CN215461458U - Portable far infrared electromagnetic therapeutic instrument - Google Patents

Abstract

The utility model relates to the technical field of electromagnetic therapeutic apparatuses, in particular to a portable far infrared electromagnetic therapeutic apparatus, which comprises a textile belt, heating core components and a cover plate, wherein a plurality of heating core components are linearly sewn on the textile belt through textile cloth strips, and the cover plate is buckled at the upper ends of the heating core components; the heating core component comprises an electric heating substrate and a far infrared coating, wherein the electric heating substrate comprises a thin glass sheet, a ceramic sheet, a mica sheet, a semiconductor metal oxide coating and an electrode sheet; the far infrared coating is made of a nano powder coating material, the thickness of the far infrared coating is 0.5-5mm, and the far infrared coating is coated on the upper surface of the electric heating substrate; the problem of when using far infrared electromagnetic therapeutic instrument, have the structure complicacy, carry inconvenience and cost of manufacture height, lead to its practicality to reduce is solved, can realize treating human many positions, can hand-carry not influence study and work to do not receive weather (temperature) influence.

Description

Portable far infrared electromagnetic therapeutic instrument

Technical Field

The utility model relates to the technical field of electromagnetic therapeutic apparatuses, in particular to a portable far infrared electromagnetic therapeutic apparatus.

Background

The far infrared is a thermal radiation ray, the wavelength of which is 5.6-1000 μm, the human body is a radiation source of the far infrared ray, and the far infrared ray has strong absorption capacity to the external 4-12 μm far infrared ray, when the frequency of the ray is consistent with the frequency of the water molecule between the cell molecule and the atom in the human body, the physiological effect, the thermal effect and the resonance effect are caused, the energy is absorbed by the tissue of the human body, thereby promoting the blood circulation, enhancing the metabolism, accelerating the synthesis of the biological enzyme required by the human body, enhancing the immunity of the human body and the regeneration capacity of the biological cell tissue, and achieving the purpose of preventing and treating diseases; the far infrared ray can be widely used for the medical treatment of cough, asthma, chronic bronchitis and other diseases, and can also be used for the treatment of stomachache, diarrhea, abdominal distention, arthritis, scapulohumeral periarthritis, lumbar muscle strain, sprain, soft tissue injury and other diseases caused by dyspepsia.

In order to facilitate the use and implementation of the far infrared electromagnetic therapeutic apparatus, although various brands of therapeutic apparatuses have appeared on the market, the far infrared electromagnetic therapeutic apparatus has many defects when being used, such as the complex structure, the inconvenient carrying and the high manufacturing cost, which leads to the reduced practicability, and therefore, the development of a portable far infrared electromagnetic therapeutic apparatus is urgently needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a portable far infrared electromagnetic therapeutic apparatus, which solves the problems of complex structure, inconvenient carrying and high manufacturing cost and reduced practicability when the far infrared electromagnetic therapeutic apparatus is used by designing and using a series of structures, can realize treatment on multiple parts of a human body, can be carried about without influencing study and work, and is not influenced by weather (temperature).

The utility model is realized by the following technical scheme:

a portable far infrared electromagnetic therapeutic apparatus comprises a textile belt, heating core components and a cover plate, wherein a plurality of heating core components are linearly sewn on the textile belt through textile cloth strips, and the cover plate is buckled at the upper ends of the heating core components;

the heating core component comprises an electric heating substrate and a far infrared coating, wherein the electric heating substrate comprises a thin glass sheet, a ceramic sheet, a mica sheet, a semiconductor metal oxide coating and an electrode sheet;

the far infrared coating is made of nano powder coating materials, the thickness of the far infrared coating is 0.5-5mm, and the far infrared coating is coated on the upper surface of the electric heating substrate.

Preferably, copper column connecting pieces are symmetrically and fixedly inserted into four corners of the heating core component, and the cover plate and the heating core component can be buckled through the threaded matching of the copper column connecting pieces and fastening screws.

