CN216281634U - Electric heating equipment with multiband infrared physiotherapy - Google Patents

Abstract

The utility model discloses electric warming equipment with multiband infrared physiotherapy, and relates to the technical field of electric warming physiotherapy equipment. This electric warming equipment includes: the system comprises a base frame, a near infrared emitting device, a middle infrared emitting device, a high-temperature heating device and a control mechanism, wherein the near infrared emitting device, the middle infrared emitting device, the high-temperature heating device and the control mechanism are arranged on the base frame; the near-infrared emitting device, the middle-infrared emitting device and the high-temperature heating device are electrically connected with the control mechanism; the radiation mid-infrared energy of the mid-infrared emitting device is higher than the convection heating energy; the convection heating energy of the high-temperature heating device is higher than the radiation mid-infrared energy; the infrared radiation wavelengths of the near-infrared emitting device, the intermediate-infrared emitting device and the high-temperature heating device are different. According to the utility model, the high-temperature heating device provides a quick heating effect, the intermediate infrared emitting device provides comfortable infrared physiotherapy and comfortable warm feeling, and the near infrared emitting device radiates near infrared light with high penetration rate, so that the deep physiotherapy effect on a user is achieved.

Description

Electric heating equipment with multiband infrared physiotherapy

Technical Field

The utility model relates to the technical field of electric heating physiotherapy equipment, in particular to electric heating equipment with multiband infrared physiotherapy.

Background

Medium and small-sized electric heating equipment in the market generally outputs energy by heat convection heating and infrared radiation heating at the same time; the heat convection heating mode is to make all objects in the space receive and consume heat indiscriminately; in addition to the local high temperature of the direct heating area, energy waste, and reduction of indoor humidity, various health problems result. In addition, the existing infrared electric heating physiotherapy equipment generally arranges an infrared emitting device in a screen, furniture or an electric heating instrument in the environment and then radiates infrared light to the body of a user. The electric heating physiotherapy equipment only uses laser or infrared lamps to output part of the body of a user through infrared light radiation of a single waveband, and the energy of the infrared light radiation is basically absorbed by the clothes of the user, so that the infrared light radiation cannot penetrate through the clothes of the user or only a small amount of infrared light radiation reaches the epidermis of the user, and the effective infrared physiotherapy effect is difficult to achieve.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the utility model provides electric heating equipment with multiband infrared physiotherapy, which aims to provide the effects of high-temperature heating and warming, provide comfortable warm feeling, provide multiband infrared radiation and carry out deep and effective physiotherapy through subcutaneous high-penetrability infrared light.

The technical scheme adopted by the embodiment of the utility model for solving the technical problem is as follows: an electric warming apparatus with multiband infrared therapy, comprising: the system comprises a base frame, a near infrared emitting device, a middle infrared emitting device, a high-temperature heating device and a control mechanism, wherein the near infrared emitting device, the middle infrared emitting device, the high-temperature heating device and the control mechanism are arranged on the base frame;

the near-infrared emitting device, the intermediate-infrared emitting device and the high-temperature heating device are electrically connected with the control mechanism; the radiation intermediate infrared energy of the intermediate infrared emitting device is higher than the convection heating energy; the convection heating energy of the high-temperature heating device is higher than the radiation mid-infrared energy;

the infrared radiation wavelengths of the near-infrared emitting device, the intermediate-infrared emitting device and the high-temperature heating device are different.

Optionally, the wavelength of infrared radiation of the high-temperature heating device is shorter than that of infrared radiation of the intermediate infrared emission device; the infrared radiation wavelength of the near-infrared emission device is shorter than that of the high-temperature heating device.

Optionally, the infrared radiation wavelength range of the near-infrared emission device is between 0.8 and 3 μm; the infrared radiation wavelength range of the high-temperature heating device is between 3 and 7 mu m; the infrared radiation wavelength range of the middle infrared emission device is between 5 and 15 mu m.

