CN215251947U - Braided rope with nano cuprous oxide antibacterial viscose regenerated fibers - Google Patents

Abstract

The utility model discloses a braided rope with nano cuprous oxide antibacterial viscose regenerated fiber, which comprises a protective sleeve, wherein a second braided rope is arranged inside the protective sleeve; a first braided rope disposed below the second braided rope, a third braided rope being disposed on a left side of the first braided rope; the steel wire fiber is arranged on one side of the first braided rope and is used for improving the strength of the first braided rope; and the nano cuprous oxide knitted grey cloth layer is arranged on the surface of the third braided rope and is used for improving the antibacterial performance of the third braided rope. This weave rope with antibiotic viscose regeneration fibre of nanometer cuprous oxide compares with current device, through the knitting base cloth layer of nanometer cuprous oxide that sets up, can weave the surface of rope at the third and form one protection barrier to can prevent that the bacterium from being attached to on the rope is woven to the third, effectively improve the third and woven the security of rope when using.

Description

Braided rope with nano cuprous oxide antibacterial viscose regenerated fibers

Technical Field

The utility model relates to a weave rope technical field, specifically be a weaving rope with antibiotic viscose regeneration fibre of nanometer cuprous oxide.

Background

Cuprous oxide is a broad-spectrum inorganic copper bactericide with a main protection effect, has good adhesion, can form a protective layer on the cuprous oxide after being processed and slaughtered to form a braided rope so as to improve the antibacterial performance of the braided rope, and the braided rope is used as an important component of the rope and is widely applied in daily life. The braided rope can be structurally divided into a single-layer braided rope and a multilayer braided rope, the single-layer braided rope is low in production cost and simple in structure, the multilayer braided rope generally comprises a rope core and a fiber braided layer wrapping the rope core, and in order to increase the tensile strength, the size of the braided rope or the number of layers of the fiber braided layer is mostly required to be increased;

when the existing braided rope is used, a certain amount of bacteria can be attached to the surface of the braided rope, the phenomenon of scattering can occur between rope bodies, although the toughness of the braided rope is high, the tensile strength is low when the braided rope is used, and the problem of reducing the practicability of the braided rope is solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a weaving rope with nanometer cuprous oxide antibiotic viscose regenerated fiber to propose in solving above-mentioned background art because when using, the surface of weaving the rope can adhere to a certain amount of bacterium, and can take place the phenomenon of scattering between the rope body, though the toughness of weaving the rope is higher, nevertheless tensile strength when using is lower, has reduced the problem of the practicality of weaving the rope.

In order to achieve the above object, the utility model provides a following technical scheme: a braided rope with nano cuprous oxide antimicrobial viscose regenerated fibers comprising: the protective sleeve is internally provided with a second braided rope;

a first braided rope disposed below the second braided rope, a third braided rope being disposed on a left side of the first braided rope;

steel wire fibers arranged on one side of the first braided rope, wherein the steel wire fibers are used for increasing the strength of the braided rope;

a core provided inside the second braided rope, a surface of the core being provided with an adhesive;

and the nano cuprous oxide knitted grey cloth layer is arranged on the surface of the third braided rope and is used for improving the antibacterial performance.

Preferably, the steel wire fibers and the first braided rope are mutually wound, and the steel wire fibers and the first braided rope are tightly attached.

Preferably, the adhesive is wrapped on the surface of the rope core, and the thickness of the adhesive is 0.1 mm.

Preferably, the nanometer cuprous oxide knitted fabric layer is in adhesive connection with the third weaving rope.

Preferably, the protective sheath is further provided with:

the conductive fiber layer is arranged on the outer wall of the protective sleeve;

the buffer layer is arranged on the inner wall of the protective sleeve.

Preferably, the conductive fiber layer and the protective sleeve are mutually embedded.

Preferably, the buffer layer is fixedly connected with the protective sleeve.

Compared with the prior art, the utility model provides a weaving rope with antibiotic viscose regeneration fibre of nanometer cuprous oxide possesses following beneficial effect: this weaving rope with antibiotic viscose regenerated fiber of nanometer cuprous oxide at the in-process that uses, can play certain antibiotic effect, improved the security of weaving the rope in the use, and can fix between the stranded rope body, prevent the phenomenon that scatters to the tensile strength of weaving the rope when using has been improved.

1. Through the steel wire fibre that sets up, can effectively improve the tensile strength of first weaving rope to can prevent that rupture or the phenomenon of warping from appearing in the first rope of weaving when using.

