CN209914094U - Biological physiotherapy wire - Google Patents

Abstract

The utility model relates to a biological physiotherapy wire, which comprises a single-walled carbon nanotube fiber conductive wire core, a crosslinked polyethylene insulating layer, an alkali-free glass fiber braided layer and a polyimide solvent paint outer protective layer; a crosslinked polyethylene insulating layer, an alkali-free glass fiber braided layer and a polyimide solvent paint outer protective layer are sequentially arranged outside the single-walled carbon nanotube fiber conductive wire core; the wire core is a heating wave generation fiber formed by proportionally fusing a single-walled carbon nanotube and polyamide, and a plurality of heating wave generation fibers are combined to form the conductive wire core; the alkali-free glass fiber woven layer is a 40-yarn high-melting-point alkali-free glass fiber woven layer. The utility model has the advantages that: can generate far infrared wave with the wavelength required by an organism, namely 3-15 um main body wave band, under the actual operation environment, and has the effects of physical therapy and health care.

Description

Biological physiotherapy wire

Technical Field

The utility model relates to a biological physiotherapy wire, which is used for physical physiotherapy of biological physiotherapy instruments, physical physiotherapy health care rooms of residents and units, high-quality breeding and the like.

Background

The new China is established for 70 years, the current China is no longer an old China which is not full and can not be worn warm, with the improvement of the old China for forty years, the upgrading of the national technical industry is imminent, meanwhile, the pressure of the national people in the learning and working is higher and higher, a plurality of people work before computers of office buildings all the year round, many middle and young people are in sub-health state for a long time, and the biological physiotherapy wire can help the organism to quickly recover the activity, improve the blood circulation, promote the metabolism and improve the immunity in a unit or at home. However, most of the prior products adopt carbon powder, ceramics and the like to generate far infrared microwaves, and the wide wavelength distribution (3-150 um) is not beneficial to absorption of biological receptors.

Disclosure of Invention

In view of the situation of prior art and the not enough of existence, the utility model provides a biological physiotherapy wire, the utility model discloses a single walled carbon nanotube is as the sound wave carrier that generates heat, and the frequency channel that can fine control production microwave, wavelength are 3-15 um account for more than 90% of total wave band, can better play the efficiency of physiotherapy health care.

The utility model discloses a realize above-mentioned purpose, the technical scheme who adopts is: a biological physiotherapy wire is characterized in that: the single-walled carbon nanotube fiber cable comprises a single-walled carbon nanotube fiber conductive wire core, a crosslinked polyethylene insulating layer, an alkali-free glass fiber braided layer and a polyimide solvent paint outer protective layer;

a crosslinked polyethylene insulating layer, an alkali-free glass fiber braided layer and a polyimide solvent paint outer protective layer are sequentially arranged outside the single-walled carbon nanotube fiber conductive wire core;

the wire core is a heating wave generation fiber formed by proportionally fusing a single-walled carbon nanotube and polyamide, and a plurality of heating wave generation fibers are combined to form the conductive wire core;

the alkali-free glass fiber woven layer is a 40-yarn high-melting-point alkali-free glass fiber woven layer.

The utility model has the advantages that:

the wire core of the conducting wire is made of the single-walled carbon nanotube and polyamide composite fiber material at the tip, can generate far infrared waves with the wavelength required by an organism under the actual operating environment, namely 3-15 um main body wave band, accounts for more than 90% of the total wave band, plays a role in activating the activity of organism molecules, promoting and improving blood circulation, promoting metabolism, improving immunity, diminishing inflammation, easing pain and other auxiliary effects, and plays a role in physical therapy and health care.

The lead has halogen-free flame retardant; the environment is protected; wear resistance; low temperature resistance; good flexibility.

Drawings

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

Detailed Description

As shown in fig. 1, a biological physiotherapy wire comprises a single-walled carbon nanotube fiber conductive core 1, a crosslinked polyethylene insulating layer 2, an alkali-free glass fiber braided layer 3, and a polyimide solvent paint outer protective layer 4.

The single-walled carbon nanotube fiber conductive wire core 1 is formed by compounding and fusing a single-walled carbon nanotube and polyamide to form heating wave-generating fiber, and a plurality of heating wave-generating fibers are combined to form a wire core.

Single-walled carbon nanotubes (Metallic SWNTs; Diameter Range: 1.2nm-1.7 nm; purity not less than 95%).

A50-type extruder is used outside the single-walled carbon nanotube fiber conductive wire core 1 to extrude polyethylene material with the thickness of 0.20MM on one side, and then the polyethylene material is crosslinked by an electron accelerator to form a crosslinked polyethylene insulating layer 2 (XLPE at 105 ℃).

A weaving machine is used for weaving a 40-count high-melting-point alkali-free glass fiber weaving layer 3 (the density is more than or equal to 90%) on the crosslinked polyethylene insulating layer 2.

The alkali-free glass fiber braided layer 3 is matched with a special rubber mould through a paint dipping and baking integrated machine, and polyimide solvent paint is dipped outside the alkali-free glass fiber braided layer 3 to form a polyimide solvent paint outer protective layer 4.

The process for impregnating the alkali-free glass fiber woven layer 3 with paint comprises the following steps: dipping paint, drying, dipping paint and drying for two times, wherein the drying temperature is not higher than 135 ℃.

The detection of the finished product of the biological physiotherapy wire,

a power detector: the method is used for detecting the power (power consumption under 220V voltage at 50 Hz) of the single-walled carbon nanotube composite fiber heating wave generation core with different yarn numbers (fixed length). And (3) finished product withstand voltage tester: withstand voltage is 5min, and 1000V has no breakdown.

Insulation resistance tester: the insulation resistance is greater than 20M ohm/kilometer.

Wavelength frequency detector: and detecting the wavelength and the frequency of the far infrared wave of the single-walled carbon nanotube composite fiber under the conditions of different matching proportions.

The physiotherapy principle of the biological physiotherapy wire is that the wire converts electric energy into internal energy, and then far infrared rays with the wavelength range of 3-15 um (the microwave of the wave band accounts for more than 90% of all wave frequencies) are radiated to a receptor.

Claims (1)

1. A biological physiotherapy wire is characterized in that: the single-walled carbon nanotube fiber cable comprises a single-walled carbon nanotube fiber conductive wire core (1), a crosslinked polyethylene insulating layer (2), an alkali-free glass fiber woven layer (3) and a polyimide solvent paint outer protective layer (4);

a crosslinked polyethylene insulating layer (2), an alkali-free glass fiber braided layer (3) and a polyimide solvent paint outer protective layer (4) are sequentially arranged outside the single-walled carbon nanotube fiber conductive wire core (1);

the single-walled carbon nanotube fiber conductive wire core (1) is formed by combining a plurality of heating wave-generating fibers;

the alkali-free glass fiber woven layer (3) is a high-melting-point alkali-free glass fiber woven layer with 40 yarns.

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