JP2011000411A - Health restoration device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve such problems that various far infrared ray devices are configured to irradiate from one side of a body to improve immunity and not configured to irradiate the body for a long time, and not sufficient since they do not emit far infrared rays to the entire body and intensively to the required parts of the body.SOLUTION: A health restoration device includes a first far infrared ray generating mat which generates the far infrared rays to irradiate the body with the far infrared rays, a second far infrared ray generating mat which is smaller than the first far infrared ray generating mat and is paired with the first far infrared ray generating mat to partially sandwich the body so that the sandwiched parts are intensively irradiated with the far infrared rays from both mats, and a surrounding member which has a cross section of an inverted U shape and is placed on the first far infrared ray generating mat to form a space for partially surrounding the body between the first far infrared ray generating mat and the surrounding member.

Description

  The present invention relates to a health recovery device using far infrared rays.

Conventionally, it has been described in the patent literature that a medical effect is obtained by taking far-infrared rays, radium radiation, negative ions, or the like as this type.
JP-A-2005-245632

  However, there is a problem that it is difficult to obtain a sufficient effect for restoring health even if various far-infrared devices as described in the above-mentioned patent documents are used.

  In view of the above problems, the present invention has been made with the goal of improving the immunity by raising body temperature, and has been made with the aim of providing a plurality of far infrared rays so as to sandwich the body. It aims at providing the system which can raise a body temperature reliably, without radiating a body temperature by irradiating from the direction of.

  In order to achieve the above object, the present invention provides a first far infrared ray generating mat for generating far infrared rays and irradiating the body with the far infrared rays, and a far infrared ray having the same wavelength band as the first far infrared ray generating mat. A second far-infrared ray for intensively irradiating far-infrared rays from both sides with the body partially sandwiched between the first far-infrared ray generation mat and the body. A generating mat and an inverted U-shaped cross section, disposed between the first far-infrared generating mat and the second far-infrared generating mat, and between the first far-infrared generating mat, And an enclosing member for forming a space partially enclosing the body.

  The health recovery device according to claim 1, wherein the surrounding member has a function of generating far-infrared rays toward the internal space.

  The temperature of far infrared rays generated from the enclosure member is set lower than the temperature of far infrared rays generated from the first far infrared ray generation mat and the second far infrared ray generation mat. A health recovery device was used.

  According to the health recovery device of the present invention, it is possible to provide a device that makes it possible to receive irradiation of far infrared rays on the whole body while lying down on the far infrared ray generation mat. Moreover, the apparatus which can irradiate intensively from the circumference | surroundings of a body, without dissipating body temperature to the required part of a body can be provided.

  Further, in the invention described in claim 2, since far infrared rays are spread all around the body, it is possible to provide a device that can be sufficiently warmed with far infrared rays to the leg of the tip.

  In the invention according to claim 3, it is possible to wrap the entire body with weak far-infrared rays and supply far-infrared rays intensively to necessary places.

Embodiments of the present invention will be described below with reference to the drawings.
The health recovery device of this embodiment generates a far infrared ray, generates a first far infrared ray generation mat for irradiating the body with the far infrared ray, and a far infrared ray having the same wavelength band as the first far infrared ray generation mat. And a second far-infrared light generating mat for forming a smaller shape than the first far-infrared light generating mat so as to partially sandwich the body and irradiate far-infrared rays to the sandwiched part from both sides. And the cross-section has an inverted U-shape and is disposed between the first far-infrared ray generating mat and the second far-infrared ray generating mat, and the body is interposed between the first far-infrared ray generating mat and A health recovery device comprising an enclosing member for forming a partially enclosing space.

  Hereinafter, a health recovery device according to a first embodiment of the best mode of the present invention will be described with reference to FIGS. 1 to 5 based on a system using this device.

