CN216300360U - Anti-static nano healthy cloth - Google Patents

Abstract

The utility model discloses an anti-static nano healthy cloth which comprises a nano healthy cloth base layer used as a fabric main body, wherein a conductive structure used for electrostatic grounding conduction is arranged on the nano healthy cloth base layer, the conductive structure comprises a conductive silver net layer embedded in the nano healthy cloth base layer, and the conductive silver net layer is connected with a conduction structure used for conducting static electricity generated on the nano healthy cloth base layer. The utility model adopts the embedded conductive silver net layer as the intermediate body which can conduct electricity at each part of the nano healthy cloth, adopts the conduction structure formed by matching the silver foil strips and the conductive strips on the conductive silver net layer to conduct the end surface static electricity, and adopts the ground contact conduction structure formed by the conductive silver strips and the ground contact silver points on one side of the conductive silver net layer to conduct and eliminate the static electricity, thereby preventing the life trouble caused by the static electricity after the user uses the bed sheet or other articles made of the nano healthy cloth in the whole structure.

Description

Anti-static nano healthy cloth

Technical Field

The utility model relates to the technical field of cloth, in particular to anti-static nano healthy cloth.

Background

The nanometer fabric is a special physical and chemical treatment technology for blending nanometer raw materials into fabric fibers, a protective layer is formed on a common fabric, and the nanometer fabric has the characteristics of acid and alkali corrosion resistance, mildew resistance, moth resistance and the like. Healthy cloth generally refers to double-sided cloth with one side being cotton and the other side being silk.

When the existing nanometer health cloth is used as a bed sheet, static electricity is easy to generate when the nanometer health cloth is dry in winter, and certain inconvenience is brought to a user when the user carelessly touches metal bodies such as a door handle or a mobile phone shell, and improvement is urgently needed. Therefore, an antistatic nano health cloth is provided to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-static nano health cloth, which adopts an embedded conductive silver mesh layer as an intermediate body capable of conducting electricity at each part of the nano health cloth, adopts a conducting structure formed by matching a silver foil strip and a conductive strip on the conductive silver mesh layer to conduct end surface static electricity, and adopts a ground contact conducting structure formed by a conductive silver strip line and a ground contact silver point on one side of the conductive silver mesh layer to conduct and eliminate static electricity, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an antistatic nanometer health cloth comprises a nanometer health cloth base layer used as a main body of a fabric, wherein a conductive structure used for conducting in a grounding mode is arranged on the nanometer health cloth base layer;

the conductive structure comprises a conductive silver mesh layer embedded in a nano healthy cloth base layer, a conductive structure for conducting static electricity generated on the nano healthy cloth base layer is connected to the conductive silver mesh layer, the conductive structure comprises silver foil strips, the silver foil strips are integrally connected to the conductive silver mesh layer, conductive strips for conducting static electricity are further connected to the silver foil strips, the upper end faces of the conductive strips are tiled and exposed on the nano healthy cloth base layer, and the upper end faces of the conductive strips are located on the front side of the cloth;

one side of the conductive silver mesh layer is connected with a ground contact conductive structure, the ground contact conductive structure comprises conductive silver strips integrally connected with the conductive silver mesh layer, and one end of each conductive silver strip is integrally connected with a ground contact silver point used for conducting ground contact;

and a protective sleeve for protecting the use is sleeved on the grounding conductive structure.

As an alternative of the antistatic nano health cloth of the present invention, wherein: the conductive silver mesh layer is positioned in the middle of the nano healthy cloth base layer, and the periphery of the conductive silver mesh layer is at least 5cm away from the edge of the nano healthy cloth base layer.

As an alternative of the antistatic nano health cloth of the present invention, wherein: the conductive silver strips are arranged into a plurality of conductive silver strips, and each conductive silver strip is arranged outside the nano healthy cloth base layer at equal intervals.

As an alternative of the antistatic nano health cloth of the present invention, wherein: the touchdown silver point is arranged in a spherical structure, and the diameter of the touchdown silver point is larger than that of the conductive silver strand.

As an alternative of the antistatic nano health cloth of the present invention, wherein: the protective sheath is including end to end's first protection cloth cover and second protection cloth cover, first protection cloth cover corresponds the conductive silver strand silk and cup joints in the outside, second protection cloth cover sets up to the arc and cup joints in touching ground the silver point outside correspondingly, just touch the silver point and expose the below position of second protection cloth cover and set up to the protruding portion that contacts ground that is used for touching ground.