Optionally, the base frame is arranged in a frame-shaped structure, the number of the middle infrared device emitting devices is several, the number of the high-temperature heating devices is several, and the number of the near infrared emitting devices is several; the middle infrared emitting device, the near infrared emitting device and the high-temperature heating device are vertically and/or horizontally arranged in the frame type base frame.

Optionally, the intermediate infrared emitting device and the high-temperature heating device are vertically arranged on the base frame in a plate shape; the middle infrared emission device is positioned above the high-temperature heating device; the near-infrared emission device is positioned on the top of the intermediate infrared emission device.

Optionally, the near-infrared emitting device includes a plurality of near-infrared LED light emitting units, and the near-infrared LED light emitting units are electrically connected to the control mechanism.

Optionally, the intermediate infrared emission device is located above the high-temperature heating device, the intermediate infrared emission device is provided with a first functional top surface facing a user, and the high-temperature heating device is provided with a second functional top surface facing the user; the first function top surface and the second function top surface are arranged in a staggered mode, and the vertical surface where the second function top surface is located is closer to the user than the vertical surface where the first function top surface is located.

Optionally, the area of the first functional top surface is larger than the area of the second functional top surface.

Optionally, the first functional top surface and/or the second functional top surface are/is provided with a honeycomb-shaped hollow structure.

Optionally, the electric warming device with multiband infrared physiotherapy further comprises supporting legs, a decorative cover plate, a back plate, a lamp strip and/or a control panel.

The infrared light of the middle infrared band is matched with the radiation of the human body, except that nearly 100 percent of the infrared light is absorbed by the human body to generate a warm effect, the infrared light of different bands is absorbed by the subcutaneous cell tissues of the human body to induce biochemical reactions related to health physical therapy, and the existing medical practice can improve the blood circulation and the immunity, enhance the wound healing capability, relieve pain, relieve depression pressure, improve the sleep quality, delay the memory decline and other physical therapy effects.

Referring to fig. 1, a graph of the relationship between the wavelength of infrared radiation and the penetration depth of infrared radiation into the subcutaneous region of a human body shows that the penetration depth of infrared radiation is only in the epidermis when the wavelength of infrared radiation is in a wide band of about 7-15 μm; when the wavelength of the infrared radiation is in a wide band of about 4-6 μm, the infrared radiation can penetrate subcutaneous body fluid microcirculation tissues such as capillaries and the like; infrared radiation can penetrate to subcutaneous hair follicles or muscles when the wavelength of the infrared radiation is in a broad band around 1-2 μm.

The utility model has the beneficial effects that: the base frame is provided with a near infrared emitting device, a middle infrared emitting device and a high-temperature heating device which can radiate different infrared wavelengths. The infrared emitting device is mainly used for providing comfortable infrared physiotherapy and providing comfortable warm feeling for a user; the power of the high-temperature heating device is higher than that of the medium-infrared emitting device, the convection heating energy is higher than the radiation medium-infrared energy, the infrared radiation is shorter than the medium-infrared emitting device, the infrared subcutaneous penetrating energy is stronger, the rapid heating requirement of a user in a low-temperature environment can be met, and the medium-infrared physiotherapy function is expanded; the energy of near infrared light with the wavelength of 1-2 mu m can efficiently penetrate through the epidermis layer of a user and is transmitted to hair follicles and muscles below the epidermis layer, so that the effects of deep infrared physiotherapy of hair and inflammation and pain are achieved, the absorption of the medium infrared light with the wavelength of 3-15 mu m is concentrated on the epidermis layer and subcutaneous body fluid microcirculation tissues of the user, and mild warm feeling and comfortable infrared physiotherapy are provided. According to the utility model, the near-infrared emitting device, the intermediate infrared emitting device and the high-temperature heating device which are different in infrared radiation wavelength are arranged, the high-temperature heating device provides a quick heating effect, the intermediate infrared emitting device provides comfortable infrared physiotherapy and comfortable warm feeling, and the near-infrared emitting device radiates near-infrared light with high penetration rate, so that the deep physiotherapy effect on a user is achieved.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible and comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a graph of the wavelength of infrared radiation as a function of the depth of penetration of the infrared radiation into the skin;