In FIG. 1, reference numeral 1 indicates that the patient's body is irradiated with far-infrared rays having a first far-infrared temperature (branching light having a wavelength of 6 to 12 microns) and is continuously irradiated for several days while sleeping. In the basal body temperature increasing step (first step) for increasing the basal body temperature of the patient, the first temperature is adjusted to the upper limit temperature (first far infrared temperature) within the range in which the patient does not sweat. The far infrared temperature is adjusted.
For this purpose, manual volume adjustment may be used, or skin sweat may be detected and automatically adjusted.

  In this basal body temperature raising step 1, the patient uses the apparatus shown in FIGS. 4 and 5 (details will be described later), but at the time of use, the patient is always set to the upper limit temperature at which the patient does not sweat as described above. As described above, during the basal body temperature raising step 1, the temperature is adjusted by the temperature adjusting means 1 a.

  Then, the patient's basal body temperature gradually rises from, for example, 34.5 ° C. by being irradiated with far-infrared rays for several days continuously in the basal body temperature increasing step 1, and is approximately 36.8 ° C. (first The body temperature can be increased to a temperature exceeding the reference temperature (for example, a curve between time T0 and time T1 in FIG. 3 is shown), and this increase in body temperature is confirmed by measuring the body temperature with a thermometer, thereby weakening cancer cell activity. Proceed to temperature rising step 2 (step 2).

  In the cancer cell activity weakening temperature raising step 2, far-infrared rays having a second far-infrared temperature higher than the first far-infrared temperature are transmitted to neighboring cells including the affected area of the patient (when cancer cells have spread to the whole body). Irradiates intensively to the affected area.

  In the cancer cell activity weakening temperature raising step 2, the far-infrared temperature of the second far-infrared temperature higher than the far-infrared temperature of the first far-infrared temperature emitted from carbon or the like used in the basal body temperature raising step 1 is used. In order to use infrared rays, a growing ray (far infrared ray) having a wavelength of 6 to 12 microns emitted from ore such as amethyst is used.

  Thus, in the cancer cell activity weakening temperature raising step 2, the patient uses the apparatus shown in FIGS. 6 and 7 (details will be described later), so that the temperature is higher than the first far-infrared temperature, for example, 40 Far-infrared rays having a second far-infrared temperature of not lower than ° C. are intensively irradiated to neighboring cells including the affected part of the patient.

  As a result, in this cancer cell activity weakening temperature raising step 2, for example, as shown by the curve from time T2 to time T4 in FIG. 3, irradiation with far infrared rays having a second far infrared temperature higher than the first far infrared temperature is received. Every time basal body temperature rises gradually.

Next, an apparatus used in the basal body temperature increasing step 1 will be described with reference to FIGS. 4 and 5.
This apparatus has a normal mattress 7, a pillow 8 that is disposed on one end A side and on which a head 12 a of a patient 12 is placed, and a half-section that is disposed so as to extend from the other end B side to the one end A. It comprises a circular dome-shaped enclosure member (first far-infrared ray generator) 9.

  The enclosure member 9 has an inverted U-shaped cross section, and a far infrared ray generator made of carbon or the like, which is set to an upper limit temperature within a range where the temperature adjusting means 1a does not sweat is disposed on the entire inner wall surface. Moreover, it is divided into two in the length direction and can be adjusted according to the height of the patient 12. Furthermore, the opening C and D at both ends is made in a state that can be closed by the fabrics 10 and 11, so that warm air in the enclosure member 9 is not leaked to the outside.

  Therefore, the patient 12 lies on the mattress 7 and receives irradiation of far-infrared rays continuously for a long time with the toe 12d to the neck placed in the surrounding member 9. Since a space is formed in the enclosure member 9, the body 12 can be rotated, legs can be bent and assembled to some extent, and the basal body temperature can be raised without receiving a sense of restraint.

Next, an apparatus used in the cancer cell activity weakening temperature raising step 2 will be described based on FIG. 6 and FIG.
This device replaces the mattress 7 of the device used in the basal body temperature raising step 1, and a mattress (first far infrared ray) that emits far infrared rays having a second far infrared temperature higher than the first far infrared temperature from the entire upper surface. Other points are the same except that a generation mat) 13 is replaced with a small futon (second far-infrared generation mat) 14 in which the mattress 13 has a cushion-like shape.