Preferably, when the electric heating substrate is used, the ceramic sheet is arranged at the top of the thin glass sheet, the semiconductor metal oxide coating is coated on the top of the ceramic sheet, the mica sheet is arranged at the top of the semiconductor metal oxide coating, the electrode sheets are arranged at two ends of the semiconductor metal oxide coating, and the electrode sheets are sequentially connected with the voltage regulator, the control panel and the electric skewer socket through wires.

Preferably, the thicknesses of the thin glass sheet, the ceramic sheet and the mica sheet are all 5-15 mm.

Preferably, the thickness of the semiconductive metal oxide coating is 0.2-5 mm.

Preferably, the electrode plate is made of a copper-silver alloy material.

Preferably, the cover plate specifically comprises a cover body, waist-shaped grooves and insertion holes, the cover body is arranged in a rectangular structure, the four corners of the cover body are symmetrically provided with sunken insertion holes matched with the fastening screws, and the cover body is linearly provided with a plurality of waist-shaped grooves which are located in the middle of the cover body.

Preferably, the nano powder coating can be prepared by mixing one or more of metal oxide and non-metal oxide.

Preferably, the electric heating substrate is when using, still including the temperature sensor piece that sets up, the temperature sensor piece inlays to be located the inside of mica sheet, just temperature sensor with control panel electrical property links to each other.

Preferably, the textile belt further comprises two sewn magic tapes, the hair side of one of the magic tapes is located at the top of one end of the textile belt, the hook side of the other magic tape is located at the bottom of the other end of the textile belt, and the length of the hook side of the magic tape is at least three times that of the hair side of the magic tape.

The utility model has the beneficial effects that:

by adopting the design and the use of the structure, the utility model solves the problems of complex structure, inconvenient carrying and high manufacturing cost and reduced practicability when the far infrared electromagnetic therapeutic apparatus is used, can realize the treatment of a plurality of parts of a human body, can be carried about without influencing study and work, and is not influenced by weather (temperature);

the utility model has novel structure, reasonable design, simple and flexible operation and stronger practicability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a top view of the structure of the present invention;

FIG. 2 is a bottom view of the structure of the present invention;

FIG. 3 is a block diagram of a heating core component of the present invention;

FIG. 4 is a view showing the assembly of the heating core member and the cover plate according to the present invention.

In the figure: 1-textile belt, 2-heating core component, 21-electric heating base plate, 211-thin glass sheet, 212-ceramic sheet, 213-mica sheet, 214-semiconductor metal oxide coating, 215-electrode sheet, 22-far infrared coating, 3-cover plate, 31-cover body, 32-waist-shaped groove, 33-plug hole, 4-copper column connecting piece, 5-fastening screw and 6-magic tape.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

Referring to fig. 1, 2, 3 and 4, an embodiment of the present invention specifically discloses a technical solution of a portable far infrared electromagnetic therapeutic apparatus, which comprises a textile belt 1, a heating core component 2 and a cover plate 3, wherein the textile belt 1 is linearly sewn with a plurality of heating core components 2 through textile fabric strips, and the upper ends of the plurality of heating core components 2 are all buckled with the cover plate 3; through the arrangement of the textile belt 1, a user can conveniently bind a treatment part, and the comfort level during binding is improved; when the heating core component 2 is used, the heating core component can be used as a device for generating far infrared radiation electromagnetic heating treatment; above-mentioned apron 3 sets up, when binding the treatment with the user, its apron 3 is direct to be contacted with the treatment position, avoids heating core component 2 direct and treatment position contact to lead to the high skin surface damage that leads to the heat.