FIG. 2 is a schematic structural diagram of an electric warming apparatus with multiband infrared therapy according to an embodiment;

FIG. 3 is a cross-sectional view of the electric warming apparatus of FIG. 2 with multi-band infrared therapy

Description of the main element symbols:

10. a base frame; 20. a mid-infrared emitting device; 30. a high temperature heating system; 40. a near-infrared emitting device; 41. a near-infrared LED light emitting unit; 50. a control mechanism; 60. a first functional top surface; 70. a second functional top surface; 80. supporting legs; 81. and (4) decorating a cover plate.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, a plurality of means is two or more, and greater than, less than, more than, etc. are understood as excluding the present number, and greater than, less than, etc. are understood as including the present number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless explicitly defined otherwise, the terms "disposed," "mounted," "connected," and the like are to be understood in a broad sense, and for example, may be directly connected or indirectly connected through an intermediate; can be fixedly connected, can also be detachably connected and can also be integrally formed; may be a mechanical connection; either as communication within the two elements or as an interactive relationship of the two elements. The specific meaning of the above-mentioned words in the present invention can be reasonably determined by those skilled in the art in combination with the detailed contents of the technical solutions.

Examples

Referring to fig. 2 to 3, the present invention provides an electric warming apparatus with multiband infrared therapy, including: the system comprises a pedestal 10, a near infrared emitter 40, a middle infrared emitter 20, a high temperature heating device 30 and a control mechanism 50 which are arranged on the pedestal 10;

the near-infrared emitting device 40, the middle-infrared emitting device 20 and the high-temperature heating device 30 are all electrically connected with the control mechanism 50; the radiant mid-infrared energy of the mid-infrared emitter 20 is higher than the convection heating energy; the convection heating energy of the high temperature heating apparatus 30 is higher than the radiant mid-infrared energy;

the near-infrared emitting device 40, the intermediate-infrared emitting device 20, and the high-temperature heating device 30 have different infrared radiation wavelengths.

The infrared light of the middle infrared band is matched with the radiation of the human body, except that nearly 100 percent of the infrared light is absorbed by the human body to generate a warm effect, the infrared light of different bands is absorbed by the subcutaneous cell tissues of the human body to induce biochemical reactions related to health physical therapy, and the existing medical practice can improve the blood circulation and the immunity, enhance the wound healing capability, relieve pain, relieve depression pressure, improve the sleep quality, delay the memory decline and other physical therapy effects.

Referring to fig. 1, a graph of the relationship between the wavelength of infrared radiation and the penetration depth of infrared radiation into the subcutaneous region of a human body shows that the penetration depth of infrared radiation is only in the epidermis when the wavelength of infrared radiation is in a wide band of about 7-15 μm; when the wavelength of the infrared radiation is in a wide band of about 4-6 μm, the infrared radiation can penetrate subcutaneous body fluid microcirculation tissues such as capillaries and the like; infrared radiation can penetrate to subcutaneous hair follicles or muscles when the wavelength of the infrared radiation is in a broad band around 1-2 μm.