  Note that the far-infrared temperature emitted from the small futon 14 has the same far-infrared temperature as that of the mattress 13, so that, for example, when placed in the enclosure member 9, the inside of the enclosure member 9 is Since it is a closed space, high-temperature air is trapped, and the body temperature of the patient 12 becomes too high to withstand long-term use.

  Moreover, since it is necessary to irradiate the affected part and cells in the vicinity thereof with a high-temperature far-infrared ray, that is, the far-infrared ray must be radiated in a concentrated manner, it is used outside.

  Therefore, by placing the affected part to be irradiated with far-infrared rays on the body so as to cover the affected part from above, the affected part and the cells in the vicinity thereof can be sandwiched between the mattress 13 and the small comforter 14 from the surroundings.

  The mattress 13 and the small futon 14 include a plurality of types of ores (for example, amethyst, black tourmaline, jade, etc.) and far-infrared generating materials such as carbon carbon in a state of being uniformly dispersed inside. The thermal energy given from the outside is converted into far infrared rays having a wavelength of 6 to 12 microns and outputted.

By irradiating far-infrared rays from around the body in this way, it becomes possible to irradiate far-infrared rays concentrating on the affected part and cells in the vicinity thereof, and the heat generated by the concentrated far-infrared rays is It becomes difficult to dissipate.
On the other hand, the whole body is warmed by the warmed blood flow. As a result, it is possible to intensively increase the body temperature of the sandwiched affected area and the cells in the vicinity thereof, and weaken cancer cells, etc., while weakening metastasized cancer cells and improve immunity. By this, cancer cells and the like can be eradicated.

Next, the operation of the above configuration will be described based on the flowchart shown in FIG.
First, the basal body temperature increasing step 1 in FIG. 1 will be described in steps from step ST110 to step ST150.

First, the process proceeds from start step ST100 to step ST110, and the patient performs basal body temperature measurement. As a result, it is assumed that the measured basal body temperature is, for example, 34 ° C. (basal body temperature at time T0) shown in FIG.
Then, as shown in FIG. 5 in the apparatus shown in FIG. 4, the patient 12 lies down from the neck to the toe into the enclosure member 9 as the second far-infrared ray generator, and proceeds to step ST120. In step ST120, the patient 12 adjusts the temperature adjusting means 1a to an upper limit temperature within a range where no sweat is applied, and raises the temperature in the enclosure member 9.

  Then, the basal body temperature is measured in step ST130, and it is determined in step ST140 whether or not the basal body temperature is 37 ° C. or higher. If the basal body temperature exceeds 37 ° C., further in step ST150, 36.8 to 37 ° C. It is determined whether or not the basal body temperature in the range of ° C. continues for 16 hours or more, and far infrared rays are continuously irradiated in the enclosure member 9 until it is determined that the basal body temperature is continued.

  By repeating this step, for example, as shown in FIG. 3, it is determined that the basal body temperature exceeded 37 ° C. at the T1 time point, and the basal body temperature at 37 ° C. or more was continued for 16 hours or more at the T2 time point. Proceed to step 2.

  In addition, since the patient 12 is bored while receiving the irradiation of the far infrared ray for a long time in this way, the patient 12 may move his / her foot freely in the space of the enclosure member 9, You may roll over and do not adversely affect far-infrared radiation.

  Next, cancer cell activity weakening temperature raising step 2 will be described in steps ST160 to ST200.

