TWM416477U - Ceramic sheet structure of energy emission equipment with convex parts and device thereof - Google Patents

Description

M416477 V. New description: [New technical field] This creation is about a structure and device with a convex energy illuminator, especially a device with an extremely wide band energy radiation layer. [Prior Art] The molecule absorbs energy and then generates a transition 'from low energy level to high energy level, generating vibration frequency, releasing energy 'so the energy generated by the energy irradiation device must be equal to the energy level difference of the molecular transition' to cause molecular absorption energy generation. Vibration 'where the far-infrared band with a wavelength of 4 to 14 μm can produce a warming effect on the organism and has an auxiliary function in rehabilitation. Please refer to FIG. 4 'the prior art energy illuminating device, which is a flat-type structure', which is coated with an energy-irradiating paint. The device has a long-shaped base 5 〇, and a through hole 70 is provided at both ends thereof as a power connection. Space, two through holes 7 The surface of the base 50 is provided with an energy irradiation surface 60, which comprises a plurality of energy generating elements. The energy irradiation surface of the device is a plane, which results in a narrow wavelength range, a small temperature difference, and constant constant temperature. 'Rehabilitation effect is limited. [New content] In view of the fact that the energy illuminating surface structure of the prior art energy illuminating device has a flat plate structure with a limited wavelength range and a single temperature, the purpose of the present invention is to provide a ceramic piece structure and device having a convex portion energy illuminator. For the purpose of the above-mentioned creation, the present invention provides a ceramic sheet structure having a convex portion energy illuminator, comprising a substrate and an energy illuminating layer, the substrate is rectangular, and the two ends are provided with corresponding rituals, and the two perforations are plural a convex portion, the convex portion is composed of a plurality of coaxially disposed cylinders, and an outer diameter thereof is stepped upwardly equidistantly from the surface of the base 3 M416477, and the convex portion protrudes from the surface of the substrate and is arranged in parallel with the same direction of the perforation. The protrusions may be adjacent to each other or connected to each other. The energy irradiation layer is disposed on a surface of the substrate having a convex portion, and the energy irradiation layer includes a plurality of elements for generating radiant energy. The present invention also provides a device having a convex portion energy illuminator ceramic sheet structure, comprising a ceramic sheet structure having a convex portion energy illuminator as described above, and a power connection device, the perforation of the substrate providing a power connection space. The ceramic sheet structure having the convex portion energy illuminator and the device thereof include: a ceramic sheet structure having a convex portion energy illuminator and a power connection device, wherein the perforation of the substrate having the convex portion energy illuminator ceramic sheet structure provides a power connection space When the "connecting power supply device" is energized, the energy irradiation layer releases the broadband energy by the height difference of the protrusion of the surface of the energy radiating body, and a periodic temperature difference is generated. Preferably, the convex portion of the ceramic sheet structure having the convex portion energy illuminator has an outer diameter which is stepwise upwardly equidistant from the surface of the substrate, and the distance is 4 mm. Preferably, the tip end of the convex portion having the convex portion energy illuminator ceramic sheet structure protrudes from the substrate surface by 2.5 mm. Preferably, the convex portions having the convex portion energy illuminator ceramic sheet structure are spaced apart from each other by a distance of 4 mm. Preferably, the wavelength produced by the ceramic sheet structure having the convex portion energy illuminator comprises a far infrared ray wavelength range. Preferably, the ceramic sheet structure having a convex energy illuminator produces a wavelength of from about 2 microns to about 80 microns. Preferably, the ceramic sheet structure having a convex portion energy illuminator produces periodic temperature changes' temperatures ranging from 21 〇 to 32 摄 degrees Celsius. M416477 [Embodiment] The device having the structure of the convex portion energy illuminator ceramic sheet is preferably used in the embodiment, as shown in Fig. 1, having the convex portion energy illuminator ceramic sheet structure as the power supply connecting device 40. The ceramic sheet structure having a convex portion energy illuminator has a substrate 10, two through holes 2 〇, and an energy illuminating layer 3 〇, wherein the energy substrate 1 〇 has a rectangular shape, and the two ends of the substrate 1 具有 have the two through holes respectively 20, a power connection device 4 can be provided, the middle portion of the substrate between the two through holes 20 is provided with a plurality of protrusions 11 protruding from the surface on one of the surfaces; the energy irradiation layer 30 covers the substrate The energy illuminating layer 30 contains a plurality of elements that generate energy on the surface of the '〇". In the preferred embodiment of the present invention, please refer to FIG. 2 and FIG. 3, wherein the top end of the convex portion protrudes from the surface of the substrate 1 to 25 mm, and the convex portion is composed of a plurality of coaxial cylinders. The outer diameters of the respective cylinders from the surface of the substrate 1A toward the tip end of the projection 11 are sequentially reduced by an equal distance of 4 mm. The projections 1 1 are separated from each other by a distance of 4 mm. The energy illuminating layer 30 is disposed on the surface of the substrate 1 having the convex portion 11 and includes a plurality of elements for generating energy. The energy generating element may be, but not limited to, B, Cr, Si, Ti, Zr, Ab Fe. , Mn, Ni, Co; oxides including: B2O3, Cr2〇3, Si〇2, Ti〇2, Zr〇2, gossip 2〇3, Fe2〇3, Mn〇2, Ni2〇3 or C〇 2〇3; and boride, which includes: crB,