In the present invention, the base frame 10 is provided with a near infrared emitting device 40, a middle infrared emitting device 20, and a high temperature heating device 30 which can radiate different infrared wavelengths. The mid-infrared emitting device 20 provides infrared radiation of a mid-infrared band towards a user, the mid-infrared energy of the mid-infrared radiation is higher than convection heating energy, and the mid-infrared emitting device is mainly used for providing comfortable infrared physiotherapy and providing comfortable warm feeling for the user; the power of the high-temperature heating device 30 is higher than that of the middle infrared emitting device 20, the convection heating energy is higher than the radiation middle infrared energy, the infrared radiation is shorter than that of the middle infrared emitting device 20, the infrared subcutaneous penetration energy is stronger, the rapid heating requirement of a user in a low-temperature environment can be met, and the middle infrared physiotherapy function is expanded; the energy of near infrared light with the wavelength of 1-2 mu m can efficiently penetrate through the epidermis layer of a user and is transmitted to hair follicles and muscles below the epidermis layer, so that the effects of deep infrared physiotherapy of hair and inflammation and pain are achieved, the absorption of the medium infrared light with the wavelength of 3-15 mu m is concentrated on the epidermis layer and subcutaneous body fluid microcirculation tissues of the user, and mild warm feeling and comfortable infrared physiotherapy are provided.

According to the utility model, the near-infrared emitting device 40, the intermediate infrared emitting device 20 and the high-temperature heating device 30 which are different in infrared radiation wavelength are arranged, the high-temperature heating device 30 provides a quick heating effect, the intermediate infrared emitting device 20 provides comfortable infrared physiotherapy and comfortable warm feeling, and the near-infrared emitting device 40 radiates near-infrared light with high penetration rate, so that the deep physiotherapy effect on a user is achieved.

In this embodiment, the infrared radiation wavelength of the high temperature heating apparatus 30 is shorter than the infrared radiation wavelength of the intermediate infrared emitting apparatus 20; the infrared radiation wavelength of the near infrared emitting device 40 is shorter than that of the high temperature heating device 30.

According to the infrared radiation wavelength vs. penetration depth into the human skin of FIG. 1, in some embodiments of the present invention, the near infrared emitting device 40 has a wavelength in the range of 0.8-3 μm. When the wavelength range of the infrared radiation is in the wavelength band interval, the infrared radiation can penetrate to subcutaneous hair follicles or muscles, and the energy of the infrared radiation can effectively penetrate through clothes or hairs of a user, so that the effect of deep physical therapy is achieved. For example, the infrared radiation wavelength of the near-infrared emitting device 40 may be set to a broad band around 0.8-3 μm or in any interval therein.

In some embodiments of the present invention, the infrared radiation wavelength range of the mid-infrared emitting device 20 is between 5-15 μm. When the wavelength range of infrared radiation is located between this wavelength band interval, infrared radiation power is higher than the convection heating power, and is low to the influence of indoor humidity, and infrared radiation can transmit to the epidermal layer simultaneously, possesses mild mid-infrared physiotherapy effect, is fit for using for a long time, carries out physiotherapy such as the gentle tai skin care that the physiotherapy course of treatment is more. . For example, the infrared radiation wavelength of the mid-infrared emitting device 20 may be set to a broad band around 5 μm to 15 μm or any interval therein.

In some embodiments of the present invention, the high temperature heater 30 has a wavelength range of infrared radiation between 3-7 μm. When the wavelength range of the infrared radiation is in the wavelength range, the infrared radiation can penetrate subcutaneous body fluid microcirculation tissues such as capillaries, and the high-temperature heating device 30 provides quick warm feeling for the user under the operating condition that the convection heating power and the infrared radiation power are high; can satisfy the quick heating demand of user in low temperature environment, expanded the function of mid infrared physiotherapy simultaneously. For example, the wavelength of the infrared radiation of the high temperature heater 30 may be set to about 3 to 7 μm or a wide band in any interval thereof.

Referring to fig. 2 and 3, the base frame 10 is configured in a frame structure, a plurality of middle infrared devices are provided, a plurality of high temperature heating devices 30 are provided, and a plurality of near infrared devices 40 are provided; the mid-infrared emitter 20, the near-infrared emitter 40, and the high-temperature heater 30 are vertically and/or horizontally disposed in the frame-shaped base frame 10. For example, a plurality of near infrared ray emitting devices 40, intermediate infrared ray emitting devices 20, and high temperature heaters 30 may be arranged in a grid shape in the vertical and horizontal directions; alternatively, only a plurality of the near infrared ray emitting devices 40, the middle infrared ray emitting devices 20, and the high temperature heating devices 30 are arranged in the vertical or horizontal direction. The near infrared emitting devices 40, the mid infrared emitting devices 20, and the high temperature heating devices 30 may be distributed in a staggered manner, in a fitting manner, or uniformly distributed on the base frame 10.