2. The first braided rope, the second braided rope and the third braided rope can be fixed with the rope core through the arranged adhesive, so that the stability of the connection parts of the first braided rope, the second braided rope and the third braided rope with the rope core can be improved, and the first braided rope, the second braided rope and the third braided rope are prevented from being separated from the rope core in the using process; through the knitted base cloth layer of nanometer cuprous oxide that sets up, can weave the surface of rope at the third and form a protection barrier to can prevent that the bacterium from being attached to on the rope is woven to the third, effectively improve the security of rope when using is woven to the third.

3. The conductive fiber layer can form a conductive layer on the surface of the protective sleeve, so that the resistivity of the surface of the protective sleeve is reduced, and static electricity can be prevented from being generated on the surface of the protective sleeve when the protective sleeve is used; through the buffer layer that sets up, can weave the contact surface between the rope to protective sheath and third and protect to can prevent that the third from weaving the surface of rope and producing wearing and tearing, the protective sheath can weave rope and third to its inside first, the second and weave the rope and play certain guard action, prevents that it from receiving outside wearing and tearing and oxidation simultaneously, improves life.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

FIG. 3 is a schematic view of a first braided rope configuration of the present invention;

FIG. 4 is a schematic view of the inner structure of the protective sheath of the present invention;

fig. 5 is a schematic view of a part of an enlarged structure at a in fig. 4 according to the present invention.

In the figure: 1. a protective sleeve; 2. a conductive fiber layer; 3. a first braided cord; 4. a second braided rope; 5. a third braided rope; 6. steel wire fibers; 7. a rope core; 8. knitting a fabric layer by nano cuprous oxide; 9. a buffer layer; 10. and (3) an adhesive.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a braided rope with nano cuprous oxide antimicrobial viscose regenerated fibers comprising: the protective sleeve 1 is characterized in that a second braided rope 4 is arranged inside the protective sleeve 1; a first braided rope 3 provided below the second braided rope 4, a third braided rope 5 being provided on the left side of the first braided rope 3; the steel wire fibers 6 are arranged on one side of the first weaving rope 3, the steel wire fibers 6 are used for increasing the strength of the weaving rope, the steel wire fibers 6 are mutually wound with the first weaving rope 3, the steel wire fibers 6 are tightly attached to the first weaving rope 3, and the tensile strength of the first weaving rope 3 can be effectively improved through the arranged steel wire fibers 6, so that the first weaving rope 3 can be prevented from being broken or deformed when in use; the rope core 7 is arranged on the inner side of the second braided rope 4, the surface of the rope core 7 is provided with the adhesive 10, the adhesive 10 is wrapped on the surface of the rope core 7, the thickness of the adhesive 10 is 0.1mm, and the first braided rope 3, the second braided rope 4, the third braided rope 5 and the rope core 7 can be fixed through the arranged adhesive 10, so that the stability of the connection part of the first braided rope 3, the second braided rope 4 and the third braided rope 5 and the rope core 7 can be improved, and the first braided rope 3, the second braided rope 4 and the third braided rope 5 are prevented from being separated from the rope core 7 in the using process; knitting base cloth layer 8 of nanometer cuprous oxide, it sets up the surface of weaving rope 5 at the third, knitting base cloth layer 8 of nanometer cuprous oxide is used for improving antibacterial property, knitting base cloth layer 8 of nanometer cuprous oxide is adhesive connection between the rope 5 with the third, knitting base cloth layer 8 of nanometer cuprous oxide through setting up, can weave the surface of rope 5 at the third and form one protection barrier, thereby can prevent that the bacterium from adhering to on the rope 5 is woven to the third, the security of rope 5 when using is woven to the third has effectively been improved.

Referring to fig. 4-5, a braided rope with nano-cuprous oxide antibacterial viscose regenerated fiber comprises: the conductive fiber layer 2 is arranged on the outer wall of the protective sleeve 1, the conductive fiber layer 2 and the protective sleeve 1 are mutually embedded, a conductive layer can be formed on the surface of the protective sleeve 1 through the arranged conductive fiber layer 2, the resistivity of the surface of the protective sleeve 1 is reduced, and static electricity can be prevented from being generated on the surface of the protective sleeve 1 when the protective sleeve is used; buffer layer 9, its setting is at the inner wall of protective sheath 1, be fixed connection between buffer layer 9 and the protective sheath 1, buffer layer 9 through the setting, can weave the contact surface between the rope 5 to protective sheath 1 and third and protect, thereby can prevent that the third from weaving the surface of rope 5 and producing wearing and tearing, protective sheath 1 can weave rope 3 to its inside first simultaneously, rope 4 and the third are woven to the second and are woven and play certain guard action, prevent that it from receiving outside wearing and tearing and oxidation, and service life is prolonged.