The heating core member 2 includes an electric heating substrate 21 and a far-infrared coating layer 22, electromagnetic heating is performed by the electric heating substrate 21, and the far-infrared coating layer 22 provides far-infrared radiation when the electric heating substrate 21 is heated; the electric heating substrate 21 includes a thin glass sheet 211, a ceramic sheet 212, a mica sheet 213, a semiconductor metal oxide coating 214, and an electrode sheet 215; when the electric heating substrate 21 is used, the thin glass sheet 211 and the ceramic sheet 212 can be used as an insulating heat-proof material to improve the safety in use, and the mica sheet 213 is used as an insulating heat-conducting material to be communicated with the semiconductor metal oxide coating 214 by the electric conduction of the electrode sheet 215 to start electromagnetic heating, so that the heat generated in heating is transferred to the far infrared coating 22 to perform electromagnetic heating far infrared radiation therapy. The far infrared coating 22 is made of nano powder coating material, the thickness of the far infrared coating is 0.5-5mm, and the far infrared coating is coated on the upper surface of the electric heating substrate 21, so that the effect of far infrared radiation heating treatment is further improved.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, specifically, the copper pillar connectors 4 are symmetrically fixed and inserted at four corners of the heating core 2, and the cover plate 3 and the heating core 2 can be fastened by the screw-thread fit of the copper pillar connectors 4 and the fastening screws 5, and the above structure can facilitate the detachment of the cover plate 3 and the heating core 2.

Specifically, when the electric heating substrate 21 is used, the top of the thin glass sheet 211 is provided with a ceramic sheet 212, the top of the ceramic sheet 212 is coated with a semiconductor metal oxide coating 214, the top of the semiconductor metal oxide coating 214 is provided with a mica sheet 213, two ends of the semiconductor metal oxide coating 214 are provided with electrode sheets 215, and the electrode sheets 215 are sequentially connected with a voltage regulator, a control panel and an electric skewer socket through leads; the use of the voltage regulator, the control panel and the electric skewer socket can conveniently realize intelligent regulation, control and use of the therapeutic apparatus.

Specifically, the thicknesses of the thin glass sheet 211, the ceramic sheet 212 and the mica sheet 213 are all 5-15 mm.

Specifically, the thickness of the semiconductive metal oxide coating 214 is 0.2-5 mm.

Specifically, the electrode sheet 215 is made of a copper-silver alloy material.

Specifically, the cover plate 3 specifically includes a cover body 31, waist-shaped grooves 32 and insertion holes 33, the cover body 31 is arranged in a rectangular structure, the four corners of the cover body 31 are symmetrically provided with sunken insertion holes 33 matched with the fastening screws 5, the cover body 31 is provided with a plurality of waist-shaped grooves 32 in a linear manner, and the waist-shaped grooves are located in the middle of the cover body 31; through the arrangement of the waist-shaped groove 32, the radiation heat on the far infrared coating 22 can be conveniently transmitted to the treatment part through the waist-shaped groove 32, and the treatment effect is further improved.

Specifically, the nano powder coating can be prepared by mixing one or more of metal oxide and non-metal oxide.

Specifically, when the electric heating substrate 21 is used, the electric heating substrate further includes a temperature sensor sheet, the temperature sensor sheet is embedded in the mica sheet 213, and the temperature sensor is electrically connected with the control panel; through the setting of temperature sensor piece, specifically can be temperature sensor, conveniently realize the constant temperature heating control to electric heating base plate 21, when detecting the temperature and surpassing control panel's temperature preset threshold value, can send signal to control panel, control panel control electric heating base plate 21 stop heating to realize temperature intelligent regulation control's purpose.

Specifically, the textile belt 1 further comprises two sewn magic tapes 6, the hair side of one magic tape 6 is located at the top of one end of the textile belt 1, the hook side of the other magic tape 6 is located at the bottom of the other end of the textile belt 1, and the length of the hook side of the magic tape 6 is at least three times that of the hair side of the magic tape 6; the hair side of the magic tape 6 is convenient to be matched with the hook side to bind the treatment part of the user, and the hair side of the magic tape 6 is matched with the length of the hook side to realize the binding tightness.

By adopting the design and the use of the structure, the utility model solves the problems of complex structure, inconvenient carrying and high manufacturing cost and reduced practicability when the far infrared electromagnetic therapeutic apparatus is used, can realize the treatment of a plurality of parts of a human body, can be carried about without influencing study and work, and is not influenced by weather and temperature.