In other embodiments, one near infrared emitting device 40, one mid infrared emitting device 20, and one high temperature heating device 30 are provided, but a plurality of heating areas may be provided, which are vertically and/or horizontally disposed within the frame-type base frame 10.

In this embodiment, specifically, the mid-infrared emitting device 20 and the high-temperature heating device 30 are vertically disposed on the base frame 10 in a plate shape; the mid-infrared emitting device 20 is positioned above the high-temperature heating device 30; the near infrared emitting device 40 is located on top of the mid infrared emitting device 20. The mid-infrared emission device 20 is located above the high-temperature heating device 30, and the high-temperature heating of the high-temperature heating device 30 can better cover users or radiate the whole indoor space by utilizing the principle of hot air upward distribution; the near infrared emitting device 40 is located on the top of the mid infrared emitting device 20, has a height equivalent to the height of the neck or head of the user, and can radiate near infrared light with high penetration rate towards the head or neck of the user, wherein the near infrared light penetrates through the hair or clothes of the user to perform deep physiotherapy on the brain region of the user

Specifically, the near-infrared emitting device 40 includes a plurality of near-infrared LED light emitting units 41, and the near-infrared LED light emitting units 41 are electrically connected to the control mechanism 50. The control mechanism 50 adjusts the luminous power and the working mode of the LED light-emitting unit through the near-infrared LED light-emitting unit 41, so that near-infrared light with high penetration rate is provided for deep physiotherapy.

Referring to fig. 3, in the present embodiment, the middle infrared emitting device 20 is located above the high temperature heating device 30, the middle infrared emitting device 20 is provided with a first functional top surface 60 facing the user, and the high temperature heating device 30 is provided with a second functional top surface 70 facing the user; the first functional top surface 60 is offset from the second functional top surface 70 such that the vertical plane of the second functional top surface 70 is closer to the user than the vertical plane of the first functional top surface 60. The first functional top surface 60 and the second functional top surface 70 are arranged in a staggered manner, and the second functional top surface 70 protrudes to be closer to a user, so that the high-temperature hot air flow below is effectively prevented from converging to influence the middle infrared emitting device 20, and the middle infrared emitting device 20 is prevented from being influenced or damaged by the local high temperature at the bottom of the high-temperature heating device 30.

Further, the area of the first functional top surface 60 is larger than that of the second functional top surface 70. The mid ir emitting device 20 has low ir power and convection heating power, the ir wavelength range is between 5-15 μm, and the ir radiation is only transmitted to the epidermis layer to provide a mild and comfortable warm feeling. Therefore, the large-area first functional top surface 60 is arranged, so that the infrared radiation of the mid-infrared emitting device 20 can effectively cover the user, and the mild and comfortable mid-infrared physiotherapy effect is ensured.

According to the present invention, the first functional top 60 and/or the second functional top 70 are provided with a honeycomb-like hollow structure. So that the infrared radiation of the mid-ir emitting device 20 and the high temperature heating device 30 can be transmitted to the user to provide infrared physiotherapy and rapid heating.

In some embodiments, the electric warming apparatus with multiband infrared therapy further comprises support feet 80, a trim cover 81, a back panel, a light strip, and/or a control panel. A decorative cover 81 may be provided on the first functional top surface 60 and a light strip may be provided around the pedestal 10. The side of the back plate, which faces away from the user, is covered and arranged on the base frame 10; the control panel is located on the top of the base frame 10 for the user to operate. The back side of the trim cover 81 may also be provided with electrical heating or other circuit features.