First, proceeding to step ST160, body temperature is measured, and as a result, the basal body temperature is assumed to be, for example, 37.2 ° C. shown at time T2 in FIG.
Then, with the apparatus shown in FIG. 6, the affected part of the patient 12 is positioned outside the enclosure member 9 as shown in FIG. 7, and the part up to the toe is placed in the enclosure member 9 as the third far infrared ray generator. Then, a small futon 14 is placed so as to cover the affected area from above. The futon 13 and the small futon 14 irradiate the patient 12 with far-infrared rays having a second far-infrared temperature higher than the first far-infrared temperature of far-infrared emitted from the enclosure member 9 (step ST170).

Then, body temperature is measured in step ST180, and it is determined in step ST190 whether or not the body temperature is in the range of 38 ° C to 39.8 ° C. repeat. For example, 1 hour of far infrared irradiation is repeated once or twice per day.
If the body temperature exceeds the range of 38 ° C. to 39.8 ° C., it is further determined in step ST200 whether or not the cancer tumor marker is below the normal value. If not, the process returns to step ST170. If it is determined that the value is below the normal value, this step ends at time T4.

  In this step 2, irradiation with far infrared rays having a temperature higher than that in step 1 is received for a long time, so the patient 12 feels pain and wants to move his body further than in step 1. Using the space, the patient 12 may move his / her foot freely and may turn over without causing any adverse influence on the irradiation of far infrared rays.

Next, after step ST200 is completed, the process may proceed to step ST220 to end the process.
However, if there is anxiety such as recurrence, it is shown as a step between the recurrence prevention process of step ST210 (in FIG. 2, the step between the cancer cell activity weakening temperature raising process 2 and step ST220 in FIG. 2). ), For example, 1 hour far infrared irradiation may be repeated once or twice per day.

In this case, the device for irradiating the patient 12 with far infrared rays differs from the device used in the above-described cancer cell activity weakening temperature raising step 2 in the following points.
That is, the surrounding member 9 generates far-infrared rays. Instead of the surrounding member 9, the surrounding member 9 is formed of a wooden frame or the like that does not generate far-infrared rays, and has a plurality of holes on the wall surface. A separate small futon having the same function as the small futon 14 (second far-infrared ray generator) is arranged on the outer wall surface, for example, the upper wall surface, of the square-shaped enclosure member.
As a result, the patient 12 irradiates far-infrared rays of a growth light having a wavelength of 6 to 12 microns emitted from ore such as amethyst throughout the body.

It is a system configuration explanatory view of the present invention. It is a flowchart for demonstrating the effect | action of the system of FIG. It is a graph for demonstrating the change state of basal body temperature and body temperature. It is decomposition | disassembly explanatory drawing of the apparatus used at a basal body temperature rise process. It is explanatory drawing explaining the use condition of the apparatus shown in FIG. It is decomposition | disassembly explanatory drawing of the apparatus used at a cancer cell activity weakening temperature raising process. It is explanatory drawing explaining the use condition of the apparatus shown in FIG.

DESCRIPTION OF SYMBOLS 1 Basal body temperature rise process 1a Temperature control means 2 Cancer cell activity weakening temperature rise process 3 Input means 4 Microcomputer 5 Memory 6 Display 7 Mattress 8 Pillow 9 Enclosure member 10 11 Fabric 12 Patient 12a Head 12d Toe 14 Small futon

Claims (3)

  A first far infrared ray generating mat for generating far infrared rays and irradiating the body with the far infrared rays; a far infrared ray having the same wavelength band as the first far infrared ray generating mat; and the first far infrared ray generating mat. A second far-infrared light generating mat for irradiating far-infrared rays intensively to the sandwiched part from both sides, and a cross-sectionally inverted U-shaped shape. And a space between the first far-infrared light generating mat and the second far-infrared light generating mat to partially surround the body between the first far-infrared light generating mat and the first far-infrared light generating mat. A health recovery device comprising an enclosure member.   The health recovery device according to claim 1, wherein the surrounding member has a function of generating far infrared rays toward an internal space.   The temperature of far infrared rays generated from the enclosure member is set lower than the temperature of far infrared rays generated from the first far infrared ray generation mat and the second far infrared ray generation mat. Health recovery device.

Images