The control mode of the electrical elements such as the electric heating substrate 21, the temperature sensor chip, the voltage regulator, the electric cutting seat and the like is controlled by the control panel matched with the electric heating substrate, the control circuit can be realized by simple programming of technicians in the field, the control circuit belongs to the common general knowledge in the field, only the control circuit is used without improvement, and the control circuit is mainly used for protecting a mechanical device, so the control mode and the circuit connection are not described in detail in the utility model.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A portable far infrared electromagnetic therapeutic apparatus is characterized by comprising a textile belt (1), a heating core component (2) and a cover plate (3), wherein the textile belt (1) is linearly sewed with a plurality of heating core components (2) through textile cloth strips, and the upper ends of the heating core components (2) are buckled with the cover plate (3);

the heating core component (2) comprises an electric heating substrate (21) and a far infrared coating (22), wherein the electric heating substrate (21) comprises a thin glass sheet (211), a ceramic sheet (212), a mica sheet (213), a semiconductor metal oxide coating (214) and an electrode sheet (215);

the far infrared coating (22) is made of a nano powder coating material, has a thickness of 0.5-5mm, and is coated on the upper surface of the electric heating substrate (21).

2. The portable far infrared electromagnetic therapeutic apparatus according to claim 1, characterized in that the four corners of the heating core component (2) are symmetrically fixed with copper column connectors (4) in an inserted manner, and the cover plate (3) and the heating core component (2) can be buckled by the threaded fit of the copper column connectors (4) and the fastening screws (5).

3. The portable far-infrared electromagnetic therapeutic apparatus according to claim 1, characterized in that when the electric heating substrate (21) is used, the ceramic sheet (212) is arranged on the top of the thin glass sheet (211), the semiconductor metal oxide coating (214) is coated on the top of the ceramic sheet (212), the mica sheet (213) is arranged on the top of the semiconductor metal oxide coating (214), the electrode sheets (215) are arranged on two ends of the semiconductor metal oxide coating (214), and the electrode sheets (215) are connected with the voltage regulator, the control panel and the electric skewer socket sequentially through leads.

4. The portable far infrared electromagnetic therapeutic apparatus of claim 3, characterized in that the thickness of said thin glass sheet (211), said ceramic sheet (212) and said mica sheet (213) are all 5-15 mm.

5. A portable far infrared electromagnetic therapeutic apparatus according to claim 3, characterized in that the thickness of said semiconductor metal oxide coating (214) is 0.2-5 mm.

6. The portable far infrared electromagnetic therapeutic apparatus of claim 3, characterized in that said electrode sheet (215) is made of copper-silver alloy.

7. The portable far infrared electromagnetic therapeutic apparatus according to claim 2, characterized in that the cover plate (3) specifically comprises a cover body (31), a waist-shaped groove (32) and insertion holes (33), the cover body (31) is arranged in a rectangular structure, the four corners of the cover body (31) are symmetrically provided with sinking insertion holes (33) matched with the fastening screws (5), the cover body (31) is provided with a plurality of waist-shaped grooves (32) in a linear manner, and the waist-shaped grooves are located in the middle of the cover body (31).

8. The portable far infrared electromagnetic therapeutic apparatus of claim 3, characterized in that, when the electric heating substrate (21) is used, it further comprises a temperature sensor sheet, the temperature sensor sheet is embedded in the mica sheet (213), and the temperature sensor is electrically connected to the control panel.

9. The portable far infrared electromagnetic therapeutic apparatus according to claim 1, characterized in that the textile belt (1) further comprises two sewn magic tapes (6), and the hook surface of one of the magic tapes (6) is located at the top of one end of the textile belt (1), the hook surface of the other magic tape (6) is located at the bottom of the other end of the textile belt (1), and the hook surface length of the magic tape (6) is at least three times the length of the hook surface of the magic tape (6).

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