The working principle is as follows: when the braided rope with the nano cuprous oxide antibacterial viscose regenerated fibers is used, firstly, the protective sleeve 1 can protect the first braided rope 3, the second braided rope 4 and the third braided rope 5 inside the protective sleeve, so that the surfaces of the first braided rope 3, the second braided rope 4 and the third braided rope 5 can be prevented from being damaged; secondly, the conductive fiber layer 2 can form a conductive layer on the surface of the protective sleeve 1 to reduce the resistivity of the surface of the protective sleeve 1, so that static electricity can be prevented from being generated on the surface of the protective sleeve 1 when the protective sleeve is used, and the buffer layer 9 can protect the contact surfaces between the protective sleeve 1 and the first braided rope 3, the second braided rope 4 and the third braided rope 5 to prevent the surfaces of the first braided rope 3, the second braided rope 4 and the third braided rope 5 from being worn; secondly, the nano-scale cuprous oxide knitted fabric base layer 8 is formed by spinning nano-scale cuprous oxide PA master batches and PA melt direct injection spinning slices to form nano-scale cuprous oxide PA filaments, and then the nano-scale cuprous oxide PA filaments are woven into the nano-scale cuprous oxide knitted fabric base layer 8, so that a protective barrier can be formed on the surface of the third weaving rope 5 to prevent bacteria from being attached to the third weaving rope 5; then, the steel wire fibers 6 and the first weaving ropes 3 are mutually wound, so that the tensile strength of the first weaving ropes 3 can be effectively improved, and the phenomenon that the first weaving ropes 3 are broken or deformed in use is avoided; finally, the adhesive 10 can fix the first braided rope 3, the second braided rope 4, and the third braided rope 5 to the core 7, which can prevent the first braided rope 3, the second braided rope 4, and the third braided rope 5 from unraveling.

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

Claims (7)

1. A braided rope with nano cuprous oxide antibacterial viscose regenerated fibers is characterized by comprising:

the protective sleeve (1), the inside of the protective sleeve (1) is provided with a second braided rope (4);

a first braided rope (3) disposed below the second braided rope (4), a third braided rope (5) being disposed on the left side of the first braided rope (3);

steel wire fibers (6) provided at one side of the first braided rope (3), the steel wire fibers (6) for increasing strength of the braided rope;

a core (7) provided inside the second braided rope (4), the surface of the core (7) being provided with an adhesive (10);

and the nano cuprous oxide knitted fabric layer (8) is arranged on the surface of the third braided rope (5), and the nano cuprous oxide knitted fabric layer (8) is used for improving the antibacterial performance.

2. The braided rope with nano cuprous oxide antibacterial viscose recycled fiber according to claim 1, wherein: intertwine between steel wire fibre (6) and the first rope (3) of weaving, closely laminate between steel wire fibre (6) and the first rope (3) of weaving.

3. The braided rope with nano cuprous oxide antibacterial viscose recycled fiber according to claim 1, wherein: the adhesive (10) is wrapped on the surface of the rope core (7), and the thickness of the adhesive (10) is 0.1 mm.

4. The braided rope with nano cuprous oxide antibacterial viscose recycled fiber according to claim 1, wherein: the nano cuprous oxide knitted fabric layer (8) is in adhesive connection with the third weaving rope (5).

5. The braided rope with nano cuprous oxide antibacterial viscose recycled fiber according to claim 1, wherein said protective sheath (1) is further provided with:

the conductive fiber layer (2) is arranged on the outer wall of the protective sleeve (1);

a buffer layer (9) arranged on the inner wall of the protective sleeve (1).

6. The braided rope with nano cuprous oxide antibacterial viscose recycled fiber according to claim 5, wherein: the conductive fiber layer (2) and the protective sleeve (1) are mutually embedded.

7. The braided rope with nano cuprous oxide antibacterial viscose recycled fiber according to claim 5, wherein: the buffer layer (9) is fixedly connected with the protective sleeve (1).

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