As an alternative of the antistatic nano health cloth of the present invention, wherein: silver foil strip sets up to long banding silver foil strip, silver foil strip sets up to four, and four silver foil strips use the center of the healthy cloth basic unit of nanometer to crisscross the setting as the rice font as the basic point, the corresponding electrically conductive yarn strip that sets up to banding of electrically conductive piece strip cooperation silver foil strip, every electrically conductive yarn strip one-to-one silver foil strip is connected.

As an alternative of the antistatic nano health cloth of the present invention, wherein: the silver foil strips are arranged into round silver foils, the silver foils are arranged into a plurality of silver foils, the plurality of silver foils are arranged on the conductive silver net layer at equal intervals, the conductive strips are matched with the silver foils and correspondingly arranged into round conductive yarn pieces, and the conductive yarn pieces are connected with the silver foils in one-to-one correspondence.

As an alternative of the antistatic nano health cloth of the present invention, wherein: the conductive strips are synthetic fiber strips, and the conductive strips are planar or matted.

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

the anti-static nanometer health cloth adopts the embedded conductive silver mesh layer as an intermediate body which can conduct electricity at each part of the nanometer health cloth, adopts a transmission structure formed by matching the silver foil strips and the conductive strips on the conductive silver mesh layer to conduct the static electricity on the end surface, adopts a ground contact conductive structure formed by the conductive silver strips and the ground contact silver points on one side of the conductive silver mesh layer to conduct the static electricity to be eliminated, thereby preventing the life trouble caused by the static electricity after a user uses a bed sheet or other articles made of the nanometer health cloth on the whole structure.

Drawings

Fig. 1 is a partial schematic view of a front view structure of embodiment 1 of the present invention.

Fig. 2 is an exploded view of a part of the structure of embodiment 1 of the present invention.

Fig. 3 is a partial structural diagram of a main view structure in embodiment 2 of the present invention.

In the figure: 1. a nano healthy cloth base layer; 2. a conductive silver mesh layer; 3. a silver foil strip; 4. a conductive sliver; 5. a silver foil; 6. a conductive yarn sheet; 7. a conductive silver strand; 8. touching the silver point; 801. a ground engaging projection; 9. a first protective cloth cover; 10. and a second protective cloth cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-2, an antistatic nano health cloth includes a nano health cloth substrate 1 used as a main body of a fabric, wherein a conductive structure for conducting and conducting static electricity on the nano health cloth substrate 1 is disposed:

the conductive structure comprises a conductive silver mesh layer 2 embedded in a nano healthy cloth base layer 1;

wherein, the conductive silver net layer 2 is positioned in the middle of the nano healthy cloth base layer 1, and the periphery of the conductive silver net layer 2 at least deviates 5cm from the edge of the nano healthy cloth base layer 1.

The conductive silver mesh layer 2 is embedded in the nano healthy cloth base layer 1 and is used as an intermediate for conducting static electricity at each part of the whole nano healthy cloth, so that static electricity on a user can be conveniently conducted and eliminated.

The conductive silver mesh layer 2 is connected with a conductive structure for conducting static electricity generated on the nano healthy cloth base layer 1, the conductive structure comprises silver foil strips, the silver foil strips are integrally connected onto the conductive silver mesh layer 2, the silver foil strips are also connected with conductive strips for conducting static electricity, the upper end surfaces of the conductive strips are tiled and exposed on the nano healthy cloth base layer 1, and the upper end surfaces of the conductive strips are positioned on the front side of the cloth;

the silver foil strips are arranged to be long-strip-shaped silver foil strips 3, the silver foil strips 3 are arranged to be four, the four silver foil strips 3 are arranged in a staggered mode to be in a shape like a Chinese character mi by taking the center of the nano healthy cloth base layer 1 as a base point, the conductive strips are correspondingly arranged to be strip-shaped conductive yarn strips 4 in a matched mode with the silver foil strips 3, and the silver foil strips 3 are connected in one-to-one correspondence to each conductive yarn strip 4.

Wherein the conductive yarn 4 is arranged as a synthetic fiber strip, and the conductive yarn 4 is arranged in a plane shape or a hair surface shape.

The conveying and conducting structure in the shape of a Chinese character 'mi' is laid on the nano healthy cloth base layer 1, and under the condition of reducing the area of the conveying and conducting structure, static electricity on the nano healthy cloth base layer 1 can be conducted conveniently by all strip bodies of the conveying and conducting structure.