It is to be understood that the present invention is not limited to the above-described embodiments, and that equivalent modifications and substitutions may be made by those skilled in the art without departing from the spirit of the present invention, and that such equivalent modifications and substitutions are to be included within the scope of the appended claims.

Claims (10)

1. An electric warming apparatus with multiband infrared physiotherapy, comprising: the system comprises a pedestal (10), a near infrared emitting device (40), a middle infrared emitting device (20), a high-temperature heating device (30) and a control mechanism (50), wherein the near infrared emitting device, the middle infrared emitting device, the high-temperature heating device and the control mechanism are arranged on the pedestal (10);

the near-infrared emitting device (40), the intermediate-infrared emitting device (20) and the high-temperature heating device (30) are electrically connected with the control mechanism (50); the radiant mid-infrared energy of the mid-infrared emitting device (20) is higher than the convection heating energy; the convection heating energy of the high-temperature heating device (30) is higher than the infrared energy in radiation;

the infrared radiation wavelengths of the near-infrared emitting device (40), the intermediate-infrared emitting device (20) and the high-temperature heating device (30) are different.

2. The electric warming apparatus with multiband infrared therapy according to claim 1, characterized in that: the infrared radiation wavelength of the high-temperature heating device (30) is shorter than that of the middle infrared emitting device (20); the infrared radiation wavelength of the near infrared emitting device (40) is shorter than that of the high temperature heating device (30).

3. The electric warming apparatus with multiband infrared therapy according to claim 1, characterized in that: the infrared radiation wavelength range of the near-infrared emission device (40) is between 0.8 and 3 mu m; the infrared radiation wavelength range of the high-temperature heating device (30) is between 3 and 7 mu m; the infrared radiation wavelength range of the middle infrared emission device (20) is between 5 and 15 mu m.

4. The electric warming apparatus with multiband infrared therapy according to claim 1, characterized in that: the base frame (10) is arranged in a frame structure, a plurality of middle infrared device emitting devices are arranged, a plurality of high-temperature heating devices (30) are arranged, and a plurality of near infrared emitting devices (40) are arranged; the middle infrared emitting device (20), the near infrared emitting device (40) and the high-temperature heating device (30) are vertically and/or horizontally arranged in the frame type base frame (10).

5. The electric warming apparatus with multiband infrared therapy according to claim 1, characterized in that: the middle infrared emitting device (20) and the high-temperature heating device (30) are vertically arranged on the base frame (10) in a plate shape; the middle infrared emitting device (20) is positioned above the high-temperature heating device (30); the near infrared emission device (40) is located on top of the mid infrared emission device (20).

6. The electric warming apparatus with multiband infrared therapy according to claim 1, characterized in that: the near-infrared emitting device (40) comprises a plurality of near-infrared LED light emitting units (41), and the near-infrared LED light emitting units (41) are electrically connected with the control mechanism (50).

7. The electric warming apparatus with multiband infrared therapy according to claim 1, characterized in that: the middle infrared emitting device (20) is positioned above the high-temperature heating device (30), a first functional top surface (60) is arranged on the middle infrared emitting device (20) facing a user, and a second functional top surface (70) is arranged on the high-temperature heating device (30) facing the user; the first function top surface (60) and the second function top surface (70) are arranged in a staggered mode, and the vertical surface where the second function top surface (70) is located is closer to the user than the vertical surface where the first function top surface (60) is located.

8. The electric warming apparatus with multiband infrared therapy according to claim 7, characterized in that: the area of the first functional top surface (60) is larger than the area of the second functional top surface (70).

9. The electric warming apparatus with multiband infrared therapy according to claim 7, characterized in that: the first functional top surface (60) and/or the second functional top surface (70) are/is provided with a honeycomb-shaped hollow structure.

10. The electric warming apparatus with multiband infrared therapy according to claim 1, characterized in that: the electric warming equipment with multiband infrared physiotherapy further comprises supporting legs (80), a decorative cover plate (81), a back plate, a lamp strip and/or a control panel.

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