Cr3B4, *πβ2 or ζ "Β2. The elements of the energy-emitting layer 30 described above that generate energy (such as infrared rays) are ground into powder, and with piezoelectric (Piezo_electric) and thermoelectric (The "m〇-e|ectric") Materials, such as kiwi and composite barium titanate powder, mixed and sintered at an appropriate ratio, and covered on the substrate 1 〇5 M416477 both ends of the 20-part part of the surface with the convex portion μ...峨 峨 成型 : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : However, this phenomenon enables the energy illuminating layer 30 of the present invention to generate a wide range of energy. The two side perforations 20 of the substrate 10 can be used to mount the power generating device 40 to form a ceramic sheet structure having a convex portion energy illuminator. The device is connected to an external circuit, and the substrate 10 is subjected to periodic cycling due to heat expansion and contraction, high temperature and low current, and a periodic temperature change causes the temperature to fluctuate at 21 Q1 32 ,, resulting in 2 to 8 〇. Micron BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a preferred embodiment of the present invention. Fig. 2 is a plan view showing a preferred embodiment of the present invention. Fig. 3 is a view showing the creation of an energy illuminator. Fig. 4 is a perspective view showing the structure of a prior art ceramic sheet. [Main element symbol description] 10 0 substrate 1 1 convex portion 20 perforation 30 energy irradiation layer 4 power supply connection device 50 substrate 6 〇 energy irradiation Surface 70 through hole 71 power cable

Claims (1)

M416477 VI. Patent Application Range: 1 _ A ceramic sheet structure having a convex portion energy illuminator, comprising a substrate and an energy illuminating layer, wherein two holes are formed at two ends of the substrate, one of the surfaces of the substrate is located between the two perforations A plurality of convex portions are formed, and the energy illuminating layer covers the surface of the substrate having the convex portion. 2. The ceramic sheet structure having a convex portion energy illuminator according to claim 1, wherein the convex portion of the substrate is composed of a plurality of coaxially disposed cylinders, each from the surface of the substrate toward the top end of the convex portion. The outer diameter of the cylinder is in sequence, etc. • The distance is reduced. 3. The ceramic sheet structure having the convex portion energy illuminator according to the second aspect of the patent application, wherein the outer diameters of the respective cylinders from the surface of the substrate toward the top end of the convex portion are sequentially reduced by 4 mm. 4. The ceramic sheet structure having a convex portion energy illuminator according to claim 1, wherein a tip end of the convex portion of the substrate protrudes from the surface of the substrate by 2.5 mm. 5 _ The ceramic sheet structure having a convex portion energy illuminator according to claim 1, wherein the convex portions are arranged between the two perforations at a distance of 4 mm from each other. 6. As described in the first paragraph of the patent scope in June, the convex energy illuminator Fe203, _〇2, Ni2〇3, c〇2〇3, BN, Cr, Si, Ti, Zr, A, Fe, SiO 2 , Ti 〇 2, Zr 〇 2, Ai 2 〇 3, BN, CrN, SiN, TiN, ZrN, 7 M416477 CrB, C "3B4, TiB2, and ζ "Β2. - species 1: species: convex energy illuminator" structure device, including species such as the May patent scope, to 3 illuminator... structure and a power supply connection: perforation of the substrate with the structure of the == part of the ceramic structure, 照射 盥 盥 盥 ... ... ... ... ... ... ... ... ... ... 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主 主"Eight convex. 波长 Energy illuminator ceramic sheet structure produced by the wavelength ... micron to 8 〇 micron radiation band of infrared. The application of the patent scope of the eighth item has a convex energy illuminator hook porcelain, · ·. The device of the structure has a convexity energy illuminator ceramic sheet structure, and the temperature of the period of the sputum changes. The temperature fluctuates between 21 and 320 degrees Celsius. VII. Schema. (such as the next page)