One side of the conductive silver mesh layer 2 is connected with a grounding conductive structure, the grounding conductive structure comprises a conductive silver strip 7 which is integrally connected with the conductive silver mesh layer 2, and one end of the conductive silver strip 7 is integrally connected with a grounding silver point 8 used for grounding conduction;

wherein, the conductive silver strips 7 are provided in a plurality, and each conductive silver strip 7 is arranged at equal intervals outside the nano health cloth substrate 1 (such as the side part of a bed sheet) for touching the ground;

the silver contact point 8 is arranged in a spherical structure, and the diameter of the silver contact point 8 is larger than that of the conductive silver strip 7, so that the ground is contacted for conducting and eliminating static electricity.

In order to protect the safety of the grounding conductive structure in actual use, a protective sleeve for protecting the use is sleeved on the grounding conductive structure:

the protective sleeve comprises a first protective cloth sleeve 9 and a second protective cloth sleeve 10 which are connected end to end, the first protective cloth sleeve 9 corresponds to the conductive silver thread 7 and is sleeved outside, the second protective cloth sleeve 10 is arc-shaped and is sleeved outside the grounding silver point 8, and the grounding silver point 8 is exposed out of the lower part of the second protective cloth sleeve 10 and is arranged to be a grounding protrusion 801 used for grounding.

The first protective cloth cover 9 is sleeved on the conductive silver filament 7 for stretch-proof and isolation protection, the arc-shaped second protective cloth cover 10 is used for sleeved protection on the upper part of the grounding silver point 8, and the grounding protrusion 801 below the grounding silver point 8 is used for grounding conduction.

Therefore, the life annoyance of a user caused by static electricity after the user uses the bed sheet or other articles made of the nano health cloth is prevented on the whole structure.

Example 2

Referring to fig. 3, an anti-static nano health fabric includes a nano health fabric base layer 1 used as a main body of a fabric, wherein a conductive structure for conducting static electricity to ground is disposed on the nano health fabric base layer 1;

the conductive structure comprises a conductive silver mesh layer 2 embedded in a nano healthy cloth base layer 1;

wherein, the conductive silver net layer 2 is positioned in the middle of the nano healthy cloth base layer 1, and the periphery of the conductive silver net layer 2 at least deviates 5cm from the edge of the nano healthy cloth base layer 1.

The conductive silver mesh layer 2 is embedded in the nano healthy cloth base layer 1 and is used as an intermediate for conducting static electricity at each part of the whole nano healthy cloth, so that static electricity on a user can be conveniently conducted and eliminated.

The conductive silver mesh layer 2 is connected with a conductive structure for conducting static electricity generated on the nano healthy cloth base layer 1, the conductive structure comprises silver foil strips, the silver foil strips are integrally connected onto the conductive silver mesh layer 2, the silver foil strips are also connected with conductive strips for conducting static electricity, the upper end surfaces of the conductive strips are tiled and exposed on the nano healthy cloth base layer 1, and the upper end surfaces of the conductive strips are positioned on the front side of the cloth;

the silver foil strips are arranged into the round silver foils 5, the silver foils 5 are arranged into a plurality of silver foils, the silver foils 5 are arranged on the conductive silver mesh layer 2 at equal intervals, the conductive silver strips are correspondingly arranged into the round conductive yarn sheets 6 in a matched mode with the silver foils 5, and the silver foils 5 are connected in a one-to-one mode with each conductive yarn sheet 6.

Wherein, the conductive yarn piece 6 is set as a synthetic fiber piece, and the conductive yarn piece 6 is set as a plane or a hair surface.

Adopt circular slice and equidistant each silver foil 5 and the conductive yarn piece 6 of arranging on nanometer healthy cloth basic unit 1 for whole defeated structure of leading evenly lays, can reduce under the condition of defeated structure area of leading, and each lamellar body that makes things convenient for the defeated structure of leading conducts the static on nanometer healthy cloth basic unit 1.

One side of the conductive silver mesh layer 2 is connected with a grounding conductive structure, the grounding conductive structure comprises a conductive silver strip 7 which is integrally connected with the conductive silver mesh layer 2, and one end of the conductive silver strip 7 is integrally connected with a grounding silver point 8 used for grounding conduction;

wherein, the conductive silver strips 7 are provided in a plurality, and each conductive silver strip 7 is arranged at equal intervals outside the nano health cloth substrate 1 (such as the side part of a bed sheet) for touching the ground;

the silver contact point 8 is arranged in a spherical structure, and the diameter of the silver contact point 8 is larger than that of the conductive silver strip 7, so that the ground is contacted for conducting and eliminating static electricity.

