JPH0351912Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Field of Industrial Application) The present invention relates to a far-infrared irradiation device suitable for a far-infrared radiation therapy device mainly for medical and health purposes.

(Conventional technology) Far infrared rays have long been known to have a strong thermal effect and penetrate deeply into the human body to promote metabolism.
It is known to have therapeutic effects on arthritis, muscle rheumatism, neuralgia, chronic skin diseases, and other diseases, and it is also known that ceramic bodies can be used as far-infrared radiators. However, if the radiator is formed into a plate shape, its size is limited, so it is not possible to increase the amount of far-infrared rays emitted.

(Problem to be solved by the invention) Therefore, as seen in Japanese Patent Application Laid-Open No. 53-53061, a cup-shaped heat radiating part is connected to the tip of a hollow rod-shaped holding part for storing terminal wires, etc. A far-infrared irradiation device with a resistance heating wire embedded inside the tube wall has also been developed, but since such a device has a holding section, the heat dissipation section is short and the radiation efficiency is not good, and the far-infrared rays are emitted intensively. There is a problem in that it is difficult to radiate radiation.

(Means for Solving the Problems) The present invention was completed with the aim of solving the above-mentioned problems and creating a far-infrared irradiation device that can efficiently and intensively radiate far-infrared rays in large quantities. , a terminal wire for connecting the resistance heating wire and the mounting metal part inside a ceramic hollow cylinder with a light bulb base-shaped mounting metal part attached to the head and a resistance heating wire embedded in the body part; It is characterized by a far-infrared radiator, which is housed in a reflective shade and whose bottom opening is closed with a ceramic bottom plate provided with a plurality of small holes, and is mounted inside the reflective shade.

(Embodiments) Next, the present invention will be described in detail with reference to illustrated embodiments.

1 is a far-infrared radiator, and the far-infrared radiator 1 has a metal part for attaching a resistance heating wire 3 (to be described later) inside a hollow cylinder 2 made of heat-resistant ceramic such as cordierite, titania, alumina, or other heat-resistant ceramics. 6, a resistance heating wire 3 is continuously embedded in the body 2a in a coil shape, and the bottom opening of the hollow cylindrical body 2 is a heat-resistant wire with a plurality of small holes 4 arranged therein. It is closed with a bottom plate 2b made of solid ceramic. The far-infrared radiator 1 is mounted inside a reflective shade 5 made of a metal plate. Note that the hollow cylinder body 2 and the bottom plate 2 made of ceramic are
b is effective in improving far-infrared radiation efficiency when a ceramic material to which metal oxides such as manganese dioxide, iron oxide, cobalt oxide, oxide shell, and chromium oxide are added is used.

With this configuration, if the far-infrared radiator 1 is connected to a power socket using the bulb cap-shaped mounting part 6 attached to the head of the hollow cylindrical body 2, the far-infrared radiator can be connected to the socket. Far infrared rays are emitted from the outer surface of the body 2a of the ceramic hollow cylinder 2 by the heat generated by the resistance heating wire 3 embedded in the body 2a of the ceramic body 2, are reflected by the reflective shade 5, and are reflected by the reflective shade 5. The radiation is emitted over a wide range from the opening toward the front and reaches the radiated object, and at the same time, the body 2 of the hollow cylinder 2
The far infrared rays emitted from the inner surface of the ceramic bottom plate 2b that closes the bottom opening of the hollow cylinder 2
The far infrared rays are concentratedly radiated through the plurality of small holes 4 provided in the bottom plate 2b, and as a result, the far infrared rays are efficiently concentrated particularly in the center of the radiated body on the front side. As a result, it can be used to treat various diseases such as those mentioned above at will. It has been confirmed that the plurality of small holes 4 are also effective in preventing heat damage caused by a rise in temperature of the hollow cylindrical body 2. Moreover, since the terminal wire that connects the resistance heating wire 3 and the mounting metal part 6 attached to the head of the hollow cylinder 2 is housed inside the hollow cylinder 2, the length of the body 2a that generates heat can be increased. As a result, radiation efficiency can be further improved.

(Effect of the invention) As is clear from the above description, the present invention is such that far infrared rays are emitted from the body of a sufficiently long hollow cylinder with good radiation efficiency and reflected at the reflecting shade, and Not only is the far-infrared rays emitted from the inside of the hollow cylinder, but also the far-infrared rays emitted from the bottom plate of the hollow cylinder, and the far-infrared rays emitted from the bottom plate of the hollow cylinder through the multiple small holes provided in this bottom plate to the radiated body. The far-infrared rays are emitted in a concentrated manner, and the far-infrared irradiation effect can be obtained efficiently.It has the advantage of being easily connected to a power source, and is practical as it solves the problems of conventional far-infrared irradiation devices. The value is extremely great.

[Brief explanation of drawings]

The drawing is a partially cutaway front view showing an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... Far-infrared radiator, 2... Ceramic hollow cylinder, 2a... Body, 2b... Ceramic bottom plate, 3... Resistance heating wire, 4... Small hole, 5...
Reflective shade, 6... Mounting metal part shaped like a light bulb cap.

Claims (1)

[Scope of utility model registration request] A mounting metal part 6 shaped like a light bulb cap is attached to the head part, and the resistance heating wire 3 and the mounting metal part 6 are placed in a ceramic hollow cylindrical body 2 in which a resistance heating wire 3 is embedded in the body part 2a. A far-infrared radiator 1 is installed in a reflective shade 5, which accommodates a terminal wire connecting the two and whose bottom opening is closed with a ceramic bottom plate 2b provided with a plurality of small holes 4. A far-infrared irradiation device characterized by: