer Kupferlegierungsfaser 112 bzw. mehreren Kupferlegierungsfasern 112 mit einer Mehrzahl von Polyester-Mikrofasern 111, wobei die Menge und die Fadenstärke von Polyester-Mikrofasern 111 jeweils größer als die Menge und die Fadenstärke von Kupferlegierungsfasern 112 ist. Anschließend werden die Kupferlegierungsfasern 112 mit den Polyester-Mikrofasern 111 verbunden, um die antibakteriellen Fäden anzufertigen;
• Anfertigung von Kupferlegierungskettfäden 11 mit verbesserter Elastizität sowie mit einer ausgezeichneten antibakteriellen Funktion; und
• schließlich können eine Mehrzahl von Kupferlegierungskettfäden 11 mit einer Mehrzahl von elastischen Schussfäden 12 zur Herstellung einer Hauptmasse eines antibakteriellen Gewebes 10 vorteilhaft gewebt sein, wobei dessen Gewebestruktur eine Funktion mit verbesserter Elastizität aufweist und eine wirksame antibakterielle Eigenschaft besitzt.

How out 4 As can be seen, the method for producing an antibacterial fabric 21 comprises the following steps:

• providing an appropriate amount of copper alloy raw materials containing high-purity electrolytic copper, adding an appropriate amount of corrosion-resistant and highly wear-resistant metal elements having a high strength and excellent elongation, and melting this composite material in a molten bath to produce copper alloy solutions X;
• Pour the molten copper alloy solution X into a pouring furnace 51 and perform a casting process 5 for deforming alloyed copper bare wires X1 (as in 5 shown);
• performing repeated expansion treatments to produce flexible copper alloy fibers 112;
• Proportionally admixing at least one copper alloy fiber 112 or a plurality of copper alloy fibers 112 with a plurality of polyester microfibers 111, the quantity and the thread size of polyester microfibers 111 being greater than the quantity and the thread size of copper alloy fibers 112. Subsequently, the copper alloy fibers 112 are combined with the polyester microfibers 111 to make the antibacterial threads;
• preparing copper alloy warps 11 with improved elasticity and excellent antibacterial function; and
• finally, a plurality of copper alloy warps 11 may advantageously be woven with a plurality of elastic wefts 12 to prepare a main body of an antibacterial fabric 10, the fabric structure of which has a function of improved elasticity and has an effective antibacterial property.

The advantages achieved with the present invention is that the main mass of an antibacterial fabric 10 can be used in different clothing depending on the need for use, namely on the easily soiled or easily sweatable or easily odor-forming areas, for example on the toe of a shoe 20 (as in 6 shown), at the bottom of the underpants 30 (as in 7 shown), at the armpit location of clothing 40 (as in 8th shown), on a shoe support 50 (as in 9 shown), on the toe of a 60 sock, on the heel of a 60 sock (as in 10 shown) or can be used on the entire sock. It is also possible to use the entire fabric for the production of medical products with a permanent antibacterial effect, for example bed linen, bed covers, surgical gowns, surgical caps, gloves, masks, bath towels, hand towels, washcloths, terry towels, pillowcases, pillowcases or the like. apply. Besides, the main advantage of this fabric is the excellent antibacterial functionality, which is given to the fabric by the antibacterial treatment. In addition, this treatment acts against main fungi, bacteria and possible odor and offers the fabric an extra pleasant touch. Another advantage is that the fabric repels external moisture and cold, a large number of pores allows easy evaporation of sweat.

Reference List

5

casting process

51

casting furnace

10

Main mass of an antibacterial fabric

11

copper alloy warp threads

111

microfibers

112

copper alloy fibers

12

elastic weft threads

20

shoe

21

antibacterial fabric

30

underpants

40

clothing

50

shoe pad

60

sock

X

copper alloy solution

X1

alloyed bare copper wires

Claims (4)

Antibacterial composite fiber fabric with copper alloy fibers (112) comprising: a plurality of copper alloy warp threads (11) and a plurality of elastic weft threads (12), wherein the copper alloy warp yarns (11) are each a composite of at least one flexible copper alloy fiber (112) and a plurality of microfibers (111) to provide antibacterial yarns. Antibacterial composite fiber fabric with copper alloy fibers after claim 1 , characterized in that the microfibers (111) are polyester microfibers. Antibacterial composite fiber fabric with copper alloy fibers after claim 2 , characterized in that the thread size of the polyester microfibers (111) of the copper alloy warp threads (11) is greater than the thread size of the copper alloy fibers (112) of the copper alloy warp threads (11). A method for producing an antibacterial composite fiber fabric with copper alloy fibers, characterized by the following steps in production: providing an appropriate amount of copper alloy raw materials comprising electrolytic copper of high purity, adding an appropriate amount of corrosion-resistant and highly wear-resistant metal elements having a high strength and excellent elongation, melting this composite material in a molten bath for producing copper alloy solutions (X); pouring the molten copper alloy solution (X) into a casting furnace (51) and performing a casting process (5) to form alloyed copper bare wires (XI); subjecting the bare copper wires (X1) to repeated expansion treatments to produce flexible copper alloy fibers (112); providing microfibers (111); admixing proportionately at least one copper alloy fiber (112) to a plurality of microfibers (111) to prepare the antibacterial threads; providing elastic weft threads (12); preparing a bulk of an antibacterial fabric (10) using said antibacterial threads as copper alloy warp threads (11) and one of a plurality of elastic weft threads (12).

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