In order to protect the safety of the grounding conductive structure in actual use, a protective sleeve for protecting the use is sleeved on the grounding conductive structure:

the protective sleeve comprises a first protective cloth sleeve 9 and a second protective cloth sleeve 10 which are connected end to end, the first protective cloth sleeve 9 corresponds to the conductive silver thread 7 and is sleeved outside, the second protective cloth sleeve 10 is arc-shaped and is sleeved outside the grounding silver point 8, and the grounding silver point 8 is exposed out of the lower part of the second protective cloth sleeve 10 and is arranged to be a grounding protrusion 801 used for grounding.

The first protective cloth cover 9 is sleeved on the conductive silver filament 7 for stretch-proof and isolation protection, the arc-shaped second protective cloth cover 10 is used for sleeved protection on the upper part of the grounding silver point 8, and the grounding protrusion 801 below the grounding silver point 8 is used for grounding conduction.

Therefore, the bed sheet made of the nano health cloth is prevented from being worried about life caused by static electricity in the whole structure.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An antistatic nanometer health cloth comprises a nanometer health cloth base layer (1) used as a main body of the fabric, and is characterized in that: the nano health cloth base layer (1) is provided with a conductive structure for electrostatic grounding conduction;

the conductive structure comprises a conductive silver mesh layer (2) embedded in a nano healthy cloth base layer (1), the conductive silver mesh layer (2) is connected with a conductive structure for conducting static electricity generated on the nano healthy cloth base layer (1), the conductive structure comprises silver foil strips, the silver foil strips are integrally connected to the conductive silver mesh layer (2), the silver foil strips are also connected with conductive strips for conducting static electricity, the upper end faces of the conductive strips are flatly laid and exposed on the nano healthy cloth base layer (1), and the upper end faces of the conductive strips are positioned on the front side of the cloth;

one side of the conductive silver mesh layer (2) is connected with a ground contact conductive structure, the ground contact conductive structure comprises conductive silver strips (7) integrally connected with the conductive silver mesh layer (2), and one end of each conductive silver strip (7) is integrally connected with a ground contact silver point (8) used for conducting ground contact;

and a protective sleeve for protecting the use is sleeved on the grounding conductive structure.

2. The antistatic nano health cloth according to claim 1, wherein: the conductive silver mesh layer (2) is positioned in the middle of the nano healthy cloth base layer (1), and the periphery of the conductive silver mesh layer (2) is at least 5cm away from the edge of the nano healthy cloth base layer (1).

3. The antistatic nano health cloth according to claim 2, wherein: the conductive silver strips (7) are arranged to be a plurality of, and each conductive silver strip (7) is arranged outside the nano healthy cloth base layer (1) at equal intervals.

4. The antistatic nano health cloth according to claim 3, wherein: the touchdown silver point (8) is arranged in a spherical structure, and the diameter of the touchdown silver point (8) is larger than that of the conductive silver filament (7).

5. The antistatic nano health cloth according to claim 4, wherein: the protective sleeve comprises a first protective cloth sleeve (9) and a second protective cloth sleeve (10) which are connected end to end, wherein the first protective cloth sleeve (9) corresponds to a conductive silver thread and is sleeved outside, the second protective cloth sleeve (10) is arranged to be arc-shaped and is sleeved outside a contact silver point (8), and a contact silver point (8) is exposed out of the lower part of the second protective cloth sleeve (10) and is arranged to be a contact protrusion part (801) used for contacting the ground.

6. The antistatic nano health cloth according to claim 5, wherein: silver foil strip sets up to long banding silver foil strip (3), silver foil strip (3) set up to four, and four silver foil strips (3) use the center of the healthy cloth basic unit of nanometer (1) to set up to the rice font as the basic point is crisscross, electrically conductive strip cooperation silver foil strip (3) are corresponding to set up to banding electrically conductive yarn strip (4), and every electrically conductive yarn strip (4) one-to-one silver foil strip (3) are connected.

7. The antistatic nano health cloth according to claim 5, wherein: the silver foil strip is set to be a circular silver foil (5), the silver foil (5) is set to be a plurality of, a plurality of silver foils (5) are arranged on the conductive silver net layer (2) at equal intervals, the conductive silver foil strip is correspondingly set to be a circular conductive yarn piece (6) in cooperation with the silver foil (5), and the silver foil pieces (5) are connected in a one-to-one correspondence mode through each conductive yarn piece (6).

8. The antistatic nano health cloth according to claim 6 or 7, wherein: the conductive strips are synthetic fiber strips, and the conductive strips are planar or matted.

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